FOREIGN FUZE MANUAL-FREE WORLD

-44,3ar Declassified and and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 LSS CONFIDENTI4U, AST-116011-001-15 REFERENCE '096 443011111101"1.11.111.1" -n ARMY MATERIEL COMMAND US ARMY FOREIGN SCIENCE AND TECHNOLOGY DST 1-5L i tt 1-14 CEA 4541 91-2S CENTER et IV iva.y 's 7% 4:4 I* #41.1 -411 cole-cfr rFOREIGN FUZE MANUAL-)< FREE WORLD (UI 3 I / UNITS F- 37-c AUS ARMY MATERIEL COMMAND INTELLIGENCE DOCUMENT NO FOREIGN DISSEM DISTRIBUTION LIMITED TO US GOVERNMENT AGENCIES ONLY (FOREIGN MATERIEL CLASSIFICATION INFORMATION). OTHER REQUESTS FOR THIS DOCUMENT MUST BE REFERRED TO THE ARMY MATERIEL COMMAND. .t.'CLASSIFIED BY CDRSAFSTC IciretABBaliRob611011SICA4,714 7-110 ?M2ELBFFr CON Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 ?) - ?f,Y uir11.1,/.1.1 ;.(1-Pt.,4 E:)1430112:11V: tcr,. F: 7,;; F: 17;?...SE, nriCi c7?.3 ,;:- .:[U ??..E$;.." cLii-- ? -1" Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL FOREIGN FUZE MANUAL?FREE WORLD (U) George M. Agamy AST-116011-001-75 DATE OF PUBLICATION September 1975 Information Cutoff Date May 1975 NATIONAL SECURITY INFORMATION Unauthorized disclosure subject to criminal sanctions ? This product was prepared by the US Army Foreign Science 'and Technology Center and is intended for use within the Army Materiel Command. ?si. )? . ..cPAS !EP Arlienr SrScirr' cpity;17 *,pps 9, ,0 11152 ' 'rt?EiC,.._!Yisff4 4T'f'04Y.! - ,0S,C,I4S,SIR4 ? ., 'wok N St1121E oppt -TiziFil..,, ? ? Np4F9REipp p!SSEM ' eyerse B(ank) FIDENTIAL "crio4 imie is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 J "An Declassified and and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 PREFACE (U) The purpose of this technical handbook on free world fuzes is to provide US Army fuze designers with the foreign state-of-the-art and developmental trends. This handbook should also be of value to other research and development organizations, planners, explosive ordnance disposal personnel, and intelligence staffs throughout the Department of Defense. (U) Included in this handbook are standard, developmental, and obsolescent foreign Army land service fuzes. Excluded?except for bomb fuzes with artillery, mortar, or rocket ammunition applications?are Navy and Air Force fuzing. (U) General descriptions; design details; functioning descriptions; material and explosives used; performance, test, and packaging data; status; dimensions; and weights have been provided, if available. In addition, there are many illustrations?contour drawings, full views with markings, section views, and exploded views?of the components of each fuze. (U) Fuze categories presently treated in this manual are point detonating, point initiating base detonating, base detonating, time, proximity, electric, mine, and grenade; others will be added as new information warrants. Design details and functioning of fuze components such as delayed-arming mechanisms, timers, and safety and arming devices are described. These fuzes have application for bombs, grenades, mines, antitank guided missiles, antiaircraft guided missiles, artillery, small arms (20 through 30 mm), mortars, rockets, and recoilless ammunition. (U) Requests for information on Army land service free world fuzes not contained in this handbook should be forwarded to the Commander, US Army Foreign Science and Technology Center, Charlottesville, VA 22901 (ATTN: AMXST-PO). (U) Constructive criticisms, comments, or suggested changes are encouraged and should be forwarded to the Commander, US Army Foreign Science and Technology Center, Charlottesville, VA 22901 (ATTN: AMXST-PO). hi (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 i Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original LIST OF EFFECTIVE PAGES AST-1160H-001-75 SUBJECT MATTER PAGE NUMBERS DATE Tide Preface List of Effective Pages Record of Changes Table of Contents Summary List of Abbreviations Section I Section II Section 111 Section IV Section V Section VI Section VII Section VIII Section IX Section X Appendix Appendix II Appendix III Appendix IV Distribution List None iii (Reverse Blank) v (Reverse Blank) vu (Reverse Blank) ix and x xi and xii xni (Reverse Blank) 1-1 thru 1-4 2-1 thru 2-301 (Reverse Blank) 3-1 thru 3-46 4-1 thru 4-106 5-1 thru 5-84 6-1 dub 6-48q , 7-1 thru 7-51 (Reverse Blank) 8-1 thru 8-60 9-1 thru 9-33 (Reverse Blank) 10-1 thru 10-12 1-1 thru 1-4 11-1 thru 11-4 111-1 thru 111-3 (Reverse Blank) IV-1 thru 1V-3 (Reverse Blank) A-1 and A-2 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 September 1975 Original Original Original Original Original Original Original Original Original Original Original Original Original' Original Original Original Original Original Original Original Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original RECORD OF CHANGES ASTA160H-001-75 CHANGE NUMBER DATE OF CHANGE DATE ENTERED SIGNATURE, RANK/RATE AND ORGANIZATION OF INDIVIDUAL ENTERING CHANGE (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H4J01-75 TABLE OF CONTENTS Page Preface iii Summary xi SECTION I. INTRODUCTION 1. Purpose and Organization 2. Coverage 1-3 1-3 3. FOM Nos. 1-4 4. Data Accuracy and Reliability 1-4 5. Fuze Interchangeability 1-4 6. Production and Testing 1-4 SECTION II. POINT DETONATING FUZES 2-1 SECTION III. POINT INITIATING, BASE DETONATING FUZES 3-1 SECTION IV. BASE DETONATING FUZES 4-1 SECTION V. TIME FUZES 5-1 SECTION VI. PROXIMITY (VT) FUZES 6-1 SECTION VII. MINE AND GRENADE FUZES 7-1 SECTION VIII. DELAY ARMING MECHANISMS, TIMERS, AND S&A DEVICES 8-1 SECTION IX. ELECTRIC FUZES, INITIATORS, AND IGNITERS 9-1 SECTION X. DEVELOPMENTAL TRENDS 1. General 10-3 2. Point Detonating Fuzes 10-3 3. Point Initiating, Base Detonating Fuzes 10-7 4. Base Detonating Fuzes 10-8 IX UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1161111-001-75 Original TABLE OF CONTENTS (Continued) Page 5. Time Fuzes 10-8 6. Proximity (VT) Fuzes 10-9 7. Mine and Grenade Fuzes 10-10 8. Electric Fuzes 10-10 APPENDIX I. Current Characteristics of French PDSD Fuzes, 20 to 30 mm 1-1 APPENDIX II. Evolution of Bofors PDSD Fuzes 11-1 APPENDIX III. Evolution from NVT-2 Prototype III-1 APPENDIX IV. Conversion Tables: Metric and US Units IV-1 Distribution List A-1 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160 11-001 -75 SUMMARY (U) France, Switzerland, Sweden, Israel, Norway, United Kingdom, Belgium, Italy, Spainand the Netherlands are among the free world countries actively engaged in fuze development. Undertaken primarily to meet specific military requirements of the nations involved, these efforts are directed toward the improvement of fuze safety, reliability, and maintainability as well as the reduction of fuze cost and inventory, by using common parts and by incorporating multipurpose options into a single fuze. (U) Most point detonating (PD) fuze developments for bombs, artillery, rockets, mortars, small arms (20 through 30 mm), and recoilless ammunition have been in the area of mortars and antiaircraft ammunition. Antiaircraft PD fuze efforts have been concentrated on design refinement to increase arming distance, improve safety and reliability, and reduce cost through parts commonalty and automated production. Mortar PD fuzes are being designed to assure safety against double loading, improve graze-sensitivity features, provide positive safety for parachute delivery, improve bore safety, increase arming distance, and increase ammunition effectiveness. (C) Most point initiating, base detonating, (PIED) fuze developmental effort has been devoted to shapeckcharge munitions for shoulder-fired weapons and/Or antitank guided missiles. French achievements in the PIBD area have been most prolific; their technology surpasses the US current state=of-the-art. For example, their use of a piezogenerator function makes unnecessary a graze mechanism and arming delay timer, thereby reducing cost and simplifying fuze design. Their use of rocket motor pressure as an arming sensor coupled with a bore rider technique enhances safety. Their use of an impedance matching transformer that effectively couples a high-impedance piezoid with a low-impedance detonator increases reliability. Their hot-wire bridge detonator technology results in reliable initiation of a booster without the need for a lead charge. The technology of the United Kingdom and Japan, on the other hand, is similar to US technology and reflects current state-of-the-art. Swedish developers use a series of piezocrystals and a diode in the flat of the projectile: the use of a diode is an inexpensive technique to provide brush discrimination; the series of crystals in the flat of the projectile enhances reliability since such a fuze cannot be defeated by unconventional or bar armor. . (LT) Most designs for base detonating (BD) fuzes reflect current state-of-the-art, use mechanics or electromechanics principles, and incorporate pyrotechnic delay, self-destruct, graze sensitivity, and/or instantaneous functioning. CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116OH?001-75 Original (U) Pyrotechnic time train fuzes have been replaced by mechanical time fuzes. Efforts are being directed toward developing an accurate timer and fuze that can be readily set, toward increasing safety and reliability, and toward developing an efficient backup impact function. Although electronic timers offer better accuracy than mechanical timers, there has been no concerted effort to develop them. (U) Considerable effort is being expended in the development of doppler, infrared, and capacitance-type proximity or VT fuzing. Current proximity fuzing efforts are aimed at improving antennas, infrared techniques, and electronics. Through the use of integrated circuit chips and encapsulation technology, tube types are being converted to transistorized versions, thereby reducing fuze cost and size. (U) Efforts are also being made to improve battery technology and to develop a mechanical means, via a turbine-generator concept, of powering the fuze. (C) Although no ECCM techniques are being employed in VT or proximity fuzing, the Netherlands and Sweden are conducting research on these techniques. To date, most countries rely on turning the electronics on as late as possible when the projectile or warhead is in the downward trajectory. Except for Sweden and Israel, very little work is being done on electric fuze development. (U) There has been little advance in the state-of=the-art of mine and grenade fuzes. Grenade fuzes are still of the pyrotechnic delay type, whereas mine fuzes are pressure activated. (U) Several years ago West Germany, in conjunction with France, was working on improved conventional munitions(ICM) minelet fuzing and had incurred problems with the self-sterilization feature of the fuzing. There is no evidence to indicate continuing development of this fuze. xii CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original LIST OF ABBREVIATIONS APHEI armor-piercing, high-explosive incendiary ATGM antitank guided missile AWG American Wire Gage BD base detonating HE high explosive HEAT high-explosive antitank HEI high-explosive incendiary HEI-T high-explosive incendiary, with tracer HEP high-explosive plastic HESH high-explosive squash head ICM improved conventional munitions MT mechanical time MTSQ mechanical time superquick MV with delay (German) OV without delay (German) PD point detonating PDSD point detonating, self-destroying PDU pressure delay unit PIBD point initiating, base detonating PPO polyphenylene oxide RTV temperature vulcanizing rubber S&A safety and arming SAU safety arming unit SQ superquick SSQ super-superquick SWG Standard Wire Gage TPI threads per inch UNC unified coarse (thread) UNE unified fine (thread) UNS unified special (thread) VT variable time (proximity) (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 AST-1160H-001-75 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001 -75 Section 1. INTRODUCTION NO FOREIGN DISSEM 1-1 (Reverse Blank) CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Section I. INTRODUCTION 1. (U) Purpose and Organization a. Purpose. This technical handbook on free world foreign fuzes provides US Army fuze designers with the foreign state-of-the-art and developmental trends. It will also be useful to other research and development organizations, planners, explosive ordnance disposal personnel, and intelligence staffs throughout the Department of Defense. b. Organization. (1) To facilitate retrieval of information, this handbook is organized as follows: Section 1 Introduction Section II Point Detonating Fuzes Section in Point Initiating, Base Detonating Fuzes Section IV Base Detonating Fuzes Section V Time Fuzes Section VI Proximity Fuzes Section VII Mine and Grenade Fuzes Section VIII Delayed Arming Mechanisms, Timers, and S&A Devices Section IX Electric Fuzes, Initiators, and Igniters Section X Developmental Trends New sections will be added as information becomes available. (2) In addition, indexes of all fuzes as well as lists of illustrations are provided at the beginning of sections II through IX. (3) Except for contour or section drawings of various fuzes, dimensions and weights are in the metric and English systems. Appendix IV contains conversion tables for metric and English units. (U) Coverage a. Included in this handbook are developmental and standard fuzes as well as some obsolescent fuzes for grenades, mines, bombs, antitank guided missiles, antiaircraft guided missiles, artillery, mortars, rockets, small arms (20 through 30 mm), and recoilless ammunition. 1-3 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original b. Technical data sheets are provided for each fuze including, if available, illustrations such as contour drawings, section views, full views, and exploded views. Technical characteristics include general descriptions, design details, functioning descriptions, materials and explosives used, performance data, test data, packaging data, status, dimensions, and weights. 3. (U) FOM Nos. All fuzes, including components such as timers, delayed-arming mechanisms, and safety and arming (S&A) devices, have been assigned Foreign Materiel Catalog Numbers (FOM Nos.) in accordance with existing US Army Foreign Science and Technology procedures. 4. (U) Data Accuracy and Reliability Data presented in this handbook are considered reasonably accurate and reliable. They have been derived from laboratory examination and testing of hardware, company brochures, foreign test reports, and highly reliable intelligence reports. 5. (U) Fuze Interchangeability No attempt should be made to use this handbook as an authoritative source on fuze interchangeability or to test fire fuzes with ammunition other than that for which the fuze was specifically designed. 6. (U) Production and Testing a. Production. Not much information is available on production facilities of the various designers or producers of foreign fuzes. Analyses of available hardware indicate good quality of workmanship with advanced manufacturing techniques used. b. Testing. Most fuzes produced have undergone jolt, 40-ft drop, transportation, vibration, temperature and humidity, salt spray, waterproofness, fungus resistance, extreme temperature storage, rough handling, static detonator safety, sand and dust, environmental, and climatic testing in accordance with US Military Standard 331. 1-4 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original '''AST-1160H-001-75 Section II. POINT DETONATING FUZES 2-1 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11 60H?001-75 Section II. POINT DETONATING FUZES GENERAL (U) Point detonating (PD) fuzes have been designed or are under development for artillery, rocket, mortar, bomb, small arms (20 through 30 mm), and recoilless ammunition applications. These fuzes usually function on mechanical or electrical principles, by contact with the target, and with detonation at the nose end of the projectile or warhead. PD fuzes afford the most direct solution to fuzing problems and, therefore, normally do not require an excessively complex design. (U) Most fuze developments included in this handbook have been designed for superquick (SQ) or delay functioning upon impact; some of them incorporate a graze-sensitive or self-destruet feature. Most fuzes require either a setback or centrifugal force environmental stimulus for arming; almost all have delayed arming, usually accomplished by mechanical means. With the exception of some older obsolescent types, the fuze designs presented in this handbook are well within the current state-of-the-art and, in some instances, incorporate unique features. The fuzes described in this section are designed for either high- or low-"g" accelerations and for fin- or spin-stabilized projectiles or warheads. 2-3 (Reverse Blink) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original FOM No. INDEX Nomenclature* AST-1160H-001-75 Page 1390-16-1-1 Fuze, PD, Model AZ DM 111 2-11 1390-16-1-2 Fuze, PD, Model AZ DM 111A1 2-17 1390-16-1-4 Fuze, PDSD, Model AZZ DM 131 2-21 1390-16-1-6 Fuze, PDSD, Model AZZ M594 (XM594) 2-25 1390-16-1-9-1 Fuze, PD, Model AZ DM 11IA3 2-29 1390-16-1-13 Fuze, PD, Model AZ DM 221 2-33 1390-16-1-15 Fuze, PD, Model AZ DM 51 2-37 1390-16-1-16 Fuze, PD, Model Diehl 2-39 1390-16-1-20 Fuze, PDSD, Model AZZ DM 31 2-47 1390-16-1-21 Fuze, PDSD, Model AZZ DM 281A1 2-51 1390-16-1-23 Fuze, PDSD, Model AZZ DM 121 2-57 1390-16-1-24 Fuze, PD, Model AZ DM 21 2-59 1390-16-1-25 Fuze, PD, Model AZ DM 41 2-61 1390-16-1-26 Fuze, PD, Model AZ DM 211 2-63 1390-16-1-27 Fuze, PD, Model AZ DM 71 2-67 1390-16-1-28 Fuze, PD, Model AZ DM 151 2-69 1390-16-1-29 Fuze, PD, Model AZ DM 241 2-71 1390-16-1-40 Fuze, PDSD, Model AZZ DM 91 2-73 1390-17-1-1 Fuze, PD, Model 21/28 2-75 1390-17-1-2 Fuze, PD, Model V-18-I 2-79 13 90-1 7-1-3 Fuze, PD, Model V-19 2-83 1390-17-1-4 Fuze, PD, Model SC-12 2-89 1390-17-1-11 Fuze, PD, Model FUI-F2 2-99 13 90-1 7-1-12 Fuze, PD, Model V-5 2-107 1390-17-1-17 Fuze, PD, Model V-19-P 2-117 1390-17-1-18 Fuze, PDSD, Model FDPA 1502 2-125 1390-17-1-21 Fuze, PDSD, Model FUA 723 (France) 2-129 1390-18-1-6 Fuze, PD, Model FIRUSAT 2-133 13 90-1 8-1-18 Fuze, PD, Model A 2-141 1390-18-1-35 Fuze, PD, Model RKVDIR 0265 2-147 1390-18-1-36 Fuze, PD, Model 21 RKZ-2 2-155 13 90-1 8-1-39 Fuze, PD, Model RKVDIR 0262/7B 2-165 1390-18-1-40 Fuze, PD, Model RKVDIR 0264 2-169 1390-18-1-41 Fuze, PD, Model RKVDIR MZX-325 2-173 'All fuze nomenclatures arc UNCLASSIFIED, 2-5 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 :LCIAleDP09i3i3I3iliE060100030001-0 AST-116011-001-75 FOM No. Nomenclature* Original Page 1390-18-1-42 Fuze, PD, Model RKVDIR 0265/21 2-177 1390-18-1-43 Fuze, PD, Model RKVDIR MZX-328 2-181 1390-18-1-44 Fuze, PDSD, Oer'ikon, Type KZD-0250 2-185 1390-18-1-47 Fuze, PDSD, Hispano-Suiza, Model AM-2-BM 2-189 1390-18-2-1 Fuze, PD, Model KVD 2-193 1390-19-1-2 Fuze, PDSD, Model FZ-104 2-199 1390-19-1-9 Fuze, PD, Model ? 2-211 1390-23-1-4 Fuze, PD, Model FB-267 2-215 1390-23-1-5 Fuze, PDSD, Model M4A7 2-221 1390-23-1-6 Fuze, PDSD, Model M6 2-227 1390-23-1-9 Fuze, PDSD, Model M5 2-235 1390-23-2-2 Fuze, PD, Model 225A 2-241 1390-24-1-2 Fuze, PD, Model 53 2-247 1390-2471-3 Fuze, PD, Model D 2-253 1390-35-1-17 Fuze, PD, Model L35A1 2-259 1390-35-1-32 Fuze, PD, Model 944, Mkl 2-267 1390-37-1-2 Fuze, PD, Model M2 2-271 1390-37-1-3 Fuze, PD, Model M150 2-275 1390-37-1-5 Fuze, PD, Model ? 2-281 1390-37-1-9 Fuze, PDSD, Type ? 2-287 1390-37-2-2 Fuze, PD, Model V18I.R. 2-291 1390-39-1-1 Fuze, PD, Model M.K.E. 101 2-297 *All fuze nomenclatures arc UNCLASSIFIED 2-6 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 LIST OF ILLUSTRATIONS Figure Title* Page 2-1 Fuze, PD, Model AZ DM 111, full and contour views 2-11 2-2 Fuze, PD, Model AZ DM 111, disassembled components 2-13 2-3 Fuze, PD, Model AZ DM 111, detailed section view 2-14 2-4 Fuze, PD, Model AZ DM 111A1, full and contour views 2-17 2-5 Fuze, PDSD, Model AZZ DM 131, contour and section views 2-21 2-6 Fuze, PDSD, Model AZZ M594, section view 2-25 2-7 Fuze, PDSD, Model AZZ M594, performance curves 2-28 2-8 Fuze, PD, Model AZ DM 111A3 2-29 2-9 Fuze, PD, Model AZ DM 221, section view 2-33 2-10 Fuze, PD, Model Diehl with 106-mm fragmentation projectile 2-39 2-11 Fuze, PD, Model Diehl, section view 2-41 2-12 Fuze, PD, Model Diehl, section view of delay-arming mechanism 2-42 2-13 Fuze, PD, Model Diehl, section view of components in safe position 2-44 2-14 Fuze, PD, Model Diehl, section view of components in armed position 2-44 2-15 Fuze, Model Diehl, inertial ignition with delay action 2-45 2-16 Fuze, PDSD, Model AZZ DM 31, section view 2-47 2-17 Fuze, PDSD, Model AZZ DM 281A1, section view 2-51 2-18 Fuze, PDSD, Model AZZ DM 281A1, self-destruct as a function of range 2-54 2-19 Fuze, PD, Model AZ DM 211, full view 2-63 2-20 Fuze, PD, Model AZ DM 211, section view 2-64 2-21 Fuze, PD, Model 21/28, full view 2-75 2-22 Fuze, PD, Model 21/28, section view 2-77 2-23 Fuze, PD, Model V-18-I, full view 2-79 2-24 Fuze, PD, Model V-184, contour and section views 2-81 2-25 Fuze, PD, Model V-19, full and contour views 2-83 2-26 Fuze, PD, Model V-19, exploded view 2-85 2-27 Fuze, PD, Model V-19, section view 2-86 2-28 Fuze, PD, Model SC-12, section view 2-89 2-29 Fuze, PD, Model SC-12, section view depicting components in safe position 2-91 *All figure titles are UNCLASSIFIED. 2-7 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Figure Title* 2-30 Fuze, PD, Model SC-12, section view depicting delay-arming Original Page selection 2-93 2-31 Fuze, PD, Model SC-12, section view depicting inertial lock in rearward position 2-94 2-32 Fuze, PD, Model SC-12, section view depicting fuze in armed position 2-95 2-33 Fuze, PD, Model SC-12, section view depicting firing-pin action upon impact 2-96 2-34 Fuze, PD, Model SC-12, section view depicting action upon graze impact 2-97 2-35 Fuze, PD, Model FUI-F2, dimensioned cutaway view 2-99 2-36 Fuze, PD, Model FUI-F2, cutaway with components 2-101 2-37 Fuze, PD, Model FUI-F2, section view 2-103 2-38 Fuze, PD, Model FUI-F2, functioning views 2-104 2-39 Fuze, PD, Model V-5, section view 2-107 2-40 Fuze, PD, Model V-5, details of clockwork 2-111 2-41 Fuze, PD, Model V-5, details of rack 2-112 2-42 Fuze, PD, Model V-5, details of primer drum 2-113 2-43 Fuze, PD, Model V-5, section view, armed and unarmed positions 2-114 2-44 Fuze, PD, Model V-19-P, full view 2-117 2-45 Fuze, PD, Model V-19-P, section view, safe position 2-119 2-46 Fuze, PD, Model V-19-P, section view depicting setback action 2-121 2-47 Fuze, PD, Model V-19-P, section view depicting components in armed position 2-122 2-48 Fuze, PD, Model V-19-P, section view depicting firing-pin and locking-plate camming action 2-123 2-49 Fuze, PDSD, Model FDPA 1502, section view 2425 2-50 Fuze, PDSD, Model FUA 723, section view 2-129 2-51 Fuze, PD, Model FIRUSAT, contour and section views 2-133 2-52 Fuze, PD, Model FIRUSAT, section view 2-136 2-53 Fuze, PD, Model FIRUSAT, runaway escapement interface view 2-138 2-54 Fuze, PD, Model A, contour view 2-141 2-55 Fuze, PD, Model A 2-143 2-56 Fuze, PD, Model RKVDIR 0265, full and contour views 2-147 *All figure titles are UNCLASSIFIED. 2-8 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Figure 2-57 AST-116011-001-75 Title* Page Fuze, PD, Model RKVDIR 0265, detailed sections A-A, B-B, D-D, and G 2-149 2-58 Fuze, PD, Model RKVDIR 0265, detailed sections C-C, E-E, and F-F 2-150 2-59 Fuze, PD, Model RKVDIR 0265, packaging container 2-152 2-60 Fuze, PD, Model 21 RKZ-2, full and contour views 2-155 2-61 Fuze, PD, Model 21 RKZ-2, section view 2-157 2-62 Fuze, PD, Model 21 RKZ-2, SQ functioning 2-160 2-63 Fuze, PD, Model 21 RKZ-2, delay functioning 2-161 2-64 Fuze, PD, Model 21 RKZ-2, packaging container 2-162 2-65 Fuze, PD, Model RKVDIR 0262/7B with 81-mm projectile 2-165 2-66 Fuze, PD, Model RKVDIR 0264 with 81-mm projectile 2-169 2-67 Fuze, PD, Model RKVDIR MZX-325 with 81-mm projectile 2-173 2-68 Fuze, PD, Model RKVDIR 0265/21 with 81-mm projectile 2-177 2-69 Fuze, PD, Model RKVDIR MZX-328 with 81-mm projectile 2-181 2-70 Fuze, PDSD, Type KZD-0250, section view 2-185 2-71 Fuze, PDSD, Model AM-2-BM, section view 2-189 2-72 Fuze, PD, Model KVD, full and contour views 2-193 2-73 Fuze, PD, Model KVD, exploded view 2-195 2-74 Fuze, PD, Model KVD, section view 2-196 2-75 Fuze, PDSD, Model FZ-104, full view 2-199 2-76 Fuze, PDSD, Model FZ-104, contour and section views 2-204 2-77 Fuze, PDSD, Model FZ-104, cutaways of fuze depicting safe, unarmed, and armed conditions 2-205 2-78 Fuze, PD, Model ?, section view 2-211 2-79 Fuze, PD, Model FB-267, contour view 2-215 2-80 Fuze, PD, Model FB-267, section view, unarmed position 2-217 2-81 Fuze, PD, Model FB-267, section view, armed position 2-219 2-82 Fuze, PDSD, Model M4A7, full view 2-221 2-83 Fuze, PDSD, Model M4A7, contour and section views 2-224 2-84 Fuze, PDSD, Model M6, full view 2-227 2-85 Fuze, PDSD, Model M6, contour and section views 2-230 2-86 Fuze, PDSD, Model M6', shipping box 2-233 2-87 Fuze, PDSD, Model M5, full view 2-235 2-88 Fuze, PDSD, Model M5, section view 2-238 2-89 Fuze, PD, Model 225A, section views of unarmed and armed positions 2-241 *All figure titles are UNCLASSIFIED. 2-9 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST1160H001-75 Figure Title* 2-90 Fuze, PD, Model 225A, impact position, no-graze and Original Page graze actions 2-244 2-91 Fuze, PD, Model 53, full and cutaway views 2-247 2-92 Fuze, PD, Model 53, exploded view 2-249 2-93 Fuze, PD, Model 53, section view 2-251 2-94 Fuze, PD, Model D, full view 2-253 2-95 Fuze, PD, Model D, section view 2-255 2-96 Fuze, PD, Model L35A1, full and contour views 2-259 2-97 Fuze, PD, Model L35A1, section view 2-2611 2-98 Fuze, PD, Model 944 Mk 1 2-267 2-99 Fuze, PD, Model M2, section view 2-271 2-100 Fuze, PD, Model M150, full view 2-275 2-101 Fuze, PD, Model M150, contour view 2-277 2-102 Fuze, PD, Model M150, block diagram, functioning sequence 2-278 2-103 Fuze, PD, Model ?, full view with 52-mm projectile 2-281 2-104 Fuze, PD, Model ?, exploded view 2-283 2-105 Fuze, PD, Model ?, contour and section views 2-284 2-106 Fuze, PDSD, Type ?, full view 2-287 2-107 Fuze, PD, Model V18I.R., full and contour views 2-291 2-108 Fuze, PD, Model V18I.R., exploded view 2-293 2-109 Fuze, PD, Model V18I.R., section view 2-294 2-110 Fuze, PD, Model M.K.E. 101, full view 2-297 2-111 Fuze, PD, Model M.K.E. 101, exploded view 2-299 2-112 Fuze, PD, Model M.K.E. 101, contour and section views 2-300 *All figures titles are UNCLASSIFIED. 2-10 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original UNCLASSIFIED AST-1160H-001-75 Fine, PD, Model AZ DM 111 FOM No. 1390-16-1-1 ALL:DIMENSIONS IN INCHES (UNCLASSIFIED) Figure 2-1, Fuze, PD, Model AZ DM 111, full and contour views (U). (U) Description The AZ DM 111 PD fuze (fig 2-1) was developed by Junghans of West Germany for use with 81-mm mortar projectiles. It is a setback, delayed-arming type designed for either delay or SQ action upon impact. The fuze is considered detonator safe, muzzle safe, and safe against double loading. (U) Unique Features ? Pull wire providing positive safety handling. ? Escapement mechanism controlling the arming of the rotor. ? Rotor housing out-of-line SQ and delay primer-detonators. 2-11 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model AZ DM 111 FOM No. 1390-16-1-1 (U) Characteristics Fuze assembly: Body material Transparent Incite Weight Markings OV; MV Length 3.44 in (87.5 mm) Body diam 1.49 in (38.1 mm) Thread diam 1.50 in (38.1 mm) TPI 12 Booster: Body material Transparent lucite Body length 0.78 in (19.8 mm) Body diam L12 in (28.6 mm) Explosive Explosive weight Functional data: Arming method Setback Firing method Impact Safety devices Arming distance 50 m Arming time 7 Delay time No weights available; itern examined by Picatinily Arsenal was inert. "Safety wire, locking ball with two setbotk pins, and out-of-line detonators. 2-12 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Design Details UNCLASSIFIED 2 4 AST116011-001.75 Fuze, PD, Model AZ DM 111 FOM No, 13904644 5 (UNCLASSIFIED) Figure 2-2, Fuze, PD ,Model AZ DM 111, disassembled components (U). 2-13 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model AZ DM 111 FOM No. 1390-164-1 (U) Design Details (Continued) Original The AZ DM 111 main components (fig 2-2) consist of a nose section (1), body section (2), and booster assembly (3). Also shown are top and bottom views of the fuze body depicting the rotor and escapement mechanism (4) and the bottom of the rotor (5). 17 16 15 14 13 12 (UNCLASSIFIED) Figure 2-3. Fuze, PD, Model AZ DM 111, detailed section view (U). 2-14 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-I600H-001-75 Fine, PD, Model AZ DM 111 FOM No. 1390-16-1-1 (U) Design Details (Continued) As illustrated in figure 2-3, the fuze's nose section (4) is bored out to house the firing-pin assembly (2), consisting of a striker head and firing pin as well as its coiled spring (3). A firing-pin retainer (18) is used to keep the firing-pin assembly (2) in place. The fuze's nose section is then sealed by a disk (1), providing a watertight assemblage. The nose section is threaded externally at its base to facilitate screwing into the fuze body (6). The fuze body is bored out to house the escapement mechanism, which involves an escapement lever (17), pinion-gear (7), and rotor-gear (5) arrangement. The rotor (8) has a locking spring (23) and contains the SQ (21) and delay (9) primer-detonators. The detent system is contained within holes drilled in the fuze body. This includes the safety pin (15), safety-pin spring (13), locking ball (16), ball-release pin (14), and ball-release-pin spring (12). A safety wire (20) locks the safety pin (15) in place and, in turn, the escapement lever (17) and the rotor (8), providing positive safety during handling. A hole cut transversely in the fuze body (6) houses the selector (19). The SQ primer-detonator (21) of the rotor (8) is locked by the positioning pin (22) on the selector (19). The fine body has a central hole drilled at the rear to house the relay (10) and is threaded internally to facilitate assembly of the booster (11). The fuze body is threaded externally to facilitate assembly into 81-mm mortar projectiles. (U) Functioning Prior to drop-firing the projectile in the mortar (fig 2-3), the safety wire (20) is removed from the fine. Upon firing, the ball-release pin (14) moves rearward due to setback. The locking ball (16) is freed, and the safety pin (15) is released and locked in the disengaged position by the locking spring (23). The rotor (8) is released to rotate by the latch in the safety pin (15), which sets back. The same action occurs to the lever (17) of the escapement, which controls the movement of the rotor until armed. The movement of the rotor is also limited by the positioning pin (22), which in turn is controlled by the position of the selector (19). The SQ (OV) or the delay (MV) primer-detonator (21 or 9, respectively) is brought into the in-line position with the firing 2-15 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model AZ DM 111 FOM No. 1390-16-1-1 (U) Functioning (Continued) Upon impact, the firing pin is driven into the primer-detonator (21 or 9) and in turn initiates the relay (10) and finally the booster (11), resulting in the detonation of the high-explosive (HE) filler of the projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectiles 81-mm mortar 2-16 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, PD, Model AZ DM 111A1 FOM No. 1390-16-1-2 MV FUZE PO LOS SG - t 115 OIAM 15 OIAM 12 TPI ALL DIMENSIONS IN INCHES (UNCLASSIFIED) Figure 2-4. Fuze, PD, Model AZ DM 111A1, full and contour views (U). (U) Description The Junghans AZ DM 111A1 (fig 2-4) is similar in design to the AZ DM 111 (FOM No. 1390-16-1-1), except that the fuze body and booster cup arc made from aluminum instead of transparent plastic. It is a setback, delayed-arming type designed for either SQ or delay action upon impact. Besides its use with 81-mm mortar projectiles, it can also be used with 120-mm fin-stabilized mortar projectiles. (U) Unique Features ? Pull wire providing positive safety during handling. ? Escapement mechanism for controlling movement of the rotor. ? Rotor housing the SQ or delay prime-detonators in the out-of-line position. 2-17 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04; CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model AZ DM 111A1 FOM No. 139046-1-2 (U) Characteristics Fuze assembly: Body material Aluminum Weight 0.42 lb (191 g) Markings AZ DM 111A1 Length 3.44 in (87.4 mm) Maj body diam 1.85 in (50 mm) Maj thread diam 1.50 in (38.1 mm) TPI 12 Booster: Body material Aluminum Body length 0.805 in (20.45 mm) Explosive Tetryl Explosive weight TPI 20 Functional data: Arming method Setback Firing method Impact Safety devices Arming distance 50 m Arming time Delay time 0.05 s (U) Functioning Similar in functioning to the AZ DM 111 (FOM No. 1390-16-1-1). 'Pull wire; locking ball with two setback pins, out-of-line detonators. 2-18 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11600-001-75 Fuze, PD, Model AZ DM 111A1 FOM No. 1390-16-1-2 (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectile, Model DM 11 120-mm HE projectile, Model DM 11 81-mm mortar 120-mm mortar 2-19 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original UNCLASSIFIED ASS-1160H-001-75 Fuze, PDSD, Model AZZ DM 131 FOM No. 1390-16-1-4 SECTION A-A 46.3 18 OIAM 15 DIAM 0.75 PITCH 401' PI rola OTIA 94iii ' lir AVM 3 LEirrAit tir 44? ?4, fat .iti:-.4 Ws% erfir ell y velki 14 A ramp,* 40. SA tilaA. "Iblti? -? r? ._ IN taw es. I 10 P 1 1 I 1 ALL DIMENSIONS IN MILLIMETERS LEGEND 1. FIRING PIN 2. FIRING PIN SPRING 3. FIRING PIN SEAT 4. SELF-DESTRUCT SHUTTER PAWL SPRING 5. SELF-DESTRUCT SHUTTER PAWL 6. FIRING PIN LOCK Neg. 517011 6 7. BOOSTER CUP 8. SELF-DESTRUCT SHUTTER LOCKING PAWL 9. SELF-DESTRUCT SHUTTER 10. ARMING COIL 11. FIRING PIN GUIDE (UNCLASSIFIED) Figure 2-5. Fuze, PDSD, Model AZZ DM 131, contour and section views (U). (U) Description The AZZ DM 131 fuze (fig 2-5) is a PD fuze with a mechanical self-destruct feature initiated by spin decay. The fuze is designed to be bore safe but does not have an out-of-line detonator. It was developed for use in West German-made high-explosive incendiary, with tracer (HEI-T), cartridges for the 20x139-mm automatic gun, Model Rh 202. This fuze has been replaced in service by the DM 281 fuze family. 2-21 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Model AZZ DM 131 FOM No. 1390-16-1-4 (U) Characteristics Fuze assembly: Body material Anodized aluminum Weight 18.6 g (0.4 lb) Markings AZZ DM 131 Booster: Body material Aluminum Body length Explosive 7' Explosive weight 0.35 g (5.6 gr) Functional data: Arming method Centrifugal force (arming coil) Firing method Impact Safety devices Firing-pin lock and arming coil Arming distance 6 m Arming time Self-destruct time ?8.5 s Delay time (U) Functioning In storage or transport, an arming coil holds a firing-pin lock in position to prevent the firing pin from moving rearward. A shutter in the self-destruct mechanism restrains the firing-pin spring from acting on the firing pin. Upon firing, centrifugal force resulting from projectile spin causes the arming coil to open and he against the inner wall of the arming coil recess. Centrifugal force also causes the firing-pin lock to move radially outward, removing any restriction on the rearward movement of the firing pin. This occurs after the projectile has reached a point about 6 meters in front of the muzzle. The fuze is now armed. Upon impact with a target beyond this distance, the fuze nose and disk are crushed. Force is transmitted to the firing pin, which is driven into the detonator to initiate fuze functioning. 2-22 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model AU DM 131 FOM No. 1390-16-1-4 (U) Functioning (Continued) The self-destruct mechanism consists of a shutter, two pawls, and a pawl spring. In the unarmed (storage or transport) position, the shutter prevents rearward movement of the firing-pin spring seat, against which the firing-pin spring presses. The shutter is held in position by the shutter pawl, which is prevented by the shutter locking pawl from releasing the shutter. Upon firing, centrifugal force acts on both the shutter locking pawl and the shutter pawl, disengaging the shutter locking pawl from the shutter pawl and exerting force on a weight on the shutter pawl, to keep this pawl engaged with the shutter against the tendency of the pawl spring to move the pawl out of engagement with the shutter. If impact does not occur within approximately 8.5 seconds, rotation decays sufficiently for pawl-spring tension to overcome centrifugal force and rotate the shutter pawl out of engagement with the shutter. The firing-pin spring acting on the seat forces the shutter aside, plunging the firing pin into the detonator and initiating fuze functioning. Several modifications of the DM 131 fuze were developed which were produced only in limited quantities for test: the DM 131 Al, 131 E-2, and 131 E-3A. The DM 131 E3B fuze was redesignated fuze, PDSD, M594, and is described under that designation. (U) Applications (Ammunition and Weapons) Ammunition Weapons 20-mm (20x139-mm) HEI-T (SD) cartridge, Model DM 51 or DM 51A1 Automatic guns, Models HS 820 and Rh 202 2-23 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model AZZ M594 (XM594) FOM No. 1390-16-1-6 STRIKER FIRING PIN SPRING FIRING PIN SEAT SELF-DESTRUCT PLATE SPIRAL RETAINER ARMING COIL FIRING PIN ROTOR DETONATOR ROTOR DETENT SPRING BOOSTER Neg. 517007 (UNCLASSIFIED) Figure 2-6. Fuze, PDSD, Model AZZ M594, section view (U). 2-25 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST -1160H-001-75 Original Fuze, PDSD, Model AZZ M594 (XM594) FOM No. 1390-16-1-6 (U) Description The AZZ M594 fuze (fig 2-6) is a PD fuze with an out-of-line detonator and self-destruct mechanism. It self-destructs mechanically upon spin decay. Developed during the mid-1960s by Diehl Wehrtechnik of Roethenback, West Germany, as the AZZ DM 131 E3B fuze, it is similar in design to fuze, PDSD, Model AZZ DM 281 Al (FOM No. 1390-16-1-21). The United States is licensed to produce this fuze as the M594. (U) Characteristics Fuze assembly: Body material Steel Weight 18 to 21 g (0.04 to 0.05 lb) Markings M594 (XM594) Booster: Body material Aluminum alloy Body length 45.5 mm Explosive Tetryl Explosive weight 0.265 g (4.2 gr) Functional data: Arming method Spin Firing method Impact Safety devices Arming coil; out-of-line detonator Arming distance ?22 m Arming time 7 Self-destruct time 5.5 s?1.5 s (All safe at 15 m; all fire at 40 m) (U) Functioning During storage and transport, the rotor that contains the out-of-line detonator is restrained by a rotor-detent spring, while a spiral retainer surrounded by the arming coil prevents rearward movement of the firing pin. 2-26 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model AZZ M594 (XM594) FOM No. 1390-16-1-6 (U) Functioning (Continued) Upon firing, centrifugal force causes the rotor-detent spring to break when rotation attains a predetermined value, releasing the ball rotor, which rotates until the detonator is aligned with the firing pin and booster. Centrifugal force also causes the arming coil to open until it lies against the inner wall of the recess. The spiral retainer also moves outward under the influence of centrifugal force, thus removing any restriction on the rearward movement of the firing pin. This occurs between 15 meters and 40 meters in front of the muzzle. The fuze is now armed. When the armed fuze impacts a target whose resistance equals or exceeds that of 1-mm dural, the flange of the striker is sheared off, allowing the striker to drive the firing pin into the detonator, initiating detonation of the projectile. If the projectile does not strike a target, self-destruction will occur after about 5.5 seconds, which is beyond the maximum tactical range. The mechanical self-destruct mechanism is like that of fuze, PDSD, Model AZZ DM 281 Al (FOM No. 1390-16-1-21). It consists of a shutter, two pawls, and a pawl spring. In the unarmed state, the shutter prevents rearward movement of the firing-pin spring seat, against which the firing-pin spring presses. The shutter is held in position by the shutter pawl, which is prevented by the shutter locking pawl from releasing the shutter. Upon firing, centrifugal force acts on both the shutter locking pawl and the shutter pawl, disengaging the shutter locking pawl from the shutter pawl and exerting force on a weight on the shutter pawl, to keep this pawl engaged with the shutter against the tendency of the pawl spring to move the pawl out of engagement with the shutter. If impact does not occur within the maximum tactical range, rotation decays sufficiently for the pawl-spring tension to overcome centrifugal force and rotate the shutter pawl out of engagement with the shutter. The firing-pin spring acting on the seat forces the shutter aside, plunging the firing pin into the detonator and initiating fuze functioning. The relationship between self-destruct time, range, velocity, and spin decay is shown in figure 2-7. The fuze is rain safe and will not function on impact with grass or thin brush. 2-27 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11 60H-001-75 Fuze, PDSD, Model AZZ M594 (XM594) FOM No. 1390-16-14 (U) Functioning (Continued) TIME OF FLIGHT (SECONOSI SPIN (111/14tH) 7 6 4 2 VELOCITY IM/SI 1"? SELF -DESTRUCT t-,Vo ile /III 100,000 1000 1055 MIS ???? ,..._ ?Y- -1% N..?. REGION / / 1 00000 600 57,500 (6/14114) emo.,.... SPIN (R/MIN) 'AA... 6 et SELF-OE ROOT REGION 40000 400 m..... / "Cm. .......VEloorr ?I 1 20000 200 GO , fl) - CIT _?11 40, or- 60..... 44/0.1 ....?. Am..., 'AAA... I I 0 0 O. 00 0 0.. el. .0. *t 1?... .0. 00 .0 500 IIIM littft 20ivi 2000 IN RANGE MO Neg. 517006 Original UPPER LIMIT IS AVERAGE VALUE 5 5 S LOWER LIMIT 46 (UNCLASSIFIED) Figure 2-7. Fuze, PDSD, Model AZZ M594, performance curves (U). (U) Applications (Ammunition and Weapons) Ammunition Weapons 20-mm (20x139-mm) HEI (HELT) cartridge 20-mm HEI-T cartridge, M599, with fuze, PDSD, M594 Hispano-Suiza HS-820 series; Rheinmetall Rh 206 20-mm automatic gun, Model M139 2-28 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 (U) Description CO Ca Fuze, PD, Model AZ DM 1I1A3 FOM No. 1390-164-91 MV 28,614 34,3 ?.-4s" 12 12 UNF 111(38,1)- 49 Figure 2-8. Fuze, PD, Model AZ DM 111A3 (U). t ALL DIMENSIONS IN MILLIMETERS (UNCLASSIFIED) The AZ DM 111A3 PD fuze (fig 2-8) was developed by Junghans of Vbst Germany for use with 81-mm and 120-mm mortar projectiles. The fuze thread employed is a 1.5-in (38-mm) diameter D12 UNF-1A. The AZ DM 111A3 is a setback, delayed-arming type designed for either super-sensitivity action upon impact or delayed action. It is similar in design to that of the AZ DM 111 and AZ DM 111A1 fuzes except for a protruded striker head providing a graze-sensitivity feature. 2-29 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model AZ DM 111A3 FOM No. 1390-16-1-9-1 (U) Unique Features ? Protruding striker head. ? Pull wire providing positive safety during handling. ? Escapement mechanism for delaying or controlling the movement of the rotor. ? Rotor housing out-of-line SO and delay detonators. (U) Characteristics Fuze assembly : Body material Aluminum Weight 0.45 lb (204 g) Markings AZ DM 111A3 Length 87.5 mm (3.44 in) Thread diam 38.1 mm (1.5 in) Booster : Body material Aluminum Body length 0.81 in (20.6 mm) Explosive Tetryl Explosive weight Body diam 28.6 mm (1.13 in) Functional data: Arming method Setback Firing method Impact Safety devices Arming distance 50 m Arming time 1.01 s Delay time 0.05 s *Pull wire, two &tent pins and locking ball, out-of-line detonators. 2-30 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160144101-75 Fuze, PD, Model AZ DM 111A3 FOM No. 1390-16-1-9-1 (U) Design Details and Functioning See technical data sheets FOM No. 1390-16-1-1, Fuze, PD, AZ DM 111 and FOM No. 1390-16-1-2. For further design details depicting the interface of the firing-pin assembly, escapement, rotor-selector, stud, and detent system, see section VIII, Delay-Arming Mechanism, etc. (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectiles, 81-mm smoke (WP) projectiles 120-mm HE projectiles, 120-mm smoke (WP) projectiles 81-mm mortar 120-mm mortar 2-31 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Kin( PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11608-001-75 Fuze, PD, Model AZ DM 221 FOM No. 1390-16-1-13 FIRING PIN 32.7mm 9.6mm DETONATOR AND BALL ROTOR ASSEMBLY BODY ASSEMBLY ROTOR DETENT SPRING BOOSTER ASSEMBLY Neg. 517008 (UNCLASSIFIED) Figure 2-9. Fuze, PD, Model AZ DM 221, section view (U). (U) Description Fuze, PD, Model AZ DM 221 (fig 2-9), is a PD fuze with an out-of-line detonator mounted in a ball rotor. It has no self-destruct mechanism. This fuze is a copy of the US M505 A-3 fuze; like the latter, it is intended for use in 20x102-mm ammunition. 2-33 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-00145 Original Fuze, PD, Model AZ DM 221 FOM No. 1390-16-1-13 (U) Characteristics Fuze assembly: Body material Steel Weight 21.7 g? (0.048 lb) Markings AZ DM 221 Booster: Body material Steel Body length 32.7 mm (1.29 in) Explosive HMX Explosive weight ?04 g (2.5 gr) Functional data: Arming method Centrifugal force Firing method Impact Safety devices Out-of-line detonator (ball rotor) Arming distance 6 to 11 m Arming time Self-destruct time Delay time (U) Functioning 7 Prior to firing, the rotor containing the detonator is locked out of line by the rotor detent spring. Upon firing, centrifugal force due to projectile rotation causes the spring to open, allowing the rotor to move in line with the firing pin. The fuze is now armed. The firing pin is restrained from movement by a thin shoulder. Upon impact, the nose cap is crushed against the firing pin, forcing the latter against the detonator. The detonator initiates the booster, which in turn detonates the main explosive charge of the projectile. There is no self-destruct feature. 2-34 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, PD, Model AZ DM 221 FOM No. 1390-16-1-13 (U) Applications (Ammunition and Weapons Ammunition Weapons 20x102-mm HE projectile, Model DM 61 Automatic gun (Vulcan), Model M 61 2-35 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE, Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H001-75 Fuze, PD, Model AZ DM 51 FOM No. 1390-16-1-15 (FOU0) Description AZ DM 51 is the West German designation for a copy of US fuze, PD, M48A3. This fuze is manufactured by Diehl, West Germany, and is standard in the West German Armed Forces. See Department of Army TM 9-1300-203 for details. (U) Applications (Ammunition and Weapons) Ammunition Weapons 76x578-mm smoke ("Fog") cartridge, Model? 90x602-mm smoke ("Fog") cartridge, Model? 76-mm guns 90-mm guns (FOUO) Interchangeability Fuze AZ DM 51 is redesignated fuze AZ DM 211 when utilizing German booster ZDL DM 42. Fuze AZ DM 51 is redesignated fuze AZ DM 41 when utilizing US booster M21A4. Fuze AZ DM 51 is redesignated fuze AZ DM 151 when utilizing US booster M125A1 (German booster ZDL DM 32). Fuze AZ DM 51 is designated fuze AZ DM 241 when a rain safety device and booster ZDL DM 42 are added and the fuze nose portion is filled with epoxy. 2-37 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original (This page intentionally left blank) ( 2-38 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, PD, Model Diehl FOM No. 1390-16-1-16 c ( ( Neg. 552143 DIEHL PD, FUZE (CONFIDENTIAL) Figure 2-10. Fuze, PD, Model Diehl with 106-mm fragmentation projectile (U). (C) Description This West German PD fuze (fig 2-10) was developed by Diehl for use with 106-mm fragmentation projectiles fired from the M40 RCL rifle. It is a setback, delayed-arming fuze designed for either SQ or delay action upon impact. The fuze is considered detonator safe for handling, transporting, and air delivery. It is also rainproof and waterproof. It is expected to function reliably under temperatures from -40 to +60?C. (U) Unique Features ? Escapement mechanism for delay arming. ? Detent system on firing pin. ? Rotor housing out-of-line explosives detented by two setback pins. ? Graze-functioning feature via booster lead plunger. 2-39 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, PD, Model Diehl FOM No. 1390-16-1-16 (C) Characteristics Fuze assembly: Body material Weight 400 g (0.881 lb) Markings Booster: Body material Body length Explosive 7 Explosive weight 15 g (0.033 lb) Functional data: Arming method Setback Firing method impact Safety devices Arming distance 100 m Arming time 2 Delay time 0.6 s Fuze sensitivity: Functions reliably on 2-mm dural or 10-mm pine wood *Locking balls (2), locking spring, setback pins (2), out-of-line detonators of S&A device. 2-40 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original Design Detail A S14 168 H 75 Fu.re, PD Model Di hl PON f'so 1390-16-1-16 (UNCLASSIFIED) e 211, Ftiae, PD Model Diehl section view Tia 24 I CONF DENTIAL This paue is UNCLASSIFIED) L Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST. 6 75 Fuze, PD Model Diehl FOM No. 139046( 16 (C) Design Derails Continued) 15 Or al Neg. 515118 tUNCLASS1F1E Figure 2-12. Fuze, PD, Model Diehl, section view of delay -arming mechanism (U). The Diehl PD fuze (fig 2-11) is a four-piece construction consisting uf the fuze nose or top upper fuze body (6), lower fuze body (9), and booster assemblage (17,18), _pin assembly includes the fir g-pin head pring, and the firing pin 2-42 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160144101-75 Fuze, PD, Model Diehl FOM No. 1390-16-1-16 (C) Design Details (Continued) The detent system on the firing pin includes two locking balls (3), setback sleeve (4), its locking spring (5), and setback or pressure spring (7). The lower fuze body (9) houses the safety and arming (S&A) mechanism (10) and the setting stud or pin (14). In addition, the lower fuze body has a central hole drilled into it at the base and is threaded internally to facilitate assembly of the inertial-type booster lead charge (17), its spring, and the booster (18). The S&A mechanism (10) (fig 2-12) includes the spring-loaded slider (11) housing the OV (instantaneous) detonator (12) and the MV (delay) detonator (13). The slider housing is detented by two setback pins (16) and contains a tooth sector that meshes with the escape wheel (15) of the escapement. The upper fuze body (6), which is threaded internally, screws into the fine top (1). An "0" ring is used to provide a watertight seal. The lower fuze body (9), which is threaded externally, screws into the base of the upper fuze body (6). An "0" ring is also used to provide a watertightxeal. The lower fuze body is threaded internally at its base to facilitate assembly of the booster lead plunger (17) and booster (18) housing. The lower fuze body is also threaded externally to facilitate assembly into the 106-mm controlled fragmentation projectile. 2-43 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, PD, Model Diehl FOM No. 1390-16-1-16 (C) Functioning Neg. 515371 Firing Pin Head Locking Sall Locking Sio-mg Setback 51ery Pressure Spntv a:Ousting screw Firing Pin Rol Booster Lead Plunger Spring Booster Lead Plunger Boaster Lead Boaster Charge Safe Position Original Rotor Detonator w delay Detonator ,Wo delay Setback Pins Escapement (UNCLASSIFIED) Figure 2-13. Fun, PD, Model Diehl, section view of components in safe position (U). Neg. 515370 ARMED POSITION WITHOUT DELAY (UNCLASSIFIED) Figure 2-14. Fuze, PD, Model Diehl, section view of components in armed position (U). 2-44 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original (C) Functioning (Continued) Neg. 515369 AST-1160H-001-75 Fuze, PD, Model Diehl FOM No. 1390-16-1-16 (UNCLASSIFIED) Figure 2-15. Fuze, Model Diehl, inertial ignition with delay action (U). Setting (fig 2-13). The slot in the setting stud is aligned with either the OV or the MV detonator. After firing, the setting stud will stop rotation of the spring-loaded rotor at the desired point. Arming (fig 2-13). On firing, inertia forces the setback sleeve to fall back. In this position it is locked by the locking spring. The rotor, kept in safe position by the two setback pins, is released simultaneously, but still kept in safe position by the firing pin. The locking balls, up to now having locked the firing-pin head sleeve to the fuze top, enter the space cleared by the setback sleeve. After acceleration has ceased, the compressed pressure spring expands and moves the locked setback sleeve, the locking balls, and the firing pin with its screwed-on head forward and out of the fuze top. This movement simultaneously lifts the firing pin out of its bore in the rotor, releasing it. An escapement delays the rotation of the spring-loaded rotor, providing delayed arming. 2-45 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL MT-1160H-001-75 Original Fuze, PD, Model Diehl FOM No. 1390-16-1.16 (C) Functioning (Continued) Impact ignition (fig 2-14). On impact, the firing pin is thrust either into the OV or into the MV detonator, according to the setting of the fuze. Graze functioning (fig 2-15). Shoulder impact causes deceleration of the projectile. Inertia forces the booster lead plunger to fall forward, pushing the detonator towards the point of the firing pin. (U) Applications (Ammunition and Weapons) Ammunition Weapons 106-mm FRAC projectile M40 106-mm RCL rifle 2-46 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fine, PDSD, Model AZZ DM 31 FOM No. 1390-16-1-20 striker firing pin spring arming ball self-destruct housing firing pin body lock segment retaining ring arming coil Neg. 517005 (UNCLASSIFIED) Figure 2-16. Fuze, PDSD, Model AZZ DM 31, section view (U). (U) Description This PDSD fuze (fig 2-16) is similar in design and function to fuze, PDSD, Model FDPA 1502 (FOM No. 1390-17-1-18). It is obsolete in the Federal Republic of Germany. Arming is accomplished by means of an arming coil, opening under the influence of spin, that releases firing-pin lock segments. Mechanical self-destruct occurs when spin has dropped below a predetermined rate. This fuze does not have an out-of-line detonator. 2-47 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Model AZZ DM 31 FOM No. 1390-16-1-20 (U) Characteristics Fuze assembly: Body material Weight Markings AZZ DM 31 Booster: Body material Body length Explosive Explosive weight 7 7 Functional data: Arming method Spin Firing method Impact Safety devices Arming coil-lock segments Arming distance 7 Arming time Self-destruct time Delay time 7 (U) Functioning In storage and transport, the firing pin is restrained from contact with the detonator by several lock segments, held in position by a retaining ring and an arming coil. Upon firing, setback forces increase the pressure exerted against the lock segments by a shoulder on the firing-pin body. This pressure prevents the lock segments from moving radially under the influence of centrifugal force. The lock segments in turn press against the arming coil and keep the latter from uncoiling. At the same time, centrifugal force opens the retaining ring so that it lies against the inner wall of the self-destruct housing. As acceleration ceases and setback pressure is removed, centrifugal force causes the four steel arming balls to move radially outward against the conical inner lip of the self-destruct housing, lifting the firing-pin body and further compressing the firing-pin spring. As the firing-pin body is lifted and pressure on the lock segments is removed, the arming coil is freed. Centrifugal force causes the arming coil to unwind, permitting the lock segments to move radially, clearing the shoulder on the Firing-pin body. The time required for the arming coil to open after setback ceases provides bore and muzzle safety. At this point the fuze is armed. 2-48 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model AZZ DM 31 FOM No. 1390-16-1-20 (U) Functioning (Continued) Upon striking a target, impact is transmitted through the striker to the firing-pin body, overcoming the centrifugal force that causes the four steel balls to restrain the firing pin body. The firing-pin spring thrusts the firing-pin body against the detonator to initiate detonation. If the projectile fails to hit a target, centrifugal force weakens as spin drops with time of flight, until the pressure of the firing-pin spring overcomes the centrifugal force acting on the four steel balls. At this point, the firing-pin spring drives the firing-pin body against the detonator to initiate self-destruct. (U) Applications (Ammunition and Weapons Ammunition Weapons 20x139-mm, HEI cartridge, Model DM 131 Automatic gun, Model Rh-202 2-49 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original UPPER BODY AST-1160H-001-75 Fuze, PDSD, Model AZZ DM 281A1 FOM No. 1390-16-1-21 FIRING PIN SLOT CLOSING DISC LOWER BODY ROTOR DETENT SPRING DETONATOR CUP Neg. 516972 STRIKER FIRING PIN FIRING PIN SPRING 11 1%;:r ? It. Iv r 4 .g:.> ---zr At4 ? ? - Ain. 4$6 iinuirn/ II SELF-DESTRUCT SHUTTER ARMING COIL ROTOR DETONATOR BOOSTER BODY BOOSTER BOOSTER CUP (UNCLASSIFIED) Figure 2-17. Fuze, PDSD, Model AZZ DM 281A1, section view (U). 2-51 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST?1160H-001-75 Original Fuze, PDSD, Model AZZ DM 281A1 FOM No. 1390-16-1-21 (U) Description The AZZ DM 281A1 (fig 2-17) is a PDSD fuze with out-of-line detonator designed for 20x139-mm HEI cartridges. It is similar in design to fuze, PDSD, Model AZZ DM 131, but with the addition of a ball rotor and increased muzzle safety. (U) Characteristics Standard 20x139-mm fuze, replacing DM 131 series fuzes. Fuze assembly: Body material Aluminum alloy anodized Weight 17.6 g (0.038 lb) Markings AZZ DM 281A1 Booster: Body material Body length Explosive Explosive weight Self-destruct time: 5? barrel twist 6? barrel twist Self-destruct distance: 5? barrel twist 6? barrel twist Functional data: Arming method Firing method Safety devices Arming distance Arming time 7 Delay time Cadmium-plated steel 19.0 mm (0.75 in) Tetryl 035 g (5.4 gr) 2.6?0.5 s 5.8?0.5 s Over 1500 m Over 2500 m Spin Impact Out-of-line detonator; arming coil 20 m 7 2-52 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fine, PDSD, Model AZZ DM 281A1 FOM No. 1390-16-1-21 (U) Functioning During storage and transport, the detonator rotor is held 64? out of line with the firing pin and booster by a rotor-detent spring, while a spiral retainer surrounded by an arming coil prevents rearward movement of the firing pin. Upon firing, centrifugal force acts on the rotor-detent spring to move it out of engagement with the ball rotor, which rotates until the detonator is aligned with the firing pin and booster. Centrifugal force also causes the arming coil to open until it lies against the inner wall of the recess. The spiral retainer also opens under the influence of centrifugal force, thus removing any restriction on the rearward movement of the firing pin. This occurs about 20 meters in front of the muzzle. The fuze is now armed. When the armed fuze impacts a target whoSe resistance equals or exceeds that of 1-mm dural, the flange of the striker is sheared off, allowing the striker to drive the firing pin into the-detonator, initiating detonation of the projectile. If the projectile does not strike a target, self-destruction will occur at a point about 509 meters beyond the maximum tactical range. The mechanical self-destruct mechanism consists pf a shutter, two pawls, and a pawl spring. In the unarmed state, the shutter prevents rearward movement of the firing-pin spring seat, against which the ruing-pin spring presses. The shutter is held in position by the shutter pawl, which is prevented by the shutter locking pawl from releasing the shutter. Upon firing, centrifugal force acts on both the shutter locking pawl and the shutter pawl, disengaging the shutter locking pawl from the shutter pawl, and exerting force on a weight on the shutter pawl, to keep this pawl engaged with the shutter against the tendency of the pawl spring to move the pawl out of engagement with the shutter. If impact does not occur within the maximum tactical range, rotation decays sufficiently for the pawl-spring tension to overcome centrifugal force and rotate the shutter pawl out of engagement with the shutter. The firing pin spring acting on the seat forces the shutter aside, plunging the firing pin into the detonator and initiating fuze functioning. Figure 2-18 shows the self-destruct region when fuzed projectiles are fired from barrels having a 5? and a 6? rifling pitch. 2-53 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160)1001-75 Fuze, PDSD, Model AZZ DM 281A1 FOM No. 1390-16-1-21 (U) Functioning (Continued) SPIN RATE ft /MIN) 10I/,000 90,000 50,010 70,000 50,000.? 50,000 Cft SELFRESTRUCT REGION ew so RIFLING 11? PIM to:? Original TIME OF FLIGHT (S) SELFRESTRUCT RIFLING REGION CII 3 2 Neg. 517012 1000 2000 RANGE (METERS) Figure 2-18. Fuze, PDSD, Model AZZ DM 281AI , self-destruct as a function of range (U). 2-54 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 (UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116014-001-75 Fuze, PDSD, Model AZZ DM 281A1 FOM No. 1390-16-1-21 (U) Applications (Ammunition and Weapons Ammunition Weapons 20x139-mm HET cartridge, Model DM 131 Automatic gun, Model Rh-202 2-55 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 NM PACE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, PDSD, Model AZZ DM 121 FOM No. 1390-16-1-23 (FOUO) Description The West German PDSD fuze, Model AZZ DM 121, is a copy of the Italian fuze, Model M6, produced by Bombrini-Parodi-Delfino (B.P.D.) of Rome, Italy. This fuze is standard for use in the West German Armed Forces. Details on this fuze (FOM No. 1390-23-1-6) appear on page 2-227. (U) Applications (Ammunition and Weapons) Ammunition Weapons 40x311-mm HEI-T cartridge, Model (i') 40-mm antiaircraft gun, Model L/60 (Bofors) 2-57 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-116011-001-75 Original (This page intentionally left blank) 2-58 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, PD, Model AZ DM 21 FOM No. 1390-16-1-24 (FOU0) Description The AZ DM 21 West German fuze is a copy of the US Navy fuze Mk27/1 discussed in TM 9-1300-203. The fuzes are identical in design except the detents on the AZ DM 21's striker have been modified so their movement is parallel to the rotation of the detonator rotor. This fuze is standard in the West German Armed Forces. (U) Applications (Ammunition and Weapons) Ammunition Weapons 40-mm liE1-T cartridge, Model? 40-mm antiaircraft gun, Model L/60 (Bofors) 2-59 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original (This page intentionally left blank) 2-60 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001.75 Fuze, PD, Model AZ DM 41 FOM No. 1390-16-1-25 (FOIJO) Description AZ DM 41 is the West German designation for US fuze, PD, M51A5, whether imported or manufactured in Germany. It is standard in the West German Armed Forces. For data on the M51A5 fuze, see US TM 9-1300-203. (U) Applications (Ammunition and Weapons) Ammunition Weapons 76x578-mm HE cartridge, Model ?; 76x578-mm practice cartridge, Model ? 76.2x583-mm (Naval) tracer (?) cartridge, Model ? 90x602-mm HE cartridge, Model ?; 90x602-mm practice cartridge, Model? 105x373-mm HE cartridge, Model?; 105x373-mm smoke (WP) cartridge, Model? 155-mm HE projectiles, Model ? 155-mm smoke (WP) projectiles, Mode!? 175-mm practice projectiles, Model ? 203-mm HE projectiles, Model ? 76-mm guns 76.2-mm Naval antiaircraft guns 90-mm guns 105-mm guns and howitzers 155-mm howitzers 175-mm gun, Model M107 (US) 203-mm howitzers (US) 2-61 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original Fuze, PD, Model AZ DM 41 FOM No. 1390-16-1-25 (FOUO) Interchangeability When reassembled with the West German booster ZDL DM 42, this fuze is designated AZ DM 211. When used without a booster, this fuze is designated AZ DM 51. 2-62 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original FOR OFFICIAL USE ONLY AST?1160H-001 -75 Fuze, PD, Model AZ DM 211 FOM No. 1390-16-1-26 Neg. 515130 (UNCLASSIFIED) Figure 2-19. Fuze, PD, Model AZ DM 211, full view (U). 2-63 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original Fuze, PD, Model AZ DM 211 FOM No. 1390-16-1-26 (FOUO) Description Fuze AZ DM 211 (fig 2-19) is a West German-made copy of US fuze M48A3 (German Model AZ DM 51) with a German-designed booster assembly (Model ZDL DM 42) attached. Booster ZDL DM 42 employs an escapement mechanism as a safety device to insure delayed arming. A mechanical switch allows selection of either SQ functioning or 0.05-second delay. All metal parts used in this fuze appear to be of brass, aluminum, or brass-coated steel. Manufactured by Diehl, fuze AZ DM 211 was standard in the West German Armed Forces, at least as late as 1969. For technical details of this fuze (except for the booster), see pertinent US publications (e.g., TM 9-1300-203). The only information presently available on booster ZDL DM 42 is whatever can be deduced from the section view of this fuze shown in figure 2-20. setting sleeve delay plunger Neg. 515120 near 'etonntor body dOlay 0:041eb; booster OM 42, alternative booster M 125 Al (UNCLASSIFIED) Figure 2-20, Fuze, PD, Model AZ DM 211, section view (U). 2-64 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, PD, Model AZ DM 211 FOM No. 1390-16-1-26 (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 76x578-mm HE cartridge, Model ?; 76x578-mm practice cartridge, Model? 76.2x583-mm tracer (?) cartridge, Model? 90x602-mm HE cartridge, Model ?; 90x602-mm practice cartridge, Model? 105x373-mm HE cartridge, Model ? 105x373-mm smoke (WP) cartridge, Model ? 155-mm HE projectile, Model ?; 155-mm smoke (WP) projectile, Model ? 203-mm HE projectile, Model ? 76-mm guns 76.2-mm Naval antiaircraft gun 90-mm guns 105-mm guns or howitzers 155-mm howitzers 203-mm howitzers (Definitely not usable in 175-mm guns) (FOUO) Interchangeability (U) Fuze AZ DM 211 is redesignated AZ DM 41 when US booster M21A4 (or a German copy of M21A4) is used. Fuze AZ DM 211 is redesignated AZ DM 51 when used without a booster. Fuze AZ DM 211 is redesignated AZ DM 151 when booster ZDL DM 32 (German designation for US booster M125A1) is used. 2-65 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original Fuze, PD, Model AZ DM 211 FOM No. 1390-16-1-26 (FOUO) Interchangeability (Continued) (FOUO) Fuze AZ DM 211 is redesignated AZ DM 241 when a rain safety device is added and the fuze nose portion is filled with epoxy. 2-66 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, PD, Model AZ DM 71 FOM No. 1390-16-1-27 (FOUO) Description The AZ DM 71 is the West German designation for the US fuze, PDCP M78A1. This fuze was standard in the West German Armed Forces at least as late as 1969. Technical details on this fuze are covered in US TM 9-1300-203. (U) Applications (Ammunition and Weapons) Ammunition Weapons 105x373-mm HE ctg., Model ( ?) 155-mm HE projectile, Model (?) 203-mm HE projectile, Model (?) 105-mm guns or howitzers 155-mm howitzers 203-mm howitzers 2-67 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001 -75 Original (This page intentionally left blank) 2-68 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1150H-001-75 Fuze, PD, Model AZ DM 151 FOM No. 1390-16-1-28 (FOUO) Description According to an official West German publication, AZ DM 151 is the West German designation for US fuze, PD, M557. This fuze, manufactured by Diehl, was standard in the West German Armed Forces at least as late as 1969. The AZ DM 151 includes booster ZDL DM 32, a German model number for US booster M125A1, possibly manufactured in Germany. For technical details on the M557 fuze and the M125A1 booster, refer to US TM 9-1300-203. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 90x602-mm practice cartridge, Model (?) 105x373-mm HE cartridge, Model (?); 105x373-mm smoke (WP) cartridge, Model (?) 155-mm HE projectile, Model (?); 155-mm smoke (WP) projectile, Model (?) 175-mm practice projectile, Model (?) 90-mm guns 105-mm guns or howitzers 155-mm howitzers 175-mm guns, Model M107 (US) (FOUO) Interchangeability (U) Fuze AZ DM 151 is redesignated AZ DM 41 when US booster M21A4, (or a German copy of it) is used instead of booster ZDL DM 32. Fuze AZ DM 151 is redesignated AZ DM 51 when no booster is used. Fuze AZ DM 151 is redesignated AZ DM 211 when booster ZDL DM 42 is used. 2-69 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY 'ASI-11e0H-001-75 Original Fur zPD; Model AZ DM 151 FOM N.6:1390-16-1-28 (FOUO) Interchangeability (Continued) (Folio) Fuze AZ DM 151 is redesignated AZ DM 241 when booster ZDL DM 42 is used, the fuze nose is filled with epoxy, and a rain safety device is added. 2-70 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST,1160H401-75 Fuze, PD, Model AZ DM 241 FOM No.-1390-16-1-29 (FOUO) Description Fuze AZ DM 241 is a PD fuze with either SQ or delay (0.05 seconds) functioning (selectable). This fuze was designed specifically for use with 175-mm guns.AZ DM 241 is essentially a US fuze, PD, M572 with a rain safety device and German booster ZDL DM 42. Booster ZDL DM 42 is apparently designed in Germany, not copied from a foreign design. ZDL DM 42 employs an escapement mechanism to insure delayed arming. This fuze, manufactured by Diehl, was standard in the West German Armed Forces at least as late as 1969. Technical details pertinent to the booster mechanism and functioning of the rain safety device are unknown. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 175-mm HE projectile, Model (?) 175-mm guns (US M107) (U) Interchangeability Fuze AZ DM 241 uses many components also used in fuzes AZ DM 41, AZ DM 51, AZ DM 151, and AZ DM 211. 2-71 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-11601.1-001-75 Original (This page intentionally left blank) ( 2-72 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1 1BOH-001-75 Fuze, PDSD, Model AZZ DM 91 FOM No. 1390-16-1-40 (U) Description AZZ DM 91 is apparently the West German designation for fuze FZ 104 M2, designed by Bofors of Sweden and produced by a German manufacturer under license to Bofors. The FZ 104 M2 is a sensitive, reliable fuze with a pyrotechnic self-destruct element and contains a rain safety device developed by Bofors. For technical details relative to the FZ 104 fuze (FOM No. 1390-19-1-2) refer to page 2-199. (U) Characteristics Functional data: Arming method Setback and spin Firing method Impact or pyrotechnic self-destruct Safety devices Out-of-line detonator Arming distance 60 m - Arming time 0.06 s (approx) Self-destruct time 6.5 to 10.5 s Delay time 0.1 to 0.2 ms (FOUO) Status This fuze was standard in the West German Armed Forces at least as late as 1969. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 40 \ 365-mm HEI-T cartridge, Model SB-LS-Z 40-mm antiaircraft gun, Model L/70 (Bofors) 2-73 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original (This page intentionally left blank) 2-74 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 WILLAbblisitL/ Original 30i9 INCLASSIFIED) Figure 2-21. Fuze, PI) Model 21/78, lull view ( UNCLASSIF D 4STilfiOHMtjli Fuze, PH, Model 21/28 FOM No, 1390-174-1 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1150H-001-75 Original Fuze, PD, Model 21/28 FOM No. 1390 17 1-1 (U) Description The Model 21/28 PD fuze (fig 2-21) was developed by Brandt of France for use in mortar projectiles. Although considered obsolete, the fuze is included in this manual because of its design simplicity. The 21/28 is a simple setback-armed fuze designed for instantaneous action upon impact. The "21" indicates the major thread diameter, while the "28" of the model number indicates major body diameter of the fuze?both in millimeters. (U) Characteristics Fuze assembly: Body material Brass Weight Markings 21/28 B-35 Length overall 87.1 mm (3.43 in) Max diam 27.9 mm (1.10 in) Maj thread diam 20.8 mm (0.82 in) Booster: Body material Brass Body length 35.3 mm (1.39 in) Explosive Explosive weight 7 Functional data: Arming method Setback Firing method Impact Safety devices Arming distance 7 m Arming time 7 *Safety collar, safety spring, and primer locking ball 2-76 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (fig 2-22) N. 507929 i0 1.10 DIAM 82 DIAM 24 TPI AST-11601-001-75 Fuze, PD, Model 21/28 FOM No. 1390-17-1-1 ALL DIMENSIONS IN INCHES (UNCLASSIFIED) Figure 2-22. Fuze, PD, Model 21/28, section view (U). Upon firing, setback forces cause the safety collar (5) to move rearward against the safety spring (8). The primer locking ball (6) is thus released so that it can move outwards and free the primer holder assembly (7). In flight, the primer holder assembly can move forward under the influence of creep forces until it contacts the firing-pin spring guide (3). Movement of the inertial element is restrained by the spring (2). On impact, the firing pin (1) is pushed rearward, while the inertial element assembly moves forward. The unrestrained primer holder assembly moves forward relatively more rapidly than the inertial element and its associated components. As the firing pin enters the 2-77 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 ? Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11600-001-75 Original Fuze, PD, Model 21/28 FOM No. 1390-17-1-1 (U) Functioning (Continued) primer body cavity, the two primer detent balls (10) are pushed outwards to protrude into the cavity between the forward lip of the inertial element assembly (4), the firing-pin spring guide, and the firing pin. This locks the primer assembly to the forward moving inertial element. The momentum of the entire inertial assembly, rather than only that of the primer assembly, impales the primer (1) on the firing-pin point. Th6 flash from the primer then initiates the booster (9). (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectiles 81-mm mortars 2-78 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11608-001-75 Neg. (UNCLASSIFIED) 516923 Figure 2-23. Fuze, PD, Model V-18-I, full view (U). (U) Description Fuze, PD, Model V-18-I FOM No. 1390-174-2 The French V-18-I PD fuze (fig 2-23) was developed by Hotchkiss-Brandt for use with mortar projectiles. It is a setback-armed type designed for SQ functioning upon impact. 2-79 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model V-18-I FOM No. 1390-17-1-2 (U) Characteristics Fuze assembly: Body material Brass Weight Markings V-18-I Length 4.50 in (114.3 mm) Maj diam 1.25 in (31.7 mm) Booster: Body material Brass Body length 1.30 in (33 mm) Explosive Explosive weight 2 Functional data: Arming method Setback Firing method Impact Safety devices Safety spring, locking ball Arming distance 10 m Arming time 7 2-80 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (0) Functioning (fig 2-24) 20 4.3 Neg. 516922 1.25 DIAM .94 OIAM TPI 10 , AS1'-1160H-001-15 Fuze, PD, Model V-184 FOM No. 1390-17-1-2 (UNCLASSIFIED) Figure 2-24. Fuze, PD, Model V-18-I, contour and section views (U). On firing, setback forces cause the setback sleeve or safety collar (5) to move rearward against the safety spring or setback spring (8). The collar becomes wedged on the tapered surface at the rear end of the inertial-element assembly (4). The primer locking ball (6) is thus released so that it can move outwards and free the primer-holder assembly (7). In flight, the primer-holder assembly can then move forward under the influence of creep forces until its forward end contacts the firing-pin spring guide (3). Movement of the inertial element is restrained by the spring (2). 2-81 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H4:101-75 Original Fuze, PD, Model V-18-I FOM No. 1390-17-1-2 (U) Functioning (Continued) On impact the firing pin and striker assembly (1) is pushed rearward, while the inertial element assembly moves forward. The unrestrained primer-holder assembly moves forward relatively more rapidly than the inertial element and its associated components. As the firing pin enters the primer body cavity, the two primer detent balls (10) are pushed outwards to protrude into the cavity between the forward lip of the inertial element, the firing-pin spring guide, and the firing pin. This locks the primer assembly to the forward-moving inertial element. The momentum of the entire inertial assembly, rather than only that of the primer assembly, impales the primer (11) on the ruing-pin point. The shock wave from the detonation ignites the booster (9). (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectile M32, 81-mm HE projectile M35, 81-mm smoke projectile M32 120-mm HE projectile M44 81-mm mortar, Model 44 120-mm mortar, Models AM49 and M1951 2-82 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIW Original 4.0 136 .34 AST-1160H401-75 Fuze, PD, Model V-I9 FOM No. 1390.1T I3 ALL DIMENSIONS IN INCHES .88 DIAM .I7S MN FAM 13 TIM Neg. 516916 (UNCLASSIFIED) Figure 2-25. Fuze, PD, Model V?19, full and contour views (11). (Li) Description The V-19 PD fuze (fig 2-25) was developed by Hotchkiss-Brandt of France for use with 81-mm and 120-mm mortar projectiles. It is a setback, delayed-arming type designed for either instantaneous or delayed action upon impact. The fuze is considered bore safe as well as providing muzzle or trajectory safety 45 to 245 meters from the weapon. It takes a force of 500 g's to arm the fuze. (U) Unique Features Employs a detent system on the primer contained in a movable piston-like assembly. 2-83 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model V-19 FOM No. 1390-17-1-3 (U) Unique Features (Continued) ? Employs a torqued spring-loaded cylinder with a V-shaped channeling that houses the delay charge. ? The piston assembly detcnts the torqued cylinder that has to rotate 60? and 120? to line one of the V-channels with the primer flash channel. (U) Characteristics Fuze assembly: Body material Brass Weight 476.4 g (1.05 lb) Markings R and I Length 4.03 in (102.4 mm) Max body diam 1.88 in (47.8 mm) Thread diam 1.18 in (30 mm) TPI 13 Booster: Explosive type Tetryl Explosive weight 16.73 g (0.037 lb) Detonator type Tetryl Delay charge Black powder Functional data: Arming method Setback Firing method Impact Safety devices Detent on primer & torqued cylinder Arming distance 40 to 245 m Arming time 1 to 1.2s Delay time 0.05 s 2-84 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNL.LASSItitt) Original (U) Design Details 4ST-1160H-001-75 Fuze, PD, Model V-19 FOM No. 1390-17-1-3 Neg. 516914 (UNCLASSIFIED) Figure 2-26. Fuze, PD, Model V-I9, exploded view (U). The V-19 (fig 2-26) consists essentially of a nose (3), body (5), and booster (10). The nose houses the firing-pin assembly (2) and piston assembly (4). The body (5) has a transverse cavity into which a cylindrical selector (7) with a V-shaped channel housing a delay charge and its torsion spring (6) is located. It is sealed by the closing disk (8) and a lock ring (9). The booster (10) with the detonator located above is placed in the base of the fuze body 1,5). The closing cup (11) retains the booster, sealing it in place. 2-85 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model V-19 FOM No. 1390-17-1-3 (U) Functioning (fig 2-27) Original 1 PISTON ASSEMBLY INSTANTANEOUS Neg. 516918 DELAYED ACTION Figure 2-27. Fuze, PD, Model V-19, section view (U). (UNCLASSIFIED) Prior to firing, the setting stud is turned to either delay or instantaneous mode. The setting is provided by the eccentric pin of the cylinder (8), which is stopped by the stud when the fuze is armed. See instantaneous, delayed action, and safe position of the cylinder (8) illustrated in figure 2-27. The cylinder (8) is torqued by its torsion spring (5). The arming mechanism of the piston assembly (3) is located in the nose portion (2) of the fuze. Arming of the fuze occurs as follows: Within the piston sleeve (c) is a setback 2-86 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model V-19 FOM No. 1390-17-1-3 (U) Functioning (Continued) spring (f) which holds a brass safety sleeve (d) away from a brass plug (h). This prevents two steel locking balls (e) from moving outward and disengaging the primer housing (b). A locking sleeve (g), containing four prongs near its base, engages the safety sleeve (d) when setback force, resulting from the firing of the weapon, causes the locking sleeve to compress the spring. With the removal of the balls, the piston spring (k), assembled under compression, expands forcing the piston (c) to move forward toward the firing pin. Upon impact with the target, the firing pin (1) is driven downward against the primer(m) at the same time set-forward force moves the primer holder (g) towards the firing pin, causing the charge to initiate. The resultant flash is directed through a flash tube (j) into the charges of the selector cylinder (8). The selector cylinder (8), locked in the safe condition by the flash tube (j), serves in this position as an obturator. When the flash tube is withdrawn from the selector cylinder by the rising of the piston as described above, it is free to be positioned by means of the setting stud (4) and the action of the torsion spring (5) to produce either instantaneous "I" or delay "R" action of the fuze. The instantaneous or delayed action is thus controlled as follows: When in the "safe" position, the selector is locked from rotating by the flash tube. In this condition, a red dot can be seen through the transparent closing disk at the lower extremity of its vertical diameter. This will coincide with a red index on the lower fuze body. In the instantaneous action condition, the setting stud (4) is turned so that the torsion spring, one end of which is imbedded in the selector cylinder, rotates the cylinder until a passage is aligned with the flash tube to cause functioning of the relay into a detonator imbedded in the web of the lower fuze body directly over the booster cavity. Positioning the setting plug for delayed action (R) permits the selector cylinder to revolve until the flash tube directs the primer gases into a delay charge followed by a relay charge (6) before initiating a tetryl detonator pellet. Action of this pellet then functions the booster charge (7). 2-87 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11601110145 Original Fuze, PD, Model V-19 FOM No. 1390-17-1-3 (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectiles, Models M57 and M59 120-mm HE projectiles, Models PUPA ED PEPA L-P and 1944 81-mm Brandt mortar, Model 1944 120-mm Brandt mortars, both lightweight and heavyweight models 2-88 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11608-001-75 Fuze, PD, Model SC-12 FOM No. 1390-17-14 Neg. 515145 (UNCLASSIFIED) Figure 2-28. Fun, PD, Model SC-12, section view (U). i 2-89 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160/1-001-75 Fuze, PD, Model SC-12 FOM No. 1390-17-1-4 (U) Description Original The French SC-12 PD fuze (fig 2-28) is a setback, delayed-arming-type design for a long or short delay, depending on the setting. It was developed by Societe Nouvelle d'Etudes et de Mechanique (SNEM) of Romainville, France, for use on 60-mm mortar projectiles. The fuze has been sealed to assure waterproofness and tightness of assemblage. (U) Unique Features ? Clockwork mechanism for controlling the delayed arming. ? Rotatable cap for positioning the rack (i.e., slider). ? An inertial lock or setback device for detenting the balance wheel of the clockwork mechanism coupled to the rack or slider. (U) Characteristics Fuze assembly: Body material Weight Markings Length Booster: Body material Body length Explosive 148 g (0.326 lb) SC-12 72 mm (2.83 in) 7 Explosive weight Functional data: Arming method Firing method Safety devices Arming distance Arming time Delay time Setback; clockwork mechanism Impact Inertial lock* 7 7 *The inertial lock detents the balance wheel. The cap or nose portion of the fuze can be moved by band to the secure position setting. This moves the rack or slider between the two spring-loaded knobs as illustrated in figure 2-29 2-90 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Characteristics (Continued) Inertia-lock in high position locking the clock-work Inertia lock locket *1 AST-1160H-001-75 Fuze, PD, Model SC-12 FOM No. 1390-17.1-4 Drivm finger Rack not in line Inertia-lock locking the clock-work Neg. 515143 Reck is between 2 driving knobs C? (UNCLASSIFIED) Figure 2-29. Fuze, PD, Model SC-12, section view depicting components in safe position (U). 2-91 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001 -75 Original Fuze, PD, Model SC-12 FOM No. 1390-17-1-4 (U) Design Details The SC-12 fuze consists of a cap (i.e., nose portion), fuze body, and booster assemblage. The nose portion is bored out to facilitate assembly of the firing-pin assembly and the escapement mechanism. The firing-pin assembly includes the striker head, coil spring, and firing pin. An "0" ring seals the striker head, assuring tightness between striker head and forward portion of the nose. The clockwork mechanism includes the driving gears, balance wheel, and pinion (called a driving finger by SNEM) that engages the rack or slider that houses an out-of-line primer-detonator. The balance wheel is detented by a setback device that includes an inertial lock coupled to a setback spring and a locking finger (i.e., setback pin) with another setback spring. A driving finger is fixed to the cap and coupled to the gearing of the clockwork mechanism which controls the movement of the rack or slider. The fuze body, which is fitted to the nose portion or cap, is sealed by an "0" ring to assure tightness of assemblage. The nose portion or cap can be rotated by hand to three different settings. These are "TC" for short trajectory security, "S" for security position, and "TL" for long trajectory security. The marks or lines on the cap portion are aligned with a scribe mark on the fuze body. When the setting is on "S," the rack (i.e., slider) is rotated so it is between two spring-driven knobs located 90? apart. The lower portion of the fuze body is counterbored and threaded internally to facilitate assembly of the relay and booster cups. (U) Functioning Prior to Firing, the cap is rotated by hand to either the short (TC) or long (TL) delay arming setting. This brings the rack or slider opposite to one of two spring-loaded knobs, as illustrated in figure 2-30, 2-92 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 (U) Functioning (Continued) Inertia-lock is freed but remains In position Fuze, PD, Model SC-12 FOM No. 1390-17-1-4 Rack in the axis of driving spring Neg. 515146 (UNCLASSIFIED) Figure 2-30. Fuze, PD, Model SC-12, section view depicting delay-arming selection (U). 2-93 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model SC-12 FOM No. 1390-17-1-4 (U) Functioning (Continued) Original Upon firing, setback forces moves the inertial lock and locking pin rearward, compressing their springs as illustrated in figure 2-31. The inertial-lock is kept locked on setback by its locking finger. With the balance wheel released, the clockwork now functions along with the spring-loaded knobs, which moves the rack, delayed only by the clockwork, dependent on setting. After the prescribed delay time, the primer-detonator lines up with the firing pin, as illustrated in figure 2-32. The fuze is now armed. Inertia?lock lowered and locked Balance wheel free (clockwork may function) Neg. 515142 (UNCLASSIFIED) Figure 2-31. Fuze, PD, Model SC-12, section view depicting inertial lock in rearward position (U). 2-94 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (Continued) AST-1160H-001-75 Fuze, PD, Model SC-12 FOM No. 1390-17-14 The rack primer is in line with the other arts of fire line Neg. 515141 (UNCLASSIFIED) Figure 2-32. Fuze, PD, Model SC-12, section view depicting fuze in armed position (U). 2-95 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11 50H-001-75 Fuze, PD, Model SC-12 FOM No. 1390-17-1-4 (U) Functioning (Continued) Original Upon impact, setback moves the striker head rearward, compressing its spring and allowing the firing pin to stab the primer (as illustrated in figure 2-33). This in turn ignites the relay and booster, resulting in instantaneous detonation of the projectile. The firing pin hits first primer Neg. 515139 (UNCLASSIFIED) Figure 2-33. Fuze, PD, Model SC-12, section view depicting firing pin action upon impact (U). 2-96 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (Continued) AST-11600-001-75 Fuze, PD, Model SC-12 FOM No. 1390-17-14 If the projectile grazes the ground upon impact, the primer-detonator moves forward through inertia, striking the firing pin (as illustrated in fig 2-34) and instantaneously detonating the projectile. Neg. 515140 (UNCLASSIFIED) Figure 2-34. Fuze, Pi), Model SC-12, section view depicting action upon graze impact (U). 2-97 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001 -75 Original Fuze, PD, Model SC-12 FOM No. 1390-17-1-4 (U) Applications (Ammunition and Weapons Ammunition Weapons 60-mm HE projectile, Model FA-MK 47 60-mm mortars, Model 1961 2-98 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED ASTi6QHOO1J5 I'D Model FULF2 390-17.1-11. ALL IMENSONS N MILliMeTERS LINE AM BS PITCH 2 IAM A CLASSIFIED) 235 Fuze PD, Model FUI-F2, dimensioned cutaway view (U). 2-99 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model FUI-F2 FOM No. 1390-17-1-11 (U) Description The FUI-F2 (fig 2-35) is a setback-armed PD fuze designed for use on fin-stabilized projectiles with a slow spin. It is restricted to use on projectiles having a spin rate of less than 50 r/s. The FUI-F2 is designed for graze functioning at angles of 10 to 11/2?, regardless of terrain. (U) Unique Features ? Employs a conical-shaped block permitting an all-ways acting canning action for graze functioning. ? Also features a torqued-spring rotor housing an out-of-line detonator which is detented by a locking ball and setback device. (U) Characteristics Fuze assembly: Body material 7 Weight 530 g (1.17 lb) Markings FUI-F2 Booster: Body material Body length 28 inm (1.10 in) Explosive Explosive weight 7 Functional data: Arming method Setback Firing method Impact Safety devices Arming distance 6 ni Arming time *Detcnt (two-locking balls) on prinwr-holder and detent (loaking ball) on rotor .1 hi y 2-100 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AS7-1160H-001-75 Fuze, PD, Model FUI-F2 FOM No. 1390-17-1-11 (U) Design Details `..GLOSURE DISC FIRING PN SPRING FIRING PIN 'SOCKET 'FUZE NOSE ;PRIMER HOLDER GUIDE ROTOR FUZE BODY TORQUED SPRING ;SETBACK SLEEVE ;SETBACK SPRING ,DETENT BALL(S) PRIIMER HOLDER Neg. 516543 SPLIT COLLAR ONICAL SHAPED BLOCK ,SETBACK CUP SETBACK CUP SPRING ENTRAL TUBE FIXED PIN 'RELAY BOOSTER ASSEMBLY BOOSTER (UNCLASSIFIED) Figure 2-36. Fuze, PD, Model FUI-F2, cutaway with components (U). The FUI-F2 fuze (fig 2-36) consists of a nose, body, and booster assemblage. The nose portion of the fuze is sealed by a closure disk providing rain safety. It contains the firing-pin and primer assemblies. The firing-pin assembly consists of the firing pin, its spring, and a socket that plugs into the primer-holder guide of the primer assembly. This assembly includes the primer-holder guide, primer holder, primer, central tube, and split collar. 2-101 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model FUI-F2 FOM No. 1390-17-1 II (U) Design Details (Continued) The primer-holder guide and primer holder are recessed to hold two locking balls that provide a detent on the primer. The two locking balls are held in place by a setback sleeve and spring. The nose portion of the fuze is threaded externally. Pationed internally at this threaded area is a conical-shaped block for mating with the conical-shaped head of the primer-holder guide, providing an always acting camming action. The fuze body, which screws on to the externally threaded nose portion, houses a torqued spring rotor containing the out-of-line detonator. The rotor is detented by a locking ball held in place by a setback device consisting of the setback cup, setback spring, and fixed pin. Beneath the central tube is a pentrite relay positioned over the booster. The booster assembly is then screwed onto the fuze body, completing the fuze assembly. (U) Functioning (fig 2-37) Upon firing, the setback sleeve (1) moves its spring (2) rearward, freeing the two locking balls (3) which fall into the cavity (4) of the nose portion of the fuze. Simultaneously, the firing pin (10) moves against its spring (11) while the setback cup (5) moves rearward against its spring, releasing the locking ball (7) undetenting the rotor (8). The rotor, by virtue of its spring, now moves the detonator in line, arming the fuze. Upon dissipation of setback forces, the primer holder (9) and firing pin (10) move forward against a closure disk by expansion of springs (2 and 11). Upon impact, the firing pin (10) stabs the primer (12) which flashes through the central tube (13) to the detonator which in turn ignites relay (14), setting off the booster (15), resulting in the detonation of the high explosive filler of the projectile. If the projectile strikes at angles of 10 to 1.5?, grazing functioning is provided by the all-way camming action provided by the conical-shaped block (16). Figure 2-38 depicts component movement during firing, in the armed position, and upon graze functioning. 2-102 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Functioning C n ued) AST-1160H-001-75 Fuze, PO, Model ['Ur-F-2 FOM No.139017141 17 2 eg. 5Ui54I (UNCLASSIFIED) Figure 2-37, Fu2c, PD, Model FUI-F2, section 2403 UNCLASSIFIED VI U). Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model FU!-F2 FOM No. 1390-17-1-11 (U) Functioning (Continued) DURING FIRING Neg. 516542 Original ARMED POSITION GRAZE FUNCTIONING (UNCLASSIFIED) Figure 2-38. Fuze, PD, Model FUI-F2, functioning views (U). 2-104 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 , Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H4101-75 Fuze, PD, Model FUI-F2 FOM No. 1390-17-1-11 (U) Applications (Ammunition arid Weapons) Ammunition Weapons 90-mm HE projectiles, Model 0E-90-F1 90-mm gun, Model CN-90-61, on ELC Even LT tank and modified AML Panhard 2-105 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Onginal AST-1160H-001-75 Fuze, PD, Model V 5 FOM No. 1390-17-1-12 Neg. 515166 (UNCLASSIFIED) Figure 2-39. Fuze, PD, Model V-5, section view (U). 2-107 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model V-5 FOM No, 1390-17-1-12 (U) Description The V-5 PD fuze (fig 2-39) is a setback, delayed-arming type designed for either instantaneous or delay action upon impact. The fuze was developed by Societe Nouvelle d'Etudes et de Mecanique (SNEM) for use with 81-mm and 120-mm mortar projectiles. It was designed to meet NATO specifications to assure total security against double-loading dangers and premature explosions within a minimum distance of 50 meters from the muzzle of the weapon. (U) Unique Features ? Employs out-of-line primers and detonator. ? Employs detents on firing pin and balance wheel of clockwork mechanism. ? Employs clockwork for delayed arming of fuze. ? Employs a cap (i.e., upper fuze body) coupled to a driving pin for selection of either instantaneous or delay action mode. ? Employs a rubber shock absorber. (U) Characteristics Fuze assembly: Body material Weight Markings Booster: Body material Body length Explosive Explosive weight 2-108 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model V-5 FOM No. 1390-17-1-12 (U) Characteristics (Continued) Functional data: Arming method setback Firing method Impact Safety devices * Arming distance 50 m Arming time 1.00 s Delay time 0.05 s (U) Design Details The V-5 fuze (fig 2-39) consists of movable cap (i.e., upper fuze body), a lower fuze body, and a booster assemblage. The movable cap (20) is bored out to house the firing-pin assembly consisting of the striker cup (1), striker head (2), coil spring (18), and the firing pin (19). The firing-pin guide or flange (21) is locked in place by a snap ring (4). A driving pin (22) is fastened to the flange and fits into a slot cut into the primer drum (24), which is in an offset position from the fixing pin. The primer drum (24) houses the instantaneous and delay primers (A), which are in the out-of-line position when the arrow on the movable cap or upper fuze body (20) is aligned with the letter "S" located on the lower fuze body (32). When the arrow lines up with the letter "R" on the lower fuze body, the delay primer (A) is positioned directly beneath the firing pin (19). When the arrow lines up with the letter "I," the instantaneous primer lines up with the firing pin and the central tube (29). The forward portion of the upper fuze body or cap (20) is sealed by an "0" ring (3). At the internal shoulder where the striker cap (1) seats, an external portion of the cap (20) is cut out to facilitate assembly of a rubber shock absorber (17) to dampen the effect of the fuze upon impact. A set screw (8), ring (23), and 0-ring (25) assure tightness of the assembly of the lower fuze body (32) to the upper fuze body or cap (20). *Two detent balls and inertial lock de tenting balance wheel and a detent ball and lever detenting firing pin. 2-109 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model V-5 FOM No. 1390.17-1-12 (U) Design Details (Continued) The detent on the firing pin (19) consists of a lever (5), piyotable lever pin (9), lever spring (7), and a lock ball (6). The detent on the balance wheel (28) of the clockwork mechanism (30) mounted on plate (26) consists of two lock balls (10), an inertial lock pin (11), and a setback spring (14) contained in a spring housing (15). The lower fuze body has two openings cut transversally, one to house the spring plug (12), rack (i.e., slider) spring (13), and the other for insertion of an inspection plug (27). The rack or slider (31) houses the detonator "B," which is kept in the out-of-line position until the fuze is armed. The booster assembly (16) containing the booster "D" located beneath the relay charge "C" is fitted to the lower fuze body completing the assemblage. Design details of the clockwork mechanism and its interface with other fuze components are illustrated in figure 2-40. The clockwork consists of a main wheel or gear (35), an escapement wheel (36), the balance wheel (28), the clockwork frame (30), and mounting plate (26). 2-110 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details (Continued) AST-1160H-001-75 Fine, PD, Model V-5 FOM No. 1390-17-1-12 SAFETY POSTION INSTANTANEOUS POSITION Neg. 515163 TIME DELAY (UNCLASSIFIED) Figure 2-40. Fuze, PD, Model V-5, details of clockwork (U). 2-111 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1 TOOR-001-75 Fuze, PD, Model V.5 FOM No. 1390-17-1-12 (U) Design Details (Continued) Original Design details of the rack or slider (31) housing the detonator in the armed and unarmed position are illustrated in figure 2-41. The rack (31) interfaces with the clockwork (30). The spring-loaded slider consists of the spring plug (12) and spring (13). rack before cocking rack after cocking mechan.sm h?s opefated, Neg. 515164 (UNCLASSIFIED) Figure 2-41. Fuze, PD, Model V-5, details of rack (U). 2-112 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, PD, Model V-5 FOM No. 1390-17-1-12 (U) Design Details (Continued) Design details of primer drum (24) and its interface with other fuze components are illustrated in figure 2-42. This view depicts the safety, instantaneous, and delay positions of the primers. Neg. 516919 (UNCLASSIFIED) Figure 2-42. Fuze, PD, Model V-5, details of primer drum (U). 2-113 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model V-5 FONT No. 1390-17-1-12 (U) Functioning (fig 2-43) BALANCE WHEEL BLOCKED BY INERTIAL LOCK PIN BALL RETAINING THE INERTIAL LOCK PIN SPRING UNDER TENSION FIRING PIN LEVER LOCKED Original BALANCE WHEEL FREE TO MOVE BALLS FREEING THE INERTIAL LOCK PIN SPRING TENSION RELEASED, INERTIAL LOCK PIN RESTRAINED FIRING PIN LEVER RELEASED Neg. 515165 SAFETY POSITION COCKED POSITION Figure 2-43. Fuze, PD, Model V-5, section view, armed and unarmed positions (U). 2-114 UNCLASSIFIED (UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11601140145 Fuze, PD, Model V.5 FOM No. 1390-17-1-12 (U) Functioning (Continued) In the safety position no functioning parts can move, all parts being locked or detented. The detent on the firing pin is provided by a firing-pin lever (5), a lock ball, and a pivot pin. The detent on the balance wheel (28) is locked by two balls (10), a setback inertial-lock pin (11), and a setback spring (14). This detent is then put under tension by the lever spring (7). For delay or instantaneous action, the movable cap is rotated to either the "R" or the "I" setting on the lower fuze body. This moves the delay or the instantaneous primer in line with the firing pin. Upon firing, setback forces the inertial lock (11) rearward against its spring (14), releasing the lock ball (10). Instantaneously the firing-pin lock ball is released, allowing the lever (5) to pivot on its pin freeing the firing pin. The inertial lock is prevented from moving forward by lever spring (7). Upon impact, the firing pin stabs the primer, initiating the detonator and in turn the relay charge and booster (16), resulting in the detonation of the high explosive charge of the projectile. If the projectile grazes the ground, the primer drum (24) moves forward and the primer stabs the firing pin, resulting in initiation of the explosive train as indicated above. (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectiles 120-mm HE projectiles 81-mm mortars 120-mm mortars 2-115 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNLLASSINEV AS74160H410145 h I lie, PD, Model V19-P FOM No. 1.390171-17 :NO 5144 44 Fuze PD, Model V-19-P, full vie UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model V -19-P FOM No. 1390-I 7-1-17 (U) Description The V-19-P fuze (fig 2-44) is an improved version of the V-19 fuze (FOM No. 1390-17-1-3). Like the V-19, it is a setback, delayed-arming type intended for use with fin-stabilized 81-mm and 120-mm mortar projectiles. It is designed to assure bore safety and muzzle safety as well as to withstand parachute delivery. (U) Unique Features ? Movable nose to permit setting of fuze from safe to fire position. ? The use of locking plate pinned to the nose of the fuze for detenting the setback sleeve when fuze is set in a safe position. ? Unique piston assembly which detents a torqued cylinder housing an out-of-line detonator. (U) Characteristics Fuze assembly: Body material Brass* Weight 390 g (0.86 lb) Markings T S R 1 Booster: Body material Aluminum Body length Explosive Tetryl Explosive weight 16.23 g (0.036 lb) ?Another model, the V-19-ra, is manufactured with a light aluminum alloy body instead of brass, reducing the weight to 200 gra nis (0.44 lb) This version is intended for 8i-mm projectiles only. 2-118 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11608-001-75 (U) Characteristics (Continued) Functional data: Arming method Setback Firing method Impact Safety devices * Arming distance 50 to 250 m Arming time 1 to 2 $ Delay time 0.05 $ (U) Design Details 1 2 3 4 5 6 7 8' 9 ?10 Fuze, PD, Model V-19-P FOM No. 1390-17-1-17 Neg. 515148 17 18 19 (UNCLASSIFIED) Figure 2-45. Fuze, PD, Model V-19-P, section view, safe position (U). *Two detent balls, detenting piston assembly having a central tube that detents cylinder housing out-of-line detonator, and a safety locking plate detenting the locking bans. 2-119 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model V-19-P FOM No. 1390-17-1-17 (U) Design Details (Continued) The fuze (fig 2-45) consists of a movable nose (4), brass fuze body (18), and booster (19) assembly. The movable nose (4) is bored out to house the firing pin and unique piston assembly (5). The firing-pin assembly includes a firing-pin cup (1), its spring (2), a nail-like firing pin (3), and a flange that acts as a seat for the spring (2). The assembly is sealed by an "0" ring to assure tightness of assemblage. Fitted into the rear of the nose is the piston assembly (5) which houses the primer (6) positioned in a central flash tube that locks the cylinder (17) to prevent its moving. The detent system on the piston (5) includes two metal balls (9) held in place by a setback sleeve (7), a setback spring (10), and a locking plate (13) pinned to the movable nose which has a slot for camming the plate under the setback sleeve (7). This happens when the fuze nose is turned by hand to the safe position. The locking plate detents the sleeve (7) and precludes movement of the detent balls, (10) assuring safe delivery by parachute drop. Additionally, a safety retainer ring (12) with four prongs is positioned under the sleeve (7) and held in place by the setback spring (10). Upon setback during firing, the ring (12) latches onto the sleeve (7) and prevents the spring (10), which is compressed, from expanding when setback forces are dissipated. This allows the piston (5) housing the primer to move forward towards the firing pin (3) by expansion of a spring (11) assembled in a compressed state. This simultaneously moves the central tube forward undetenting or releasing the torqued cylinder (17). The brass fuze body (18) is fitted to the movable nose (4) by a retaining ring (8). A hole transversally cut through the fuze body (18) houses the cylinder (17) which has an eccentric pin or stud. , The cylinder also has two bored holes forming a "V." In one of the legs there is a delay charge (21); the other leg is empty. Both legs terminate on the detonator (20). The cylinder assembled under torsion by a spring (16) is retained by a stop (14) and a transparent selector (15). The selector with its stop can be turned to either instantaneous (I) or delay action (R) by the eccentric pin of the cylinder (17). 2-120 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNLLASSWiEU Original (U) Design Details (Continued) 4511160H4:101-15 Fuze. PD, Model 17-19.P FON No, 1390-17t17 Directly beneath the cylinder are two openings drilled through the base of the fuze body for housing two tetryl relays (22). In addition, the interior of the fuze body is bored and threaded to facilitate assembly of the tetryl booster pellet (19) which is sealed by a closing cup. The exterior of the rear portion of the fuze body (18) is threaded for assembling into either an SI-trim or 120-mm mortar projectile. (U) Functioning Ne 515150 (UNCLASSIFIED) Figure 2-46. Fuze, PD, Model V-19-P, section view depicting setback action (U). 2 121 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model V-19-P FOM No. 1390-17-1-17 (U) Functioning (Continued) Prior to functioning (fig 2-46), the selector (15) is moved to either the instantaneous (I) or delay (R) mode of functioning. The movable nose is placed in the "1' position, indicating ready for firing. Upon firing, setback causes the setback sleeve (7) to move rearward compressing its spring and the sleeve is locked in place by four prongs of the safety retainer ring (12). Simultaneously, the piston (5) housing these components moves rearward, further compressing the spring (11). The detent ball (9) now moves out into a cavity of the piston assembly (5). This releases the piston containing the primer and central tube which is pushed toward the firing pin by expansion of a spring (11) when setback forces dissipate. The central tube detenting the cylinder is moved forward, undetenting the torqued cylinder. When the piston has stopped moving forward, the cylinder (fig 2-47) is released and rotates 600 or 120?, depending on the position of the selector (15) which rests against the eccentric pin of the cylinder. The fuze is now armed. (See both delayed and instantaneous positions of the cylinder.) Neg. 515149 (UNCLASSIFIED) Figure 2-47. Fuze, PD, Model V-19-P, section view depicting components in armed position (U). 2-122 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNLIAbbitlti) AST,11 -001-75 Fuze, PD, Model V19P FOM N0.1390-1 Functioning (Co In ?the armed position, the firing pin enters? the as tube directly above the (6). Upon Impact (fig 2-48), the firing-pin cup compresses a spring (2) while the piston. (5) is flung forward, The point of the firing pin stabs the primer which flashes through the central tube, one of the legs of the V the cylinder, depending on the setting, If set for instantaneous, it. flashes through the %/beg housing the instantaneous charge, ting the detonator whieh in turn is relayed by charge (4resulting in the detonator of booster (i9), Neg. 515147 'NCLASSIF1ED1 Figure 2-48. Fun, PD, Model V-19-P section view depicting firing-pin and lucking-plate camming action (U) 2-123 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED , AST-1160H-001-75 Original Fine, PD, Model V-19-P FOM No. 1390-17-1-17 (U) Functioning (Continued) If set for delay, it flashes through the V-leg housing the delay charge, which burns for 0.05-second delay, then initiates the detonator and in turn the relay charge and booster. The camming of the locking plate with the fuze nose in the safe position is shown in figure 2-48. The locking plate is positioned under the setback sleeve and precludes movement of the metal balls, making the fuze safe for dropping by parachute. When in the fire position, the locking plate is cammed away from the setback sleeve, which now allows the sleeve to lock onto the four prongs of the safety retainer ring, releasing the balls. (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm projectiles 120-mm projectiles 81-mm Brandt mortar 120-mm Brandt mortar 1-114 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Neg. 517009 AST-1160H-001-75 Fuze, PDSD, Model FDPA 1502 FOM No. 1390-17-1-18 1. Lower body (aluminum alloy) 2. Armmg coil (annealed brass) 3. Self-destruct housing (steel) 4. Firing pin body (aluminum alloy) 5. Firing pin (stainless steel) ? 6. Self-destruct balls (6) (steel) ' 7. Firing pm spring (spring steel) 8. Closing disk (aluminum alloys) 9. Upper body (aluminum alloy). 10. Conical surface of self-destruct housing 11. Lock pin (steel) 12. Closing washer (cardboard) 13, Primer 14. Primer holder (aluminum alloy) 15. Closing washer (cardboard) 16. Delay detonator 17,, 18., 19., 20., and 21. Flash channels in primer holder providing delay in fuze functioning (UNCLASSIFIED) Figure 2-49. Fuze, PDSD, Model FDPA 1502, section view (U). (U) Description The French PDSD fuze FDPA 1502 (fig 2-49) is designed for 30x97-mm ammunition for automatic aircraft cannon, Types 3 CCF and DEFA 540 and 541. The fuze does not have an out-of-line detonator. 2-125 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Model FDPA 1502 FOM No. 1390-17-1-18 (U) Characteristics Fuze assembly: Body material Aluminum alloy Weight Markings Booster: Body material 7 Body length Explosive Hexal 85/15 Explosive weight Functional data: Arming method Spin Firing method Impact Safety devices Arming coil Arming distance 7 Arming time 7 Self-destruct time 0.05 s Delay time (U) Functioning This fuze is similar in design and function to the West German fuze, PDSD, Model AZZ DM 31. In storage and transport, the firing-pin body is restrained from contact with the detonator by an arming coil. Upon firing, setback forces acting on the closing disk and firing-pin spring press the firing-pin body against the arming coil, preventing it from uncoiling. As acceleration ceases and setback pressure is removed, centrifugal force moves the six steel balls radially outward against the conical surface of the self-destruct housing, raising the firing-pin body against the pressure of the firing-pin spring. Released from restraint, the arming coil unwinds until it lies against the inner wall of the lower body. The time required for the arming coil to unwind after setback ends provides bore and muzzle safety. At this point the fuze is armed. Upon striking a target, impact on the closing disk is transmitted through the firing-pin spring, increasing the pressure against the firing-pin body and overcoming the centrifugal 2-126 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model FDPA 1502 FOM No. 1390-17-1-18 (U) Functioning (Continued) force that causes the six steel balls to restrain the firing pin, until the firing-pin spring forces the firing-pin body against the primer to initiate detonation. The flash from the primer passes through channels in the primer holder before reaching the delay detonator, which in itself has a 0.001-second pyrotechnic delay. The overall delay is believed to be about 10 ms. If the fuze fails to hit a target, centrifugal force weakens as rotation decays until the pressure of the firing-pin spring overcomes centrifugal force. At this point, the firing-pin spring drives the firing pin into the detonator to initiate self-destruction. This fuze does not have an Out-of-line detonator. (U) Applications (Ammunition and Weapons) Ammunition Weapons 30x97-mm B HEI or HEI-T cartridge, Model? 30-mm automatic gun, Model 3 CGF; DEFA Models 540 and 541 2-127 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, PDSD, Model FUA 723 (France) FOM No. 1390-17-1-21 ? ? A ? in". k ?ti MAII # 1 a rt en I tki I N 1.1 IA \ % :, N L 4k _A joill' IVA Ilk :11 11/4.- irs 4 k Valois :7,-`77-= srp, '7 4,?, ail p try t ?Lar to 0,414..oreo.;01?..4?0,4_,.._ oi.s...???....et I.\ 11,7.4* 0 1 I ? 0 1 /Aida A I LRIVIMM 4 A I I " Pei Ay: *et. ?iri 411IPAS we 4, se ??? ? . titas?st?-?-?-?. ....% PLUNGER STRIKER SPRING STRIKER BODY ARMING BALL SELF-DESTRUCT HOUSING SPLIT RING FIRING PIN BALL ROTOR -DUAL DETONATORS LOWER DETONATOR BOOSTER Neg. 517139 (UNCLASSIFIED) Figure 2-50. Fuze, PDSD, Model FUA 723, section view (U). 2-129 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1150H-001-75 Original Fuze, PDSD, Model FUA 723 (France) FOM No. 1390-17-1-21 (U) Description The FUA 723 fuze (fig 2-50) represents one of the most recent developments of a detonator-safe fuze for small-caliber projectiles. It combines a mechanical self-destruct mechanism with an out-of-line detonator in a Ball rotor to provide a muzzle safety distance of 15 meters. (U) Unique Features The fuze has several unusual features: (1) a highly-finished ball rotor surface, which increases arming time; (2) a split safety-rmg that retains the rotor in safe position until setback ceases; (3) two detonators in ball rotor, to insure functioning regardless of which detonator is adjacent to the firing pin: (4) a fuze design that emphasizes simplicity, for automated assembly and low cost. (U) Characteristics Fuze assembly: Body material Weight Markings 7 Booster: Body material Body length Explosive 7 Explosive weight Functional data: Arming method Spin Firing method Impact Safety devices Detonator rotor; safety ring Arming distance m Arming time Self-destruct time 6 s Delay time 2-130 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model FUA 723 (France) FOM No. 1390-17-1-21 (U) Characteristics (Continued) The fuze is composed of a one-piece, watertight fuze body bored out from the rear to receive components. A striker body containing four steel arming balls is located in a self-destruct housing. A split safety-ring retains the ball rotor and striker body in safe (unarmed) position. The ball rotor contains two detonators, 180? apart; in safe position the rotor is 90? out-of-line with the firing pin. A lower detonator insures high-order detonation of the booster. Detailed data on the fuze are not available. (U) Functioning During storage and transport, the striker spring forces the striker body against the split safety-ring, which secures the ball rotor in an out-of-line position. Upon firing, setback forces augment the pressure of the setback spring to prevent centrifugal force from acting on the arming balls and split safety-ring. The ball rotor is thus held in its out-of-line position until setback ceases and deceleration commences. At this point, centrifugal force acts simultaneously on the four arming balls and the split safety-ring, forcing the striker body forward and further compressing the striker spring. The sections of the safety-ring move outward until they lie against the wall of the recess in the self-destruct housing. This leaves the ball rotor free to move. Because of its inertia and the reduced friction of its polished surface, the ball rotor acquires rotational velocity only gradually from the projectile. At a point approximately 15 meters from the gun muzzle, the rotor has reached the projectile's spin rate, and its two detonators are aligned with the firing pin and the lower detonator. It is immaterial which of the two rotor detonators is adjacent to the firing pin; either one will function on impact, while the other serves to transmit the detonation to the booster. At this point the fuze is fully armed. Upon impact with a target, the thin fuze nose is crushed, and the plunger transmits the impact to the striker body. This shock, added to pressure of the striker spring, overcomes the centrifugal force of the arming balls that has restrained rearward motion of the striker body; the striker body is forced to the rear and thrusts the firing pin into the detonator to initiate functioning. Should the projectile fail to strike a target, projectile spin will continue to decay with time and range until the centrifugal force acting on the arming balls becomes weaker than the pressure of the compressed striker spring. At this point the striker spring forces the striker body rearward; the firing pin is thrust into the detonator, and self-destruct is initiated. 2-131 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST:1160H -001-75 Original Fuze, PDSD, Model FUA 723 (France) FOM No. 1390-17-1-21 (U) Functioning (Continued) The 723 fuze functions instantaneously, with no delay on impact, with material equal to or greater than 0.5-mm aluminum, or paperboard of a weight of 1 kg/m2, at angles of obliquity up to 85?. It will not function against paperboard weighing 200 g/m2, which corresponds to a large (2-mm diameter) raindrop. The 723 fuze is designed for use in gun barrels with 7? rifling, but can be used in barrels with 5? or 6? rifling; under these conditions self-destruct will occur after a time of flight somewhat less than 6 seconds, depending on the muzzle velocity and pitch of rifling. (U) Applications (Ammunition and Weapons Ammunition Weapons HEI, HEI-T projectiles 20x139-mm HS 820-type gun, 20x102-mm M 56-type gun 2-132 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original 7 Neg. 516780 Figure 2-51. Fuze, PD, Fuze, PD, Model FIRUSAT FOM 139018-1-6 FIRUSAT, con 2133 (UNCLASSIFIED) rand section views (U). UNCLASS FIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-0O1 -75 Original Fuze, PD, Model FIRUSAT FOM No. 1390-18-1-6 (U) Description The Swiss PD fuze, Model FIRUSAT (fig 2-51), was developed by Setisa S.A. of Geneva, Switzerland, for use with 81-mm and 120-mm mortar projectiles. It is a setback, delayed-arming type designed for instantaneous action with a graze-sensitivity feature. It has been tested for jolt, primer safety, double loading, and muzzle security. (U) Unique Features ? Runaway escapement mechanism detenting firing pin. ? Locking pin derenting spring-loaded slider blocking detonator. ? Inertial-type primer holder providing graze feature. ? Plunger-type striker head permitting instantaneous action. (U) Characteristics Fuze assembly: Body material Nickel-plated brass Weight 9.04 oz (256.3 g) Markings FIRUSAT-1 Length 4.2 in (106.6 mm) Max diameter 1,23 in (31.2 mm) Thread diam 0.92 in (23.4 mm) Primer: Explosive: 1st charge 2nd charge Explosive weight Potassium chlorate, antimony, sulfide, and mercury fulminate Black powder 0.06 g (0.92 gr) 2-134 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Characteristics (Continued) AST-116014-001-75 Fuze, PD, Model FIRUSAT FOM No. 1390-18-1-6 Detonator: Explosive type Lead styphanate, lead azide, PETN Length 0.91 in (23.1 mm) Max diam 0.61 in (15.5 mm) Min diam 0.38 in (9.7 mm) Functional data: Arming method Setback Firing method impact Safety devices Arming distance 25 m, min charge; 40 m, full charge Arming time Self-destruct time Delay time Frequency (for VT fuze only) Sensitivity of functioning: At 100 m Sand (including desert sand) Fresh snow Swamp lands DNA DNA DNA Upon impact 2-mm cardboard Upon impact Upon impact Upon impact 'Lod:mg pin de tent mg dider taloa Fang detonator ,ind r LI ml WA% esL apcmcnt de(C11t tug (-mug pin. 2-135 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model FIRUSAT FOM No. 1390-18-1-6 (U) Design Details Neg. 516778 (UNCLASSIFIED) Figure 2-52. Fuze, PD, Model FIRUSAT, section view (U). 2-136 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model F1RUSAT FOM No. 1390-18-1-6 (U) Design Details (Continued) The FIRUSAT fuze (fig 2-52) consists primarily of a nickel-plated brass fuze body (14) bored out to house the firing-pin assembly, runaway escapement mechanism, primer holder (4), primer (12), spring-loaded slider (10), and detonator cup (13). The firing-pin assembly includes a plunger-type striker head (1), its spring (15), and the firing pin (2). The assembly is secured at the forward end of the fuze by a retainer plug (16) which screws into the fuze body. The runaway escapement mechanism consists primarily of a pallet (6), escape wheel, rack, gear and pinion, and a spring-loaded rack (7). Figure 2-53 illustrates the interface of the rack (7) with the firing pin (2), primer holder (4), and spring-loaded slider (10). The firing pin (2) rests on the shoulder of the rack in the safe position. The pallet (6) is detented by a swivel-type cotter pin (9). This keeps the escapement locked and thus prevents the firing pin from hitting the primer (12). The spring-loaded slider consists of a slider, its spring, a cover, and a housing. The slider is detented by a spring-loaded locking pin (11). This also prevents movement of the inertial-type primer holder (4) held in place by its spring. A plug (17) (fig 2-53) with a flash hole drilled through it is screwed into the base of the fuze body. The detonator assembly (13) is then placed in position followed by a rubber gasket to provide a seal. The detonator assembly is locked in place by a retainer nut (18), which screws into the fuze body, completing the assembly. 2-137 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H -001-75 Fuze, PD, Model FIRUSAT FOM No. 1390-18-1-6 (U) Functioning (fig 2-53) 1 Original 0 Stop ARMED POSITION UNARMED POSITION Neg. 516779 (UNCLASSIFIED) Figure 2-53. Fuze, PO, Model FIRUSAT, runaway escapement interface view (U). Upon firing, setback moves the swivel cotter pin (9) to the rear undetenting the verge or pallet (6) of the runaway-type escapement. The timing wheel (5) via a pinion-gear arrangement now controls the movement of the spring-loaded rack (7), and at the end of its travel, a clearance hole in the rack aligns with the firing pin (2). 2-138 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1180H-001-15 Fuze, PD, Model FIRUSAT FOM No. 1390-18-1-6 (U) Functioning (Continued) The flash path of primer (12) located in the primer holder (4) is blocked by the spring-loaded slider (10). When the rack has completed its travel, the spring-loaded locking pin moves forward into a void created by the rack, releasing the slider. The spring-loaded slider moves until the hole in it and the flash path are in line. This also frees the primer holder (4). The fuze is fully armed. Upon impact, the plunger-type striker head (1) compresses its spring, driving the firing pin (2) into the primer (12) which flashes to the detonator (13), resulting in the initiation of the high explosive filler of the projectile. In case of oblique impact or graze action, the primer holder (4) due to inertia is thrust against the fuze firing pin (2), initiating the primer. (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectiles 120-mm HE projectiles 81-mm mortars 120-mm mortars 2-139 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 i BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model A FOM No. 1390-18-1-18 1.24 IMAM .96 DIAM 12 TPI ALL DIMENSIONS IN INCHES Neg. 516777 (UNCLASSIFIED) Figure 2-54. Fuze, PD, Model A, contour view (U). 2-141 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model A FOM No. 1390-18-1-18 (U) Description The Model A Fp fuze (fig 2-54) was developed by the Tavaro Company of Switzerland for -use with 81-mm and 120-mm mortar ammunition. It is a setback, delayed-arming fuze designed for either instantaneous or delay functioning upon impact. The Model A design has been tested to assure absolute safety against double loading and premature explosions to a distance of 50 meters from the weapon. (U) Unique Features ? Runaway escapement mechanism controlling the arming of the fuze. ? Unique primer carrier housing two primers and a delay charge. ? Dualized firing pins for instantaneous or delay action. ? Piyotable-type slider housing out-of-line detonator. (U) Characteristics Fuze assembly: Body material Steel Weight 7 Markings It, S, I Length 4.50 in (114.3 mm) Thread diam 0.95 in (24.1 mm) Booster: Body material Steel Body length Explosive 7 Explosive weight 2-142 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Characteristics (Continued) Functional data: Arming method Firing method Safety devices Arming distance Arming time Delay time (U) Design Details SECTION A-A 14 11 10 17 AST-116011-001-75 Fuze, PD, Model A FOM No. 1390-18-1-18 Setback Impact 50 m (min) 0.71 s (est) 0.12 s SECTION 8-8 Neg. 516776 (UNCLASSIFIED) Figure 2-55. Fuze, PD, Model A (U). *Out-of-line detonator, ball detent. 2-143 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST11601110175 Original Fuze, PD, Model A FOM No. 1390-18-1-18 (U) Design Details (Continued) The Model A fuze (fig 2-55) is made mostly of brass and of steel components which are protected against corrosion by a galvanized surface treatment. The upper rotatable fuze body (section A-A) houses the firing-pin assembly consisting of a striker head, a keyed plunger-type firing pin (1), and a coiled spring. The keyed firing pin (1) is positioned into a guide bush or plate (2), which is pinned to the lower fuze body. The guide bush or plate (2) also provides a seat for the firing pin assembly's coiled spring. The rotatable upper fuze body is then sealed at its forward end by a closing cap which is crimped 360? into an exterior groove. The lower fuze body houses the primer-delay carrier (14), the lower (king pin (8) with its extension, the detent system, and the delayed-arming mechanism (section B-B). The primer-delay carrier is positioned in a housing (16). The carrier (14) encases the upper primer (5), the pyrotechnic element (6), and the lower primer (7). The detent system comprises the locking ball (3), safety ring (13) with prong-like clips, shear ring (4), safety bush or setback sleeve (15), and a setback spring. The coiled spring (9) is then positioned in a compressed state. Located beneath the lower firing pin (8) is a central flash tube that cictents the delayed arming mechanism (section B-B). This mechanism consists of an escapement and pivotable slider (10) housing the out-of-line detonator (11). The escapement consists of a pallet (17), escape wheel, and gear meshed to a spring-driven tooth sector of the pivotable slider. The lower fuze body, which is transversally cut at its forward end, is secured to the rotatable upper fuze body by set screws. The lower fuze body is threaded internally to facilitate assembly of the booster (12) and is threaded externally for screwing into the high explosive mortar projectile. (U) Functioning (fig 2-55) Safety position. The detent ball (3) locks the safety ring (13) which keeps the fuze in the unarmed position. 2-144 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST?1160H-001-75 Fun, PD, Model A FOM No. 1390-18-1.18 (U) Functioning (Continued) Firing position. The fuze may be set for either instantaneous functioning "I" or delayed functioning "R" by rotating the upper fuze body portion to the desired setting. Upon firing, setback force moves the safety ring (13) and setback sleeve (15) rearward, compressing its spring. The clips of the safety ring (13) then lock onto the lower notch of the primer-delay carrier housing (16). As soon as setback dissipates, the compressed spring (9) expands, moving the setback sleeve (15) and carrier (14) forward to a position where the shear ring (4) is in contact with the plate (2) and the upper primer (5) is in firing position relative to the keyed firing pin (1). Simultaneously, the forward movement of the housing (16) moves the lower firing pin (8) with its central tube forward, undetenting the pivotable slider (10). The spring-driven tooth sector of the slider controlled by the pallet (17) of the escapement moves the detonator (11) into the armed position. The detonator (11) is then locked onto the booster (12) by a spring washer. When the shoulder of the keyed firing pin (1) is rotated to the "I" setting, the shoulder is in position to drive the carrier (14) and lower primer (7) against the lower firing pin (8), resulting in initiation of the detonator (11) and booster (12). When the shoulder of the keyed firing pin (1) is rotated to the delay or "R" setting, the shoulder is free to bypass the carrier (14). Upon impact, the firing pin (1) stabs the upper primer (5), initiating the delay element (6), lower primer (7), and in turn the detonator (11) and booster (12). (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectiles 120-mm HE projectiles 81-mm mortars 120-mm mortars 2-145 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model RKVDIR 0265 FOM No. 1390-18-1-35 (UNCLASSIFIED) I 0 2S0, TT- -12NF-1 DETAIL OF THREADS SIDE ELEVATION ALL DIMENSIONS IN MILLIMETERS (UNCLASSIFIED) Figure 2-56. Fuze, PD, Model RKVDIR 0265, full and contour views (U). (U) Description The RKVDIR 0265 (fig 2-56) is a setback, delayed-arming fuze desired for either SQ or delay action upon impact. It was developed by Oerlikon of Zurich, Switzerland, for use with non-rotating mortar projectiles. The dimensions shown in figure 2-56 are for installation on 81-mm teardrop-type mortar projectiles. (U) Unique Features This fuze contains two firing pins: one for SQ action, the other for delay. The two primer-detonators used are held in an out-of-line position by a spring-loaded slider controlled by an escapement via a pinion-rack arrangement as well as a detent system provided by a setback sleeve, spring, detent balls, and locking bolt. 2-147 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fine, PD, Model RKVDIR 0265 FOM No. 1390-18-1-35 (U) Characteristics Fuze assembly: Head material Body material Weight Markings Aluminum Cadmium-plated steel 585 g (1.29 lb) RKVDIR 0265 Booster: Body material Aluminum Body length 16.5 mm approx (0.65 in) Explosive Tetryl Explosive weight 4 g (61.6 gr) Relay (columnar charge): Explosive Explosive weight Length Tetryl 0.06 g (0.92 gr) 33 mm approx (130 in) Functional data: Arming method Setback Firing method Impact Safety devices Slider-escapement, locking bolt & &tent balls Arming time 0.80 s Delay time 0.50 s Arming distance 25 m Sensitivity: SQ action Delayed action Functions on 4-mm cardboard target Less than SQ action 2-148 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details (fig 2-57 and 2-58) 3 22 2 C F 41)4 SQo 5 ? , AST-1160/1-001-75 Fuze, PD, Model RICVDIR 0265 FOM No. :1390-18-1-35 A-A 23 21 14 17 D 32 33 A t_ B-B 10 II 9 A4 (UNCLASSIFIED) Figure 2-57. Fuze, PD, Model RKVD1R 0265, detailed sections A-A, B-B, D-D, and G (U). 2-149 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011 -001-75 Fuze, PD, Model RKVD1R 0265 FOM No. 1390-18-1-35 (U) Design Details (Continued) C-C G 30 26 27 29 28 25 11 24 Original F-F (UNCLASSIFIED) Figure 2-58. Fuze, PD, Model RKVDIR 0265, detailed sections C-C, E-E, and F-F (U). 2-150 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11608-001-15 Fuze, PD, Model RKVDIR 0265 FOM No. 1390-18-1-35 (U) Design Details (Continued) The fuze body (1) is tightly sealed at its nose by the fuze head (2) with plastic windshield (3). The nose section of fuze body contains the slider housing (4), which is secured by the fuze head. The slider (5) (section A-A) can move transversely to the fuze axis in the slider housing. It contains the primer-detonator (6) with a pellet for SQ ignition and another primer-detonator (7) for delayed ignition. Movement to the armed position is (section B-B) by means of the slider spring (8) on a guide pin (9). The rack (10) on the slider meshes with the pinion (11) of the escapement (12). The inner and outer detent system (section A-A), which is positioned by the bushing (15), locks the slider in the unarmed position until firing. The outer decent consists of the setback sleeve (13) located in a hole in the fuze body. The setback sleeve is held forward, in the safe position, by its spring (14). In this position, it is locked by the detent balls (16). The detent balls ae held outwards by the locking bolt (18) and forward by a spring (17), which are part of the inner detent system. The escapement (section C-C) consists of a gear train (19) linked to the balance wheel (20). The escapement is mounted on the bearing body and engages the rack of the slider through the pinion (11), section E-E. The escapement (12), section A-A, delays the movement of the slider to the armed position; this delay gives the required trajectory safety. The SQ mechanism includes the SQ firing pin (21) built into the nose of the fuze. It is held against its stop (23) by the pressure of its spring (22). The delay system (section F-F) is built into the rear of the fuze. It consists mainly of the fixed holding pin (24), the guide bush (25), the sleeve (26), the delay firing pin (27), the spring (28), and two detent balls (29), forming the inner detent system. Because of the compression of the spring, the firing pin is pushed forward. Both detent balls are thereby pushed outwards by the inclined face on the front of the holding pin, thus locking the sleeve in position. The SQ and delay mechanisms are mechanically independent of each other. The setting key (30), section E-E, can be turned 900 in a sealed bearing. Its inner end is so designed that it offers a passage to the SQ firing pin while it is set to "SQ" (superquick) (section G). If the setting key is set on "13" (delay), the passage is blocked. 2-151 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model RKVD1R 0265 FOM No. 1390-18-1-35 (U) Design Details (Continued) Tetryl is used in the fuze in the form of compressed pellets (section A-A). A columnar charge (31) of 0.85 grain (0.055 gram) is located underneath the SQ primer-detonator in the slider. The 62-grain (4.0-gram) charge of the booster (32) forms the lower end of the explosive train. It is contained in the screwed-on cap (33) that also seals the rear end of the fuze. The total explosive content (without the primer-detonators) of the fuze amounts to 105.3 grains (6.825 grams). (U) Functioning This fuze's functioning is similar to fuze, PD, Model 21RKZ-2 (FOM No. 1390-18-1-36). (U) Packaging The completely assembled fuze is packaged in a two-piece cardboard tube placed in a two-piece plastic container. The plastic container is then sealed with tape, as illustrated in figure 2-59. (UNCLASSIFIED) Figure 2-59. Fuze, PD, Model RKVDIR 0265, packaging container (U). 2-152 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116014-001-75 Fuze, PD, Model RKVDIR 0265 FOM No. 1390-18-1-35 (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectiles 81-mm mortars 2-153 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original 017 Ns20o 2' 1 r a 30 c.4 AST-116011-00145 Fuze, PD, Model 21 RKZ-2 FOM No. 1390-18-1-36 -02 0-217_4 02afal (UNCLASSIFIED) (UNCLASSIFIED) Figure 2-60. Fuze, PD, Model 21 RKZ-2, full and contour views (U). (U) Description The 21 RKZ-2 PD fuze (fig 2-60) is a setback, delayed-arming type designed for either SQ or delay action upon impact. It was developed by Oerlikon of Zurich, Switzerland, for use with non-rotating mortar projectiles. The dimensions shown in figure 2-60 are for installation on 81-mm teardrop-type mortar projectiles. This fuze can be assembled on projectiles provided with NATO threads. 2-155 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST4160H-001-75 Fuze, PD, Model 21 RKZ-2 FOM No. 1390-18-1-36 (U) Unique Features Original This fuze contains two firing pins: one for SQ action, the other for delay. The two primer-detonators are held in an out-of-line position by a spring-loaded slider controlled by an escapement mechanism via a pinion-rack arrangement, as well as a detent systen provided by a setback sleeve, spring, detent balls, and locking bolt. (U) Characteristics Fuze assembly: Head material Body material Weight Markings Booster: Body material Body length Explosive Explosive weight Relay (columnar charge): Explosive Explosive weight Length Aluminum Cadmium-plated steel 305 g (0.67 lb) 21 RKZ-2 Aluminum 32 mm approx (1.26 in) Tetryl Tctry1 0.055 g (0.85 gr) 39 mm approx (1.54 in) Functional data: Arming method Setback Firing method Impact Safety devices Slider-escapement, locking bolt, & detent balls Arming time 0.8 s Arming distance 25 in Delay time 0.05 s Sensitivity: SQ action Functions on 4-mm cardboard target Delayed action Less than SQ action 2-156 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-031 -75 Fuze, PD, Model 21 RKZ-2 FOM No. 1390.18-1.36 (U) Design Details (fig 2-61) SQ 26 11 13 12 14 25 27 Neg. 515293 (UNCLASSIFIED) Figure 2-61. Fuze, PD, Model 21 EKZ-2, section view (U). 2-157 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model 21 RKZ-2 FOM No. 1390-18-1-36 (U) Design Details (Continued) The fuzc body (8) is tightly sealed at its forward end by the fuze head (5) with plastic windshield (1). The fuze body contains the slider housing (7) which is secured by the fuze head (5). The slider (10) contains the SQ primer-detonator (9), which is initiated by the SQ firing pin (2), and the delay (D) primer-detonator (24), which is initiated by the delay firing pin (23). Movement to the armed position is by means of the slider spring (20) on the guide pin (21). The rack (19) of the slider meshes with the pinion (18) of the escapement mechanism (6). The inner and outer detent system locks the slider in the unarmed position until firing. The outer detent system consists primarily of the setback sleeve (11), setback spring (25), and bushing. Parts of the inner detent system include the guide bush, spring, delay firing pin, decent balls (12), locking bolt (13), and holding pin (14). The setback sleeve is held in a safe position by the setback spring. In this position it is locked by the detent balls. The detent balls are held outward by the locking bolt, which is held forward by its spring (14). The escapement (6) consists of a gear train (15) linked to a balance wheel. The escapement mechanism is mounted on a bearing body that engages the rack of the slider through the pinion. The escapement controls the movement of the slider to the armed position, thereby providing adequate trajectory safety. The SQ mechanism includes the SQ firing pin (2) built into the nose of the fuze. The SQ firing pin is held against its stop (3) by the pressure of its spring (4). The delay mechanism is built into the rear of the fuze. It includes mainly parts of the inner detent system, which consists of the locking bolt (13), holding pin (14), guide bush (26), guide sleeve, firing pin (23), spring (14), and two detent balls (12). The delay firing pin (23) is held forward by the compression of the locking-bolt spring (14). Both detent balls are pushed outwards by the inclined face on the front of the holding pin (27), thereby holding the guide sleeve in position. The setting key (22) can be turned 900 in a sealed bearing. Its inner end is designed to provide an opening for the SQ firing pin when the key is set for "SQ." If the key is set on "D," this opening is blocked. 2-158 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model 21 RKZ-2 FOM No. 1390-18-1-36 (U) Design Details (Continued) Tetryl is used in the fuze in the form of compressed pellets. A columnar charge (16) in line with the firing pin (2) acts as a relay for amplifying the detonation of the booster (17). (U) Functioning Upon firing, setback forces causes the locking bolt (13) to move rearward, releasing the detent balls (12). Both springs (14, 25) are fully compressed. If the key is set for "SQ," then the SQ firing pin (2) moves rearward and enters the blind hole in the slider (10), holding the slider in the unarmed position. If the key is set for "D," the SQ firing pin is blocked from entering the hole of the slider. When the acceleration ceases, the compressed springs (14, 25) expand, pushing the sleeve (11) and locking bolt (13) forward. The locking bolt moves forward first, pushing the detent balls outward. The sleeve then advances until the detent balls are pushed out against the rim of a pressed-in bushing. The SQ firing pin (2) simultaneously moves back to its original position by the expansion of its spring (4), while the force of spring (20) starts to move the slider to the armed position by driving the escapement mechanism (6) which controls the rate of arming. The fuze is armed when either the SQ (9) or delay (24) primer-detonators, depending on the setting, are aligned with their respective firing pins (2 or 23). The slider (10) is kept in the armed position by the slider spring (20) and escapement , mechanism (6). If SQ setting is used, upon impact with the target the SQ firing pin (2) stabs primer-detonator (9), detonating the tetryl column (16) and in turn detonating the booster (17). Figure 2-62 depicts SQ functioning upon impact. 9-159 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model 21 RKZ-2 FOM No. 1390-18-1-36 (LI) Functioning (Continued) Neg. 515295 (UNCLASSIFIED) Figure 2-62. Fuze, PD, Model 21 RIC-2, SQ functioning (U). 2-160 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (Continued) AST-1 16011-001-75 Fuze, PD, Model 21 RKZ-2 FOM No. 1390-18-1-36 If the delay setting is used, the SQ firing pin is blocked. Upon impact, the deceleration of the projectile causes the sleeve to move forward due to inertia while the firing pin (23), which is retained by the locking bolt, remains locked. Compression of the spring by the firing pin is now increased. After retardation has reached zero, the spring expands and pushes the sleeve back, allowing the detent balls to move outwards and to release the firing pin which is driven by its spring into the delay primer-detonator. The flash passes through a slot in the slider to the SQ primer-detonator, detonating the columnar charge of tetryl and resulting in detonation of the booster. Figure 2-63 illustrates delay functioning upon impact. Neg. 515294 (UNCLASSIFIED) Figure 2-63. Fun, PD, Model 21 RKZ-2, delay functioning (U). 2-161 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED ASTI 180H-00 0, Mode 1390- 36 Packaging The 21 R KZ sealed on can (fig 2-54). 10(1-2 cardboard tube which is ?ackcd in a he it Original VIE Figure 2-64. Fuze, PD, Model 21 RKZ-2, packaging conrainer (Li). 2-162 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model 21 RKZ-2 FOM No. 1390-18-1-36 (U) Special Tests The 21 RKZ-2 fuze has been successfully tested for double-loading safety, detonator safety, and short-impact safety (i.e., trajectory safely). In addition, drop, jolt, cold, hot, and waterproof tests have been conducted, meeting US Military Standards. (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectiles 81-mm mortars 2-163 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011,001-75 PD, Model RK VOIR 0262/713 FOM No. 1390-18-1-39 Neg. 515357 (UNCLASSIFIED) Figure 2-65. Fuze, PD, Model KKVDIR 0262/75 with 8I-mm projectile (U). (1)) Description The R.K VDIR 0262171'> (fig 2-65) is a setback-armed PD fuze designed for either delay .and SQ action. Except fur no escapement mechanism to control the rate of arming, the K VUl R 0262;7 B is similar in design and functioning to that of the Oerlikon RK VDIR 0265 and 21 RKZ-2 PD fuzcs (FOM Nos. 1390-18-1-35 and 1390-18-1-36), This fuze is designed for 81-mm and 120-mm non-rotating mortar projectiles. (U) Unique Features * Spring-loaded slider with out-of-line SO and deiay ?primer-detonators. 2-165 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model RKVDIR 0262/7B FOM No. 1390-18-1-39 (U) Unique Features (Continued) ? Inner and outer detent system. ? Two separate firing pins for SQ and delay action. (U) Characteristics Fuze assembly: Head material Body material Weight Markings Total length Explosive weight Aluminum Cadmium-plated steel 670g (1.481b) RKVDIR 0262/7B 130 mm (5.12 in) 15 g (0.033 lb) Booster: Body material Aluminum Body length Explosive Tetryl Explosive weight 7 Relay (columnar charge): Explosive type Explosive wieight Tetryl 7 Functional data; Arming method Setback Firing method Impact Safety devices Locking bolt, two detent balls and slider Arming time 1.2 s Arming distance 50 m? Delay time 0.05 s 2-166 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model RKVDIR 0262/78 FOM No. 1390-18-1-39 (U) Functioning Except for having no escapement mechanism to control rate of arming, functioning is similar to that of the RKVDIR 0265 and 21 RKZ-2 PD fuzes. (U) Remarks Upon request, Oerlikon will provide this fuze with the trajectory safety (i.e., short-impact safety) by incorporation of the escapement mechanism via a pinion-rack arrangement to the spring-loaded slider containing the SQ and delay primer-detonators. This fuze has been tested successfully for double-loading safety in both 81-mm and 120-mm mortars. The RKVDIR 0262/7B is specially designed for impact on very hard ground at the highest charge used with the 120-mm mortar. The reliability of the design reportedly has been proved through thorough testing and meets US Military Standards. (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectiles 120-mm HE projectiles 81-mm mortar 120-mm mortar 2-167 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 ii ANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST1150H-001-75 Fuze, PD, Model RKVDIR 0264 FOM No. 139048-1-40 (UNCLASSIFIED) Figure 2-66. Fuze, PD, Model RKVDIR 0264 with 81-mm projectile (U), (U) Description The OerRican RKVD similar o the RKVDIR 02 the designation L35A1. It in order to accommoda projectiles. (U) Unique Features 0264 PD fuze (fig 2-66) is a setback, delayedarming type This fuze has been introduced in the United Kingdom under longer and has a larger booster with more explosives and longer modern streamlined 81-mm mortar the hea Delayed arming controlled via escapement mechanisrrn 2-169 UNCLASSIF D Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model RKVDIR 0264 FON' No. 1390-18-1-40 (U) Unique Features (Continued) ? Detonator safety via out-of-line explosives. ? Bore safety via inner and outer detent system. (U) Characteristics Fuze assembly: Head material Body material Total weight Markings Total length Visible length Max &am Explosive type Explosive weight Functional data: Arming Firing method Safety devices Aluminum Cadmium-plated steel 575 g (1.27 lb) RKVDIR 0264 150 mm (5.91 in) 86 mm (3.39 in) 61 mm (2.40 in) Tetryl 34 g (0.075 lb) Setback Impact Slider-escapement, locking bolt, and detent balls, safety pin 25m 0.9 s 0.05 s Arming distance Arming time Delay time (U) Functioning Original This fuze is similar in functioning to that of the British L35A1 PD fuze (FOM No. 1390-35-1-17) and the Oerlikon RKVDIR 0265 and 21 RKZ-2 PD fuzes. 2-170 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model RKVDIR 0264 FOM No. 1390-18-1-40 (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm mortar projectiles 81-mm mortar 2-171 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 KANK PAR Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Neg. 515359 ASTMS? -001-15 Fuze, PD, Model RKVDIR MZX-325 FONt No. 139(J-18-IA1 UNCLASSIFIED) Figure 2-67. Fun, PD, Model VDIR ZX-325 with 8I-mm projectile (U). (U) Description The RKVDIR MZX-325 PD fuze (fig 2-67) was developed by Oerlikon for 81-mm and 120-mm non-rotating mortar projectiles. It is a setback, delayed-arming type similar design and functioning to the RKVDIR 0265 PD fuze. Exposed length of fuze is 67.5 mm with a body diameter of 46.5 mm. Unique Features ?Delayed arming controlled via escapement mechanism. 2-173 UNCLASSIF D Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model RKVDIR MZX-325 FOM No. 1390-18-141 ? Detonator safety via out-of-line explosives. ? Bore safety via inner and outer detent system. (U) Characteristics Fuze assembly: Head material Aluminum Body material Cadmium-plated steel Total weight 596 g (1.31 Ib) Markings RKVDIR MZX 325 Total explosive weight 13 g (0.29 lb) Total length 113 mm (4.45 in) Booster: Body material Aluminum Body length Explosive Tetryl Explosive weight Relay (columnar charge): Explosive type Tetryl pellets Functional data: Arming method Setback Firing method Impact Safety devices Slider-escapement, locking bolt, detent balls Arming distance 25 in Arming time 0.9 s Delay time 0.05 s (U) Functioning This fuze is similar in functioning to Oerlikon PD fuzes, Models RKVDIR 0265 and 21 RKZ-2 It is easily changed from instantaneous action to delayed action. 2-174 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model RKVDIR NIZX-325 FOM No. 1390-18-1-41 (U) Remarks Thorough testing has proven this fuze's double-loading safety and reliability of design. The fuze is very sensitive on instantaneous action upon impact in snow, water, etc., due to the fine's protruding firing pin and plastic windshield. The delay system allows application for ricochet firing. (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectiles 120-mm HE projectiles 81-mm mortars 120-mm mortars 2-175 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UL.D' AN' PAGE it \ Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model RKVDIR 0265/21 FOM No. 1390-18-1-42 Neg. 515354 (UNCLASSIFIED) Figure 2-68. Fuze, PD, Model RKVDIR 0265/21 with 81-mm projectile (U). (U) Description The RKVDIR 0265/21 PD fuze (fig 2-68) is a setback-armed type designed for either SQ and delay action. Except for lack of an escapement-pinion-rack arrangement, the fuze is similar in design and functioning to that of the Oerlikon RKVDIR 0265. It is intended for use on both 81-mm and 120-mm mortar projectiles. (U) Unique Features ? Spring-loader slider with out-of-line explosives. ? Detent system with locking bolt and two detent balls. 2-177 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model RKVDIR 0265/21 FOM No. 1390-18-1-42 (U) Characteristics Fuze assembly: Head material Body material Weight Markings Aluminum Cadmium-plated steel 595 g (1.31 lb) RKVDIR 0265/21 Booster: Body material Aluminum Body length Explosive Tetryl Explosive weight Relay (columnar charge): Explosive type Tetryl pellets Original Functional data: Arming method Setback Firing method Impact Safety devices Slider, locking bolt and 2 detent balls Arming distance 25 m (approx) Arming time 0.8 s Delay time 0.05 s (U) Functioning Except for escapement mechanism, this fuze is similar in functioning to that of the RK Z-2 and RKVDIR 0265 PD fuzes developed by Oerlikon. (U) Remarks Upon request, oerlikon will provide this fuze with the trajectory safety (i.e., short-impact safety) by incorporation of the escapement mechanism via a pinion-rack arrangement to the spring-loaded slider containing the SQ and delay primer-detonators. 2-178 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-00145 Fuze, PD, Model RKVDIR 0265/21 FOM No. 1390-18-1-42 (U) Remarks (Continued) This fuze has been successfully tested for dOuble-loading safety in both the 81-mm and 120-mm mortars. This fuze is also designed for impact on very hard ground at the highest charge used with the 120-mm mortar. The reliability of the design reportedly has been proved through thorough testing and meets US Military Standards. (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectiles 120-mm HE projectiles 81-mm mortar 120-mm mortar 2-179 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 KAM PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Neg. 515355 AST-1160/1-001-75 Fun, PD, Model RKVDIR MZX-328 FOM No. 1390-18-1-43 (UNCLASSIFIED) Figure 2-69. Fuze, PD, Model RKVDIR MZX-328 with 81-mm projectile (U). (U) Description The Oerlikon RKVDIR MZX-328 fuze (fig 2-69) is a setback, delayed-arming type similar in design and functioning to that of the RKVDIR 0265. It is intended for use on both 81-mm and 120-mm mortar projectiles. (U) Unique Features ? Delayed arming controlled via escapement mechanism. ? Detonator safety via out-of-line explosives. ? Bore safety via inner and outer detent system. 2-181 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11608-001-75 Fuze, PD, Model RKVDIR MZX-328 FOM No. 1390-18-1-43 (U) Characteristics Fuze assembly: Head material Body material Total weight Markings Total length Visible length Maximum diam Explosive weight Explosive type Aluminum Cadmium-plated steel 605 g (1.33 lb) RKVDIR MZX-328 99.5 mm (3.92 in) 71.5 mm (2.81 in) 61 mm (2.40 in) 6.5 g (100 gr) Tetryl Original Functional data: Arming method Setback Firing method Impact Safety devices Slider-escapement, locking bolt and detent balls Arming distance 25 m (approx) Arming time 0.90 s Delay time 0.05 $ (U) Functioning The functioning of this fuze is similar to the RKVDIR 0265 PD fuze. (U) Remarks This fuze has been successfully tested for double-loading safety in both 81-mm and 120-mm mortars. 2-182 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model RKVDIR MZX-328 FOM No. 1390-18-1-43 (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectiles 120-mm HE projectiles 81-mm mortar 120-mm mortar 2-183 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Ult PQE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original SHOCK ELEMENT ARMING BALLS AST4160114101-75 Fuze, PDSD, Oerlikon, Type KZD-0250 FOM No. 1390-18-1-44 FIRING PIN BUSHING ROTOR DETONATOR FLASH HOLE SELF-DESTRUCT SPRING CONICAL EDGE OF SELF-DESTRUCT HOUSING FIRING PIN FUZE BODY BOOSTER Neg. 517130 (UNCLASSIFIED) Figure 2-70. Fuze, PDSD, Type KZD-0250, section view (U). (U) Description The KZD-0250 (fig 2-70) is a conventional PD fuze with a mechanical self-destruct feature activated by projectile spin decay. The out-of-line detonator is mounted in a ball rotor. The fuze is used with the 301113-mm B HE-I cartridge, Type MSB-K, which is designed for air-to-air use in DEFA, Type 552, aircraft guns. The KZD-0250 fuze was developed prior to 1962. 2-185 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Oerlikon, Type KZD-0250 FOM No. 1390-18-1-44 (U) Characteristics Fuze assembly: Body material Aluminum Weight 31 g (0.068 lb) Markings Booster: Body material Body length Explosive 7 Explosive weight 7 Functional data: Arming method Spin Firing method Impact Safety devices Out-of-line detonator (rotor) Arming distance 3 m (est) Arming time Self-destruct time 5-13 s (est) Delay time N/A (U) Design Details The fuze consists of an aluminum body that contains a self-destruct mechanism, a, firing pin, a ball rotor carrying an out-of-line detonator, and a booster. In storage and shipment, the fuze is kept safe by the out-of-line position of the detonator in the rotor. Rotor position is maintained by pressure from the self-destruct spring and shock element, acting through the firing-pin bushing. (U) Functioning Upon firing, the shock element is crushed by setback. When setback ceases, centrifugal force causes the arming balls to move outward and forward against the conical surface of the self-destruct housing. This action moves the firing-pin bushing forward, further compressing and restraining the self-destruct spring, and releasing pressure on the rotor. Centrifugal force causes the unbalanced rotor, now free, to rotate until the detonator is aligned with the firing 2-186 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, PDSD, Oerlikon, Type KZD-0250 FOM No. 1390-18-1-44 (U) Functioning (Continued) pin. Upon impact, the firing pin is driven into the detonator, which initiates detonation of the booster. If impact does not occur, projectile spin will decay and centrifugal force decrease until the compressed self-destruct spring overcomes the spin force on the arming balls and drives the firing pin into the detonator, (U) Applications (Ammunition and Weapons) Ammunition Weapons 30-mm HEI (mine) cartridge, Type MSB/K (30x1.13-mm B) 30-mm aircraft gun, DEFA, Type 552 2-187 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-11608-001-75 rum, PDSD, Hispano-Suiza, Model AM-2-BM FOM No. 1390-18-147 _ - Fuze Body Ci) Striker Spring ( 2 ) Striker Spring Support (3) Balls (4) Pressure Ring ( 5) Split Collet (6) _Split Sleeve( 7) Flat - -Spiral Spring (5) Striker (9; - Guide Sleeve (10) -Detonator (11) Rotor , Type Shutter 02) -Centrifugal Bolt (13) - Spring Ring (14) ?Closing Plug (15) (UNCLASSIFIED) Figure 2-71. Fuze, PDSD, Model AM-2-BM, section view (U). (U) Description This (fig 2-71) is a PDSD fuze with an out-of-line detonator and delayed arming, designed for air-to-air projectiles fired from 30x113-mm B ADEN aircraft guns. (U) Characteristics Fuze assembly: Body material 9 Weight 36-40 g (0.079 to 0.088 lb) Markings AM-2 S.M. 2-189 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-15 Original Fuze, PDSD, HispanoSuiza, Model AM-2-BM FOM No. 1390-18-147 (U) Characteristics (Continued) Booster: Body material Body length Explosive 7 Explosive weight Functional data: Arming method Spin Firing method Impact Safety devices Arming coil; out-of-line detonator Arming distance 13 m Arming time Self-destruct time 612 s (U) Functioning During storage and shipment, the detonator (11) is held out of line with the striker (9) and firing pin by a centrifugal bolt (13) that fits in a recess in the rotor and is retained by a spring ring (14). The firing pin is also restrained from moving rearward by a split collet (6) whose locking segments are retained by an arming coil or spiral spring (8) that is itself retained by a split sleeve (7). Upon firing, setback forces hold all fuze components in the unarmed position. When the projectile leaves the muzzle, setback ceases and centrifugal force causes the spring ring (14) to open and the centrifugal bolt (13) to move outward, freeing the rotor. Centrifugal force acting on the unbalanced rotor causes it to erect, so that the detonator is aligned with the firing pin and the booster. This occurs at a point approximately 0.9 meter from the gun muzzle. The fuze remains unarmed at this point because the striker is still restrained by the arming delay feature. At the moment of firing, setback forces increase the pressure exerted by the striker spring (2), acting through the striker, on the split collet and the arming coil, thus retaining them in position. Centrifugal force causes the split sleeve surrounding the split collet to open so that it lies against the inner wall of the recess. As acceleration ceases and setback pressure is reduced, centrifugal force causes the five arming balls (4) to inpye radially 2-190 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Hispano-Suiza, Model AM-2-BM FOM No. 1390-18-1-47 (U) Functioning (Continued) outward against the conical interior face of the pressure ring (5). This raises the striker body, further compressing the striker spring. As the striker body is lifted, pressure on the split collet and arming coil is removed. Centrifugal force causes the arming coil to unwind, permitting the segments of the split Collet to move radially outward, so that they clear the striker. At this point the projectile has traveled about 13 meters from the gun muzzle; the fuze is fully armed, with the detonator in line with the firing pin, and the striker held in its forward position against pressure of the compressed striker spring by centrifugal force acting on the five arming balls. Upon striking a target, impact is transmitted through the striker body, overcoming the centrifugal force acting on the five arming balls and forcing them inwards. The striker spring then thrusts the firing pin into the detonator to initiate fuze functioning with increasing range, the centrifugal force acting on the arming balls decreases as spin decays, which reduces the impact required to overcome this force; the increased sensitivity of the fuze compensates for the reduced striking velocity at longer ranges. If the projectile fails to strike a target, spin continues to decay to a level at which pressure of the striker spring overcomes the centrifugal force acting on the arming balls. At this point, which falls between 6 and 12 seconds of flight, the striker spring drives the striker and firing pin into the detonator, initiating self-destruction of the projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons HEI cartridge, Model UIA 30x113-mm B ADEN aircraft gun 2-191 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED r 6 (i SC AST- H 01-75 Fuze POModel Is:VD FOM No, 1390-18-21 4. DINA TPI ALL DIMENSIONSN INCHES (UNCLASSIFIED) Figure 2-72. Fuze, PD, Model KVD, full and contour vie (U). fl The KVD PD fuze (fig 2-72) ?manufactu by .Oerlikon Co. of Switzerland was dee.loped for use with 80-mm high-explosive aircraft ksetback, delayed-arming fuze designed for instantaneous action upon impact. 2-193 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Fuze, PD, Model KVD FOM No. 1390-18-2-1 (U) Unique Features ? Escapement mechanism controlling the arming time of the fuze. ? Slider housing setback pin. (U) Characteristics primer-detonator in out-of-line position detented by Fuze assembly: Body material Weight Markings Length Max diam Maj thread diam Booster: Body material Body length Explosive Explosive weight Cadmium-plated brass 0.67 lb (304 g) MZ. 50.00 4.85 in (123.2 min) 1.30 in (33 nini) 1.1 in (28 nun) Steel 1.75 in (44.45 mm) PETN 13.62 g (0.030 lb) Functional data: Arming method Setback Firing method Impact Safety devices Setback pin, setback spring, and out-oiline Jider Arming distance Arming time 2-194 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Derails 22227222222: 2 6 ( 4 12 Neg. 516574 7 17 IS e AST-1113011-001-Th Fine, PD, Model KVD FOM No. 1390-18-2-1 (UNCLASSIFIED) Figure 2-73. Fuze, PD, Model KVD, exploded view (1.1). The fur (fig 2-73) consists primarily of a cadmium-plated brass fuze body ) bored ?out at the nose end and base to facilitate assembly of the firing pin components, escapement and slider mechanism components, detem components, and booster assemblage. The firing pin components include an aluminum firing pin with a solid cylindrical head (4), a steel support and guide (3), and a steel coil spring (2). The assembly is held in place by 450 chamfered-steel holder (5) crimped 360? at the nose end of the fuze, A polyethylene cap is then crimped to the groove of the fine's ogive, providing a watertight seal. The escapement-mechanism components for controlling or delaying the arming of the fuze [i.e., the movement of the rack (21)1 includes a brass escape wheel and spur gear (9), a steel pinion-brass gear assembly (10), a steel gear spindle (11), a brass pallet (12), and a brass bearing plate (13) which fits into the transversally cur-out portion of the safety and arming body (8). The retainer sleeve (7) is then slipped over the assembled escapement mechanism. The decent components include the setback pin (20) and the setback spring (19) that fits into an axially drilled hole in the S&A body (8). The rack (21) is also placed,in an axially drilled hole in the body (8) and meshes with the pinion gear assembly (10). 2-195 UNCLASSIFIED L Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED MT-116011-001-75 Original Fuze, PD, Model KVD FOM No. 1390-18-2-1 (U) Design Details (Continued) The slider (16) and its springs (17 and 18) are positioned in a cut-out portion at the forward end of the S&A body (8). The slider (16) is pinned to the S&A body (8) by the retainer pin (14) which fits into an axially drilled hole and the safety pin (15) which fits into a transversally drilled hole. The central flash hole of the S&A body (8) is sealed by a front and rear brass closing cup. The steel booster cup (6), threaded internally and housing two booster pellets, is screwed onto the external threads of the S&A body (8), completing the assemblage. The fuze body (1) is threaded externally for assembly into the warhead of an 80-mm HE rocket. (U) Functioning (fig 2-74) SECTION SECTION A A GB Neg. 516575 (UNCLASSIFIED) Figure 2-74. Fuze, PD, Model KVD, section view (U). 2-196 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011101-75 Fuze, PD, Model KVD FOM No. 1390-18-2-1 (U) Functioning (Continued) When the carrier rocket is fired, the setback pin (6) and the rack (4) start to move rearward. The setback pin has its travel hindered only by the spring (7) which it compresses quickly. The rearward movement of the rack is delayed by the fuze clockwork mechanism (5) through the pinion gear. When the rack top has moved below the transversely drilled hole in which the safety pin (12) is assembled, the safety pin may be cammed into the cavity above the rack and setback pin. This transfer is accomplished by the continued acceleration forces acting on the safety pin through the tapered surface of its seat in the slider retaining pin (11), When the slider retaining pin moves below the bottom surface of the slider assembly slot, the slider assembly (3) is freed and then pushed across its slot by the slider spring. This movement aligns the primer-detonator (10) between the firing pin (2) and the flash hole to the booster pellets (8 and 9). This, however, does not happen until the acceleration forces, which had also moved the firing-pin point rearward into the hole in the slider, are decreased sufficiently to allow the firing-pin spring (1) to return the firing pin to its forward position out of the slider. On impact, the polyethylene nose cap is crushed and the firing pin is driven rearward into the primer-detonator. (U) Applications (Ammunition and Weapons) Ammunition Weapons 80-mm HE rocket 80-mm aircraft rocket launcher 2-197 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 FUZC. PDSD, Model FZ-104 and variants FZ-104 MI, F7-104 M2, F7-104 M12, and FZ404 M22 1390494.2 (F7,404) 390191-24 (FZ-I 04 MI) FOM Nos. 390-194-2-2 (FZ-104 M2) 390194-2-3 (F7-104 MI 2) 1390-194-2-4 (FZ-104 Mn) Neg.502778 (UNCLASSIFIED) Figure 2-75, Fuze, EDSD, Model FZ-104, full view (U). 2199 UNCLASSIFIED .Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Model FZ-104 and variants FZ-104 MI, FZ-104 M2, FZ-104 MI2, and FZ-104 M22 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 MI) FOM Nos. 1390-19-1-2-2 (FZ404 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-19-1-24 (FZ-104 M22) (U) Description FZ-104 (fig 2-75) is the basic designation for a family of very reliable PDSD fuzes designed by Bofors for use with the Bofors 40-mm antiaircraft gun, Model L/70. Model FZ-104 is a product-improved Model FZ-103 fuze. Variants of the FZ-104 are used in the Bofors 40-mm L/60 and 57-mm L/60 antiaircraft guns. The FZ-104 and its variants are in use by quite a number of nations throughout the world. Manufacturers in a number of countries, including West Germany and Spain, produce the FZ-104 or its variants under Bofors license. Models FZ-104 and FZ-104 M12 have been NATO standard fuzes constantly since 1960. Fuze FZ-104 is an effective, ru ed, reliable, inexpensive PDSD fuze of relatively simple design. A pyrotechnic element initiated by setback upon firing provides a reliable self-destroying action. Both setback and spin are required to arm the fuze. Delayed arming is ensured by a pyrotechnic delay element which locks the striker into a niche in the side of the out-of-line detonator rotor until approximately 0.06 seconds after firing. Several versions (or variants) of the basic FZ-104 provide different post-impact delay times and the presence or absence of an additional friction detonator to provide a graze action. All five versions of the FZ-104 mentioned here employ a Bofors rain safety device. The status of the basic FZ-104 fuze is unknown. FZ-104 may be a generalized designation including fuzes FZ-104 MI and FZ-104 M2, or it could be synonymous with FZ-104 Ml. The basic FZ-104 fuze may be out of use, replaced by its variants FZ-104 Ml, FZ-104 M2, FZ-104 M12, and FZ-104 M22. The variants differ from each other as follows: ? FZ-104 M1 incorporates a 0.3- to 0.4-ms post-impact delay, but does not have the extra friction detonator for graze action. ? F7-104 M2 incorporates a 0.1- to 0.2-ms post-impact delay, but does not have the extra friction detonator for graze action. Possibly, this is a "su perq Inc k " fuze. 2-200 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model FZ-104 and sariants FZ-104 MI, FZ-104 112, FZ.104 M12, and FZ-104 M22 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 M1) FOM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-19-1-2-4 (FZ-104 M22) (U) Description (Continued) ? FZ-104 MI 2 incorporates a 0.3- to 0.4-ms post-impact delay, and also incorporates a special friction detonator for graze action. ? FZ-104 M22 incorporates a 0.1- to 0.2-ms post-impact delay, and also incorporates a special friction detonator for graze action. Possibly, this is a "superquick" fuze. Extensive US test results are available concerning Bofors fuze FZ-305 M12, a fuze employing most of the same internal components as the FZ-104 MI 2, but fired from the L/60 40-mm antiaircraft gun instead of the L/70 40-mm antiaircraft gun. (U) Unique Features Fuze FZ-104 and variants FZ-104 Ml, FZ-104 M2, FZ-104 M12, FZ-104 M22 employ a pyrotechnic element to ensure delayed arming. All of these fuzes incorporate an efficient rain safety device designed by Bofors. Models FZ-104, FZ-104 Ml, and FZ-104 M12 employ a 0.3- to 0.4-ms post-impact delay (labyrinth and pyrotechnic element) to provide enhanced lethality against thin-skinned targets. Models FZ-104 M12 and FZ-104 M22 incorporate a special friction detonator to give enhanced graze effectiveness. All models have a reliable pyrotechnic self-destruct feature and excellent high obliquity functioning. (U) Characteristics Fuzes FZ-104, FZ-104 Ml, FZ-104 M2, FZ-104 M12, and FZ-104 M22 are exactly the same, except for the detonator rotor components and the presence or absence of a special friction detonator. A detailed analysis of all explosive elements is available in Picatinny Arsenal Technical Report 4581, November 1973. Arming method Setback and spin 2-201 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PDSD, Model FZ-104 and variants FZ-104 MI, FZ-104 M2, FZ-I04 M12, and FZ-104 M22 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 MI) FOM Nos. 1390-19-1-2-2 (FZ-I04 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-19-1-2-4 (FZ-104 M22) (U) Characteristics (Continued) Original Firing niethod: FZ-104 Impact or pyrotechnic self-destruct FZ-104 M1 Impact or pyrotechnic self-destruct FZ-104 M2 Impact or pyrotechnic self-destruct FZ-104 M12 Impact, graze, or pyrotechnic self-destruct FZ-104 M22 Impact, graze, or pyrotechnic self-destruct Safety devices Arming distance Arming time Self-destruct tune Delay time: FZ-104 FZ-104 M1 FZ-104 M2 FZ-104 M12 FZ-104 M22 Out-of-line detonator 60 m (minimum) 0.06 s (approx) 6.5 to 10.5 s 0.3 to 0.4 ins 0.3 to 0.4 ms 0.1 to 0.2 ms (possibly SQ) 0.3 to 0.4 ms 0.1 to 0.2 ms (possibly SQ) Fuze assembly: Body material Aluminum Weight 55 g (0.121 lb) Length overall 69.8 mm (2.75 in) Exposed length 41.4 mm (1.63 in) Maximum diam 25.4 mm (1.00 in) 2-902 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, PDSD, Model FZ-104 and variants FZ-I04 MI, FZ-104 M2, FZ-104 M12, and FZ-104 M22 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 MI) FOM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-19-1-2-4 (FZ-104 M22) (U) Characteristics (Continued) Booster: Body material Aluminum Body length 183 mm (0.72 in) Filler material RDX Filler weight 0.30 g (4.62 gr) (FOUO) Manufacturers Bofors is known to produce these fuzes. A West German manufacturer (no firm information as to manufacturer) is known to produce the FZ-104 M2, redesignated AZZ DM 91, a West German standard fuze. A Spanish manufacturer, Sociedad Anonima de Placencia de las Armas, located in Andoain, Spain, is known to produce the FZ-104 M12 and a variant model, FZ-305 M12 (for the L/60 Bofors 40-mm antiaircraft gun). The United Kingdom is known to use the FZ-104 M12 (UK designated L41A1) and may also produce the fuze under Bofors license. Some design features of the FZ-104 and its variants are covered by US patents 3,135,206 ("Fuzes for Projectiles," 2 June 1964) and 3,119,336 ("Fuze for Explosive Projectile," June 1964), both of which are assigned to Bofors. (FOUO) Manufacturing Data (FOUO) The FZ-104 M12 is known to be manufactured by Bofors facilities in Sweden at the rate of 40,000 per month (1972 figures) using a semiautomated assembly-line process. Total worldwide production of the FZ-104 and its variants is unknown and is difficult to estimate due to wide licensing, many variants, and the designation changes which appear when these fuzes are adopted by a foreign government for its own use. (U) Cost of the FZ-305 M12 was estimated at $3.07 each in November 1973, with a reduction to approximately $2.25 each possible if produced in large quantity with a cost 2-203 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Fuze, PDSD, Model FZ-I04 and variants FZ-104 MI, FZ-104 M2, FZ-104 MI2, and FZ-104 M22 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 MI) FOM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-19-1-2-4 (FZ-104 M22) Original (LI) Manufacturing Data (Continued) reduction program in effect. It can be reasonably assumed that costs of producing the FZ-104 or its variants would be nearly equal to those of the FZ-305 MU, because the FZ-104 M12 and FZ-305 M12 are identical internally except for slight differences in the rain safety device. (U) US tests established that poor sealant application practices used by Sociedad Anonima de Placencia de las Armas of Spain resulted in a reliability of only 93% as opposed to a reliability of better than 99.9% for Bofors-manufactured fuzes. (U) Functioning (fig 2-76 and 2-77) SECTION A-A 1 0 01A61 .86 DIAIA 26 TPI ALL DIMENSIONS IN INCHES Neg. 507965 (UNCLASSIFIED) Figure 2-76. Fuze, PDSD, Model FZ-104, contour and section views (U). 2-204 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (Continued) At rest Neg. 517207 AST-1160H-001-75 Fuze, PDSD, Model FZ-I04 and variants FZ-104 MI, FZ-I04 M2, FZ-104 MI2, and FZ-104 M22 1 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-I04 MI) KIM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-19-1-2-4 (FZ-104 M22) In the bore and in the trajectory before arming In the trajectory atter arming (UNCLASSIFIED) Figure 2-77. Fuze, PDSD, Model FZ-104, cutaways of fuze depicting safe, unarmed, and armed conditions (U). 2-205 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UPILLAbbleltil AST-1160H-001-75 Original Fuze, PDSD, Model FZ-104 and variants FZ-104 Ml, FZ-104 M2 FZ-104 N112, and FZ-104 M22 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 Mi) FOM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ -104 M12) 1390-19-1-2-4 (FZ-104 M22) (U) Functioning (Continued) Upon firing of the projectile, (kg 2-76) setback forces the setback initiating primer (9) to the rear against the spring (10). The setback initiating primer is ignited on impact with the setback firing pin (11). This action takes place in the gun barrel. The setback initiating primer, in turn, simultaneously ignites the self-destroying powder train (5) and the delay pellet (2) surrounding the impact firing pin (3). When the delay pellet is consumed, the spring (4) pushes the impact firing pin upward, unlocking the ball rotor (6). Centrifugal force moves the rotor, aligning the detonator (12) with the impact firing pin. Upon impact, the firing pin extension (1) drives the impact firing pin into the detonator. Post-impact delay is provided by the labyrinth and pyrotechnic delay unit (7) between the detonator (12) and the relay (8). If impact docs not occur within the designated time interval, the self-destruction powder train (5) burns through and activates the detonator, which, after a delay, initiates the tetryl lead which, in turn, initiates the RDX booster. Figure 2-77 illustrates the fuze components in safe, unarmed, and armed positions. In the FZ-104 M12 and FZ-104 M22 variants of the FZ-104, an alternative detonating action may occur in graze impacts. In these variants, there is an additional friction detonator built into the plane of the self-destruction powder train but extending also into the next lower portion of the fuze. This additional friction detonator is adjacent to and just clockwise from the detonator end of the self-destruction train. The fuze design is such that, at extreme impact angles (approximately 70? to 80?), the nose portion of the fuze will break off at the especially weakened joint straddled by the special friction detonator. The friction detonator, a mixture of 50 mg undextrinated lead azide and 15 mg RDX in an aluminum cup, detonates due to friction, ignites the normal detonator within the ball rotor, and detonation of the projectile occurs as previously described. The post-impact delay elements described above may be altered or eliminated in the FZ-104 M2 and FZ-104 M22 variants. 2-206 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, PDSD, Model FZ-104 and variants FZ-104 MI, FZ-104 M2, FZ-104 M12, and FZ-104 M22 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 MI) FOM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ-104 M12) 139049-1-2-4 (FZ-104 M22) (U) Safety Features The FZ-104, F2-104 Ml, FZ-104 M2, FZ-104 M12, and FZ-104 M22 all have the same safety features. A ball rotor contains the detonator, and is held out of line by the firing pin engaged in a niche in the side of the rotor until firing. The firing pin is held in engagement with the rotor by a delay pellet and a deformable flange. Transportation safety, handling safety, and delayed arming are ensured by the safety devices and arming sequence previously described. A rain safety device allows safe firing in heavy tropical rain. These fuzes are known to be safe under practically any conditions. The FZ-104 and FZ-104 M12 have maintained a NATO "Symbol of Interchangeability" for 15 years. This means that these fuzes have not caused an accident within that time span. Extensive tests by US experts concluded that these fuzes should be generally safe, although they did not meet the requirements of some MIL Standards. (FOUO) Status (U) Fuzes FZ-104 and FZ-104 M12 carry the NATO "Symbol of Interchangeability" and thus would be considered favorably for adoption by many NATO nations. It is probable that both of these fuzes are considered standard in the armed forces of Belgium, Denmark, Norway, and possibly others. (U) Sweden almost certainly uses at least one fuze from among the FZ-104 group. (FOU0) Model FZ 104 M2 was standard in the West German armed forces as Model AZZ DM 91 at least as late as 1969. It is probably still standard, although Diehl may be developing a fuze to compete with it. (U) Model FZ-104 M12 is standard for use in the United Kingdom as Model L41A1. 2-207 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original Fuze, PDSD, Model FZ-I04 and variants FZ-104 Ml, FZ-104 M2, FZ-104 M12, and FZ-104 M22 /1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 M1) FOM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-194-2-4 (FZ-104 M22) (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 40-mm HE-T cartridge, Model SSL/K (Switzerland); 40-mm HE cartridge, Model SS/K (Switzerland); 40-mm HE-T cartridge, Model ?, (Bofors, Sweden); 40x365-mm HEI-T cartridge, Model SB-LS-Z (West Germany) 40-mm antiaircraft gun, Model L/70 (Bofors) (FOLIO) Interchangeability The Bofors FZ family of PDSD fuzes for antiaircraft guns use a great many parts in common. An idea of the degree of commonality of parts between any two fuzes in this family can be obtained by study of the chart "Evolution of Bofors PDSD Fuzes," appendix 11 of this manual. It should be noted that the fuzes in this family are also produced by at least two and probably more non-Swedish manufacturers under Bofors license, and may carry Bofors or foreign designations. Aside from intra-family fuze parts interchangeability, the Bofors PDSD fuzes use unique sets of components. Packaging for the FZ-104 and all its variants is apparently interchangeable. (U) Packaging The FZ-104 and all its variants apparently use the same packaging. Seven fuzes are packed in each sealed cylindrical fuze can. Protective styrofoam spacers hold the fuzes fixed within the can in a hexagonal pattern with one fuze in the center. A key is attached to the lid of each can to ensure easy access to the fuzes. Fourteen cans are packed in each wooden shipping box, for a total of 98 fuzes per box. 2-208 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PDSD, Model FZ-I04 and variants FZ-I04 MI, FZ-104 M2, FZ-104 MI2, and FZ-104 M22 1 1390-19-1-2 (FZ-104) 1390-19-1-2-1 (FZ-104 MI) FOM Nos. 1390-19-1-2-2 (FZ-104 M2) 1390-19-1-2-3 (FZ-104 M12) 1390-19-1-2-4 (FZ-104 M22) (U) Packaging (Continued) Alternatively, the fuzes may be shipped attached to the rounds with which they are to be fired, as is US practice for 40-mm ammunition. (U) Test Data Extensive US test data for the FZ-104 M12 and FZ-305 M12 fuzes are available in Picatinny Arsenal Technical Report 4581, "Military Potential Test of Fuze, 40-mm, Antiaircraft, Point Detonating Self-Destroying FZ-305 M12 (Bofors)," by Lloyd D. Post, November 1973. 2-209 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Or nal Aflh18flH4C145 Fuze, PD, Model? FOM No. 1390-19?1-9 STRIKER FIRING PIN ARMING BALL RMING SLEEVE ARMING SPRING STIRRUP SETBACK SLEEVE DETONATOR BOOSTER Net 517129 (UNC.1,ASSIFIEDI Figure 2-78. flue, PD, Model 2-2 11 UNCLASSIF D Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model? FOM No. 1390-19-1-9 (U) Description This simple direct-acting PD fuze (fig 2-78) is armed by setback, deceleration, and projectile spin by means of a setback sleeve and arming balls. The in-line detonator has no other safety features. The fuze is not detonator-safe and has only a minimal muzzle-safety distance. Its design falls far short of meeting current state-of-the-art safety and arming requirements. (U) Characteristics Fuze assembly: Body material Weight 19 g (0.042 lb) Markings Booster: Body material Body length Explosive Explosive weight Functional data: Arming method Setback, deceleration; spin Firing method Impact Safety devices Arming balls Arming distance est 10-20 cm Arming time Self-destruct time Delay time 7 Frequency (for VT fuze only) (U) Functioning 2 During storage and shipment, the firing pin is restrained from rearward movement and contact with the detonator by three steel arming balls. These balls are surrounded by, and restrained from movement by, a tubular arming sleeve. The arming sleeve is acted upon the compressed arming spring, but is prevented from moving forward by the bent leading edge of the stirrup, which in turn is held in position by the tubular setback sleeve that surrounds these components. 2-212 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model? FOM No. 1390-19-1-9 (U) Functioning (Continued) Upon firing, setback forces cause the setback sleeve to move to the rear, carrying with it the stirrup. This movement straightens the bent leading edge of the stirrup, releasing the arming sleeve. Setback forces continue, however, to hold the arming sleeve in position against the pressure of the arming spring; the arming balls are restrained from movement, and the fuze remains unarmed as long as acceleration continues. When the projectile exits the gun muzzle and acceleration ceases, the arming spring forces the arming sleeve forward. Centrifugal force acts on the arming balls, causing them to move radially outward into the space previously occupied by the arming sleeve. The firing pin is now free to move to the rear; creep (deceleration) forces, however, keep it in its forward position. The fuze is now armed. Upon impact with a target, the striker drives the firing pin into the detonator,initiating fuze functioning. The fuze does not have a self-destruct feature. (U) Applications (Ammunition and Weapons) Ammunition Weapons 20-mm (20x110-mm) HEI cartridge, Model M-52 20-mm automatic gun, Model L-70 2-213 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 LO 20.4! 1.5"-12UNF- 1A(038.1] 049 -03 Neg. 515329 Fuze, PD, Model F8-267 FOM No. 1390-23-1-4 (UNCLASSIFIED) Figure 2-79. Fuze, PO, Model FB-267, contour view (U). (U) Description The FB-267 PD fuze (fig 2-79) is a setback, delayed-arming type designed for SQ or delay functioning upon impact. It was developed by Fratelli-Borletti of Milan, Italy, for use 2-215 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST?1160H-001-75 Original Fuze, PD, Model FB-267 FOM No. 1390-23-1-4 (U) Description (Continued) on fin-stabilized mortar projectiles. The fuze is designed to be bore and muzzle safe. A pull wire locking all arming components assures safe shipping, handling, and parachute delivery. The fuze is watertight and is considered reliable in temperatures from -40? to +140?F. (U) Unique Features ? Escapement mechanism for delay arming. ? Out-of-line detonator housed in a slider. (U) Characteristics Fuze assembly: Body material Weight 245 g (0.54 lb) Markings 7 Booster: Body material Body length Explosive Explosive weight Functional data: Arming method Setback Firing method Impact Safety devides Safety pin, setback pin, out-of-line detonator Arming distance 50 m Arming time 1.2 s Delay time 0.05 s Sensitivity tests:* Superquick Functions on 4-mm paperboard** Functions 2 to 10 m behind 25-mm wood target *Targets located at 200 m from weapon. **Mullen bursting strength is 39 to 45 kg/cm2 @ 18?C @ 65?2% relative humidity. 2-216 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details 20 10 11 12 a 5 24 17 21 25 Neg. 515328 (UNCLASSIFIED) Figure 2-80. Fuze, PD, Model FB-267, section view, unarmed position (U). 2-217 UNCLASSIFIED AST-11608-001-75 Fuze, PD, Model FB-267 FOM No. 1390-23-1-4 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model FB-267 FOM No. 1390-23-1-4 (U) Design Details (Continued) The fuze (fig 2-80) consists primarily of the upper body (6), lower body (8), and booster assemblage (9). The upper body (6) is bored out to facilitate the firing-pin assembly, slider, delay-arming escapement mechanism, inertial plunger, setback pin, and fuze selector. The firing-pin assembly consists of the striker cup (1), the firing pin (10), and its spring (11). It is sealed by a plastic cap (20) for protection against water. The escapement mechanism (19) consists of a gear-pinion arrangement linked to the rack and spring (18) of the slider (4), containing the SQ detonator (2) and delay detonator (5). The slider is locked in the unarmed position by the setback pin (21) and its spring (25). The inertial plunger (7) is locked in safe position by a pull-out wire (24) to assure positive safety during handling, shipping, and parachuting. The fuze selector (12) is sealed by an "0" ring (14) and retaining ring (15). The lower body adapter (8) is threaded internally and externally. The upper body (6) is sealed by a gasket prior to the lower body (8) being screwed on. The inertial plunger (7) has a central tube filled with a lead charge (16) of tetryl. The booster cup (9) with its tetryl booster (22) is screwed into the lower fuze body (8), completing the assemblage. (U) Functioning Upon firing (fig 2-80), setback forces moves the pin (21) rearward, compressing its spring (25) and locking itself in place. This releases the slider, which moves slowly by the action of the spring (18), which is delayed by the escapement mechanism (19) via a pinion-rack arrangement. Depending on the setting of the selector (12) to "SQ" or delay functioning, either detonator (2 or 5) will align with the firing pin, as depicted in figure 2-81. Upon impact, the firing pin stabs the detonator and in turn initiates the tetryl lead charge, booster, and high explosive filler of the projectile. 2-218 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1150H-001-75 (U) Functioning (Continued) Neg. 515330 Fuze, PD, Model FB-267 FOM No. 1390-23-14 11 (UNCLASSIFIED) Figure 2-81. Fuze, PD, Model FB-267, section view, armed position (U). 2-219 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model FB-267 FOM No. 1390-23-1-4 (U) Modifications The slider reportedly has been redesigned. No specifics are available at this time. (U) Applications (Ammunition and Weapons) Ammunition Weapons 60-mm HE projectiles 81-mm HE projectiles 43A1 120-mm HE projectiles 60-mm mortars 81-mm mortars 120-mm mortars 2-220 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIRED Original AST 14S Fuze, PDSD, Model M4A 7 FOM No, 139 23-1-5 Neg. 507969 (UNCLASSIFIED) Figure 2-82. Fuze, PDSD, Model M4A7, full view (U). 2-221 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Model M4A7 FOM No. 1390-23-1-5 (U) Description This fuze (fig 2-82), manufactured by Bombrini Parodi-Delfino (BPD), Rome, was designed for use with the Bofors 40-mm antiaircraft gun L/70. It was standard in the Italian Army at least as late as 1969. The internal components of the M4A7 are identical to those used in the M6. Except for a delay element in the detonator of the M5, the M4A7 and M5 are identical. M4A7 is an SQ functioning fuze with a pyrotechnic self-destruct element burning 6.5 to 10 seconds from the moment of setback. This fuze should be effective against a light target. It should function well over a wide range of temperature and humidity conditions. A minimum number of moving parts are used. The fuze mechanism is simple, easy to manufacture, safe to handle and transport, and sensitive. Liberal manufacturing tolerances can be used, while moisture and dust can be readily sealed out. Tooling costs for this design are minimal with equally modest production costs. This fuze was first mass produced in 1958 and is still being produced in quantity. (U) Unique Features This fuze uses mass (in the form of balls) instead of a spring to displace the striker assembly which holds the out-of-line detonator rotor in the safe position. An inexpensive pyrotechnic element is used to delay arming. Two dctents also hold the detonator rotor in the safe position until spin releases them. This fuze is rain safe. (U) Characteristics Fuze assembly: Body material Aluminum (?) Weight 68 g (0.15 lb) Markings 7 Booster: Body material Body length Explosive Explosive weight 2-222 UNCLASSIFIED 4.6 mm (0.181n) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Characteristics (Continued) AST-1160H-001-75 Fine, PDSD, Model M4A7 FOM No. 1390-23-1-5 Physical data (from exploitation): Overall length 72.6 mm (2.86 in) Visible length 41.7 mm (1.64 in) Max diam 28.4 mm (1.12 in) Thread data: Max diam 21.8 mm (0.86 in) Pitch Metric, probably 1 mm Functional data: Arming method Firing method Safety devices Arming distance Arming time Self-destruct time Delay time Spin, pyrotechnical delay Impact or pyrotechnic (self-destruct) Out-of-line detonator (rotor) and detent on striker and rotor Approx 120-150 m Approx 0.13-0.17 s 6.5-los None (SQ) 2-223 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116084101-75 Fuze, PDS D, Model M4A7 FOM No. 1390-23-1-5 (U) Functioning (fig 2-83) 1. Closure 10. Washer 2. Nose cap 11. Rotor 3. Pin 12. Rotor housing 4. Primer body 13. Lower fuze body 5. Primer firing pin 14. Booster pellet 6. Striker assembly 15. Booster cup 7. Upper fuze body 16. Closing disk 8. Striker firing pin 17. Primer 9. Detonator 18. Delay element 2.86.86 1.12 DIAM DIAM 25 TPI 19. Delay and detent housing 20. Striker detent 21. Seal 22. Self-destruct delay 23. Washer 24. Detent balls 25. Firing-pin recess 26. Spring 27. Booster lead 17 19 20 21 22 23 24 25 26 27 Original ALL DIMENSIONS IN INCHES Neg. 507968 (UNCLASSIFIED) Figure 2-83. Fuze, PDSD, Model M4A7, contour and section views (U). When the projectile is fired, setback acting on the primer body (4) causes the pin (3) to bend, allowing the primer body to move to the rear and the primer (17) to be driven against the firing pin (5). The primer initiates the delay element (18) and this, in turn, initiates the self-destruct element (22). As the delay element burns, spin causes the detent (20) to move into the space created by the burning delay. When the detent has withdrawn from engagement with the striker assembly (6), the steel balls (24), acted upon by spin, move outward along the contour of the cavity forcing the washer (23) and striker assembly (6) to 2-224 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1 160N101-75 Fuze, PDSD, Model M4A7 FOM No. 1390-23-1-5 (U) Functioning (Continued) move forward. This action causes the closure (1) of the striker assembly (6) to move against the inner surface of the nose cap (2). The striker firing pin (8) is withdrawn from the firing-pin recess (25). Two rotor detents extend from the rotor housing (12) into recesses in the rotor, one on each side of the rotor. The detents are held in place by a flat spring (26) formed into a circle. Spin, acting on these detents, deflects the spring (26), and when the detents and firing pin (8) have withdrawn from the rotor recesses, two rotor weights cause the rotor detonator (9) to swing into line with the firing pin (8). The fuze is now armed and will function upon impact with a target. Upon impact, the nose cap (2) is crushed, driving the striker assembly toward the rear, causing the firing pin to impinge on the detonator (9). This action initiates the lead charge (27) which, in turn, initiates the booster (14). The booster detonation initiates the high explosive within the projectile. if the projectile has not yet impacted when the self-destruct delay (22) burns out, the self-destruct element, initiated by the delay element (18) at firing, initiates a detonator within the striker firing pin. This detonator flashes through holes in the firing-pin wall, initiating the rotor detonator and causing the projectile high explosive to detonate as previously described. (U) Safety Features The striker assembly is initially positioned with the firing pin in engagement with the rotor, holding the detonator out of line. The striker is held in position by a detent and chemical (pyrotechnic) delay. The rotor is locked in position with the detonator out of line by two rotor detents held in place by a circular leaf spring. The fuze cannot arm until the projectile has traveled some distance down range because the chemical delay holds the striker detent in position until it has burned out sufficiently to provide space for the detent to retreat radially. The steel balls then displace the striker assembly forward, and finally the rotor must swing into line with the firing pin to complete the arming cycle. 2-225 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001.75 Original Fuze, PDSD, Model M4A7 FOM No. 1390-23-1.5 (U) Interchangeability All internal components used in this fuze are interchangeable with those used in the M6 fuze. Except for the use of detonators with different chemical compositions, the M4A7 and M5 fuzes are identical and interchangeable. (U) Applications (Ammunition and Weapons) Ammunition Weapons 40-mm HE cartridge, Model Ml; 40-mm HEI cartridge, Model Ml; 40-mm HE-T cartridge, Model M2; 40-mm HEI-T cartridge, Model M2 40-mm antiaircraft gun, Model L/70 (Bofors) (U) Packaging Normally, the fuzes are shipped attached to the rounds with which they are to be fired. Whenever the fuzes are shipped separated from the ammunition, a special BPD shipping box is provided. The same shipping box is used for the M4A7 fuze as is described for shipping the M6 and M5 fines. For details of this box, see FOM No. 1390-23-1-6 on the M6 fuze. (U) Test Data No test data for this fuze are presently held by the US intelligence community; however, because the internal components used are identical with those of the M6, it is likely that the performance of the M4A7 will be similar to that of the M6, for which test data are available. Some performance differences should be expected, however, because the M4A7 is fired from a weapon (the L/70 gun) with a higher muzzle velocity and different ballistics from that in which the M6 is fired (the L/60 gun). For a summary of test data on the M6, see the M6 article elsewhere in this handbook. 2-226 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Ne, 507970 t UNCLASSIFIED) Figure 2-84? Fuze, PDSD, Model M6, contour and section views (U). 2-227 UNCLASSIFIED AST-11 7 Fuze, POSE), Model M6 FOM No, 1340-23-1-6 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116014001-75 Original Fuze, PDSD, Model M6 FOM No. 1390-23-1-6 (U) Description This fuze (fig 2-84), manufactured by Bombrini Parodi-Delfmo (BPD) of Rome, was designed for use with the Bofors 40-mm antiaircraft gun L/60. The internal components of the M6 are identical to those of fuze M4A7, and also, except for the chemical composition of the detonator, to those of fuze M5. Fuzes M4A7 and M5, both for use with the Bofors L/70 40-mm antiaircraft gun, use a different body due to being mated with different ammunition. M6 is an SQ functioning fuze with a pyrotechnic self-destruct mechanism burning 6.5 to 10 seconds from the moment of setback. This fuze should be effective against a light target. It should function well under a wide range of temperature and humidity conditions. A minimum number of moving parts are used. The fuze mechanism is simple, easy to manufacture, safe to handle and transport, and sensitive. Liberal manufacturing tolerances can be used, while -moisture and ,dust can be readily sealed out. Tooling costs for this design are minimal with equally modest production costs. In US tests, this fuze functioned reasonably well, although it was considerably less reliable than the Bofors FZ-305 M12 fuze. Detailed test data are available in Picatinny Arsenal Technical Report 4257, August 1971, summarized below. (U) Unique Features This fuze uses mass (in the form of balls) instead of a spring to displace the striker assembly which holds the out-of-line detonator rotor in the safe position. An inexpensive pyrotechnic element is used to delay arming. Two detents also hold the detonator rotor in the safe position until spin releases them. This fuze is rain safe. (U) Characteristics Fuze assembly: Body material Aluminum (?) Weight 134 g (030 lb) Markings 2-228 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Characteristics (Continued) AST-116OH-001-75 Fuze, PDSD, Model M6 FOM No 1390-23-1-6 Booster: Body material Body length 4.6 mm (est) (0.18 in) Explosive Explosive weight Physical data (from exploitation): Overall length 72.9 mm (2.87 in) Visible length 48.0 mm (1.89 in) Max diam 32.5 mm (1.28 in) Thread data: Max diam 30.0 mm (1.18 in) Pitch Metric, probably 2 mm (Model M6/D has thread 1.18-14 NS-2A) Functional data: Arming method Firing method Safety devices Arming distance Arming time Self-destruct time Delay time 2-229 Spin, pyrotechnic delay Impact or pyrotechnic (self-destruct) Out-of-line detonator (rotor) and detents on rotor and striker Approx 120-150 m Approx 0.13-0.17 s (est) 6.5-10 s None (SQ) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011101-75 Fuze, PDSD, Model M6 FOM No. 1390-23-1-6 (U) Functioning (fig 2-85) 2.87 .72 L52 1. Closure 10. washer 2. Nose cap 11. Rotor 3. Pin 12. Rotor housing 4. Primer body 13. Lower fuse body 5. Primer Firing pin 14. Booster pellet 6. Striker assembly 15. Booster cup 7. Upper fuze body 16. dosing disk 8. Striker tying pin 17. Primer 9. Detonator 18. Delay element .03 Neg. 507971 I. DIAM 1.18 DIAM 14 TPI .81 DIAM .88 DIAM 56 DIAM 19. Delay and detent housing 20. Striker detent 21. Seal 22. Self-destruct delay 23. washer 24. Detent balls 25. Firing-pin recess 26. Spring 27. Booster lead ALL DIMENSIONS IN INCHES 17 18 19 20 2! 22 23 ?":" 25 26 27 Original 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 (UNCLASSIFIED) Figure 2-85. Fuze, PDSD, Model M6, contour and section views (U). When the projectile is fired, setback acting on the primer body (4) causes the pin (3) to bend, allowing the printer body to move to the rear and the primer (17) to be driven against the firing pin (5). The primer initiates the self-destruct element (22). As the delay element burns, spin causes the detent (20) to move into the space created by the burning delay. When the detent has withdrawn from engagement with the striker assembly (6), the steel 2-230 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, PDSD, Model M6 FOM No. 1390-23-1-6 (U) Functioning (Continued) balls (24), acted upon by spin, move outward along the contour of the cavity forcing the washer (23) and striker assembly (6) to move forward. This action causes the closure (1) of the striker assembly (6) to move against the inner surface of the nose cap (2). The striker firing pin (8) is withdrawn from the firing-pin recess (25). Two rotor detents extend from the rotor housing (12) into recesses in the rotor, one on each side of the rotor. The detents are held in place by a flat spring (26) formed into a circle. Spin, acting on these detents, deflects the spring (26), and when the detents and firing pin (8) have withdrawn from the rotor recesses, two rotor weights cause the rotor detonator (9) to swing into line with the firing pin (8). The fuze is now armed and will function upon impact with a target. Upon impact, the nose cap (2) is crushed, driving the striker assembly toward the rear causing the firing pin to impinge on the detonator (9). This action initiates the lead charge (27) which, in turn, initiates the booster (14). The booster detonation initiates the high explosive within the projectile. In the event that the projectile fails to impact prior to burn-out of the self-destruct delay (22), the self-destruct element, initiated by the delay element (18) at firing, initiates a detonator within the striker firing pin. This detonator flashes through holes in the ruing-pin wall, initiating the rotor detonator and causing the projectile high explosive to detonate as previously described. (U) Safety Features The striker assembly is initially positioned with the firing pin in engagement with the rotor, holding the detonator out of line. The striker is held in position by a detent and chemical (pyrotechnic) delay. The rotor is locked in position with the detonator out of line by two rotor detents held in place by a circular leaf spring. The fuze cannot arm until the projectile has traveled some distance down range because the chemical delay holds the striker detent in position until it has burned out sufficiently to provide space for the detent to retreat radially. The steel balls then displace the striker assembly forward, and finally the rotor must swing into line with the firing pin to complete the arming cycle. 2-231 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UPILLAbbll-ItIJ AST-11608-00145 Original Fine, PDSD, Model M6 FOM No. 1390-23-1-6 (U) Interchangeability All internal components used in this fuze are interchangeable with those used in the M4A7 fuze, and also, except for the chemical composition of the detonator mechanism, with the M5 fuze. (U) Status This fuze was standard in the Italian Army at least as late as 1960, and standard in the West Germany Army as Model AZZ DM 121. (U) Applications (Ammunition and Weapons) Ammunition Weapons 40-mm HE cartridge, Model No. 1 40-mm HEI cartridge, Model No. 1 40-mm HE-T cartridge, Model No. 2 40-mm HEI-T cartridge, Model No. 2 40-mm antiaircraft gun, Model L/60 (Bofors) (U) Packaging Normally, the fuzes are shipped attached to the rounds with which they are to be fired. Whenever the fuzes are shipped separated from the ammunition, BPD provides a special shipping box (fig 2-86) holding 500 fuzes, weighing 45 kg (packed) and with dimensions 690x395x350 mm. The case is made of fir wood, with a zinc-coated sheeting liner. Four trays are packed in the wood box, 125 fuzes to a tray, with each fuze isolated from its neighbors in every direction by sitting in a hole in the tray. Sheets of 1.5-mm-thick bituminized cardboard are placed between trays of fuzes in order to isolate the noses of lower layer fuzes from the bases of those on the next higher layer. The liner sheeting is tin-soldered at the top edges to ensure an airtight seal. The wooden lid is fixed to the box by 10 screws. Slat-type carrying handles (at different heights to facilitate packing) are attached to each end of the box. The same packaging is also used for fuze M4A7 and fuze M5. 2-232 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Originel (LI) Packaging (Continued) AST-1160H-001-75 Fuze, PDSD, Model M6 EOM No. 1390-23-1-6 Figure 2-86. Fuze, PDSD, Model M6, shipping box }, (LI) Summary of Test Data (from PA Tech Report 4257) Functioning: Total function/number tested (excluded non-functions and low orders) 71192 % Function 1 Reliability at 90% confidence level .. . 68.0 Functioned as intended/number tested 68/92 % Function 74.0 Reliability at 90% confidence level 66.0 Delay arming: Nominal distance (ft) 467 o (standard deviation) 24.4 2-233 UNCLASSIFIED (UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11600-001-75 Original Fuze, PDSD, Model M6 FOM No. 1390-23-1-6 (U) Summary of Test Data (from PA Tech Report 4257) (Continued) Self-destruct: Nominal time (s) 10.08 a (standard deviation) (s) 0.27 2-234 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Nie,5167r2 (UNCLASSIFIED) Figure 287 Fore, PDSD, Model MS, mull view (U), 2 235 UNCLASSIFIED A 16DH-00145 Fine,['DSP, Model M5 FOM No. I 390.23-1-9 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Model MS FOM No. 1390-23-1-9 (U) Description This fuze (fig 2-87), manufactured by Bombrini Parodi-Delfino (BPD) of Rome, was designed for use with the Bofors 40-mm antiaircraft gun L/70. It is reportedly used by West Germany, but its present status is unknown. The M5 has a delay after impact function built into the detonator composition. Except for this post-impact delay, fuze M5 is identical to fuze M4A7, which is SQ functioning. Fuze M6 uses the same internal components as the M4A7. M5 is a short-delay functioning fuze with a pyrotechnic self-destruct element burning 6.5 to 10 seconds from the moment of firing. This fuze should be effective against a light target. The delay functioning detonator should enhance ammunition effectiveness against aircraft and unarmored vehicles by allowing some (up to 1 meter) penetration before projectile detonation. M5 should function well over a wide range of temperature and humidity conditions. A minimum number of moving parts are used. The fuze mechanism is simple, easy to manufacture, safe to handle and transport, and sensitive. Liberal manufacturing tolerances can be used, while moisture and dust can be readily sealed out. Tooling costs for this design are minimal with equally modest production costs. (U) Unique Features A pyrotechnic post-impact delay element in the detonator assembly should provide enhanced effectiveness. Mass (in the form of balls) is used instead of a spring to displace the striker assembly which holds the out-of-line detonator rotor in the safe position. An inexpensive pyrotechnic element is used to delay arming. Two detents also hold the detonator rotor in the safe position until spin releases them. This fuze is rain safe. (U) Characteristics Fuze assembly: Body material Aluminum (?) Weight 68 g (0.15 lb) Markings 2-236 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Characteristics (Continued) Booster: Body material Body length 4.6 mm (0.18 in) Explosive Explosive weight 7 7 Physical data: Overall length 72.6 mm (2.86 in) Visible length 41.7 mm (1.64 in) Max diam 28.4 mm (1.12 in) AST-11601-001-75 Fuze, PDSD, Model M5 FOM No. 1390-23-1-9 Thread data: Max diam 21.8 mm (0.86 in) Pitch Metric, probably 1 mm Functional data: Arming method Firing method Safety devices Arming distance Arming time Self-destruct time Delay time 2-237 Spin, pyrotechnic delay Impact or pyrotechnic (self-destruct) Out-of-line detonator (rotor) and decent on striker and rotor 120-150 m (est) 0.13-0.17 s (est) 6.5-10 s Approx 0.0005 s UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST?1160 H-001 -75 Fuze, PDSD, Model M5 FOM No. 1390-23.1-9 (U) Functioning (fig 2-88) 1 Closure 2. Nose cap 3 Pin 4 Primer body 3 Primer firing pin 6 Striker assembly 7 Upper fuze body 8. Striker firing pin 9 Derunator 10. Washer 11 Rotor 12 Rotor housing 13 Lower fuze body 14. Booster pellet 15 Booster cup 16. Closing disk 17. Primer 18. Delay element 19. Delay and detent housing 20. Striker detent 21. Seal 22. Self-destruct delay 23. Washer 24. Detent balls 25 Firing-pin recess 26 Spring 27. Booster lead 11 DELAY COMPOSITION Neg. 516774 (UNCLASSIFIED) Figure 2-88. Fuze, PDSD, Model MS, section view (U). 2-238 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (Continued) AST-1160 H-001-75 Fuze, PDSD, Model M5 FOM No. 1390-23-1-9 When the projectile is fired, setback acting on the primer body (4) causes pin (3) to bend, allowing the primer body to move to the rear and the primer (17) to be driven against the firing pin (5). The primer initiates the delay element (18) and this, in turn, initiates the self-destruct element (22). As the delay element burns, spin causes the striker decent (20) to move into the space created by the burning delay. When the detent has withdrawn from engagement with the striker assembly (6), the steel balls (24), acted upon by spin, move outward along the contour of the cavity forcing the washer (23) and striker assembly (6) to move forward. This action causes the closure (1) of the striker assembly (6) to move against the inner surface of the nose cap (2). The striker firing pin (8) is withdrawn from the firing-pin recess (25). Two rotor detents extend from the rotor housing (12) into recesses in the rotor, one on each side of the rotor. The detents are held in place by a flat spring (26) formed into a circle. Spin, acting on these detents, deflects the spring (26) and when the detents and firing pin (8) have withdrawn from the rotor recesses, two rotor weights cause the rotor detonator (9) to swing into line with the firing pin (8). The fuze is now armed and will function upon impact with a target. Upon impact, the nose cap (2) is crushed, driving the striker assembly toward the rear, causing the firing pin to impinge on the detonator (9). This action initiates the lead charge (27) which, in turn, initiates the booster (14). The booster detonation initiates the high explosive within the projectile. If the projectile has not yet impacted when the self-destruct delay (22) burns out, the self-destruct element initiated by the delay element (18) at firing initiates a detonator within the striker firing pin. This detonator flashes through holes in the firing-pin wall, initiating the rotor detonator and causing the projectile high explosive to detonate as previously described. (U) Safety Features The striker assembly is initially positioned with the firing pin in engagement with the rotor, holding the detonator out-of-line. The striker is held in position by a detent and chemical (pyrotechnic) delay. The rotor is locked in position with the detonator out-of-line by two rotor detents held in place by a circular leaf spring. 2-239 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11130H-001-75 Original Fuze, PDSD, Model M5 FOM No. 1390-23-1-9 (U) Safety Features (Continued) The fuze cannot arm until the projectile has traveled some distance down range because the chemical delay holds the striker detent in position until it has burned out sufficiently to provide space for the detent to retreat radially. The steel balls then displace the striker assembly forward, and finally the rotor must swing into line with the ruing pin to complete the arming cycle. (U) Interchangeability This fuze employs a delay element in the detonator composition. Except for this delay, fuze M5 is identical to fuze M4A7. All M5 internal components except the delayed detonator are also interchangeable with those used in fuze M6. (U) Applications (Ammunition and Weapons) Ammunition Weapons 40-mm HE cartridge, Model Ml; 40-mm HEI cartridge, Model MI; 40-mm HE-T cartridge, Model M2; 40-mm HEI-T cartridge, Model M2 40-mm antiaircraft gun, L/70 (Bofors) (U) Packaging Normally, the fuzes are shipped attached to the rounds with which they are to be fired. Whenever the fuzes are shipped separated from the ammunition, BPD provides a special shipping box. Identical boxes are used for shipping M4A7, M5, and M6 fuzes, 500 to a box. For a detailed description and photography of this packaging, see the section on fuze M6 in this study. (U) Test Data No test data for this fuze are presently held by the US intelligence community. Test data for the similar fuze M6 may not be applicable to the M5 because the delay-after-impact element in the M5 could affect performance adversely. 2-240 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original i AST-116811-00145 Fuze, PD, Model 225A FOM No. 1390-23-2-2 ARMED POSITION Neg. 551860 (UNCLASSIFIED) Neg. 551861 (UNCLASSIFIED) Figure 2-89. Fuze, PD, Model 225A, section views of unarmed and armed positions (U). (U) Description The Model 225A fuze (fig 2-89 and 2-90) is a setback, delayed-arming fuze designed for instantaneous and graze functioning upon impact. It was developed by Fratelli Borletti of Milan, Italy, for use with the XM151 2.75-inch airborne rockets. External shape and dimensions are similar to US fuzes M423 and XM427E1. 2-241 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, PD, Model 225A FOM No. 1390-23-2-2 (U) Unique Features ? "V"-shaped nose cap for graze functioning. ? Escapement to control or delay the arming. ? Slider housing out-of-line detonator. (U) Characteristics Fuze assembly: Body material 7 Weight Markings FB 225A Booster: Body material Body length Explosive Explosive weight Functional data: Arming method Setback Firing method Impact Safety devices Arming distance Arming time *Pull wire, locking pin, and out-of-line detonator. 2-242 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model 225A FOM No. 1390-23-2-2 (U) Design Details (figs 2-89 and 2-90) The FB 225A is a three-piece design consisting of a nose cap, upper body section, and lower body section. The nose cap has an internally truncated "V"-shape cutout to permit the striker assembly (1) and inertial plunger (6) to be cammed when the projectile grazes the ground upon impact. The striker assembly (1) includes a striker head, setback spring, and firing pin. The spring-loaded slider (3,2) houses an out-of-line detonator (4). The movement of the slider (2) is controlled by the clockwork mechanism (M). The safety system consists of locking pin (7), locking-pin spring (9), and pull wire (8). The explosive train includes the detonator (4), a columnar lead charge (5), a relay, and a booster. The booster assembly screws into the base of the lower body section of the fuze. (U) Functioning Prior to firing, the safety pin (8) is removed (see fig 2-89). Upon firing, acceleration of the rocket causes the locking pin (7) to move rearward, compressing its spring and undetenting the slider (2), which is pushed into the armed position by its spring (3). This movement is delayed by the clockwork (M) (see fig 2-89). When the clockwork runs down, the detonator (4) aligns itself with the striker (1) and the columnar lead charge. The fuze is now armed. Upon impact (see fig 2-90) with no-graze action, the nose cap (10) drives the striker into the detonator (4), initiating the lead charge (5) and in turn the relay charge (11) and booster (12). In the event the striker does not function the detonator, the inertial plunger (6) simultaneously drives the detonator into the striker. Upon impact with graze action, the nose cap (10) cams the striker (1) and the inertial plunger pushes the detonator (4) into the striker (1), initiating the lead charge (5) and in turn the relay charge (11) and booster (12). 2-243 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11608-001-75 Fine, PD, Model 225A FOM No. 1390-23-2-2 (U) Design Details (Continued) 1 12 Original IMPACT POSITION I NO GRAZE ACTION 1 IMPACT POSITION I GRAZE ACTION ) Neg. 551863 (UNCLASSIFIED) Neg. 551862 (UNCLASSIFIED) Figure 2-90. Fuze, PD, Model 225A, impact position, no-graze and graze actions (U). 2-244 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AS71160E1-001-75 Fuze, PD, Model 225A FOM No. 1390-23-2-2 (U) Applications (Ammunition and Weapons) Ammunition Weapons 2.75-in HE rockets, Model XM151 2.75-in rocket launchers 2-245 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BIM PAU Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (UNCLASSIFIED) Figure 2-91. Fuze, PD, Model 53, 2-347 AST-11500-00145 Fuze, PD, Model 53 FOM No. 1390-244-2 (UNCLASSIFIED) cutaway views (U). UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model 53 FOM No. 1390-24-1-2 (U) Description The Model 53 (fig 2-91) is a setback-armed PD fuze designed for instantaneous action upon impact. It was designed by Esperanza Y CIA, S.A. of Marquina, Spain, for use with mortar projectiles of any caliber. (U) Unique Features ? Eccentric weight ball rotor containing out-of-line detonator. ? Safety wire locking setback sleeve. ? Two balls detenting the ball rotor. (U) Characteristics Fuze assembly: Body material Brass Weight 225 g? (0.50 lb) Markings Model 53 Length 114.5 mm (4.51 in) Thread diam 22.3 mm (0.88 in) TPI 13 Booster: Body material Brass Body length 51 mm (2.01 in) Explosive Tetryl ? Explosive weight 7 Functional data: Arming method Setback Firing method Impact Safety devices Arming distance 5 meters Arming time *Safety wire locking setback sleeve and detcnt on ball rotor horizon out-of-line detonator. 2-248 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED (U) 1)esign Details BETAlk AST-1160H-001-75 Foie, PI), Model 53 FONT No. 1390-24-1-2 (L1'LLASSIF Figure 2-92. Fuze PD Model 53, exploded view (U). 2-249 UNCLASSiFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model 53 FOM No. 1390-24-1-2 (U) Design Details (Continued) (U) The fuze (fig 2-92) consists of a striker assembly, upper fuze body, lower fuze body, and booster assemblage. The forward end of the upper fuze body is threaded externally and bored out to facilitate assembly of the striker. The striker consists of an aluminum striker head, steel coil spring and firing pin which is locked in position by a retainer nut forming the striker assembly. The rearward portion of the upper fuze body is hollowed out to house the eccentrically weighted ball rotor containing the out-of-line detonator. In addition, the upper fuze body is threaded internally to receive the lower fuze body. The lower fine body is threaded externally for screwing onto the projectile and internally to facilitate assembly of the booster. The lower fuze body houses the weighted setback sleeve, two detent balls, the setback spring and spring-loaded release pin which engages a flat surface of the ball rotor and a brass flash tube for assembly into the booster assembly. A safety pin, inserted through a transverse opening through the lower fuze body and setback sleeve, provides additional safety. 2-250 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model 53 FOM No. 1390-24-1-2 (U) Functioning (fig 2-93) Neg. 516492 (UNCLASSIFIED) Figure 2-93. Fuze, PD, Model 53, section view (U). 2-251 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model 53 FOM No. 1390-24-1-2 (U) Functioning (Continued) Prior to firing, the safety pin is removed. Upon firing, setback forces move the weighted setback sleeve (1) rearward, compressing its spring (2); this in turn frees the two detent balls (3) which fall into the cavity (4) of the lower fuze body. The eccentric weighted ball rotor (5) is now free to move. As setback forces dissipate, the setback sleeve (1) moves forward by expansion of its spring (2) and rests on a shoulder (6) of the lower fuze body. The eccentrically weighted ball rotor as a result of its mass and the help of a spring-loaded release pin (7) rotates 90?, arming the fuze. The detonator (8) is now in line with the firing pin (9). Upon impact, the striker head (10) forces the firing pin (9) against its spring (11), stabbing the detonator (8) which in turn flashes through the flash tube (12), initiating the booster (13) and resulting in detonation of the high explosive projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons 60-mm projectiles 81-mm projectiles 60-mm mortar 81-mm mortar 2-252 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original UNCLASSIFIED AST1160H-001 7 Fuze, PD, Model D FOM No. 1390-24e1-3 NCLASS Figure 2-94. Fuze, PD, Mod UNCLASSIF D Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model D FOM No. 1390-24-1-3 (U) Description The Model "D" PD fuze (fig 2-94) is a setback-armed type designed for either instantaneous or delay action upon impact. It was developed by Esperanza Y CIA, S.A. of Marquina, Spain, for use with mortar projectiles. (Li) Unique Features ? Employs a visual and touch needle which tells you the fuze is armed. ? Employs a plastic safety cap and steel pin. ? Employs a spring-loaded slider detented by a unique arming mechanism. (U) Characteristics Fuze assembly: Body material Anodized aluminum Weight 212 g (0.47 lb) Max body diam 48.7 mm (1.92 in) Length (overall) 94.5 mm (3.72 in) Thread diam 37.5 mm (1.48 in) TPI 12 Booster: Body material Anodized aluminum Body length 20 mm (0.79 in) Body diam 27.7 mm (1.09 in) Explosive Tetryl ? Explosive weight Functional data: Arming method Setback Firing method Impact Safety devices Safety cap, safety pin detent on slider Arming distance 40 m Arming time 1.2 s Delay time 2-254 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details AST-1160)1-001-75 Fuze, PD, Model D FOM No. 1390-24-1-3 2. 28 1 10 16 24 22 25 UNARMED POSITION Neg. 516920 . ARMED POSTION Figure 2-95. Fine, PD, Model D, section view (U). (UNCLASSIFIED) The fuze (fig 2-95) consists of the firing-pin assembly, fuze body, and booster assemblage. The conical-shaped fuze body (17) is threaded internally to facilitate assembly of the booster assembly (26) and externally for securing the firing-pin assembly. The firing-pin assemblage consists of the striker head (20), coil spring (29), and a cylinder (15), housing the piston (11), silicone charge (10), and firing pin (30). The hollow cylinder (15) and the piston (11) are recessed out to hold the decent ball (8). The hollow cylinder has a hole drilled longitudinally for positioning of a needle (9), which acts as visual and touch-type indicator when the fuze is armed. The striker head (20) is secured by a retainer nut (21), forming the nose portion of the fuze. 2-255 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model D FOM No. 1390-24-1-3 (U) Design Details (Continued) The arming mechanism, housed in the fuze body, consists of the detent ball (8), weighted setback sleeve (14), setback spring (4), piston (11), cylinder (15), silicone charge (10), and firing pin (30), which detents the spring-loaded slider housing the instantaneous detonator and the delay detonator (7). The slider assembly consists of a spring (6), slider block (5), and guide pin (2). There are two transverse openings in the fuze body (17) 90? apart; one is totally enclosed and is designed to facilitate the slider (6,5), and the other smaller one is provided with a guide pin (2) which abuts onto the slider. The slider (6,5) is sealed by the setting plug (22), with a ring washer to prevent moisture from entering. The setting plug (22) is provided with a slot on the outside to facilitate fuze setting to either delay or instantaneous action. The end of the pin (2), which is pressure fitted inside the fuze body (17), juts out and fits into an axial groove in the side of the slider (6,5) allowing the slider to be guided properly when forced to move by its spring (6). On the cylinder (15), a conical sleeve (1) is fitted. This has been cut longitudinally to permit slightly separated and projecting strips, which act as a clip. When the weighted setback sleeve (14) is forced rearward during firing, it latches onto the conical sleeve (1) and on set forward takes the cylinder (15) with it. A silicone charge (10) is positioned inside the cylinder (15); above it a piston (11) is held in place by a washer (19) and retainer nut (21). The silicone, when compressed by action of the spring (4), is forced out of small holes in the base of the charge. This produces a time lag for trajectory safety before the slider is released for arming the fuze. (U) Functioning (fig 2-95) Prior to firing, the safety cap (28) and safety pin (18) are removed. Upon firing, setback forces the weighted setback sleeve (14) rearward, compressing the spring (4) until it is clipped onto the cylinder (15) by means of the strips of the sleeve (1), thereby releasing ball (8). Upon dissipation of setback forces, the spring (4) expands, moving the cylinder (15) forward. Overcoming the resistance afforded by the silicone charge (10), the silicone is 2-256 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model D FOM No. 1390-24-1-3 (U) Functioning (Continued) forced out through openings in the base of the charge holder. This permits a time delay for trajectory safety. The cylinder continues to advance, moving the firing pin with it and undetenting the slider (6,5). The slider (6,5), by virtue of its spring (6), moves either the delay detonator (7) or the instantaneous detonator, depending on fuze setting, in line with the firing pin. Upon impact, the striker head (20) compresses the spring (29), pushing the cylinder (15) rearward and causing the firing pin (30) to stab the detonator which flashes through one of the flash channels (3), depending on the fuze setting, initiating the booster (27) and in turn the main charge of the projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons 60- and 81-mm projectiles 60- and 81-mm mortars 2-257 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-15 Fuze, PD, Model L35A1 FOM No. 1390-35-1-17 CLEAR PLASTIC WIND SCREEN ALUMINISE COLOR NOTES A. BODY BLUR COLOR SLOT THREADS ALUMINUM COLOR RUBBER SEAL BOOSTER GOLD COLOR ENGRAVED ON RIGHT SIDE DE FUZE BOGY USA' IS OF ITV B HOLE APPROXIMATELY vir ONCE) DIAMETER DRILLED IN LEFT SIDE OF FUZE BODY Neg. 515356 (UNCLASSIFIED) Neg. 515361 (UNCLASSIFIED) Figure 2-96. Fuze, PD, Model L35A1, full and contour views (U). (C) Description The UK L35A1 PD fuze (fig 2-96) is a setback, delayed-arming type designed for either SQ or delayed action. It is intended for use with the UK Ll5A1 81-mm high explosive mortar projectile. The L35A1 is a copy of the Oerlikon RKVDIR-0264 PD fuze. (C) Unique Features ? This fuze features a delayed-arming mechanism similar to that used in US SQ and delay fuzes. The runaway-type escapement, called a clutter escapement by the United Kingdom, provides trajectory safety. 2-259 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, PD, Model L35A1 FOM No. 1390-35-1-17 (C) Unique Features (Continued) ? A unique detent system as well as a safety pin provides additional safety. (C) Characteristics Fuze assembly: Head material Body material Weight Markings Total length Visible length Max diam Explosive weight Threat count Functional data: Arming method Firing method Safety devices Aluminum Cadmium-plated steel 575 g (1.27 lb) L35A 1 150 mm (5.91 in) 86 mm (3.39 in) 61 mm (2.40 in) 34 g (0.075 lb) 12 TP1 Setback Impact Escapement-slider, locking bolt, detent balls, and safety pin 25m 0.9 s 0.05 s Arming distance Arming time Delay time Original Sensitivity: SQ action Functions on 4-mm cardboard target. Delay action Less than SQ action 2-260 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original (C) Design Details STRIKER HEAD POLYTHENE NOSE CAP STRIKER CARRIER DIRECT ACTION STRIKER CONFIDENTIAL AST-1160H-001-75 Fuze, PD, Model L35A1 FOM No. 1390-35-1-17 FUZE HEAD DIRECT ACTION STRIKER SPRING FUZE BODY ESCAPEMENT COVER CLUTTER ESCAPEMENT GEARS VIEW OF SHUTTER PIN AND SPRING SETTING BOLT SET AT "SO" SHUTTER GUIDE DIRECT ACTION DETONATOR SAFETY PIN SHUTTER SEALING PIN DOUBLE DETENT SUBASSEMBLY OUTER DETENT SPRING DETENT SPRING SPACER STEMMED PELLETS INTERMEDIATE PELLET DELAY ACTION DETONATOR ARMING BUSH DELAY STRIKER DELAY STRIKER SPRING GUIDE BUSH STOP BOLT MAGAZINE DISC MAGAZINE PELLET PAPER DISC VIEW OF DELAY STRIKER SUBASSEMBLY AND DELAY DETONATOR Neg. 515360 (CONFIDENTIAL) Figure 2-97. Fuze, PD, Model L35A1, section view (U). 2-261 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL MT-1160H-001-75 Original Fuze, PD, Model L35A1 FOM No. 1390-35-1-17 (C) Design Details (Continued) The L35A1 fuze (fig 2-97) consists of a nose, body, and magazine (i.e., booster) assemblage. The body assembly forms the major portion of the fuze and contains the following: ? Clutter escapement consisting of brass gears on a steel shaft, balance wheel, and its aluminum cover. ? Friction-loaded setting bolt mechanism for controlling the function desired. ? Shutter (i.e., slider) guide assembly consisting of shutter, shutter pin, two primer-detonators, and spring. ? A detent system (i.e., inner and outer detent mechanism) and safety pin. ? Delay striker (i.e., firing pin) mechanism. ? CE stemming (i.e., tetryl relay charge). The magazine (i.e., booster) assembly consists of a cylindrical aluminum casing, closed at one end and internally screw-threaded at the open end, an explosive pellet of CE (i.e., tetryl), and polythene and paper disks. Assembly of the magazine to the fuze body is effected by the magazine being screwed onto the lower portion of the fuze body to form the base of the fuze. The nose assembly comprises an aluminum fuze head housing, the direct action striker (i.e., SQ firing pin) assembly. This is also made of aluminum except for the steel striker (i.e., firing pin) spring and a snap-on polythene (i.e., polyethylene) nose cap. The fuze head is externally screw threaded and is assembled by screwing into the forward end of the fuze body to form the leading portion of the fuze. 2-262 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-00145 Fuze, PD, Model L35A1 FOM No. 1390-35-1-17 (C) Safety Arrangements Before firing (safety pin in position): ? The safety pin locks the outer detent in the safe position. ? The shutter (i.e., slider) carrying the two primer-detonators is locked in a safe position by the double detent mechanism. With the shutter in this position, the accidental firing of a primer-detonator would not cause the fuze to function. ? Accidental depression of the striker head would cause the delay action striker to enter an empty recess in the shutter while the base of the shutter prevents any forward movement of the free elements in the delay striker mechanism. After firing (safety pin removed): ? The clutter escapement controls the shutter movement and prevents it from reaching the armed position too quickly. ? The delay-action striker is held away from the primer-detonator by its spring until the spring is overcome by the force upon impact. ? In case of a premature deceleration of the fuze caused by striking overhead foliage or camouflage netting, the delay striker mechanism starts functioning; however, because of the shutter movement being controlled by the escapement mechanism, the free element of the delay striker mechanism on moving forward will enter a blind recess in the base of the shutter. This forward movement of the free element prevents further movement of the shutter, resulting in a dud. (C) Functioning The fuze is designed to operate with either SQ or delay functions. Before firing, the setting bolt is set to the required function, and the safety pin pulled out. The polythene nose cap remains in place. 2-263 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, PD, Model L35A1 FOM No. 1390-35-1-17 (C) Operation of Fuze Set SQ?Safety Pin Removed On firing, the inner detent immediately starts to setback. The outer detent is prevented from moving to the setback position by the locking balls. The setback movement of the inner detent continues and brings its tapered portion opposite the locking balls so that they have space to move inwards. As the action proceeds, the locking balls eventually clear the detent retaining sleeve, and the outer detent becomes free to setback. Eventually, both detents are in the setback position. As flight deceleration commences, the inner detent, being of lighter mass, reasserts faster than the outer decent, and its taper pushes the locking balls outwards. When the outer detent starts to reassert, the locking balls butt against the rear shoulder of the detent retaining sleeve. The double detent mechanism is now held in the setback or armed position. When the double detent mechanism moves to the setback position, it is clear of, and releases, the shutter. The shutter, under constant pressure from the shutter spring, starts to slide to the armed position. The rack on the shutter turns the drive shaft and operates the clutter escapement. The clutter escapement controls the speed of movement of the shutter, the shutter eventually arrives in the armed position, and the SQ detonator is directly in the line of travel of the striker point. On nose impact, the SQ striker is driven onto the SQ detonator which ignites and initiates the pellet in the shutter. The explosive reaction of the pellet in the shutter is focused through a specially formed septum to give the maximum effect through the stemming closing cup onto the stemming in the fuze body. The stemming detonates the magazine pellet, and the fuze functioning is complete. If, on impact, the desired SQ action does not operate (e.g., a graze hit on target), the delay function described in the following paragraph is still capable of initiating the explosive train at delay conditions. (C) Operation of Fuze Set D?Safety Pin Removed On firing, the double detent and shutter mechanisms operate as described in the previous paragraph. 2-264 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 , Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-115011-001-75 Fuze, PD, Model L35A1 FOM No. 1390-35-1-17 (C) Operation of Fuze Set 13?Safety Pin Removed (Continued) On nose impact, the SQ striker is driven onto the setting bolt, either bending or breaking loose, and is prevented from striking the SQ detonator. The sudden deceleration of the fuze at impact causes all the free components inside to move forwards. Thus the guide bush and the arming bush in the delay striker mechanism slide forward in unison. There is no gap between their adjacent surfaces. At this instant, the delay striker is locked in position by the stop bolt and stop-bolt balls. The stop-bolt balls are retained in the locking position by the guide bush. When deceleration is almost complete, the guide bush is pushed backwards away from the arming bush by the delay striker spring. The gap now created allows the stop-bolt balls to move outwards consequent to pressure from the delay striker and against the taper on the stop bolt. Immediately the stop bolt balls clear the stop bolt the striker plunges forward under pressure from the delay striker spring and ignites the delay detonator. The delay detonator causes the SQ detonator to function by the effect of the reaction through the thin walls separating the two detonators. The walls are compositely thin enough to act as a septum. A flash channel from the delay detonator to the SQ detonator is provided in the shutter guide as an additional means of assistance in take-over. The SQ detonator now continues the explosive reaction, and functioning of the explosive train is completed as described in the previous paragraph. (C) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm HE projectile, Model L15A1; 81-mm smoke (WP) projectile, Model L19A3 81-mm mortar, Model L16 2-265 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Original (This page intentionally left blank) 2-266 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 LEAF SPRING BAFFLE DETONATOR Fuze, PD, Model 944 Mk 1 FOM No. 1390-35-1-32 NOSE COVER STRIKER FIRING PIN RETAINING TAB LOCKING BOLT ROTOR BOOSTER (U) Description DELAY PELLET LOWER DETONATOR Figure 2-98. Fuze, PD, Model 944 Mk 1 (U). (UNCLASSIFIED) The No. 944 Mk 1 PD fuze (fig 2-98) is used with the 30x113-rnm B Mk5 HE cartridge in the ADEN aircraft gun. Its uncomplicated design utilizes two locking bolts to secure the firing pin and a ball rotor containing an out-of-line detonator and a delay element. The fuze has no self-destruct feature. 2-267 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116014-001-75 Original Fuze, PD, Model 944 Mk 1 FOM No. 1390-35-1-32 (U) Characteristics A sheet-metal nose cover is crimped to a groove in the fuze body. The steel fuze body contains a firing pin restrained in the unarmed position by two locking bolts, themselves retained in position by sheet-metal tabs. A ball rotor containing a detonator and a delay pellet is held out of line with the firing pin and booster by a leaf spring. A tetryl-filled booster cup closes the base of the fuze. Fuze assembly: Body material Steel Weight 2 Markings 944 Mk 1 Booster: Body material Aluminum alloy Body length 7 Explosive Tetryl Explosive weight 2.1 g (32.3 gr) Functional data: Arming method Spin Firing method Impact Safety devices Safety bolts, out-of-line, rotor-mounted detonator Arming distance 2 to 3 m Arming time 3 to 4 ms Self-destruct time a Delay distance after impact 230 to 760 mm (U) Functioning Upon firing, setback force acts on the striker, firing pin, and locking bolts to restrain the bolts from moving radially outward under the influence of centrifugal force. When setback ceases, centrifugal force causes the locking bolts to move outwards, forcing open the retaining tabs. When the bolts are completely withdrawn, the tabs spring into grooves in the locking bolts to prevent the latter from slipping back and impeding the firing pin. At this point the firing pin is free to move, but deceleration (creep) forces keep it in its forward position. 2-268 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-M Fuze, PD, Model 944 Mk 1 FOM No. 1390-35-1-32 (U) Functioning (Continued) Simultaneously with the above, setback forces acting on the leaf spring hold it against the rotor to keep the latter from moving. Centrifugal force increases until it overcomes the combined force of setback and spring tension, causing the free end of the spring to move outward and thus free the rotor. The spinning rotor now moves until the detonator and delay column are in line with firing pin and booster. The positioning of the rotor takes several milliseconds, which insures that the projectile has moved an estimated 2 to 3 meters from the barrel before the fuze becomes armed. - Upon impact, the fuze nose is crushed, and the firing pin initiates the detonator. The flash from the detonator passes a baffle and ignites a delay pellet. After a brief delay that enables the projectile to penetrate the target, the delay pellet initiates a lead-azide lower detonator that in turn initiates the booster and the high explosive projectile filler. (U) Applications (Ammunition and Weapons) Ammunition Weapons HE cartridge, Model Mk 5 30x113-mm aircraft gun, ADEN 2-269 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1100H-001-75 Fuze, PD, Model M2 FOM No. 1390-37-1-2 Neg. 516418 (UNCLASSIFIED) Figure 2-99. Fuze, PD, Model M2, section view (U). 2-271 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160E1-001-75 Original Fuze, PD, Model M2 FOM No. 1390-37-1-2 (U) Description The M2 fuze (fig 2-99) is a setback-armed PD type developed by Soltam, Ltd., of Haifa, Israel. It is of tuned construction designed to provide rough handling, detonator safety, and trajectory safety. It is intended for use with 60-mm mortar projectiles. (U) Unique Features The M2 features a spring-loaded slider held in the out-of-line position by a sleeve and decent ball. Other safety features include a safety cap and pin. (U) Characteristics Fuze assembly: Body material 7 Weight Markings 7 Booster: Body material 7 Body length Explosive Explosive weight Functional data: Arming method Setback Firing method Impact Safety devices Safety pin and cap, detent sleeve and ball Arming distance Arming time 7 (U) Functioning (fig 2-99) The fuze is unable to function as long as the detonator (1) is not aligned with the firing pin (9). The spring-loaded slider (8,4) is detented by the setback sleeve (2) and its spring (6) as well as the check ball (5). The safety pin (3) provides additional safety to assure the slider will not move. 2-272 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model M2 FOM No. 1390-37-1-2 (U) Functioning (Continued) Just before firing, safety pin (3) and cap (7) are removed. Upon firing, setback sleeve (2) compresses spring (6), releasing ball (5) which falls in a cavity in the fuzes's nose portion, As setback forces dissipate, the spring (6) expands, pushing sleeve (2) forward undetenting the spring-loaded slider (8,4) which moves the detonator (1) in line with the firing pin (9). The movement is retarded by a friction disk (10), providing enough time for the projectile to travel a safer distance from the weapon and crew. Upon impact, the firing pin stabs the detonator, igniting the lead charge (11) and booster (12) and resulting in detonation of the high explosive filler of the projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons 60-mm HE projectiles 60-mm mortars 2-273 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST1150H 7 Flak, PD, Model FOM No, 1390-37-1-3 Neg. 516917 (UNCLASSIFIED) Figure 2400. Fuze, PD, Model M150, full view (U), 2-275 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11 60 H -001 -75 Original Fuze, PD, Model M150 FOM No. 1390-37-1-3 (U) Description The M150 (fig 2-100) is a setback, delayed-arming PD fuze having a multirnode functioning capability. The M150 was developed by Rafael of Haifa, Israel, for increasing the effectiveness of their 120-mm mortar projectiles. Multimode functioning is provided by a dual-configuration design. In the above target mode, the fuze functions superquick, whereas in the penetration target mode the fuze penetrates prior to functioning. In addition, the fuze has a self-destruct and grazing capability. (U) Unique Features ? Employs automatic safety wire. ? Employs delay arming of 0.5 to 2 seconds. ? Employs velocity amplifier rod for proximity functioning. ? Employs fuze plug for penetration prior to functioning. ? Employs detonator safety device. (U) Characteristics Fuze assembly: Body material Steel Weight w/o rod 1.330 kg (2.93 lb) Weight w/rod 1.450 kg (3.20 lb) Length w/rod 516 mm (20.3 in) Length w/o rod 167.5 mm (6.59 in) Booster: Body material 7 Body length Explosive 7 Explosive weight Extension rod: Length 425.5 mm (16.8 in) Weight 0.180 kg (0.4 lb) 2-276 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Characteristics (Continued) Functional data: Arming method Setback Firing method Impact Safety devices Arming distance Arming time 2 s Self-destruct time 7 Delay time (U) Design Details Neg. 516915 AST-116011-001-75 Fuze, PD, Model M150 FOM No. 1390-37-1-3 (UNCLASSIFIED) Figure 2-101. Fuze, 113, Model M150, contour view (U). icifct , dual delay ning devicc, detonator safety device. self-destruct element. 2-277 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PD, Model M150 FOM No. 1390-37-1-3 (U) Design Details (Continued) Design details are not known on the M150. Conversion from the target penetration mode is accomplished by removal of the fuze plug and insertion of the velocity amplifier rod (see fig 2-101). Bore safety is provided by a safety wire called an integrator element by Israel. Muzzle safety is provided by a delay arming mechanism reportedly consisting of a detent system on the detonator (most likely contained in a slider). The detent system reportedly consists of the two tin brakes controlled via a piston-cylinder arrangement. The first brake is released after a 0.5-second delay, and the second brake is released after a 2-second delay. The dual-configuration design consists of a velocity amplifier rod, fuze plug, thick wall nose fuze portion, fuze body housing, arming mechanism, detonator, self-destruct device, detonator safety device, detonator lead, and booster assembly. (U) Functioning The functioning sequence is delineated in the following block diagram: SETBACS mow 1 I FIRST ARMING DELAY ISECINM MING DELAY MIZE NORD IMPACT: IMPACT: ABOVE TARGET NODE; VELOCITY UPLIFTER ROD IMPACT: GRAZE ACTIMI SELF- DESMUCT PENETRATMN IIME; DELAY FUNCTIOMNG FIRING MECIIANISM DETONATOR BOOSTER HE. DETONATION (UNCLASSIFIED) Figure 2-102. Fuze, PD, Model M150, block diagram, functioning sequence (U). 2-278 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model M150 FOM No. 1390-37-1-3 (U) Applications (Ammunition and Weapons) Ammunition Weapons 120-mm HE projectiles 120-mm mortar 2-279 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original Net -16415 AST-1160H4101-75 Fuze, PD, Model 7 FOM No. 1390-37-1-5 Figure 2-103, Fuze, PD, Model ? (C) Description The Israeli PD fuze jig 2-103 producedby with 52-mm high-explosive mortar projectiles function upon impact. Safety features include a ammunition to be air-droppabie. 52-m (UNCLASSIFIED) rojectile (U). ndust setback-armed type designed to ap and pin which allows the Thfaze employs a spring-loaded, ?pivotab type rotor keeping detonator in the position for bore safetv. CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H101-75 Original Fuze, PD, Model? FOM No. 1390-374.5 (C) Characteristics Fuze assembly: Body material Zinc alloy Weight 416 g (0.92 lb) Markings LOT IMI 14/68 Body length 1.99 in (50.5 mm) Max diam 2.08 in (52.8 mm) Thread diam 1.76 in (44.7 mm) TI'! 20 (LH) Booster: Body material Zinc alloy Length 0.38 in (9.7 mm) Thread diam 1.30 in (33.0 mm) TI31 24 Explosive weight 6.7 g (0.015 lb) Explosive type Detonator: Type STAB Length 0.18 in (4.6 ram) Diam 0.30 in (7.6 inn]) Weight 0.96 g (14.8 gr) Functional data: Arming method Setback Firing method Impact Safety devices Safety cap and pin, out-of-line detonator Arming distance Arming time 7 2-282 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 (C) Design Details (fig 2-104) RETAINER PIN RETAINER PIN SPRING DRIVE RIVET ?4 Lgpi5 ncp,TE ---"?291 SAFETY PIN ASSEMBLY Fuze, PD, Model ? FOM No. 1390-37-1-5 SAFETY CAP CAP FIRING PIN RETAINER BALL -s--- FIRING PIN FIRING PIN SPRING.. FUZE BODY. .),...---METAL WASHER ? ? ' -6---PAPER WASHER DETONATOR-.-, .,?-4---R9TOR SPRING 1 ROTOR-fl Neg. 516417 -4 -METAL DISC ? RELAY ? RELAY HOUSING et---BOOSTER PELLET -4---BOOSTER CUP. (UNCLASSIFIED) Figure 2-104. Fuze, PD, Model ?, exploded view (U). 2-283 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST416014-00115 Original Fuze, PD, Model ? FOM No. 1390-37-1-5 (C) Design Details (Continued) The firing-pin spring and firing pin are positioned in the center hole of the fuze body, with the cutout portion of the firing pin in position to receive the firing-pin retainer ball. The ball is then dropped into an adjoining hole, permitting the ball to roll into the firing-pin cutout. With the ball in position, the retainer-pin spring and retainer pin are placed into the fuze body. The lock plate is then turned on the drive rivet, securing the retainer pin within the fuze body. The cap is then crimped to the fuze body to prevent contaminants from entering. Prior to crimping, the shoulder of the fuze body is waterproofed with a red sealant. The safety cap is next screwed onto the fuze body and the safety pin inserted to prevent premature movement of the firing pin. The detonator with paper and steel washers is placed in the rotor. The rotor spring is then positioned outside the rotor so that upon insertion into base opening of the fuze body, the rotor is under spring-tension against the firing pin. A metal disk and delay housing with relay are next positioned into the fuze body. The booster cup with booster pellet is then screwed into the fuze body, completing the assembly of the fuze. (C) Functioning (fig 2-105) 2 62 4 0 47 0 35 0 65 0 05 ALL DIMENSIONS IN INCHES Neg. 516419 200 0IAM 2 08 DIAM 1 76 DIAM 20 TPI, LH 1 05 DIAM 1 23 DIAM I irets,.= tg; 4Plithirair rate PI VOTABLE ROTOR (UNCLASSIFIED) Figure 2-105. Fuze, PD, Model ?, contour and section views (U). 2-284 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1180H-001-75 Fuze, PD, Model? FOM No. 1390-37-1-5 (C) Functioning (Continued) Prior to firing, the safety pin (7) and safety cap (1) are removed. Upon firing, setback forces compress the firing-pin spring (10) and the retainer spring (9), forcing the firing pin (3) and the retainer pin (8) rearward and releasing the retainer ball (6) which falls into a void of another channel. As setback forces dissipate, the ruing-pin spring and retainer spring expand, moving the firing pin (3) and retainer pin (8) forward. The retainer pin now blocks the opening where the retainer ball went, undetenting the firing pin which had moved forward simultaneously and releasing the spring-loaded rotor (14) which now pivots on its pin (12), aligning the detonator with the firing pin (3). The fuze is now armed. Upon impact with the target, the cap (2) is crushed, causing the firing pin (3) to stab the detonator (13), which initiates the relay (15), which in turn initiates the booster pellet (18) and results in detonation of the high explosive charge in the projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons 52-mm HE projectiles; 52-mm smoke (WP) projectiles 52-mm mortar 2-285 (Reverse Blank) CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Neg. 517013 (UNCLASSIFIED) Fine, PDSD, Type? FOM No. 1390-37-1-9 Figure 2-106. Fuze, PDSD, Type ?, full view (U). (U) Description This is a conventional PD fuze (fig 2-106) with a mechanical self-destruct feature activated by projectile spin decay. The out-of-line detonator is mounted in a ball rotor. The fuze is used with the 30x113-mm B HE-1 cartridge, Type 6532, which is designed for air-to-air use in DEFA, Type 552, aircraft guns. The fuze is a copy of the Oerlikon PDSD fuze, Type laD-0250, which was developed prior to 1962. The fuze body bears stenciled markings of the type shown. The upper line indicates manufacture in Israel, while the lower line shows lot and year data. 2-287 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, PDSD, Type? FOM No. 1390-37-1-9 (U) Characteristics Fun assembly: Body material Aluminum Weight . 32.4 g (0.071 lb) Markings See fig 2-106 Booster: Body material (Cup) aluminum Body length 7.6-mm (0.30 in) Explosive 9 Explosive weight 1.4 g (21.6 gr) Functional data: Arming method Spin Firing method Impact Safety devices Out-of-line detonator in ball rotor Arming distance 3 m (est) Arming time 7 Self-destruct time 5-13s (est) Delay time The fuze consists of an aluminum body that contains a self-destruct mechanism, a firing pin, a ball rotor carrying an out-of-line detonator, and a booster. In storage and shipment, the fuze is kept safe by the out-of-line position of the detonator in the rotor. Rotor position is maintained by pressure from the self-destruct spring and shock element, acting through the firing-pin bushing. (1..1) Functioning Upon firing, the shock element is crushed by setback. When setback ceases, centrifugal force causes the arming balls to move outward and forward against the conical surface of the self-destruct housing. This action moves; the firing-pin bushing forward, further compressing and restraining the self-destruct spring and releasing pressure on the rotor. Centrifugal force causes the unbalanced rotor, now free, to rotate until the detonator is aligned with the firing pin. Upon impact, the firing pin is driven into the detonator, which initiates detonation of the booster. If impact does not occur, projectile spin will decay and centrifugal force decrease until the compressed self-destruct spring overcomes the spin force on the arming balls and drives the firing pin into the detonator. 2-288 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-118011-001-75 Fuze, PDSD, Type ? FOM No. 1390-37-1-9 (U) Applications (Ammunition and Weapons) Ammunition Weapons 30x113-mm B HEI projectile, Type 6532 30-mm aircraft gun, DEFA, Type 552 2-289 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 SELECTOR MOO 4 43 3430 433 imf Foie, PD, Model V18111? FOM No. 1390-37-2-2 taAN1 t.24 1/14131 -S DIAM 13 TIN Ja MANI 34, 331ENWNS N (NO 43 2 (CONFIDENTIAL) Figure 2-107, Fuze, PD, Model V1 811t,, full and contour views (1.1). (C) Description The V181.R. PD fuze (fig 2-107) is a setback-armed type designed for either instantaneous or delay action functioning upon impact At was produced by lsraeli Military. Industries for useS with Israeli shoulder-fired 82-mm high explosive rockers, it is? similar in design to the French V48-1 except that the French lure does not contain a May-functioning feature. This fuze is not considered hem safe. 2-291 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116014-001-75 Original Fuze, PD, Model VI8I.R. FOM No. 1390-37-2-2 (C) Characteristics Fuze assembly: Body material Brass Weight 220 g (0.49 lb) Markings V181.R. Thread diam 23 mm (0.91 in) TPI 13 Length overall 117 mm (4.61 in) Max diam 3.15 mm (0.12 in) Detonator cup: Material Copper Length 23 mm (0.91 in) Diam 10,8 mm (0.43 in) Weight 2.2 g (34.0 gr) Booster cup: Material Copper Length 14 mm (0.55 in) Diam 10.8 mm (0.43 in) Functional data: Arming method Setback Firing method Impact Safety devices Detent balls (3) Arming distance Arming time Belay time ' Varics. depending upon anglc of fall. 2-292 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original (C) Design Details AST-116014-001-75 Fuze, PD, Model V18I.R. FOM No. 1390-37-2-2 art; PROTECTIVE EAP 9RINGPIN RETAINER' -4- FIRING PIN -4- FIRING CREEP SPRING 17-- PRIMER HOLDER STOP PRIMER HOLDER 0 ETENT BALL-1,1:1F PRIME R SAFETY BALL (2) ?-? PRIMER HOLDER.-.4 PRIMER FELT DISC 44444' ' ? .4111.4 PRIMER HOLDER RETAINING RING PRIMER HOLDER GUIDE' ? - '?? SETBACK SLEEVE' SLEEVE TRACK SPRING SETBACK SPRING RETAINER 'RAZE BOGY; DELAY ELEMENT RETAINING SCREW' DETONATOR CUP BOOSTER CUP BOOSTER-DETONATOR HOUSING DELAY ELEMENT''': FOIL DISC, CLOTH DISC FELT DISC Neg. 552097 (CONFIDENTIAL) Figure 2-108. Fuze, PD, Model V18I.R., exploded view (U). 2-293 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST?1160H-001-75 Original Fuze, PD, Model V181.R. FOM No. 1390-37-2-2 (C) Design Details (Continued) The fuze consists of a one-piece brass fuze body and a detonator-booster housing. The brass fuze body, which is sealed at the nose by a protective cap and at the rearward end by the detonator-booster housing, includes the components illustrated in figure 2-108. (C) Functioning (fig 2-109) Neg. 552098 (CONFIDENTIAL) Figure 2-109. Fuze, PD, Model V181.R., section view (U). 2-294 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, PD, Model V181.R. FOM No. 1390-37.2-2 (C) Functioning (Continued) Prior to firing, the fuze selector rod (13) is set with the indicator arrow to I or R, depending on whether instantaneous or delay action is desired. Upon firing, setback forces moves the setback sleeve (6) rearward, compressing its spring (7) until it is locked in the tapered retainer (20). The primer holder decent ball (8) is released. During deceleration, the setback sleeve remains locked to the tapered retainer. As the angle of fall of the projectde increases, the primer-holder (10) moves forward while the detent ball (8) falls into the void area of the primer-holder guide (5). Travel of the primer holder (10) is stopped by the primer-holder stop (4). Simultaneously the two primer safety balls (19) are pushed into a recess in the front end of the primer holder guide (5) by the tip of the firing pin (2). The fuze is now armed. Upon impact, the two primer safety balls (19) lock the primer holder (10) in the forward position so that the firing pin (2), moving rearward against its spring (3), can produce a full blow on the primer (9). If set on instantaneous, the primer flash initiates the detonator (15) and booster (16) located in the detonator-booster housing (14). At low angles of fall, the primer holder (10) is carried forward upon impact by inertia forces and impales on the firing pin, thereby initiating the primer (9) and in turn the detonator and booster. If a delay action is used, the direct passage from the primer to the detonator is closed and upon impact the primer flash would initiate the delay element (22) which, upon completion of burning, would ignite the detonator, setting off the booster. (U) Applications (Ammunition and Weapons) Ammunition Weapons 82-mm HE rocket 82-mm rocket launcher 2-295 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original (This page intentionally left blank) 2-296 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 ? UNCLASSIFIED Original AST:1160H-001-75 Fuze, PD, Model M.K.E. 101 FOM No. 1390-39-1-1 (UNCLASSIFIED) Figure 2-110. Fuze, PD, M.K.E. 101, full view (U). (U) Description The Turkish M.K.E. 101 PD fuze (fig 2-110) is a setback-armed type dcsigncd for SQ or delay functioning upon impact. It is similar in functioning to the French V-18-112 fuze (FOM No. 1390-17-1-2). The fuze is not considered detonator safe by US standards. The fuze is assembled in an adapter having a 2-inch thread size to meet NATO standards. 2-297 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H101-75 Original Fuze, PD, Model M.K.E. 101 FOM No. 1390.39-1-1 (U) Characteristics Fuze assembly: Body material Brass Weight w/o explosive 1.60 lb (725.7 g) Markings M.K.E. 101 Length 5.05 in (128.3 mm) Max diam 31.5 mm (1.24 in) Maj thread diam 23.4 mm (0.92 in) TPI 16 Thread pitch 1.5 mm (0.06 in) Booster: Body material Brass Body length Explosive Explosive weight Functional data: Arming method Setback* Firing method Impact Safety devices ** Arming distance 17 in Arming time 0.7 $ (est) Delay time 0.08 s "Arming based upon calculated setback of 60 g's. **Safety wire and detent balls. 2-298 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116014-001-75 (U) Design Details (fig 2-111) STEEL FUZE ADAPTER Fuze, PD, Model M.K.E. 101 FOM No. 1390-39-1-1 DETONATOR? DETONATOR? BOOSTER BOOSTER HOUSING CUP (UNCLASSIFIED) Figure 2-111. Fuze, PD, Model M.K.E. 101, exploded view (U). The M.K.E. 101 fuze consists of a brass PD fuze, a steel fuze adapter, and a detonator-booster assembly. The PD fuze is a bored-out brass body designed to house the plunger-type firing-pin assembly, an inertial assembly, a primer housing, the detent system, a selector screw with flash channels for either delay or SQ action, and a delay-charge assembly. The fuze body is sealed at the forward end by a striker head retaining nut and is threaded internally at the rear to facilitate assembly of the detonator-booster. 2-299 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, PD, Model M.K.E. 101 FOM No. 1390-39-1-1 (U) Design Details (Continued) Original The fuze is also threaded externally for screwing into a steel fuze adapter to facilitate assembly to projectiles having 2-inch thread diameters. (U) Functioning (fig 2-112) ALL DIMENSIONS IN INCHES 1.24 DIAA1 .112 OIAM 111 TPI 13 (UNCLASSIFIED) Figure 2-112. Fuze, PD, Model M.K.E. 101, contour and section views (U). Prior to firing, the type of action desired must be selected before assembling into the projectile. The arrow stamped at the bottom of the slot in the selector (13) is set at "H" for SQ action, "T" for delayed action. The safety wire must also be removed before firing. 2-300 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PD, Model M.K.E. 101 FOM No. 1390-39-1-1 (U) Functioning (Continued) Upon firing, setback forces cause the safety collar or setback sleeve (6) to move rearward against the setback spring (10). The setback sleeve becomes wedged on the tapered surface at the rear end of the inertial-element assembly (9). The primer locking ball (4) is thus released so that it can move outward and free the primer-holder assembly (7). In flight, the primer-holder assembly can then move forward under the influence of creep forces until its forward end contacts the firing-pin spring guide (3). Movement of the inertial element is restrained by firing-pin spring (2). At impact, the firing pin and striker assembly (1) is pushed rearward against its spring, while the inertial-element assembly moves forward. The unrestrained primer-holder assembly moves forward relatively more rapidly than the inertial element and its associated components. As the firing pin enters the primer body cavity, the two primer detent balls (5) are pushed outward to protrude into the cavity between the forward lip of the inertial element, the firing-pin spring guide, and the firing pin. This locks the primer assembly to the forward moving inertial element. The momentum of the entire inertial assembly, rather than just that of the primer assembly, impales the primer (8) on the firing-pin point to initiate the primer. When the selector is set for delay action, the primer flash ignites the charge in the delay-holder assembly (11). This, in turn, sets off the detonator booster (12). On an SQ setting, the primer flash passes through the open flash hole to initiate the detonator-booster directly. If for some reason the detonator-booster is not set off in this manner, it may still be initiated through the delay element which is also ignited by the same primer flash. (U) Applications (Ammunition and Weapons Ammunition Weapons 81-mm HE projectiles 81-mm mortar 2-301 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Section III. POINT INITIATING, BASE DETONATING FUZES 3-1 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Section III. POINT INITIATING, BASE DETONATING FUZES GENERAL (U) Point initiating, base detonating (PIBD) fuzes have been designed or are under development for high-explosive antitank (HEAT) munitions fired from tank guns, grenade launchers, recoilless antitank weapons, aircraft rocket launchers, small arms (20 through 30 mm), and for antitank guided missiles (ATGMs). This type of fuze functions on mechanical or piezoelectric principles by contact with the target, and with initiation at the nose end and detonation at the base of the projectile or warhead. This type of fuze normally requires a very complex design, especially in an ATGM which normally incorporates redundancy in design. (U) Most of the fuze developments included in this handbook have been designed for quicker reaction time through the use of the piezoelectric principles; however, some of the older spitback-type fuzes have been included. Most fuzes require setback or centrifugal force environmental stimulus for arming. Delay arming is accomplished by a pyrotechnic and/or mechanical timer. In some cases, electrical impulses generated at launch for rockets or ATGMs are used to initiate the arming process with dual electric igniters for greater reliability. With the exception of the spitback fuze types, the fuze designs presented in this handbook reflect the current state-of-the-art and in some cases include unique features. The fuzes described in this section are designed .for either high- or low-"g" accelerations and for fin- or spin-stabilized projectiles or warheads. 3-3 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED FOM No. INDEX Nomenclature* Page 1390-16-1-44 Fuze, PIBD, 30 mm, Model ? (Rheinmetall) 3-7 1390-16-8-1 Fuze, PIBD, for Cobra ATGM 3-9 1390-17-2-5 Fuze, PIBD, Model F-1 3-11 1390-17-8-2 Fuze, PIBD, for HOT ATGM 3-19 1390-17-8-3 Fuze, PIBD, for Milan ATGM 3-21 1390-18-2-2 Fuze, PIBD, Model 7 3-23 1390-19-8-1 Fuze, PIBD, for Bantam ATGM 3-31 1390-21-2-2 Fuze, PIBD, Model ? 3-33 1390-35-8-1 Fuze, PIBD, for Swingfire ATGM 3-37 1390-35-8-2 Fuze, PIBD, for Vigilant ATGM 3-45 *All fuze nomenclatures are UNCLASSIFIED. 3-5 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED LIST OF ILLUSTRATIONS Figure Title* Page 3-1 Fuze, PIBD, Model F-1, PI element 3-11 3-2 Fuze, PIBD, Model F-1, section view of piezoid 3-13 3-3 Fuze, PIBD, Model F-1, BD element 3-14 3-4 Fuze, PIBD, Model F-1, diagram of functioning sequence 3-16 3-5 Fuze, PIBD, Model ?, contour views of PI and BD elements 3-23 3-6 Fuze, PI, Model 075, exploded view 3-25 3-7 Fun, BD, Model SV307, exploded view 3-26 3-8 Fuze, PI, Model 075, section view 3-27 3-9 Fuze, BD, Model SV307, section view of BD element 3-28 3-10 75-mm HEAT grenade with PIBD fuze 3-33 3-11 Fuze, PI, arming sequence 3-34 3-12 Fuze, PIBD, arming of safety device 3-35 3-13 Fuze, PIBD, for Swingfire, section view of warhead 3-37 3-14 Fuze, PIED, for Swingfire, PDU 3-38 3-15 Fuze, PIED, for Swingfire, SAU ? 3-39 3-16 Fuze, PIED, for Swingfire, SAU operation 3-41 3-17 Fuze, PIED, for Vigilant ATGM 3-45 All figure titles are UNCLASSIFIED. 3-6 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116014-001-75 Fun, PIED, 30 mm, Model ? (Rheinmetall) FOM No. 1390-16-1-44 (U) Description This is a P113D fuze for the 30x170-mm flat-cone shaped-charge projectile developed by Rheinmetall, GmbH, Diesseldorf, Germany. The fuze incorporates a piezoelectric element that transmits current to an electric detonator in the projectile base. (U) Characteristics Fuze assembly: Body material Weight Markings 2 Booster: Body material Body length Explosive 7 Explosive weight Functional data: Arming method Spin Firing method Impact, setback Safety devices Out-of-line detonator Arming distance 7 Arming time Self-destruct time Delay time (U) Design Details The fuze is composed of a piezocrystal impact element in the projectile nose, placed at an optimum standoff distance from the flat-cone shaped charge in the projectile body. The current created by the piezocrystal upon impact with a target travels along an insulated electrical conductor to a BD element in the projectile base. The base fuze contains an out-of-line electric detonator in a ball rotor, and S&A mechanisms to insure safety in handling and bore safety. 3-7 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1 160H-001-75 Original Fuze, PIED, 30 mm, Model ? (Rheinmetall) FOM No. 1390-16-1-44 (U) Design Details (Continued) Details of this fuze and projectile are proprietary information of Rheinmetall, GmbH, and the General Electric Company of Burlington, VT, the US licensee. (U) Functioning Arming is accomplished by a combination of setback and spin acting on the base elements of the fuze. The fuze is armed when the rotor is aligned with the projectile axis after it has cleared the gun muzzle. Upon impact, current generated from the piezocrystal initiates the electric detonator, resulting in detonation of the projectile's shaped charge. (U) Applications (Ammunition and Weapons) Ammunition Weapons 30x170-mm HEAT projectile 30-mm AA gun 3-8 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST1160H410145 Fuze, PIBD, for Cobra ATGM FOM No. 1390-16-8-1 (C) Description The German Cobra ATGM has a PIBD fuze. The fuze impact bolt is supported by a plate held in place by a plastic hood. When the fuze hits a hard target with sufficient forward velocity, the impact bolt is driven rearward, piercing the support plate and penetrating the fuze capsule. If the impact bolt is slowly pressed into the fuze housing, it will not penetrate the support plate, but will push it rearward along with the fuze capsule carrier and related mechanism. When the pressure on the impact bolt is released, a compressed spring will move the fuze capsule carrier and impact bolt back into their initial positions. If the slow-moving force on the impact bolt increases to the point where the fuze body is actually deformed, the support plate will break in a designated place, and the fuze capsule carrier will fall inside the warhead casing, making the warhead inoperative. The base fuze mechanism or safety element, which contains an out-of-line detonator, is inserted into the base of the warhead. For this mechanism to commence arming, it must receive at least 8 g's acceleration for a period of approximately 0.5 second. Normal arming is accomplished approximately 3 seconds from missile launch. 3-9 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 (This page intentionally left blank) 3-10 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original RTV TRANSFORMER SUPPORT AST.1160H.001-75 Fuze, PIED, Model F-1 FOM No. 139047-2-5 OGIVE (PPO) WIRE WAYS (C) Description NOSE CONE (PPO) 1.125-1. INCHES PIEZOIO TRANSFORMER (UNCLASSIFIED) Figure 3-1. Fuze, PIED, Model F-1, PI element (U). The F-1 PIED fuzc uses a piezogcnerator (fig 3-1) as the PI element for generating voltage to initiate a bridge wire-type detonator housed in the base fuze. The base fuze departs from conventional practices by the utilization of rocket motor pressure as an environmental stimulus coupled with acceleration of the rocket. The omission of a timing mechanism and the sequential operation of the base fuze components assure adequate time prior to the arming of the fuze. 3-11 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, PIBD, Model F-1 FOM No. 1390-17-2-5 (C) Unique Features ? Piezoid with impedance matching transformer. ? Slider with bridge-wire detonator shorted out. ? Pressure piston, shear wire, and bore rider safety pin detenting slider. (C) Characteristics Point initiating element: Piezoid: Type Material Diameter Length Capacitance Dielectric constant: K3 D33 Transformer: Type Primary winding Secondary winding Voltage reduction Impedance reduction Primary resistance Secondary resistance Primary inductance Secondary inductance Base fuze: Weight Volume 3-12 High impedance Lead zirconate-titanate 0.708 in (18 mm) 0.327 in (8.4 mm) ?750-950 pF 1900 2.7x10-9 coulomb/lbf Impedance matching 100 turns 25 turns 4 to 1 10 to 1 2.5 ohms 0.2 ohms 20 mH 1.2 mH 50 g (0.11 lb) 1.78 in' (29.2 cm3' CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original (C) Characteristics (Continued) Detonator: Model Type Resistance Explosive Components AST-1160H-001-15 Fuze, PIBD, Model F-1 FOM No. 1390-17-2-5 ADFP Bridge wire, low impedance 19.5 ?3.5 ohms Lead azide 100 mg (15.4 g) PETN 165 mg (25.5 g) Functional data: Arming method Gas pressure and acceleration forces Firing method Rocket motor gases Safety devices Piston shear wire and bore rider Arming distance Arming time Self-destruct time Delay time (C) Design Details safety pin 4.6 m INSULATOR 108 BIAS! All PIEZ010 1.5110 IMAM X mem I ALL DIMENSIONS IN INCHES (CONFIDENTIAL) Figure 3-2. Fuze, PUN), Model F-1, section view of piezoid (U). 3-13 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, PIED, Model F-1 FOM No. 1390-17-2-5 (C) Design Details (Continued) The piezogenerator (fig 3-1) consists of a piezoid package and an impedance matching transformer. The piezoid (fig 3-2) is mounted in the nose cone. The transformer support is glued to the nose cone, and the piezoid and transformer leads are soldered together. The ogive of the warhead is glued to the nose cone. The cavity around the transformer is filled with room temperature vulcanizing rubber (RTV), and the resistance wires are glued in the wireways of the warhead. The assembled nose cone is made of polyphenylene oxide (PPO) plastic. The impedance matching transformer consists of two iron cores with a primary winding of 100 turns and a secondary winding of 25 turns. The piezoid package is located 1.125 in (28.6 mm) behind the nose of the warhead (see fig 3-1). SLIDER LOCK al IARMEDI SECTOR PIVOT PIN BASE SEA ?SLIDER LOCK PIN SECTION C-C SECTION A-A SECTOR SHEAR WIRE MOTOR PRESSURK PISTON Q.) FUZE BODY SLIDER LOCK SPRING CONTACT SPRING ELECTRICAL CONTACT (21 BORE RIDER PIN LOCK RING CLOSURE DISC SLIDER a) SECTOR SPRING ADFP12 DETONATOR? OUTER CASE SLIDER SPRING 0 SECTOR &At", wromv. p II BORE SAFETY PIN SECTION D-D C) BORE SAFETY SPRING Figure 3-3. Fuze, PIP.D, Model F-1, BD element (II). 3-14 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 SECTION B-8 (CONFIDENTIAL) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, PIED, Model F-1 FOM No. 1390-17-2-5 (C) Design Details (Continued) The Base fuze (fig 3-3) is a compact design weighing 50 grams and occupying 1.78 in' (29.2 cm') of volume requiring approximately 0.920 in (23.4 mm) of warhead section length. The base fuze components arc as follows: (1) The outer case is machined from aluminum bar stock and anodized. The extension to house the slider spring is bonded to the body after anodizing. This extension also holds the fuze fixed with respect to the motor when the warhead is being assembled. (2) The pressure piston is machined from aluminum and anodized. It is mated to the case prior to drilling the shear wire hole. The seal between the pressure piston and the case is madc by an 0-ring of synthetic material. (3) The sector has a complex shape requiring at least two different setups to produce. It is made from aluminum. The weight is consistent from fuze to fuze. (4) The body and slider are machined from MAKROLON, a polycarbonate plastic (LEXAN is also a polycarbonate). LEXAN, and probably MAKROLON, can be injection-molded; therefore, the reason for the extensive machining is unclear. The dimensional tolerances do not appear prohibitive. (5) The slider lock pin, bore safety pin, and slider lock are made from nickel-plated steel. (6) The bore rider pin is made from red anodized aluminum. The bore rider extension (not shown) is molded from plastic. (7) The closure disk is a composite of steel and MAKROLON. (8) The detonator contacts engage both side and bottom of detonator pins. The contacts are made from tempered beryllium copper hot-dipped in solder. (9) The base seal is made of synthetic elastomer providing a secondary seal of the warhead and fuze from rocket motor gases. The prime seal is an 0-ring mounted in the forward motor bulkhead. It also provides a cushioning effect for the fuze after the warhead is mounted. 3-15 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-II60H-001-75 Original Fun, PIBD, Model F-1 FOM No. 1390-17-2-5 (C) Functioning (fig 3-3) Upon firing, the propellant gas impinges on the piston (1); simultaneously the round accelerates and the bore safety pin (2) sets back, blocking the sector (3); then the propellant pressure becomes sufficient to shear the pressure piston shear wire, releasing the sector (3). At the tube exit, the bore rider extension is ejected by the spinning motion and a light spring. After burnout, the bore safety pin is moved forward by its spring (4), then the sector (3) is allowed to complete its travel. The slider (5) begins to move in line, forcing the slider lock pin (6) into a slot in the sector (3). At the completion of travel (14 mm or 0.550 in), the slider (5) is locked by the slider lock (7). The detonator (8) is now connected to the piezogenerator through the slide contacts. The functioning sequence of the fuze is shown in block diagram, figure 3-4. BLOCK DIAGRAM OF RUE SEQUENCE IU/ LAUNCH BORE RIDER SAFETY PREVENTS SLIDER MOVEMENT FACTOR PRESSURE I IACCELERATION BORE SECURITY PIN BLOCKS SECTOR MOVEMENT PRESSURE PISTON RELEASES SECTOR IROUNO LEAVES UUMCNERIROCKET BURROW' ICENTRIFUGAL FORCE AND SPRING THROW OUT BORE RIDER BORE SECURITY PIN RELEASES SECTOR SECTOR BRINGS 10 MOE FREEING SLIDER LOCK PIN DER FORCES LOCK PIN INTO RECESS I suoin moils INLINE ITARGET IMPACT CRUSINES PIEZOELECTRIC CRISTAL I ROUND IINTIATED I (CONFIDENTIAL) Figure 3-4. Fuze, PIBD, Model F-1, diagram of functioning sequence (U). 3-16 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PIBD, Model F-1 FOM No. 1390-17-2-5 (U) Applications (Ammunition and Weapons) Ammunition Weapons 89-mm HEAT rocket LRAC, Model F-1 89-mm rocket launcher, Model F-1 3-17 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1180H-001-75 Fuze, PIBD, for HOT ATGM FOM No. 1390-17-8-2 (C-NFD) Description The HOT* ATOM has a PIBD fuze. The electrical fuze is initiated by crushing the outer shell of the warhead until it makes contact with the inner liner. The fuze will initiate at angles of incidence up to 80?. The S&A operation is accomplished by a series of devices designed to prevent premature detonation. The activation of these devices is dependent upon: ? The missile leaving the launch tube (a locking device held in position by the walls of the launch tube releases when the missile leaves the tube and allows a spring to drive the arming device into position). ? Launch acceleration (launch acceleration locks a device into position which permits alignment of the explosive train). ? Guidance wire (when the guidance wire has unwound approximately 30 to 50 meters, it pulls a shorting pin). ? Thermal battery (initiation of the onboard thermal battery is necessary to close an arming switch). ? Time delay (a simple time delay is also incorporated into the arming sequence). *HOT (Haut Subsomque Optiquement teleguide NIT' dun tube). NO FOREIGN DISSEM 3-19 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1600H-001-15 Original (This page intentionally left blank) NO FOREIGN DISSEM 3-20 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, P1BD, for Milan ATGM FOM No. 1390-17-8-3 (U) Description The French Milan ATGM has a PIBD fuze. The pyrotechnic fuze used to detonate the main charge also functions as the front bulkhead of the motor. A primer pellet gate piston assures safety of the fuze while the missile is in the tube. When the missile leaves the launch tube, a spring-loaded pin moves and unlocks the piston. Gas pressure from the propulsion motor then displaces the piston and thereby arms the fuze. The electrical circuit which ignites the detonator squib in the fuze is shorted until the missile is a safe distance from the gunner. A shorting contact, in parallel with the squib bridge wire, is broken after 20 meters of guidance (factory adjustable) wire has been unreeled. Detonation occurs as the warhead ogive is deformed at impact, making electrical contact between the inner and the outer shells. The fuze weighs 300 grams and will initiate at impact angles of up to 800 . 3-21 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original POINT INITIATING FUZE MODEL 075 (U) Description 67 OIAM .59 DIAM 24 TN 3.07 ALL DIMENSIONS IN INCHES 2.89 AST-1160 H-001-75 Fuze, PIED, Model? FOM No. 1390-18-2-2 .93 OIAM 102 DIAM 17 TPI BASE DETONATING ELEMENT MODEL 5V307 Figure 3-5. Fuze, PIED, Model ?, contour views of PI and BD elements (U). (UNCLASSIFIED) The Swiss PIBD fu-zing system (fig 3-5) designed by Oerlikon for 80-mm aircraft HEAT rockets consists of a PI fuze, Model 075, and a BD element, Model SV307. It is a setback, delay-arming type that functions upon impact with the target. (U) Unique Features It employs an escapement via a pinion-gear-rack arrangement with a spring-loaded slider providing a mechanical block of the spitback flash from the PI fuze. The delayed arming is controlled via the escapement. 3-23 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11 60H-001-75 Original Fuze, PIBD, Mode!? FOM No. 1390-18-2-2 ( U) Characteristics PI fuze: Body material Tin-coated brass Weight 0.05 lb (22.1 g) Overall length 1.67 in (42.42 mm) Major body diam 0.67 in (17 mm) Thread diam 0.59 in (15 mm) TPI 24 Pitch 1 mm (0.04 in) BD clement: Body material Aluminum Weight 0.33 lb (149.8 g) Overall length 3.07 in (77.98 mrn) Major body diam 0.93 in (23.62 mm) Thread diam 1.02 in (25.9 mm) TN 16 Pitch 1.5 mm (0.06 in) Functional Data: Arming method Setback Firing method Impact Safety devices ** Arming distance Arming time 7 PI fuze has a setback sleeve, setback spring, and shear ring that acts as a safety against initiation of flashback primer. **Base clement has spring-loaded slider providing a mechanical block of the flash path to the detonator. The slider's movement is delayed by an escapement mechanism. 3-24 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details AST-1160H-001-75 Fuze, PIBD, Model? FOM No. 1390-18-2-2 1 3 4 7 8 (UNCLASSIFIED) Figure 3-6. Fuze, PI, Model 075, exploded view (U). PI fuze, Model 075. The PI fuze (fig 3-6) consists of a tin-coated brass fuze body (1), a steel plunger-type firing pin (2), steel ring (3), polyethylene nose cap (4), brass spring and shear safety support (5), steel setback spring (6), primer assembly (7), and aluminum primer carrier with steel shear ring (8). 3-25 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 AST:1600H-001-75 Fuze, PIBD, Model? FOM No. 1390-18-2-2 (U) Design Details (Continued) ?o), ?1 UNCLASSIFIED 2 11 4 10 17 18 19 21 4 14 15 Original 16 (UNCLASSIFIED) Figure 3-7. Fuze, BD, Model SV307, exploded view (U). BD element, Model SV307. The BD element (fig 3-7) consists of the delay assembly housing (1), retainer sleeve (2), fuze body (3), booster housing (4), gear assembly (5), pinion-gear assembly (6), gear spindle (7), pallet (8), bearing plate (9), slider retaining pin (10), safety pin (11), slider assembly (12), slider block (13), inner slider spring (14), outer slider spring (15), setback spring (16), setback pin (17), rack (18), booster disk (19), booster cushion (20), and booster washer (21). 3-26 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-118011.0131-75 (U) Functioning 2 3 4 Fuze, EIBD, Model? FOM No. 1390-18-2-2 (UNCLASSIFIED) Figure 3-8, Fuze, PI, Model 075, section view (U). 3-27 UNCLASSI RED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fun, PIBD, Model? FOM No. 1390-18-2-2 (U) Functioning (Continued) Point initiating fuze, Model 075 (fig 3-8). On acceleration, both the striker pin (1) and primer-carrier assembly (5) move rearward. If impact occurs before the acceleration load on the spring (3) falls below the approximate 4.5-lb (2 kg) load required to keep it fully compressed, the primer carrier moves forward against the striker-pin flange. Impact forces of approximately 700 lb (317.5 kg) shear the plate (i.e., top washer of the primer-carrier assembly) and permit the striker point to enter and set off the primer (4). If impact occurs after the acceleration load on the spring (3) falls below the approximate 4.5-lb load referred to above, the spring will have returned the striker pin and primer-carrier assembly to their normal position. In this case the striker pin will be forced rearward into the primer after shearing the plate. It should be noted that the primer spitback charge bottom is concave shaped to obtain better initiation. ROTATED 900 12 $lleirs-S., Wen %Iowa ???:- SECTION C-C (UNCLASSIFIED) Figure 3-9. Fuze, BD, Model SV307, section view of BD element (U). 3-28 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116014-001-75 Fuze, PIED, Model? FOM No. 1390-18-2-2 (U) Functioning (Continued) Base detonating element, Model SV307 (fig 3-9). When the carrier rocket is fired, the setback pin (5) and the rack (4) start to move rearward. The setback pin's travel is hindered only by the spring (6), which it compresses relatively quickly. On the other hand, the rearward movement of the rack is delayed by the fuze clockwork mechanism (3) through the pinion gear (2). When the rack top has moved below the transversely drilled hole in which the safety pin (12) is assembled, the safety pin is dammed into the cavity above the rack and setback pin. This transfer is accomplished with the aid of the continued acceleration forces acting on the safety pin through the tapered surface of its seat in the slider retaining pin (11). When the slider retaining pin moves below the bottom surface of the slider assembly slot, the slider assembly (10) is freed and is then pushed along its slot by the slider-spring assembly (9). This movement aligns the slider hole with the flash hole of the base detonating element. A clear path is then open between the point impact fuze primer carrier charges and the detonator assembly (8) at the bottom of the base element. (U) Applications (Ammunition and Weapons) Ammunition Weapons 80-mm HEAT rocket 80-mm rocket pods mounted on aircraft 3-29 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PIED, for Bantam ATGM FOM No. 1390-19-8-1 (U) Description The Swedish Bantam ATGM has a PIBD fuze. The fuze is armed when a microswitch, mounted on one spool of control wire, is closed after 230 meters of wire have been dispensed. The fuze is initiated when an electrical connection is made between two ogival, thin metal shells that make up the nose of the missile. The two shells are ordinarily separated by a small space until the missile strikes an object, deforming the outer shell so that it contacts the inner shell. The double-sheathing nose design ensures that fuzing at angles of impact up to 90? is achieved. 3-31 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, PIRO, Model ? FOM No. 1390-21-2-2 SA'kvdk-xicc Re& bider Figure 3-1 75-mm HEAT grenade UNCLASS PIBD fuze (U). UNCLASS F ED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-160014-001-75 Fuze, PIED, Model? FOM No. 1390-21-2-2 (U) Description Original The Belgium PIBD fuze is a spitback type designed for use with the super-blindicide 75-mm HEAT rocket, Energa (fig 3-10). It consists of a setback-armed, PI fuze with a graze-sensitivity feature and a BD element with a safety device providing a mechanical block on the main detonator. (U) Functioninp i'?111111111i .0 siossi rrkt Rohr riL4 of anon) -The bolls ari-ire SIIIII?111110 00 Normal 130?101/1 & II01150qt Bolling rnmerne.til 01 arufing .leeve (UNCLASSIFIED) Figure 3-11. Fuze, PI, arming sequence (U). 3-34 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, PIED, Model ? FOM No. 1390-21-2-2 (U) Functioning (Continued) The arming of the PI fuze (fig 3-11) is as follows: Upon setback, the setback sleeve (1) moves rearward, compressing its spring and thereby releasing the detent balls (2). This movement releases the striker (3) and detonator housing. The PI fuze portion is now armed and ready to function. Shroud o released Th Narrlidi pn,flinn 1,1orni._! I huhptprt eionso oi ,ditth simmul I HIMEJI or I, um oNert'd (UNCLASSIFIED) Figure 3-12. Fuze, PIED, arming of safety device (U). 3-35 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1600H-001-75 Original Fuze, PIBD, Model 7 FOM No. 1390-21-2-2 (U) Functioning (Continued) The arming of the safety device (fig 3-12) is as follows: When setback ceases, the safety cap (2) under pressure from spring (1) as a result of setback is thrown forward toward the front, freeing the passageway to the main detonator (3). Upon impact, the striker stabs the detonator which spits back to the main detonator at the base of the warhead. This, in turn, initiates the relay or booster charge, resulting in detonation of the shaped charge. 3-36 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original RF SCREEN NOSE SWITCH CONTACTS (C) Description LIP31 NOSE SWITCH TERMINAL MAIN CHARGE AST-1160H101-75 Fuze, P1BD,for Swingfire ATGM FOM No. 1390-35-8-1 C E. PELLET PEW INSPECTION CONNECTOR PIPE WINDOW / / //////.11///// ///// /////////1 `R.L. // // I /fl/ a lPir 11111r..t.:".11. ------- r - NOSE SWITCH LEADS WARHEAD, GM, KUM SAU MECHANISM 15 WAY CONNECTOR Figure 3-13. Fuze, P1BD, for Swingfire, section view of warhead (U). (CONFIDENTIAL) The Swingfire warhead GMK14A1 (fig 3-13) has a PIBD fuze developed in England by Graviner, Ltd. It includes a nose switch, a safety and arming unit (SAU), and a pressure delay unit (PDU). (C) Characteristics Fuze assembly: Body material Aluminum Weight of SAU 43 g (0.095 lb) Markings of SAU GM, K31A1 Markings of PDU GW, KlAl 3-37 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, PIBD, for Swingfire ATGM FOM No. 1390-35-8-1 (C) Characteristics (Continued) Booster: Explosive CE Explosive weight 18 g (0.040 lb) Functional data: Arming method Propellant actuated Firing method Impact Safety device PDU and mechanical detent Arming time 3 s Arming distance 80 m PRESSURE TO SAFETY AND ARMINGARMING UNIT C. E. EXPLOSIVE n. DIAPHRAGM SimSaitli ''11,111namille 4. Pt /441 PYROTECHNIC DELAY COLUMN PRESSURE DELAY UNIT Figure 3-14. Fuze, PIBD, for Swingfire, PDU (U). 3-38 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 PRESSURE FROM nen ROCKET MOTOR (CONFIDENTIAL) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original 1. FLYING LEAD TO WARHEAD NOSE SWITCH 2. 15-WAY FLYING LEAD SAU- AFTBODY 3. 15-POLE PLUG 4. WINDOW 5. REVERSIBLE DIAPHRAGM HOUSING 6. FIRING CAPACITOR 7. BLEED RESISTORS 8. CHARGE RESISTORS 9. CHARGING SWITCH AND SHORTING LINK 10. SHUTTER MECH HOUSING 11. CHARGING SWITCH OPERATING ARM 12. EXPLOSIVE MOTOR 13. SCREENED IGNITER AST-116011-001-75 Fuze, PIBEy for Swingfire ATGM FOM No. 1390-35-84 (CONFIDENTIAL) Figure 3-15. Fun, PIBD, for Swingfire, SAU (U). 3-39 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H00145 Original Fuze, PISD, for Swingfire ATGM FOM No. 1390-35-8-1 (C) Design Details The PDU (fig 3-14) consists basically of a diaphragm, striker, pyrotechnic delay column, and CE charge. It is operated by pressure from within the rocket motor. The SAL) (fig 3-15) is a complete assembly screwed to the rear of the main charge casing. The unit consists of a body casting containing a rotatable shutter which carries a detonator, a screened igniter, a CE pellet, an explosive motor, actuator arm and spring, and a pressure-operated lock post. The unit is connected electrically to the missile by a 15-way connector plugged into the leads running under the strake. The unit has a two-way switch lead and a circuit board mounted in the rear of the assembly. The circuit board comprises a capacitor, resistors, and a rotary charging switch. The unit is connected to the PDU by a pipe. The nose switch consists of: ? The nose cone which is an ogival aluminum alloy RF screen. ? Inner and outer ogival copper liners which are insulated from each other and from switch contacts. Electrical connections from the inner and outer switch contacts are by means of a twisted pair of leads connected to a flying lead from the SAU. 3-40 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original A. LOCK POST DISENGAGED FROM BASE PLATE, SHUTTER HELD BY ACTUATING LEVER R. EXPLOSIVE MOTOR FIRED AND SHUTTER SPRING FULLY LOADED. a BEFORE POU IS INITIATED, LOCK POST IS ENGAGED IN RECESS IN BASE PLATE AST-116014-001-75 Fuze, PIBD, for Swingfire ATGM FOM No. 1390-35-8-1 1 LOCK POST 2. ACTUATING LEVER 3. BASE PLATE 4 IGNITER ELECTRIC UN HOLDER ABOVE SHUTTER I 5 SCREENED IGNITER HOLDER IL SHUTTER 7 DETONATOR 8 SHUTTER SPRING 9 CHARGING SWITCH DRIVE PIN 10. REVERSIBLE DIAPHRAGM 11 EXPLOSIVE MOTOR PRESSURE FROM POU b AFTER POU IS INITIATED, LOCK POST IS DISENGAGED FROM BASE PLATE BY REVERSIBLE DIAPHRAGM C. SHUTTER SPRING OVERCOMES LOCK POST PAWL SPRING AND DRIVES SHUTTER TO ARMED POSITION. SAU OPERATION (CONFIDENTIAL) Figure 3-16. Fuze, PIBD, for Swingfire, SAU operation (U). 3-41 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1150H-001.15 Original Fuze, PIBDsfor Swingfire ATGM FOM No. 1390-35-8-1 (C) Functioning PDU. When pressure in the propulsion motor has built up to 800 lb/in2, the diaphragm in the PDU reverses and initiates the delay column. Gas pressure reaches the PDU through the air space between the hypalon inhibitor and rocket motor casing. After a delay of 2 seconds, the CE charge is initiated and the resultant gas pressure is piped to the SAU to disengage the shutter lock post. SAU (fig 3-16). The first restraint, the shutter lock post, holds the shutter in the SAFE position. It is disengaged from the shutter by the reversal of a diaphragm actuated by pressure from the pressure delay until approximately 2 seconds after launch, corresponding to about 50 meters of missile flight. The second restraint, applied by the actuator arm, is removed by the explosive motor. The actuator arm is pivoted in the body casting and is the means by which additional torque is applied to the actuating spring to rotate the shutter. The actuator arm is moved by a piston in the explosive motor. The explosive motor, mounted on the base of the body, is fired by the breaking of a loop after the first 80 meters (?10 meters) of wire has been dispensed. On firing, the piston of the explosive motor operates the actuator arm, which increases torque on the shutter driving spring and drives the shutter to the armed position. The shutter is pivoted in the body casting and is actuated by a torsion spring anchored between the shutter and the actuator arm. In the SAFE condition, the shutter is positioned between the igniter and the CE pellet and held by the lock post. The igniter is thus screened from the CE pellet and the main charge. In the ARMED condition, the detonator in the shutter is positioned between the igniter and the CE pellet to complete the explosive train to the main charge. Should the explosive motor fire before the lock post has been raised (due to more than a 2-second delay in the PDU or a free-running wire), the SAU will still arm after both restraints have been removed. Rotation of the shutter moves the plastic link to close the charging switch on the breadboard. This allows current to flow from the thermal battery to charge up the firing capacitor. Simultaneously the shutter movement breaks a shorting link across the igniter by opening a switch. 3-42 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-116014-00145 Fuze, PIBDIfor Swingfire ATGM FOM No. 1390-35-8-1 (C) Functioning (Continued) Nose switch. On impact, the nose of the warhead is crushed, and the inner and outer copper liners of the nose switch make contact and complete the igniter firing circuit; current then flows from the firing capacitor to fire the igniter. This fires the detonator which in turn fires the stemming and main charges. The copper cone in contact with the main charge creates a shaped-charge effect forming a high-speed jet. Should the nose switch not function for any reason, at the end of flight the bleed resistors will discharge the firing capacitor once the flow of current from the thermal battery ceases. The warhead will then be safe. 3-43 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1600H-001-75 Original (This page intentionally left blank) 3-44 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original ASh 16DHOOV7 ?Fuze, PlBDfor \Al Figure 3-17. Fuze, PIBD, for Vigilant AT 11,1 (C) Description (Li) The Vigilant incidence up to 70?. Arming power from the missile alternator. (UNCLASSIFIED) 17) has a nose contact that will operatet angles of complished by the simultaneous application of electric (C) The fuze is designed to Isis Ordnance Board Safety requirements. The now probe contact retracts for storage, It is? manually extended and automatically locked out when setting up for firing. Two-stage arming is employed: the combination of an inertial)operated, distance-measuring mechanism and a 'le-sensitive shutter detent that prevents arming until the missile has sustaned at least a 3-g acceleration for 1.5 seconds and has flown 110 meters (25 seconds), An escapement mechanism ?controls the speed of rotation of the shutter. 345 CONF DENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116084P0115 Original Fuze, P111313,for Vigilant ATGM FOM No. 1390-35-8-2 (C) Description (Continued) (C) The turbo-alternator charges up a capacitor. When the nose probe crushes on impact, the capacitor is discharged through a detonator. This explodes the warhead through a boost pellet assembly. At normal impact angles a crush switch on the nose closes, causing the warhead to detonate. If the impact occurs at angles greater than 45? so that the crush switch is not closed, an inertial-operated switch initiates detonation. 3-46 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Section IV. BASE DETONATING FUZES 4-1 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 AST-1160H-001-75 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1150H-001-75 Section IV. BASE DETONATING FUZES GENERAL (U) Base detonating (BD) fuzes have been designed or are under development for armor-piercing, high-explosive incendiary (APHEI) projectiles, high-explosive antitank (HEAT) projectiles, and high-explosive plastic (HEP) projectiles. These fuzes usually function on mechanical or electrical principles, by contact with the target and with detonation at the base end of the projectile or warhead. This type of fuzing is less complex than the PIED fuze, and offers a direct solution to fuzing problems associated with the initiation of shaped-charge or HEP projectiles used in a direct fire role. (U) The fuzes described in this section are designed for either high- or low-"g" accelerations and for fin- or spin-stabilized projectiles or warheads. (U) Some of the fuze developments included in this handbook incorporate a graze-sensitive or self-destruct feature and have been designed to function either instantaneously or with a delay upon impact with the target. (D) Most BD fuzes require either a setback or centrifugal force environmental stimulus for arming; some of the fuzes, especially for ATGMs, have delayed arming, usually accomplished by a pyrotechnic delay or mechanical timer. (U) With the exception of some older obsolescent types, the fuze designs presented in this handbook reflect the current state-of-the-art and, in some cases, have unique features. 4-3 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original FOM No. INDEX Nomenclature* AST-1160H-001-75 Page 1390-16-1-30 Fuze, BD, Model BDZ DM 711 4-7 139 0-1 6-1-3 1 Fuze, BD, Model BDZ DM 731 4-9 1390-17-2-4 Fuze, BD, Model (STRIM) 4-11 1390-18-1-45 Fuze, BDSD, Oerlikon, Type BZD-0236 4-17 1390-19-1-7 Fuze, BD, Model (MINIMAN) 4-21 1390-35-1-1 Fuze, BD, Model No. 303 Mk 1 4-29 1390-35-1-3 Fuze, BD, Model L29A2 4-35 1390-35-1-7 Fuze, BD, Model L24A2 4-37 1390-35-1-4 Fuze, BD, Model L19A4 4-39 1390-35-1-24 Fuze, BD, Model L10 Mk 1 4-41 1390-35-1-25 Fuze, BD, Model Ll 5A2 4-49 1390-35-1-26 Fuze, BD, Model L19A1 4-57 1390-35-1-27 Fuze, BD, Model L24A1 4-67 1390-35-1-28 Fuze, BD, Model L29A1 4-77 1390-35-2-1 Fuze, BD, Model L16A1 4-87 1390-35-2-2 Fuze, BD, Model L5, M404, Mk 1 4-95 1390-37-1-8 Fuze, BDSD, Type? 4-103 'All fuze nomenclatures are UNCLASSIFIED. 4-5 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-00175 Original LIST OF ILLUSTRATIONS Figure Title* Page 4-1 Fuze, BD, Model (STRIM), full view 4-11 4-2 Fuze, BD, Model (STRIM), exploded view 4-13 4-3 Fuze, BDSD, Model BZD-0236, section view 4-17 4-4 Fuze, BD, Model (MINIMAN), full view 4-21 4-5 Fuze, BD, Model (MINIMAN), exploded view 4-23 4-6 Fuze, BD, Model (MINIMAN), disassembled S&A device 4-24 4-7 Fuze, BD, Model (MINIMAN), piezold assembly 4-25 4-8 Fuze, BD, Model (MI NIMAN), section view of S&A device 4-26 4-9 Fuze, BD, Model No. 303 Mk 1, contour and cutaway views 4-29 4-10 Fuze, BD, Model No. 303 Mk 1, section view 4-33 4-11 Fuze, BD, Model L29A2, contour view 4-35 4-12 Fuze, BD, Model L10 Mk 1, contour and section views- 4-41 4-13 Fuze, BD, Model L10 Mk 1, functioning views 4-46 4-14 Fuze, BD, Model Li 5A2, contour and section views 4-49 4-15 Fuze, BD, Model L15A2, functioning views 4-55 4-16 Fuze, BD, Model L19A1, exploded, section, and contour views 4-57 4-17 Fuze, BD, Model L19A1, functioning views 4-64 4-18 Fuze, BD, Model L24A1, exploded, section, and contour views 4-67 4-19 Fuze, BD, Model L24A1, functioning views 4-74 4-20 Fuze, BD, Model L29A1, exploded, section, and contour views 4-77 4-21 Fuze, BD, Model L29A1, functioning views 4-84 4-22 Fuze, BD, Model L16A1, exploded and cutaway views 4-87 4-23 Fuze, PD, Model L5, M404, Mk 1, exploded and cutaway views 4-95 4-24 Fuze, BD, Model L5, M404, Mk 1, functioning views 4-100 4-25 Fuze, BDSD, Type ?, section view 4-103 4-26 Fuze, BDSD, Type ?, exploded view 4-105 'All figure titles arc UNCLASSIFIED. 4-6 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, BD, Model BDZ DM 711 FOM No. 1390-16-1-30 (FOUO) Description According to an official West German source, fuze BDZ DM 711 is a German-produced copy of US fuze, BD, M91A1. This fuze was standard in the West German Armed Forces at least as late as 1969. See pertinent US publications (e.g., TM 9-1300-203) for technical details of this fuze. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 90x607-mm cartridge, Model ? 105x617-mm HEP-T cartridge, Model ? 90-mm guns 105-mm guns or howitzers 4-7 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original (This page intentionally left blank) 4-8 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, BD, Model BDZ DM 731 FOM No. 1390-16-1-31 (FOUO) Description Fuze BDZ DM 731 is a West German-produced copy of UK fuze L29A2 or L29A3. This fuze was standard in the West German Armed Forces at least as late as 1969. See FOM No. 1390-35-1-3 (fuze L29A2) and FOM 1390-35-1-28 (fuze L29A1), for functioning data and technical details. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 105x617 HESH (HEP) cartridge, Model ? (probably UK designed and/or produced) 105-mm guns 4-9 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original (This page intentionally left blank) 4-10 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED OriGina! AST-1160H-001-75 (UNCLASSIFIED) Figure 4-1. Fine, BI), Model (STRIM), full view (U). Description Fuze, BD, Model (STRIM) FOM No, 1390-17-24 The French BF) fuze (Fig 4-1) was developed by Societe Technique de Recherches Industrielles de Mechaniques (STRIM) of Pans. The fuze is a setback-armed type employing a ribbon spring that unwinds after setback, arming the fuze. It is not considered bore safe by US standards_ (U) Characteristics Fuze assembly: Body material ? Aluminum Weight ? ? _ 0.11 kg (0.24 lb) 34 min (1.34 in) Length 69 mm (2.72 in) 4-11 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, BD, Model (STRIM) FOM No. 1390-17-2-4 (U) Characteristics (Continued) Detonator: Explosive Weight 0.916 g (14.1 gr) Booster pellet: Explosive RDX/wax** Weight 9.24 g (0.020 lb) Diam 22 mm (0.866 in) Height 23 mm (0.910 in) Functional data: Arming method Setback Firing method Impact Safety devices Safety pin; arming spring Arming distance 4 m Arming time ? Lead azide, tetryl, potassium chlorate, antimony sulfate, and merctin fulminate. **Pressed to tit a hemnphencal cavity of the main shaped charge having a radius of 93 nun (0.37 In) 4-12 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details (fig 4-2) AST-1160H-001-75 Fuze, BD, Model (STRIM) FOM No. 1390-17-2-4 (UNCLASSIFIED) Figure 4-2. Fuze, BD, Model (STRIM), exploded view (D). 4-13 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED MT-11601-001-75 Original Fuze, BD, Model (STRIM) FOM No. 1390-17-2-4 (U) Design Details (Continued) The bored-out aluminum fuze body (9) is threaded internally at the forward end to receive the detonator assembly (11, 12, and 13) and externally for assembly into the base of the warhead. The rear of the fuze body (9) is sealed by an aluminum closure cover (3). The arming mechanism consists of a brass setback sleeve (6), steel setback spring (4), and a ribbon-type steel spring (10). The ribbon-type spring is wound up and positioned inside a housing (7) and locked in place by the brass ring-shaped retainer (8) with finger-like prongs. The firing-pin assembly (5) consists of a steel pin and brass holder, whereas the detonator assembly includes the detonator holder (13), a felt cushion (12), and the hemispherical-shaped detonator (11). The setback sleeve (6) is secured in place by a brass safety pin (2) inserted through an opening drilled into the side of the fuze body. The brass safety pin is held in place by an adhesive tape (1) taped around the fuze body. (U) Functioning Prior to firing, the adhesive tape (1) and safety pin (2) are removed. On firing, the setback sleeve (6) moves rearward, compressing its spring (4). The ring-shaped retainer (8) also moves rearward, expanding its finger-like prongs over the raised portion of the ribbon spring housing (7). When setback forces dissipate, expansion of the spring (4) pushes the sleeve (6) forward as well as the retainer (8), allowing the ribbon-type spring (10) to unwind and eliminating the obstruction that blocked the firing pin (5) from stabbing the detonator (11). Upon impact, inertia forces the firing pin to stab the detonator, which in turn sets off the booster pellet and shaped charge of the warhead. 4-14 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, BD, Model (STRIM) FOM No. 1390-17-2-4 (U) Modifications Modifications have been made to this fuze. A set screw replaced staking of the firing pin. Removal of the safety pin is accomplished by a pull-ring instead of unwinding friction tape. The firing pin was made longer and the setback spring stronger. (U) Applications (Ammunition and Weapons) Ammunition Weapons 73-mm HEAT warhead, Model 1950 73-mm rocket launcher, Model 1950 4-15 (Reverse Blank) UNCLASSIFIED 1 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original FIRING PIN UNCLASSIFIED AST-1160H-001-75 Fuze, BDSD, Oerlikon, Type BZD-0236 FOM No. 1390-18-1-45 V S*- FIRING PIN BUSHING SELF-DESTRUCT SPRING ARMING BALLS (4) SHOCK ELEMENT BOOSTER DETONATOR DETONATOR ROTOR SELF-DESTRUCT HOUSING Neg. 517131 (UNCLASSIFIED) Figure 4-3. Fuze, BDSD, Model BZD-0236, section view (U). (U) Description The Oerlikon, Type BZD-0236, fuze (fig 4-3) is a conventional BDSD fuze with a mechanical self-destruct feature and an out-of-line detonator. It is designed for 30x113-mm B API-1E1, Type PSBH/B, cartridges for DEFA 500-series aircraft guns. 4-17 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, BDSD, Oerlikon, Type BZD-0236 FOM No. 1390-18-1-45 (U) Characteristics Fuze assembly: Body material Aluminum Weight 3.4 g Markings None Booster: Body material Body length Explosive Explosive weight 7 7 Functional data: Arming method Spin Firing method Impact Safety devices Out-of-line detonator in ball rotor. Arming distance Arming time Self-destruct time Delay time 7 (U) Design Details The fuze consists of an aluminum fuze body containing a self-destruct mechanism, firing pin, ball rotor with an out-of-line detonator, and booster. In storage and shipment, the fuze is kept safe by the out-of-line position of the detonator in the rotor. Rotor position is maintained by pressure from the self-destruct spring and the shock element, acting through the firing-pin bushing. (U) Functioning Upon firing, setback forces cause the firing pin bushing to move to the rear, crushing the shock element and further compressing the self-destruct spring. At this point, centrifugal force causes the arming. balls to move outward and rearward against the conical interior surface of the self-destruct housing. This action moves the firing-pin bushing further rearward and restrains the self-destruct spring, releasing pressure on the rotor. Centrifugal 448 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, BDSD, Oerlikon, Type BZD-0236 FOM No. 1390-18-1-45 (U) Functioning (Continued) force causes the unbalanced rotor, now free, to rotate until the detonator is aligned with the firing pin. Upon impact, inertia added to the pressure of the compressed self-destruct spring overcomes centrifugal force, acting on the arming balls. These balls are forced inward into their recess in the firing-pin bushing, and the fixing pin is driven into the detonator, thus initiating detonation of the booster. If impact does not occur, projectile spin will decay and centrifugal force decrease until the compressed self-destruct spring overcomes the spin force on the arming balls and drives the firing pin into the detonator. (U) Applications (Ammunition and Weapons) Ammunition Weapons 30x113-mm B APHEI, Type PSBH/B 30-mm aircraft gun, DEFA, Type 552 4-19 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original PIEZOELECTRIC FUZE EXPLODER AST-1160H-001-75 Fun, BD, Model (MINIMAN) FOM No. 1390494-7 CHARGE DISTANCE TUBE FIN STABILIZING TUBE LINER SHELL BODY 74-MM HEAT PROJECTILE (MINIMAN) BD, FUZE, (PIEZOELECTRIC TYPE) (CONFIDENTIAL) Figure 4-4- Fuze, BD, Model (MINIMAN), full view (U). 4-21 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model (MINIMAN) FOM No. 1390-19-1-7 (C) Description The Swedish BD fuze (fig 4-4) is a setback-, delayed-arming type that functions on the piezoelectric principle upon impact with the target. It was developed by Forsvarets Fabrilcsverk of Eskilstuna, Sweden, for use with the 74-mm HEAT projectile fired from the 74-mm antitank launcher (MINIMAN). The manufacturer claims functioning up through 70? obliquity. (C) Unique Features ? A piezoid mounted in the base that is excited by the shock wave travelling through the distance tube and shell body upon impact. ? The use of a diode to provide brush discrimination. ? A ball-race metering system for controlling the spring-driven rotor housing the electric detonator. ? Detent system on spring-driven rotor. (C) Characteristics Fuze assembly: Body material Weight Markings Booster: Body material Body length Explosive . Explosive weight 4-22 7 7 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 (C) Characteristics (Continued) Functional data: Arming method Setback Firing method firipact Safety devices Arming distance Arming time Delay time 7 INNER ASSEMBLY 111 MEZOID ASSEMBLY SBA DEVICE Neg. 552498 FUZE CASING Fuze, BD, Model (MINIMAN) FOM No. 1390-19-1-7 CLOSING PLUG OUTER ASSEMBLY CONTACT HOUSING gla CONTACT MB -..........."ThISSULATING COVERS DISK 0 0 "BELLEVILLE" SPRINGS (CONFIDENTIAL) Figure 4-5. Fuze, BD, Model (MINIMAN), exploded view (U). (C) Design Details General. The MINIMAN piezoelectric, BD fuze (fig 4-5) is a compact design. It consists primarily of a piezoid assembly, S&A device, and contact housing. The inner assembly is then covered with a transparent, plastic, insulating material and inserted into the fuze outer assembly. A plastic disk is placed around the contact housing as well as an "O"-ring and three belleville springs. The closing plug is then screwed into the casing of the outer assembly until metal-to-metal contact occurs between the casing and plug. The fuze is threaded at both ends. The forward end is screwed into the base of the projectile. 4-23 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1 H- 75 Fuze, BD. Model (MINIMAN FOM No, 1390-19-1-7 Design Details (Continued) S&A device (Fig 4-6) Original Neg. 552499 Figure 4-6. Fuz (CONE-10E1171AL) Model (MINIMAN), disassembled S&A device (U), The S&A device consists of a cylindrical, slotted S&A housing bored out and machined to facilitate a flat rotor spring, ball raceway, sun disk and delayed-arming cylinder housing the rotor and a slotted rotor spring stud. The delayed-arming cylinder also has holes drilled to accommodate four balls metering the motion of the spring-driven which houses an Insulated elect detonator. The center set screw locks the detonator contained in the rotor. In addition, there are two cletent balls detenting the rotor lock pm. These balls are held in place by two spring-loaded pins in adjacent holes. These pins release the derent balls on setback, The lung retainer pin shown above retains the rotor and delayed-arming cylinder in the S&A housing. 4-24 CON F DENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-0111-75 Fuze, BD, Model (M1NIMAN) FOM No. 1390-19-1-7 (C) Design Details (Continued) The S&A housing is grooved to provide spaCe for the diode of the piezoid assembly. The detonator is of the grounded-case design with an insulated center contact. Piezoid assembly. uUflPiIJLI IAL) Figure 4-7. Fuze, BD, Model (MINIMAN), piezoid assembly (U). The piezoid assembly (fig 4-7) consists of a bleeder-type resistor, "D"-shaped piezoid or crystal, and diode. The crystal is made of lead-zirconate-titanate material placed between two metallic collectors. The piezoid is a high-impedance type excited by the shock travel generated upon impact with the target. The diode permits brush discrimination and precludes functioning when the projectile brushes leaves or twigs during flight. 4-25 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 AST-1160H-001-75 Fuze, BD, Model (MINIMAN) FOM No. 1390-19-1-7 (U) Functioning Neg. 552500 WARHEAD INITIATION CONFIDENTIAL SBA DEVICE SECT B-8 INSULATING COVER j r7741, A A DETONATOR CONTACT IS/ DETONATOR ROTATION 2700 Origiril ROTOR LOCK SECT A-A ROTOR LOCK PIN DETENT BALL (2 r_ WRING LOADED PIN (21 (CONFIDENTIAL) Figure 4-8. Fuze, BD, Model (MINIMAN), section view of S&A device (U). The S&A device (fig 4-8) arms by setback during acceleration at launch. Upon setback, the spring-loaded pins move rearward, releasing the two balls, undenting and releasing the rotor lock pin. The rotor which houses the detonator is now driven to electrical alignment by the rotor spring. The rotor motion is metered or controlled via the ball raceway mechanism. The rotor moves 270?, pressing through the aligned position with the detonator upside down. The contact pin can only enter the rotor and contact the detonator button when it comes to rest at the rotor stop pin. The contact pin also serves to lock the rotor once armed. 4-26 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFILV Original AST-1160 H-001-75 Fuze, BD, Model (MINIMAN) FOM No. 1390-19-1-7 (U) Functioning (Continued) Upon impact with the target, the shock wave travels through the distance tube and projectile body to the piezoid. The piezoid is then excited and produces the necessary voltage to fire the electric detonator and, in turn, detonate the booster and the shaped charge of the projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons 74-mm HEAT projectile 74-mm RCLS antitank weapon (MINIMAN) 4-27 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original IA" DIA ss (12 Threads per lath 1.11) _ SEPTUM - - BOXCLOTH WASHER BASE MARKINGS (C) Description ROTOR ROTOR SPRING AST-1160H-001-75 Fuze, BD, Model No. 303 Mk 1 FOM No. 1390-35-1-1 MAGAZINE CAP - - C. E. PELLET STEMME0 PLUG CE. STEMMED ROTOR PLUG ARRESTER PIN DETONATOR ASSEMBLY ? (I? GR. BODY OETENT DETENT SPRING STRIKER STRIKER SPRING CENTRIFUGAL PLUNGER (TWO) COLLAR SHEAR WIRE BASE PLUG (CONFIDENTIAL) Figure 4-9. Fuze, BD, Model No. 303 Mk 1, contour and cutaway views (U). The No. 303 Mk 1 BD fuze (fig 4-9) is a setback- and centrifugally-armed type which functions upon impact. It was developed by the United Kingdom for use with 165-mm HESH ammunition fired from the L9A1 gun mounted on the armored reconnaissance vehicle (AVRE). This fuze is bore safe by US standards. (C) Unique Features ? Setback pin detenting torqued spring-loaded rotor housing an out-of-line detonator. 4-29 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model No. 303 Mk 1 FOM No. 1390-35-1-1 (C) Characteristics Fuze assembly: Body material Aluminum Weight Markings 303 MK R.L.46 Length 99 mm (3.901 in) Thread diam 40.6 mm (1.60 in) TPI 12 (LH) Booster: Body material Body length 25.4 mm (1.00 in) Explosive Tetryl Explosive weight 28.3 g (0.062 lb) Functional data: Arming method Firing method Safety devices Arming distance Arming time (C) Design Details Setback & centrifugal force Impact 2 General. The No. 303 Mk 1 BD fuze (fig 4-9) consists principally of a body, magazine, stemmed plug, rotor plug, rotor assembly, arrester pin, detent and detent spring, striker and striker spring, centrifugal plunger, collar, shear wire, and base plug. Body. The body is made of aluminum. Externally it is formed with an enlarged portion at the base, above which it is screw-threaded to 1.6-in (41-mm) diameter (12 TPI, left hand) to suit the fuze hole in the base of the shell. Above the threaded portion, it is of slightly reduced diameter and formed plain; at the top, it is further reduced in diameter, an undercut being made above which it is screw-threaded to accept a cap that forms the *Arrester and setback pins detent A torqued rotor that houses a line detonator, two centrifugal plungers detenting firing pin and shear wire. 4-30 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Origins AST-1160H-001-75 Fuze, BD, Model No. 303 Mk 1 FOM No. 1390-35-1-1 (C) Design Details (Continued) magazine. Two flats are formed on the sides of the enlarged portion to facilitate assembly or removal from the shell. From the base, a hole is bored in the center of the body to house the striker and striker spring, while off center three holes are bored: one to house the detent and detent spring, the other two to lighten the body and also act as vents to relieve pressure should the detonator be fired prematurely. A hole is also drilled in the center of the top and screw-threaded to take the arrester pin. Below the stemmed plug, a larger hole is drilled through the side of the body to house the rotor assembly which, after insertion, is retained in position and sealed by screwing home the rotor plug. This horizontal hole also connects with one of the vent holes bored from the base of the body. Another hole is bored through the side of the enlarged portion of the body at the base to accept the two centrifugal plungers which are retained in position by screwed plugs. Two blue bands are painted around the base portion of the fuze. Magazine (i.e., booster). The magazine consists of a cup-shaped flat-bottom cap, threaded internally .at the mouth to screw on to the top of the fuze body. A hole is also formed in the top, being closed by a brass septum, beneath which is inserted a box-cloth washer. A CE pellet weighing approximately 1 oz (28.35 grams) is assembled in the magazine. Stemmed plug. The plug is of metal, screw-threaded externally, with a hole drilled through the center leaving a thin diaphragm of metal at the base. This recess is filled with CE stemmed in (i.e., tetryl filled) and retained in position by a paper disk shellaced to the top surface of the plug. The plug is screwed into the hole formed in the center of the top of the body. Rotor plug. This is made of metal, screw-threaded externally, with a screwdriver slot cut across the base. Internally, it is recessed to fit over the end of the rotor assembly. It is assembled in the side of the body behind the rotor assembly. Arrester pin. This is made of metal, formed with a cylindrical shank and an enlarged screw-threaded head. It screws into the hole formed off center in the top of the body, the shank or stem emerging through the bottom of the hole acts as a stop or arrester when the detent sets back and the rotor assembly revolves under the influence of the rotor spring. 4-31 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model No. 303 Mk 1 FOM No. 1390-35-1-1 (C) Design Details (Continued) Rotor assembly. The rotor assembly consists of a cylindrical housing, with a rotor, rotor spring, detonator plug and 1.7-g (0.11-gram) "A" (copper alloy shell) detonator, distance piece, and lead-azide CE (i.e., tetryl) sleeve. A hole bored in the side of the rotor accommodates the lead-azide sleeve, above which is inserted the distance piece and detonator housed in the detonator plug. One end of the rotor is closed and formed with a spigot or boss, over which is assembled a cylindrical-coiled rotor spring. Slots are cut in the sides of the open end of the rotor: the end of the detent engages in the smaller slot; the other, which is wider, acts as a stop when it comes into contact with the stem of the arrester pin when the rotor revolves. Detent (setback pin). The decent is made of steel and consists of a rod with a cylindrical flanged head, a collar being formed about the center of the rod to act as a guide. Inserted from the base of the body, it seats on the detent spring. The stem of the detent engages in a slot in the rotor assembly and retains it in the unarmed position until the shell is fired. Detent spring (setback spring). This is a cylindrical-coiled steel wire spring which is positioned behind the detent. Striker (firing pin). The striker is made of steel, in the form of a rod with a needle point at the front. At the lower portion of the rod, two collars are formed which act as centering bands, the portion between the collars forming a recess into which the centrifugal plungers engage. A small spigot is formed at the rear of the striker, and a small hole to accept a copper shear wire is drilled through it. Striker spring. The striker spring is a cylindrical-coiled steel-wire spring which is assembled over the stem of the striker, the top coil resting below an undercut formed in the top of the channel of the body. Centrifugal plungers. The plungers consist of a short stem with an enlarged cylindrical head. A recess formed in the top of the head makes a seating for the coiled spring. The plungers are inserted through the side of the body, the holes being closed by screwed plugs. The stems of the plungers engage in the recess between the two collars formed on the striker and prevent the striker from moving forward until the plungers are withdrawn by centrifugal force. 4-32 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original (C) Design Details (Continued) AST-1160H-001-75 Fuze, BD, Model No. 303 Mk 1 FOM No. 1390-35-1-1 Collar. The collar is inserted over the spigot formed at the rear of the striker and secured by the shear wire, which is inserted in holes drilled through the collar and spigot. In flight, the shear wire in the collar prevents the striker from moving forward after the plunger is disengaged by centrifugal force. Base plug. The base plug is a solid screw-threaded disk. Two grooves are formed on its inner face, connecting the two vents drilled in the body. Two holes, diametrically opposite, are formed on the outer surface of the base for the assembly tool. (C) Functioning 3 go BASE MARKINGS 8 I 60 DIAM 121P1 (LH) 9 All dimension* In Inch*. Neg. 507912 Neg. 507972 (UNCLASSIFIED) Figure 4-10. Fuze, BD, Model No. 303 Mk 1, section view (U). 4-33 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST1160H-001-75 Original Fuze, BD, Model No. 303 Mk 1 FOM No. 1390-35-1-1 (C) Functioning (Continued) The No. 303 Mk 1 BD fuze (fig 4-10) requires both centrifugal and setback forces to arm. Upon firing the projectile, setback forces the detent (8) to the rear, compressing its spring (9). This motion of the detent releases the rotor (7). When setback ceases, the rotor rotates a quarter of a turn, bringing the detonator (3) into line. At the same time, centrifugal forces move the two spin detcnts (5) out, releasing the firing pm (4). The fuze is now fully armed; however, the detonator and the firing pin are kept separated by the shear wire (6) and the firing-pin spring. On impact, the shear wire is broken and the firing pin moves forward, compressing the spring and piercing the detonator. In turn, the detonator initiates the tetryl lead (2) and the booster (1). (C) Applications (Ammunition and Weapons) Ammunition Weapons 165-mm HESH projectile, Model LI, Mk1 165-mm AVRE with Model L9A1 gun (C) Remarks Although this fuze was declared obsolete in 1962, it has good design features that warrant incorporation into this handbook. 4-34 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) General AST-1160H-001-75 Fuze, BD, Model 1,29A2 FOM No. 1390-35-1-3 Neg. 507974 (UNCLASSIFIED) Figure 441. Fuze, BD, Model L29A2, contour view (U). The L29A2 (fig 4-11) is a delayed-arming, graze-sensitive, BD fuze designed to function on impact with the target. Except for minor modifications to the delayed-arming shutter and detonator, the L29A2 is similar in design and functioning to the UK L29A1 design (see FOM No. 1390-35-1-28). 4-35 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-116014001-75 Fine, BD, Model L24A2 FOM No. 1390-35-1-7 (C) General The L24A2 is a delayed-arming, graze-sensitive, BD fuze similar in design and functioning to that of the L24A1 (see FOM No. 1390-35-1-27) except for the delayed-arming shutter and detonator. (C) Application (Ammunition and Weapons) Ammunition Weapons 165-mm MESH projectile, Model L33A1 165-mm AVRE guns, Model L9A1 4-37 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original (This page intentionally left blank) 4-38 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L19A4 FOM No. 1390-354-4 (C) General The L19A4 fuze is standard for use with 76-mm, 25-pounder, 105-mm, and 120-mm HESH projectiles. It is similar in design and functioning to the earlier L19A1 (see FOM No. 1390-35-1-26), L18A2, and L19A3 models. It is a delayed-arming, graze-sensitive, BD fuze. The only differences between the L19 series fuzes are the minor changes in the delayed-arming shutter and the detonator. (C) Application (Ammunition and Weapons) Ammunition Weapons 76-mm, 25-pounder, 105-mm, and 120-mm HESH projectiles 76-mm gun, Model 15A1, on Saladin or Scorpion armored cars; 25-pounder gun/howitzer, Mk 2; 105-mm tank gun, Model L7A1; 120-mm RCLS BAT gun; 120-mm tank gun, Model Ll 4-39 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 (This page intentionally left blank) 4-40 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original ( Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original 4 90 SI UNARMED AST-1160H-001-75 Fuze, BD, Model L10 Mk 1 FOM No. 1390-35-1-24 - MAGAZINE CAP SEGMENT MAGAZINE C E PELLET STEMMED C E SHUTTER LOCKING PLATE 7 DETONATOR 12 8 OR AZ/ RETAINING PLUNGER STRIP ? SAFETY PLUNGER _ No 1 DELAYED ARMING SHUTTER HOD ? SECURING SCREW COVER PLATE 112 UNS Threads inch 2A LHI - 2.10" DIAM ? TRACER CAVITY ' STRIKER COVER PALLET STRIKER ' CREEP SPRING STRIKER HOLDER SHUTTER RETAINING SCREW ESCAPE WHEEL AND PINION 800Y SEGMENT Neg. 552501 (CONFIDENTIAL) Figure 4-12. Fuze, BD, Model L10 Mk 1, contour and section views (U). (C) Description The L10 Mk 1 (fig 4-12) is a delayed-arming, graze-sensitive, BD fine designed for use with HESH projectiles fired from the UK 25-pounder gun. It is considered bore safe by US standards. The fuze arms within 0.06 second, with the projectile spinning at 5900 r/min. (C) Unique Features ? Shutter housing out-of-line detonator. ? Escapement controlling movement of shutter. ? Spring-loaded safety plunger engaging locking plate detenting shutter. 4-41 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, BD, Model L10 Mk 1 FOM No. 1390-35-1-24 (C) Characteristics Fuze assembly: Body material Weight Markings Max length Thread diam TPI Booster: Body material Body length Explosive Explosive weight Anodized aluminum alloy L10 Mk 1 4.90 in (124.46 mm) 1.80 in (45.72 mm) 12 Anodized aluminum alloy Tetryl Functional data: Arming method Setback & centrifugal force Firing method Impact Safety devices Arming distance Arming time 0.06 s (C) Design Details Original General. The L10 Mk 1 fuze (fig 4-12) incorporates a delayed-arming shutter. It consists principally of a body, magazine and cap, striker assembly and cover, creep spring, and delayed-arming shutter No. 1 containing a 0.18 gram (2.8 gr) "AZ" detonator. Body. The body is made of anodized aluminum alloy. It is cylindrical in shape with a wide flange formed at the base, above which it is externally threaded to 1.8-inch (45.72-mm) diameter (12 UNS TPI-2A, left hand) to suit the fuze hole of the shell for approximately a quarter of its length; the remainder of the body is left plain. A hole is drilled in the center of the base and threaded to accept a tracer adapter (120-mm [4.72-in] shell only). Two holes, diametrically opposite, are also formed in the base to enable the fuze 'Salk Ly plungLr, locking platc, and out-of-line detonator. 4-42 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model LW Mk 1 FOM No. 1390-35-1-24 (C) Design Details (Continued) to be inserted or removed from the shell. The base of the body and flange is coated with varnish RD 1177 after lot and filler data have been stamped on the base. Internally, the body is bored to three diameters, the smaller at the base to accommodate the striker assembly, the second shorter but slightly larger in diameter and threaded to take the striker cover, while the third and largest is threaded at the mouth. This recess accommodates the delayed-arming shutter above which the magazine is screwed home. Magazine (i.e., booster). The magazine is made of anodized aluminum alloy. The magazine is cup-shaped and threaded externally for about two-thirds of its length; the remaining portion is left plain. Two key slots are formed on its outer rim to facilitate assembly. Internally, a small recess is drilled in the bottom, leaving a thin diaphragm of metal between the recess and the outer surface of the base of the magazine. This small recess in the bottom of the magazine is filled with tetryl, while a prepressed pellet of tetryl is inserted in the larger recess. The threads of the magazine are coated with composition RD 1285 or 1285 A, and it is then screwed into the open end of the fuze body, the base of the magazine resting above the delayed-arming shutter. The outer end of the magazine protrudes outside the body of the fuze and is closed by a magazine cap. Magazine cap. The magazine cap is made of anodized aluminum alloy. The cap is cup-shaped, the inner rim being threaded to engage over the mouth of the magazine. Striker assembly. The striker assembly consists of a holder, needle striker, and plug. ? Striker holder. The weighted, cylindrical striker holder is made of steel electroplated with zinc. It is formed in two diameters with a small recess formed in the base and a hole bored through the center to house the needle striker. ? Needle striker (firing pin). Made of steel electroplated with zinc, the needle striker is formed with a stem with a sharp point and a flanged head. ? Plug. The plug is a flat disk of brass formed with a hole through the center. 4-43 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Fuze, BD, Model L10 Mk 1 FOM No. 1390-35-1-24 (C) Design Details (Continued) Origins The stem of the needle striker protrudes through the hole bored in the striker holder. The needle striker is retained in the holder by the brass plug, which is assembled behind its flanged head and secured by spinning over a lip formed on the base of the holder. After turning over the lip, the needle striker must be free to move sideways in the hole in the striker holder. The striker assembly is inserted into the fuze body together with the creep spring and is retained in position by screwing home the striker cover. Striker cover. Made of anodized aluminum alloy, the striker cover is in the form of a disk, the outer rim of which is threaded. The underside is recessed to make a seating for the top of the creep spring. A small hole is also drilled in the center through which the point of the striker emerges when the striker holder sets forward on impact or graze. Creep spring. The creep spring is made of steel, tinned and electroplated with zinc. The cylindrical coded spring has four effective coils of 0.040-inch (10.15-mm) diameter, with one coil at each end close coiled and ground square with the axis of the spring. It is assembled around the top portion of the striker holder and prevents the holder from creeping forward while the shell is in flight. It is retained in position by the striker cover. Delayed-arming shutter No. 1. The assembly comprises four main components, an aluminum-alloy circular-shaped body, the escapement, a steel electroplated with zinc safety plunger with spring, and an anodized aluminum alloy rotary type shutter containing a 2.8-g (0.18-gram) "AZ" lugless (tinned copper-alloy cup) detonator. The shutter is held in the unarmed position by means of a spring-loaded safety plunger which engages in a locking plate. The safety plunger is retained in a recess formed in one side of the shutter body by a plunger retaining strip. On spin, the safety plunger, overcoming its spring, disengages from the recess in the end of the locking plate by the influence of centrifugal force, and the lead-weighted, biased shutter rotates until the detonator in it is in a central position over the striker nose. The plunger retaining strip, which engages in a slot cut in the sidc of the plunger, retains the plunger in its recess in the shutter body and prevents it from moving into the shutter housing when the plunger spring reasserts itself, thus obviating the possibility that the shutter and delayed-arming mechanism will be fouled by the plunger. The locking plate, which fits into a slot made across the face of the shutter, moves out and when the shutter reaches the fully armed position engages in a recess made in the outer side of the shutter body, thus locking the shutter in the armed position. The delay is obtained by means of a pallet and escape wheel mechanism positioned beneath the shutter. The escape 444 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 1...carmutri I IAL Original AST-1160H-001-75 Fuze, BD, Model L10 Mk 1 FOM No. 1390-35-1-24 (C) Design Details (Continued) wheel is fitted with a pinion which is in mesh with a segment on the side of the shutter. The pallet acts as a pendulum and engages successive teeth in the escape wheel to retard the rotary movement of the shutter. The approximate time of arming is 0.06 second from the time the shutter commences to open, which occurs when the shell is spinning at 5900 r/min. A coverplate, made of aluminum alloy is assembled on the base of the shutter body and is retained in position by securing screws. It is prepared to accept the pivot pins of the shutter and escape wheel. The shutter body is fitted in the fuze body below the magazine which, when assembled, holds it in position. It is also secured by a screw inserted through the side of the fuze body. The threads and slotted head of the screw are coated with composition RD 1285 or 1285 A at the time of assembly. (C) Safety Safety is provided as follows: ? The shutter is retained in the unarmed position by the spring-loaded safety plunger, which engages in a shutter locking plate. ? When the shutter is in the unarmed position, its detonator is screened off from the striker and from the tetryl-filled channel leading to the tetryl pellet in the magazine. ? The shutter is designed to provide a slight delay before it reaches the armed position. The appropriate time of operation is 0.06 second at 5900 drain. ? The creep spring prevents the striker holder and striker from moving forward during flight. 4-45 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Fuze, BD, Model L10 Mk 1 FOM No. 1390-35-1-24 (C) Functioning ACTION OF NO I DELAYED ARMING SHUTTER SHUTTER UNARMED DURING FLIGHT SAFETY PLUNGER DURING FLIGHT ESCAPE WHEEL AND PINION 2 3 SHUTTER ARMED LOCKING PLATE . SHUTTER DURING FLIGHT DETONATOR STRIKER CREEP SPRING Original (CONFIDENTIAL) Figure 4-13. Fuze, BD, Model L10 Mk 1, functioning views (U). On firing, the shutter and striker-needle holder set back and are retained in the unarmed position by friction. During flight, the safety plunger overcomes its spring and moves outWard to release the shutter. The plunger retaining strip, which engages in a slot cut in the side of the plunger, retains the latter and prevents it from leaving its recess in the shutter housing when the plunger spring reasserts itself, thus obviating the possibility that the shutter and delayed-arming mechanism will be fouled by the plunger. The shutter begins to rotate until its detonator reaches a central position directly in alignment with the striker needle and the stemmed CE (tetryl) leading to the CE pellet in the magazine. The delay is obtained by 4-46 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L10 Mk 1 FOM No. 1390-35-1-24 (C) Functioning (Continued) means of a pallet and escape wheel mechanism positioned beneath the shutter. The escape wheel is fitted with a pinion which is in mesh with a segment on the shutter. The pallet acts as a pendulum and engages successive teeth in the escape wheel to retard the rotary movement of the shutter. When the shutter reaches the fully armed position, it is locked by the locking plate, which moves outwards along its slot in the top face of the shutter to engage in a recess in the shutter housing. On impact or graze, the momentum of the striker holder overcomes the creep spring and carries the striker forward for the point to pierce the detonator. The resultant detonating wave is transmitted through the stemmed CE (tetryl) in the magazine channel, to the CE pellet in the magazine and thence on to detonate the bursting charge in the shell. (C) Application (Ammunition and Weapons) Ammunition Weapons HESH projectiles QF 25-pounder gun 4-47 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160O-001-75 Original i (This page intentionally left blank) 4-48 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original UNARMED MAGAZINE CAP MAGAZINE C E PELLET STEMMED C E SHUTTER SHUTTER LOCKING PLATE DETONATOR (28 GR , 421 RETAINING PLUNGER STRIP SAFETY PLUNGER ----- NO 3 DELAYED ARMING SHUTTER BODY - SECURING SCREW. AST-1160H4101-75 Fuze, BD, Model L15A2 FOM No. 1390-35-1-25 SEGMENT 1 80" DIAM (12 UNS Threads per inch 1.4 LH/ TRACER CAVITY Neg. 552502 (C) Description COVER PLATE WASHER PALLET SHUTTER RETAINING SEGMENT SCREW NEEDLE ESCAPE WHEEL AND PINION SEGMENT HOLDER COVER CREEP SPRING STRIKER HOLDER BODY SEGMENT HOLDER SEGMENTS Figure 4-14. Fuze, BD, Model L15A2, contour and section views (U). (CONFIDENTIAL) The Li 5A2 (fig 4-14) is a delayed-arming, graze-sensitive, BD fuze designed to function upon impact with the target. It is intended for use with HESH ammunition fired from the 120-mm tank gun, Ll. The L15A2 is both bore and muzzle safe. (C) Unique Features ? Shutter housing out-of-line detonator. ? Escapement controlling movement of shutter. ? Spring-loaded safety plunger detenting shutter. 4-49 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, OD, Model L15A2 FOM No. 1390-35-1-25 (C) Characteristics Fuze assembly: Body material Weight Markings Length TPI Booster: Body material Body length Explosive Tetryl Anodized aluminum alloy 7 L15A1 4.90 in (124.46 mm) 12 Anodized aluminum alloy Explosive weight Functional data: Arming method Firing method Safety devices Arming distance Arming time (C) Design Details Setback & centrifugal force Impact Spring-loaded safety plunger & safety locking plate 7 0.02 to 0.06 s Original General. The L15A2 BD fuze (fig 4-14) consists principally of a body, striker assembly, creep spring, striker locking-segment assembly, delayed-arming shutter No. 3 containing a 2.8-gr (0.18-gram) "AZ" detonator, magazine and cap. Body. The body is made of anodized aluminum alloy. It is cylindrical in shape with a wide flange formed at the base, above which it is externally threaded to 1.80-inch (45.72-mm) diameter (12 UNS TPI 2A, left hand) for approximately a quarter of its length to screw into the base of the shell. Above the threaded portion, the remainder of the body is left plain. A hole is drilled in the center of the base and threaded to accept a tracer-adapter (120-mm Ll TK shell only). Two holes, diametrically opposite, are also formed in the base to enable the fuze to be inserted or removed from the shell, internally, the body is bored 4-50 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Origins (C) Design Details (Continued) AST-1160H-001-75 Fuze, BD, Model L15A2 FOM No. 1390-35-1-25 from the top in four diameters: the smaller at the base to accommodate the striker assembly and creep spring; the second and third, which are slightly larger in diameter, accommodate the striker locking segment assembly; while the fourth and largest is threaded at the mouth. This larger recess accommodates the delayed-arming shutter assembly, above which the magazine is assembled. The base and the flange of the body are coated with varnish after the markings have been stamped on. Striker assembly. This consists of a brass, electrotinned, cylindrical body with a flange at the base, above which it is formed on three decreasing diameters, a recess being formed in the top of the smallest diameter to accept the base portion of the electroplated tin- or zinc-coated steel needle (firing pin), the stem of which, on assembly in the fine, protrudes through the center of the two striker locking segments. The needle, the base of which is flanged, is retained in the recess in the top of the striker body by a tin-coated brass washer, which is secured by spinning over the lip of the recess. The needle is free to move sideways in the recess. The striker assembly is inserted into the cavity in the base of the fuze body together with the creep spring, which is assembled around the larger diameter of the striker body, the bottom coil resting on the flange. The creep spring is retained under initial compression by the top coil, seating in a recess and bearing against the base of the striker locking-segment holder. Creep spring. The creep spring is a cylindrical-coiled, tinned, steel-wire spring with four effective coils of 0.056-inch (1.42-mm) diameter wire, one coil at each end being close coiled and ground square with the axis of the spring. It is assembled around the larger diameter of the striker body and prevents the assembled striker from creeping forward when the shell is in flight and the locking segments open under the influence of centrifugal force. Striker-locking segment assembly. This is assembled in the fuze body, the lower portion fitting over the top of the striker. It is retained in position by a screw inserted through the side of the fuze body, the shank of which bears on the striker locking segment cover. The striker-locking segment assembly comprises a holder, two electrotin-plated steel pins, two springs, two segments, a washer, and a cover. 4-51 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160E1-001-75 Original Fuze, BD, Model L15A2 FOM No. 1390-35-1-25 (C) Design Details (Continued) Holder. The holder is made of anodized aluminum alloy and is cylindrical in shape. Externally, it is formed on two diameters, the larger being at the top. The bottom portion of the larger diameter is chamfered to blend with the smaller. The bottom of the smaller diameter is also chamfered. Internally from the base it is bored out in two diameters, while a recess is formed in the top face to house the two locking segments, leaving a platform of metal between the top and bottom. A hole, the lower edge of which is chamfered, is drilled through the center of the platform to permit the stem of the striker to pass through. In the base of the recess in the top of the holder, near the periphery, two holes, diametrically opposite, are drilled to accept the steel pins, over which are assembled the coiled springs and the segments. When assembled, the tops of the two pins protrude above the top surface of the holder. Segments. The segments are made of aluminum alloy and are perfectly flat, irregular, arc-shaped fitments. One end is in the form of a toe which is machined to act as a working surface when the two segments are assembled in the unarmed or locked position, the other end is wider and acts as a weight which, under the influence of centrifugal force, overcomes the springs and allows the two segments to open outwards. Two holes are drilled near the toe, the larger to fit over the pin on which the segment pivots, the smaller accommodating the turned-up end of die segment spnng. In the closed or unarmed position, the top portion of the striker bears against the underside of the closed segments, and thus the striker is prevented from moving forward until the segments are opened by centrifugal force. Segment springs. These springs are made of 0.022-inch (0.55-mm) diameter tinned-steel wire, with 6.2 close-wound coils, the ends of the wire being bent up at right angles to the coils. These are assembled over the pivot pins and beneath the segments, the lower end of the spring fitting into a small hole drilled in the holder adjacent to the pin, while the upper end of the spring is located in a small hole drilled in the segment. Washer. Made of aluminum alloy, the washer is in the form of a flat disk with a hole formed in the center, and two slots, diametrically opposite, near the periphery. It is assembled on top of the holder, the protruding ends of the pivot pins being located in the slots, and the pivot of the striker needle protruding through the center hole. 4-52 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-M Fuze, BD, Model L15A2 FOM No. 1390-35-1-25 (C) Design Details (Continued) Cover. The cover is made of aluminum alloy, formed with a large hole in the center. It fits over the top of the holder and retains the washer in position above the segments. It is secured in position by spinning the bottom edge around the external chamfered portion of the holder. Delayed-arming shutter No. 3. (See sec VIII) This consists of four main components, the body, the escapement, a safety plunger with spring, and a rotary-type shutter containing a 0.18-gam (2.77-gr) "AZ" lugless (tinned copper alloy cup) detonator assembled in a circular-shaped shutter body. The shutter is held in the unarmed position by means of a spring-loaded safety plunger which engages in a locking plate. The safety plunger is retained in a recess in the side of the shutter body by a plunger retaining strip. On spin, the safety plunger overcomes its spring and disengages from the recess in the end of the locking plate under the influence of centrifugal force, and the lead-weighted biased shutter rotates until the detonator is in a central position over the striker hole. The plunger retaining strip, which engages in a slot cut in the side of the plunger, retains the plunger in its recess in the shutter body. The locking plate, which fits into a slot made across the face of the shutter, moves out and engages in a recess made in the outer side of the shutter body, thus locking the shutter in the armed position. The delay is obtained by means of a pallet and pinion mechanism positioned beneath the shutter, and this oscillates a segment by means of a 'scape (escape) wheel and pinion which retards the opening of the shutter. The shutter commences to open when the projectile is spinning between 7000 and 8500 r/min. The time of opening is between 0.020 and 0.055 second when the projectile is spinning at 9000 r/min. The delayed-arming shutter assembly is assembled in the fuze body below the magazine. It is located and prevented from revolving by a screw inserted through the side of the fuze body which enters a slot formed in the side of the shutter body. It is further secured by a screw inserted through the side of the fuze body, the stem of which enters a hole drilled in the shutter body. The threads of both screws are coated with cement. The junction of the thread is stabbed after screwing home. The slotted end of the screw is then Coated with cement. Magazine (i.e., booster). The magazine is made of anodized aluminum alloy. It is cup-shaped and threaded externally commencing at the mouth for about two-thirds of its length, the remaining portion being slightly reduced in diameter and left plain. Two slots are 4-53 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Original Fuze, BD, Model L15A2 FOM No. 1390-35-1-25 (C) Design Details (Continued) formed in the outer rim to facilitate assembly. Internally, the magazine is bored out to take a prepressed pellet of tetryl and a small recess, filled with loose tetryl stemmed in, is drilled in the center of the bottom, leaving a thin diaphragm of metal between the recess and the outer surface at the base of the magazine. The magazine is screwed into the open end of the fuze body, the base of the magazine resting above the delayed-arming shutter assembly. The outer end of the magazine protrudes above the body of the fuze and is closed by a magazine cap. Magazine cap. The cap is made of anodized aluminum alloy. It is cup-shaped with an internal thread to screw over the mouth of the magazine; the threads are coated with RD 1285 or 1285 A prior to assembly. (C) Safety Safety is provided as follows: ? The rotating delayed-arming shutter is retained in the safe or unarmed position by the spring-loaded safety plunger which engages in the safety locking plate. This provides bore and muzzle safety to cover a specified minimum distance from the gun. ? When the shutter is in the unarmed position, its detonator is screened off from the striker and from the stemmed tetryl channel leading to the tetryl pellet in the body of the magazine. ? The shutter is designed to provide a slight delay before it reaches the armed position. The approximate time of operation is 0.020 to 0.055 second at 9000 r/min. ? The striker locking segments prevent the striker from moving forward before firing and hold the striker in the "SAFE" position in transit, handling, and loading. ? The creep spring prevents the tendency of the striker to move forward during flight, due to deceleration after leaving the muzzle. 4-54 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original (C) Func dolling (Fig 415) ACTION OF N0.3 DELAYED ARMING SHUTTER SHUTTER UNARMED MIMING FEIGN! T.T ,A CIV EIDE 'PLONDER PAI[ .EI DURING FLIGHT ESCAPE WEEEL ANO PODON SEGNIENr SHUTTER ARMED LOC XIND LLD? EIATE LD LA ID 1?. SHUT-LLD DE lAINA DOR DUAING FLIGHT AST4160H-0111-75 Fuze, BD, Model LI 5A2 FOM No. 1390-354-25 SEGMENTS ARMED. umtAms NEEDLE STMICFR - ?CREEP SPumuT ON IMPACT (CONFIDENTI -1/2L) Figure 445.. flue, BD, Model LI 5A2, functioning views (IL)? On firing, the shutter, striker locking segments, and striker setback are retained in the unarmed position by friction. During flight, the segments in the striker-lucking assembly move outward against their springs, leaving a clear passage for the striker to move forward. The safety plunger overcomes its spring and moves outwards to release the shutter. The shutter begins to rotate until its detonator reaches a central position directly in alignment with the striker needle and the stemmed tetryl channel leading to the magazine. The delay is obtained by means of a pallet and escape wheel mechanism positioned beneath the shutter, The escape wheel is fitted with a pinion that is in mesh with a segment on the side of the shutter. The pallet acts as a pendulum and engages successive teeth in the escape wheel to retard the rotary 4-55 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L15A2 FOM No. 1390-35-1-25 (C) Functioning (Continued) movement of the shutter. When the shutter reaches the fully armed position, it is locked by the locking plate which moves outwards along its slot in the top face of the shutter to engage in a recess in the shutter housing. On impact or graze, the momentum of the striker holder overcomes the creep spring and carries the striker needle forward to pierce the detonator. The resultant detonating wave is transmitted through the stemmed tetryl in the magazine channel to the tetryl pellet in the magazine and thence to the bunting charge in the shell. (C) Application (Ammunition and Weapons) Ammunition Weapons HESH projectiles, Models L2A2 and L2A3 120-mm tank gun, Model Ll 4-56 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original CREEP SPRING STRIKER BODY GAUGING HOLE SCREW C E. PELLET PAPER DISK STEMMED C E MAGAZINE CAP 4 CLOSING DISK LOCKING RING MAGAZINE DELAYED ARMING SHUTTER? COVER WASHER SEGMENT-- SPRING" SEGMENT HOLDER AST-1160H101-15 Fuze, BD, Model L19A1 FOM No. 1390-35-1-26 49W' - 2.1r DIAM DIAM (12 UNS Threads per inch 2A LHV DELAYED ARMING SHUTTER SHUTTER LOCKING PLATE WASHER PALLET ALIGNMENT SCREW DETONATOR SEGMENT SAFETY PLUNGER ESCAPE WHEEL AND PINION Neg. 552503 (CONFIDENTIAL) Figure 4-16. Fuze, BD, Model L19A1, exploded, section, and contour views (U). 4-57 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model Ll 9A1 FOM No. 1390-35-1-26 (C) Description The L19A1 BD fuze (fig 4-16) was designed for use with HESH projectiles. It is a delayed-arming, graze-sensitive type that functions on impact with the target. It is considered bore safe by US standards. The fuze arms in about 0.02 to 0.06 second at 9000 rtmin. (C) Unique Features ? Shutter housing out-of-line detonator. ? Escapement controlling the movement of the shutter. ? Spring-loaded plunger engaging locking plate. (C) Characteristics Fuze assembly: Body material Anodized aluminum alloy Weight 481 g (1.06 lb) Markings Ll9A1 Length 4.90 in (124.50 mm) Max diam 2.10 in (53.55 mm) Thread diam 1.80 in (45.70 mm) TPI 12 Booster: Body material Anodized aluminum alloy Body length 45.7 mm Explosive Tetryl Explosive weight 63.8 g (0.14 lb) 4-58 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-BODO-001-75 Fuze, BD, Model L19A1 FOM No. 1390-35-1-26 (C) Characteristics (Continued) Functional data: Arming method Setback & centrifugal force Firing method Impact Safety devices Arming distance Arming time 0.02 to 0.06 s (C) Design Details The L19A1 fuze (fig 4-16) incorporates a delayed-arming shutter and a striker-locking assembly. It consists principally of a body, magazine and cap, striker assembly, creep spring, striker locking segment, locking ring, and delayed-arming shutter No. 3 series containing a 2.8-gr (0.18-gram) "AZ" detonator. Body. The body is made of anodized aluminum alloy. It is cylindrical in shape with a wide flange formed at the base, above which it is externally threaded to 1.80-inch (45.7-mm) diameter (12 UNS TPI-2A left hand) gage for approximately a quarter of its length; the remainder of the body is left unthreaded. A hole is drilled in the center of the base and threaded to accept a tracer-adapter. Two key holes, diagonally opposite, are also formed in the base to enable the fuze to be inserted or removed from the shell. Internally, the body is bored from the top in four diameters, the smaller at the base to accommodate the striker and creep spring, the second and third, which are slightly larger in diameter, accommodate the striker-locking segment, while the fourth and largest is screw-threaded at the mouth. This larger recess accommodates the delayed-arming shutter, above which the base portion of the magazine is screwed home. The base and flange of the body are coated with varnish after the marking has been stamped on. Two threaded holes are formed in the body: the lower is for the alignment screw for the delayed-arming shutter, and the upper is for shutter gaging. Striker. The striker consists of a brass electrotinned, cylindrical body, with a flange at the base. Above the flange it is formed on three decreasing diameters, a recess being formed in the top of the smallest diameter for the electroplated tin- or zinc-coated steel needle (firing pin), the stem of which protrudes through the center of the striker-locking segment. *Safety plunger, locking plate, and out-of-line detonator. 4-59 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Original Fuze, BD, Model L19A1 FOM No. 1390-35-1-26 (C) Design Details (Continued) The needle, the base of which is flanged, is retained in the recess in the top of the body by a tin-coated brass washer, which is secured by spinning over a lip at the top of the recess. The needle is free to move sideways in its recess. The striker is inserted into the cavity in the base of the fuze body together with the creep spring, which is assembled around the larger diameter of the striker body, the bottom cod resting on the flange. The creep spring is retained under initial compression by the top coil seating in a recess and bearing against the base of the striker-locking segment assembly. Creep spring. The creep spring is a cylindrical-coiled, tinned, steel-wire spring, with five effective coils of 0.048-in (12.2-mm) diameter (18 SWG) (16 AWG) wire, one coil at each end being close coiled and ground square with the axis of the spring. It is assembled around the larger diameter of the striker body and prevents the assembled striker from creeping forward when the shell is in flight. Striker-locking segment assembly. This is assembled in the fuze body, the lower portion fitting over the top of the striker. It is retained in position by the delayed-arming shutter and the magazine. The striker-locking segment assembly comprises a holder, two electrotin-plated steel pins, two springs, two segments, a washer, and a cover. Segment holder. The cylindrical segment holder is made of aluminum alloy. Externally it is formed in two diameters, the larger being at the top. The bottom portion of the larger diameter is chamfered to blend with the smaller. The bottom of the smaller diameter is also chamfered. Internally, from the base it is bored out in two diameters, while a recess is formed in the top face to house the two locking segments, leaving a platform of metal between the top and bottom. A hole is drilled through the center of the platform to permit the striker to pass through. In the base of this recess, near the periphery, two holes, diametrically opposite, are drilled to accept the steel pivot pins over which are assembled the coiled torsion springs and the segments, this assembly being contained by the washer and cover. When assembled, the tops of the two pins protrude above the top surface of the holder. Segments. The segments are made of aluminum alloy, and are perfectly flat, irregular, arc-shaped fitments. One end is in the form of a toe, which is machined to act as a working surface when the two segments are assembled in the unarmed or locked position. The other 4-60 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-116011-001-75 Fuze, BD, Model L19A1 FOM No. 1390-354-26 (C) Design Details (Continued) end is wider and acts as a weight which, under the influence of centrifugal force, overcomes the springs and allows the two segments to open 'out. Two holes are drilled near the toe, the larger to fit over the pin on which the segment pivots, the smaller accommodating the turned up end of the segment spring. In the closed or unarmed position, the top portion of the striker bears against the underside of the closed segments; the striker is thereby prevented from moving forward until the segments are opened by centrifugal force, while the needle of the striker assembly protrudes through the hole formed by the two semicircular slots, one in each segment, through the washer and cover and into the pivot tube of the shutter delayed arming. Segment spring. The segment springs are made of 0.024 (23 SWG) (22 AWG) tinned steel wire, with 5.2 close-wound coils, the ends of the wire are bent up at right angles to the coils. These are assembled over the pivot pins and underneath the segments, the lower end of the spring fitting into a small hole drilled in the holder adjacent to the pin, while the upper end of the spring is located in a small hole drilled in the segment. Washer. Made of anodized aluminum alloy, the washer is in the form of a flat disk with a hole formed in the center and two slots, diametrically opposite, near the periphery. It is assembled on top of the holder, the protruding ends of the pivot pins being located in the slots and the point of the striker needle protruding through the central hole. Cover. The cover is made of aluminum alloy, formed with a large hole in the center. It fits over the top of the holder and retains the washer in position above the segments. It is secured in position by spinning or pressing the bottom edge over and around the external chamfer of the larger diameter portion of the segment holder. Locking ring. The locking ring is made of anodized aluminum alloy. It is cylindrical in shape, formed plain on the outside, and screw-threaded internally. Two slots, diametrically opposed, are cut across the mouth to facilitate assembly. It is screwed onto the upper part of the magazine, locking against the top of the body. Delayed-arming shutter No. 3 series. (See sec VIII) This consists of four main components, the body, the escapement, a safety plunger with spring, and a shutter containing a 2.8-gr (0.18 gram) "AZ" lugless (tinned copper alloy cup) detonator assembled in a circular-shaped shutter body, over which fits a cover plate. The shutter is held in the 4-61 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L19A1 FOM No. 1390-35-1-26 (C) Design Details (Continued) unarmed position by means of the spring-loaded aluminum-alloy safety plunger which engages in one end of a locking plate. The safety plunger is retained in a recess in the side of the shutter body by a plunger retaining strip. On spin, the safety plunger overcomes its spring and disengages from the recess in the end of the locking plate by centrifugal force. The lead-weighted shutter rotates until the detonator is in a central position over the striker hole. The plunger retaining strip, which engages in a slot cut in the side of the plunger, retains the plunger in its recess in the shutter body. The locking plate, which fits into a slot made across the face of the shutter, moves out and engages in a recess made in the outer side of the shutter body, thus locking the shutter in the armed position. The delay is obtained by means of a pallet-and-pinion mechanism positioned beneath the shutter that oscillates a segment by means of a 'scapc wheel and pinion which retard the opening of the shutter. The shutter commences to open when the shell is spinning between 7000 and 8500 r/min. The time of ,opening is between 0.020 and 0.055 second when the shell is spinning at 8000 di-inn. The closed (lower) face of the delayed-arming shutter rests on the segment holder. When the magazine is screwed home, it clamps both the delayed-arming shutter and segment holder in position, with the creep spring located between the striker flange and the face of the large recess in the holder. The correct position of the delayed-arming shutter is controlled by the engagement of a screw with the vertical slot in the body. The fuze body and the delayed-arming shutter body are provided with safety Inspection holes which are in alignment in the assembled fuze, and through which the "SAFE" position of the shutter is verified at the filling stage. After inspection the hole is closed by a screw. The threads of this screw are coated with cement and the thread is staked after screwing home; the slotted end of the screw is then coated with cement. Magazine (i.e., booster). The magazine is made of anodized aluminum alloy. It is cup-shaped and externally threaded except for an undercut at each end. Two key slots are formed in the outer rim to facilitate assembly. Internally, the magazine is bored out to take a prepressed pellet of CE (tetryl) and a small recess, which is filled with loose CE stemmed in, is drilled in the center at the bottom, leaving a thin diaphragm of metal between the recess and the outer surface at the base of the magazine. The magazine is screwed into the open end of the fuze body, the base of the magazine resting on the delayed-arming shutter. The outer end of the magazine protrudes above the body of the fuze; it is locked into the body by the locking ring and is closed by the magazine cap. 4-62 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L19A1 FOM No. 1390-35-1-26 (C) Design Details (Continued) Magazine cap. The magazine cap is made of anodized aluminum alloy. It is cup-shaped with an internal thread to screw over the magazine; the threads are coated with RD 1286 prior to assembly. A box-cloth disk is attached to the inner surface by shellac adhesive. It is then secured by crimping the outer rim in three or more equi-spaced positions. (C) Safety Safety is provided as follows: ? The rotating delayed-arming shutter is retained in the safe or unarmed position by the spring-loaded safety plunger, which engages in the safety locking plate. This provides bore and muzzle safety to cover a specified minimum distance from the gun when arming commences. ? When the shutter is in the unarmed position, its detonator is screened off from the striker and from the stemmed CE channel leading to the CE pellet in the body of the magazine. ? The shutter is designed to provide a slight delay before it reaches the armed position; the approximate time of operation is 0.02 to 0.055 second at 9000 r/min. ? The striker locking segments prevent the striker from moving forward before firing and hold the striker in the "SAFE" position in transit, handling and loading. ? The creep spring keeps the striker from moving forward during flight due to deceleration after leaving the muzzle. 4-63 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, BD, Model L19A1 FOM No. 1390-35-1-26 (C) Functioning (Fig 4-17) FUZE UNARMED WITH DELAYED ARMING SHUTTER SEGMENTS AND STRIKER HELD IN SAFE POSITION BEFORE FIRING LEAD WEIGHT LOCKING PLATE DETONATOR SAFETY PLUNGER SHUTTER LOCKED IN THE UNARMED POSITION COVER AND WASHER REMOVED FOR ILLUSTRATIVE PURPOSES net DURING FLIGHT SEGMENTS HELD OPEN AND STRIKER IN FIRED POSITION ON IMPACT SHUTTER RELEASED AND ROTATING TOWARDS THE ARMCO POSITION SHUTTER LOCKED IN THE FULLY ARMED POSITION (CONFIDENTIAL) Figure 4-17. Fuze, BD, Model L19A1, functioning views (U). 4-64 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, OD, Model L19A1 FOM No. 1390-35-1-26 (C) Functioning (Continued) On firing, the shutter, striker-locking segments, and striker setback are retained in the unarmed position by friction. During flight, the segments in the striker-locking assembly move outward against their springs, leaving a clear passage for the striker to move forward. The safety plunger overcomes its spring and moves outward to release the shutter. The shutter begins to rotate until its detonator reaches a central position directly in alignment with the striker needle and the stemmed CE (tetryl) channel leading to the magazine. The delay is obtained by means of a pallet and escape wheel mechanism positioned beneath the shutter. The escape wheel is fitted with a pinion which is in mesh with a segment on the side of the shutter. The pallet acts as a pendulum and engages successive teeth in the escape wheel to retard the rotary movement of the shutter. When the shutter reaches the fully armed position, it is locked by the locking plate which moves outward along its slot on the face of the shutter to engage in a recess in the shutter housing. On impact or graze, the momentum of the striker holder overcomes the creep spring and carries the striker needle forward to pierce the detonator. The resultant detonating wave is transmitted through the stemmed CE pellet in the magazine and thence to the bursting charge in the shell. (C) Summary of Differences ? Model Al fuze (obsolescent). The Model Al is fitted with delayed-arming shutter No. 3. ? Model A2 fuze (obsolescent). The Model A2 is fitted with delayed-arming shutter No. 3A, which differs from the No. 3 in that it incorporates a redesigned cover plate (QX 75 SA in lieu of QX 573). ? Model A3 fuze (obsolescent). The Model A3 is fitted with delayed-arming shutter No. 3B, which is similar to the No. 3A shutter except that it incorporates certain components manufactured from corrosive-resistive stainless steel in lieu of steel. 4-65 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1150H-001-75 Fuze, BD, Model L19A1 FOM No. 1390-35-1-26 (C) Summary of Differences (Continued) ? Model A4 fuze. This model is fitted with delayed-arming shutter No. 3C, 3C/1, or 3C/2. All of these shutters differ from the No. 3, 3A, and 3B in that they incorporate a 2.6-gr (0.17-gram) "LZ" detonator in lieu of a 2.8-gr (0.18-gram) "AZ" detonator. In addition, the shutters differ in the following way: ? No. 3C ? same body as No. 3B, i.e., die cast. ? No. 3C/1 ? body machined from bar, it also incorporates a shutter gaging hole of increased diameter. ? No. 3C/2 ? body die cast but incorporating a shutter gaging hole of increased diameter. C) Applications (Ammunition and Weapons) Original Ammunition Weapons 105-mm HESH projectiles, Models L35A1 and L37 120-mm HESH projectiles 105-mm tank gun, Models L18A3 and L20A1 120-mm BAT gun and tank gun 4-66 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original C. E. PELLET ? PAPER DISK --STEMMED C. E. CLOSING DISK LOCKING RING MAGAZINE -- DELAYED ARMING SHUTTER COVER WASHER SEGMENT SPRING (TORSION) SEGMENT HOLDER CREEP SPRING- STRIKER BOGY GAUGING HOLE SCREW AST-1160H-001-75 Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 4.90" 2.10"DIAM - 00"DIAM - (12 UNS Threads per inch 2A LH) DELAYED ARMING SHUTTER - -DETONATOR - SEGMENT SAFETY PLUNGER ESCAPE WHEEL AND PINION SHUTTER ? LOCKING PLATE WASHER - - PALLET ALIGNMENT SCREW N eg. 552504 (CONFIDENTIAL) Figure 4-18. Fuze, BD, Model L24A1, exploded, section, and contour views (U). 4-67 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L24A1 FOM No. 1390-354-27 (C) Description The L24A1 (fig 4-18) is a delayed-arming, graze-sensitive, BD fuze designed for the L33A1 165-mm HESH projectile. It is considered bore safe by US standards. (C) Unique Features ? Shutter housing out-of-line detonator. ? Escapement controlling movement of shutter. ? Spring-loaded safety plunger engaging a safety locking plate. (C) Characteristics Fuze assembly: Body material Anodized aluminum alloy Weight 504 g (1.10 lb) Markings L24A1 Length 4.40 in (111.76 mm) Max diam 2.10 in (53.43 mm) Thread diam 1.80 in (45.72 mm) TPI 12 Booster: Body material Anodized aluminum body Body length 7 Explosive Tetryl Explosive weight 70.8 g (0.16 lb) Functional data: Arming method Setback and centrifugal force Firing method Impact Safety devices Arming distance Arming time 0.05 to 0.08 $ 'Safet-y plunger, locking plate, and out-of-line detonator. 4-68 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 (C) Design Details General. The L24A1 fuze (fig 4-18) incorporates a delayed-arming, shutter-locking assembly. It consists principally of a body, magazine and cap, striker assembly, creep spring, striker-locking segment, locking ring, and delayed-arming shutter No. 4 series containing a 0.18-gram (2.80-gr) "AZ" detonator. Note: The L24 fuze differs from the L19 fuze in only two features: ? Striker-locking segment assembly is fitted with weaker torsion springs than those used in the L19 fuze. ? Delayed-arming shutter No. 4 is designed to arm at a lower rate of spin; a stainless steel safety plunger and a weaker plunger spring than that used in the delayed-arming shutter No. 3 is used. Body. The body is made of anodized aluminum alloy. It is cylindrical in shape with a wide flange formed at the base, above which it is screw-threaded externally to 1.80-inch (45.72-mm) diameter (12 UNS TPI-2A left hand) gage for approximately a quarter of its length; the remainder of the body is left plain. A hole is drilled in the center of the base and screw-threaded to accept a tracer-adapter. Two holes, diagonally opposite, are also formed in the base to enable the fuze to be inserted or removed from the shell. Internally, the body is bored from the top in four diameters, the smaller at the base to accommodate the striker and creep spring, the second and third, which are slightly larger in diameter, accommodate the striker-locking segment, while the fourth and largest is screw-threaded at the mouth. This larger recess accommodates the delayed-arming shutter, above which the base portion of the magazine is screwed home. The base and flange of the body are coated with varnish after the marking has been stamped on. Two screw-threaded holes are formed in the body: the lower is for the delayed-arming shutter-alignment screw, and the upper for shutter gaging. Striker. The striker consists of a brass electrotinned cylindrical body with a flange at the base, above which it is formed on three decreasing diameters. A recess is formed in the top of the smallest diameter for the electroplated tin- or zinc-coated steel needle, the stem of which protrudes through the center of the striker locking segment. The needle, the base of which is flanged, is retained in the recess in the top of the body by a tin-coated brass washer secured by spinning over a lip at the top of the recess. The needle is free to move sideways in its recess. 4-69 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 (C) Design Details (Continued) The striker is inserted into the cavity in the base of the fuze body together with the creep spring, which is assembled around the larger diameter of the striker body, the bottom coil resting on the flange. The creep spring is retained under initial compression by seating the top coil in a recess and bearing it against the base of the striker-locking segment assembly. Creep spring. The creep spring is a cylindrical-coiled, tinned, steel-wire spring, with five effective coils of 0.048-inch (1.22-mm) (18 SWG) diameter wire, one coil at each end being close coiled and ground square with the axis of the spring. It is assembled around the larger diameter of the striker body and prevents the assembled striker from creeping forward when the shell is in flight. Striker-locking segment assembly. This is assembled in the fuze body, the lower portion fitting over the top of the striker. It is retained in position by the delayed-arming shutter and the magazine. The striker-locking segment assembly comprises a holder, two electrotin-plated steel pins, two springs, two segments, a washer, and a cover. Segment holder. The cylindrical segment holder is made of aluminum alloy. Externally it is formed in two diameters, the larger being at the top. The bottom portion of the larger diameter is chamfered to blend with the smaller. The bottom of the smaller diameter is also chamfered. From the base it is bored out internally in two diameters, while a recess is formed in the top face to house the two locking segments, leaving a platform of metal between the top and bottom. A hole is drilled through the center of the platform to permit the striker to pass through. In the base of this recess near the periphery, two holes, diametrically opposite, are drilled to accept the steel pivot pins, over which are assembled the coiled torsion springs and the segments. This assembly is contained by the washer and cover, and when assembled, the tops of the two pins protrude above the top surface of the holder. Segments. The segments are made of aluminum alloy, and are perfectly flat, irregularly shaped pieces. One end is in the form of a toe, which is machined to act as a working surface when the two segments are assembled in the unarmed or locked position. The other end is wider and acts as a weight which, under the influence of centrifugal force, overcomes the springs and allows the two segments to open out. Two holes are drilled near the toe, the larger fitting over the pin on which the segment pivots, the smaller accommodating the 4-70 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-116011-001-75 Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 (C) Design Details (Continued) turned-up end of the segment spring. In the closed or unarmed position, the top portion of the striker bears against the underside of the closed segments; the striker is thus prevented from moving forward until the segments are opened by centrifugal force. The needle of the striker assembly protrudes through the hole formed by the two semicircular slots, one in each segment, through the washer, and into the pivot tube of the delayed-arming shutter. Segment spring. The segment springs are made of 0.18-inch (0.45-mm) (26 SWG) diameter tinned steel wire, with 6.1 close-wound coils, the ends of the wire being bent up at right angles to the coils. The springs are assembled over the pivot pins and underneath the segments. The lower end of the spring fits into a small hole drilled in the holder adjacent to the pin, while the upper end is located in a small hole drilled in the segment. Washer. The washer is made of anodized aluminum alloy in the form of a flat disk with a hole formed in the center and two slots, diametrically opposite, near the periphery. It is assembled atop the holder, the protruding ends of the pivot pins being located in the slots and the point of the striker needle protruding through the central hole. Cover. The cover is made of aluminum alloy, formed with a larger hole in the center. It fits over the top of the holder and retains the washer in position above the segments. It is secured in position by spinning or pressing the bottom edge over around the external chamfer of the larger diameter portion of the segment holder. Locking ring. The locking ring is made of anodized aluminum alloy. It is cylindrical in shape, formed plain on the outside, and internally threaded. Two slots, diametrically opposed, are cut across the mouth to facilitate assembly. It is screwed onto the upper part of the magazine, locking against the top of the body. Delayed-arming shutter No. 4 series. This consists of four main components: the body, the escapement, a safety plunger with spring, and a shutter containing a 0.18-gram (2.80-gr) "AZ" lugless (tinned copper alloy cup) detonator assembled in a circular-shaped shutter body over which fits a cover plate. The shutter is held in the unarmed position by means of the spring-loaded, stainless-steel, safety plunger, which engages in one end of a locking plate. The safety plunger is retained in a recess in the side of the shutter body by a plunger retaining strip. On spin, the safety plunger overcomes its spring and disengages from the recess in the end of the locking plate by centrifugal force, and the lead-weighted shutter 4-71 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 (C) Design Details (Continued) rotates until the detonator is in a central position over the striker hole. The plunger retaining strip, which engages in a slot cut in the side of the plunger, retains the plunger in its recess in the shutter body. The locking plate, fits into a slot made across the face of the shutter, moves out, and engages in a recess made in the outer side of the shutter body, thus locking the shutter in the armed position. The delay is obtained by means of a pallet-and-pinion mechanism positioned beneath the shutter; this oscillates a segment by means of a 'scape wheel and pinion which retard the opening of the shutter. The shutter commences to open when the projectile is spinning between 3700 and 4500 r/min. The time of opening is between 0.045 and 0.075 second when the shell is spinning at 5900 r/min. The closed (lower) face of the delayed-arming shutter rests on the segment holder. When the magazine is screwed home, it clamps both the delayed-arming shutter and segment holder in position, with the creep spring located between the striker flange and the face of the larger recess in the holder. The correct position of the delayed-arming shutter is controlled by the engagement of a screw with the vertical slot in the body. The fuze body and the delayed-arming shutter body are provided with safety gaging holes aligned in the assembled fuze and through which the "SAFE" position of the shutter is gaged at the filling stage. After gaging, the hole is closed by a screw. The threads of this screw are coated with cement; the thread is stabbed after assembly, and the slotted end of the screw is then coated with cement. Magazine (i.e., booster). The magazine is made of anodized aluminum alloy; it is cup-shaped and externally threaded except for an undercut at each end. Two key slots are formed in the outer rim to facilitate assembly. Internally, the magazine is bored out to take a prepressed pellet of tetryl and a small recess, which is filled with loose tetryl, is drilled in the center at the bottom, leaving a thin diaphragm of metal between the recess and the outer surface at the base of the magazine. The magazine is screwed into the open end of the fuze body, the base of the magazine resting on the delayed-arming shutter. The outer end of the magazine protrudes above the body of the fuze; it is locked into the body by the locking ring and is closed by the magazine cap. Magazine cap. The magazine cap is made of anodized aluminum alloy. It is cup-shaped with an internal thread to screw over the mouth of the magazine; the threads are coated with RD 1286 prior to assembly. A box-cloth disk is attached to the inner surface by shellac adhesive. It is then secured by the outer rim and crimped at three or more equidistant points. 4-72 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L24A1 FOM No. 1390-354-27 (C) Safety Safety is provided as follows: ? The rotating delayed-arming shutter is retained in the safe or unarmed position by the spring-loaded safety plunger, which engages in the safety locking plate. This provides bore and muzzle safety to cover a specified minimum distance from the gun when arming commences. ? When the shutter is in the unarmed position, its detonator is screened off from the striker and from the tetryl-filled channel leading to the CE (tetryl) pellet in the body of the magazine. ? The shutter is designed to provide a slight delay before it reaches the armed position. The approximate time of operation is 0.045 to 0.075 second at 5900 r/min. ? The striker locking segments prevent the striker from moving forward before firing and hold the striker in the "SAFE" position in transit, handling, and loading. ? The creep spring prevents the tendency of the striker to move forward during flight due to deceleration after leaving the muzzle. 4-73 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 (C) Functioning (Fig 4-19) _n. FUZE FUZE UNARMED WITH DELAYED ARMING SHUTTER SEGMENTS AND STRIKER NEW IN SAFE POSITION BEFORE FIRING LEAD WEIGHT LOCKING PLATE DETONATOR SAFETY PLUNGER SHUTTER LOCKED IN THE UNARMED POSITION COVER AND WASHER REMOVED FOR ILLUSTRATIVE PURPOSES - tin teti SEGMENTS HELD OPEN AND STRIKER IN FIRED POSITION DURING FLIGHT ON IMPACT SHUTTER RELEASED AND ROTATING TOWARDS THE ARMED POSITION SHUTTER LOCKED IN THE FULLY ARMED POSITION (CONFIDENTIAL) Figure 4-19. Fuze, BD, Model L24A1, functioning views (U). 4-74 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 (C) Functioning (Continued) On firing, the shutter, striker-locking segments, and striker setback are retained in the unarmed position by friction. During flight, the segments in the striker-locking assembly move outward against their springs, leaving a clear passage for the striker to move forward. The safety plunger overcomes its spring and moves outward to release the shutter. The plunger retaining strip, which engages in a slot cut in the side of the plunger, retains the latter and prevents it from leaving its recess in the shutter housing when the plunger spring reasserts itself. The shutter begins to rotate until its detonator reaches a central position directly in alignment with the striker needle and the stemmed CE (tetryl) channel leading to the magazine. The delay is obtained by means of a pallet and escape wheel mechanism positioned beneath the shutter. The escape wheel is fitted with a pinion which is in mesh with a segment on the side of the shutter. The pallet acts as a pendulum and engages successive teeth in the escape wheel to retard the rotary movement of the shutter. When the shutter reaches the fully armed position, it is locked by the locking plate, which moves outward along its slot in the top face of the shutter to engage in a recess in the shutter housing. On impact or graze, the momentum of the striker holder overcomes the creep spring and carries the striker needle forward to pierce the detonator. The resultant detonating wave is transmitted through the stemmed CE (tetryl) in the magazine channel to the CE pellet in the magazine and thence to the bunting charge in the shell. (C) Summary of Differences ? Model Al fuze (obsolescent). The Model Al is fitted with delayed-arming shutter No. 4. ? Model A2 fuze. This model is fitted with delayed-arming shutter No. 4A or 4A/1. Both of these shutters differ from the No. 4 in that they incorporate a 2.6-gr (0.17 gram) "LZ" detonator in lieu of a 2.8-gr (0.18 gram) "AZ" detonator. In addition, the shutters differ in the following way: 4-75 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Original Fuze, BD, Model L24A1 FOM No. 1390-35-1-27 (C) Summary of Differences (Continued) ? No. 4A?die cast body as for No. 4, but with larger diameter shutter-gaging hole. ? No. 4A/1?machined from bar, it also incorporates a larger diameter shutter gaging hole than the No. 4 shutter. (C) Application (Ammunition and Weapons) Ammunition Weapons HESH projectile, Model L33A1 165-mm gun, AVRE, Model L9A1 4-76 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original C E. PELLETS . PAPER DISK - STEMMED C. E. CLOSING DISK---- LOCKING RING . MAGAZINE DELAYED ARMING SHUTTER COVER WASHER SEGMENTS ----as. SPRINGS (TORSION) AST-116 0 H-001 -75 Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 SEGMENT HOLDER --- CREEP SPRING -- STRIKER BODY 410" ALIGNMENT SCREW 2.30?DIAM (12 UNS Threads per tath 2 ALH) DELAYED ARMING SHUTTER SHUTTER ---- --erne^ DETONATOR - SEGMENT PALLET LOCKING PLATE SAFETY PLUNGER ESCAPE WHEEL AND PINION Neg. 552505 (CONFIDENTIAL) Figure 4-20. Fuze, BD, Model L29A1, exploded, section, and contour views (U). 4-77 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, OD, Model L29A1 FOM No. 1390-35-1-28 (C) Description The L29A1 (fig 4-20) is a delayed-arming, graze-sensitive, BD fine designed to function upon impact with the target. It is intended for use with HESH projectiles fired from tank guns or howitzers. The delayed-arming shutter employed provides a slight delay of 0.02 to 0.55 second at 9000 r/min. (C) Unique Features (if applicable) ? Shutter housing out-of-line detonator. ? Escapement controlling movement of shutter. ? Spring-loaded plunger engaging locking plate of the shutter provides bore safety and muzzle safety. (C) Characteristics Fuze assembly: Body material Anodized aluminum alloy Weight 654 g (1.44 lb) Markings L29A1 Length 4.90 in (124.5 mm) Major diam 2.30 in (58.8 mm) TPI 12 Booster: Body material Anodized aluminum alloy Body length 48.3 mm (1.90 in) Explosive Tetryl Explosive weight 71 g (0.16 lb) 4-78 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Characteristics (Continued) Functional data: Arming method Setback & centrifugal force Firing method Impact Safety devices Arming distance Arming time 0.02 to 0.06 s (C) Design Details General. The L29A1 BD fuze (fig 4-20) incorporates a delayed-arming shutter and a striker-locking assembly. It consists principally of a body, magazine and cap, striker assembly, creep spring, striker-locking segment, locking ring, and delayed-arming shutter No. 3 series containing a 2.8 gr (0.18 gram) "AZ" detonator. Body. The body is made of anodized aluminum alloy and is cylindrical in shape with a wide flange formed at the base. It is externally threaded to 2.0-inch (50.8-mm) diameter (12 UNS TPI-2A left hand) gage for approximately a quarter of its length from the top; the remainder of the body is left plain. A hole is drilled in the center of the base and threaded to accept a tracer-adapter. Two holes, diagonally opposite, are also formed in the base to enable the fuze to be inserted or removed from the shell. Internally, the body is bored from the top in four diameters. The smaller, at the base, accommodates the striker and creep spring; the second and third, which are slightly larger in diameter, accommodate the striker-locking segment; while the fourth and largest is screw threaded at the mouth. This larger recess accommodates the delayed-arming shutter, above which the base portion of the magazine is assembled. The base and flange of the body are coated with varnish after the marking has been stamped on. Two threaded holes are formed in the body: the lower for the delayed-arming shutter alignment screw and the upper for shutter gaging. Striker. The striker consists of a cylindrical, tinned, brass body. Above the flange at the base, it is formed on three decreasing diameters; a recess is formed in the top of the smallest diameter for the tin- or zinc-coated steel needle, the stem of which protrudes through the center of the striker-locking segment. *Safety plunger, safety locking plate, out-of-line detonator. 4-79 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Design Details (Continued) The needle, the base of which is flanged, is retained in the recess in the top of the body by a tin-coated, brass washer which is secured by spinning over a lip at the top of the recess. The needle is free to move sideways in its recess. The striker is inserted into the cavity in the base of the fuze body together with the creep spring, which is assembled around the larger diameter of the striker body, the bottom coil resting on the flange. The creep spring is retained under initial compression by seating the top coil in a recess and bearing it against the base of the striker-locking segment assembly. Creep spring. The creep spring is a cylindrical-coiled, tinned, steel-wire spring, with five effective coils of 0.048-in (1.2-mm) diameter (18 SWG) (16 AWG) wire, one coil at each end being close coiled and ground square with the axis of the spring. It is assembled around the larger diameter of the striker body and prevents the assembled striker from creeping forward when the shell is in flight. Striker-locking segment assembly. This is assembled in the fuze body, the lower portion fitting over the top of the striker. It is retained in position by the delayed-arming shutter and the magazine. The striker-locking segment assembly comprises a holder, two electrotin-plated steel pins, two springs, two segments, a washer, and a cover. Segment holder. The cylindrical segment holder is made of aluminum alloy. Externally it is formed in two diameters, the larger being at the top. The bottom portion of the larger diameter is chamfered to blend with the smaller. The bottom of the smaller diameter is also chamfered. Internally, from the base it is bored out in two diameters, while a recess is formed in the top face to house the two locking segments, leaving a platform of metal between the top and bottom. A hole is drilled through the center of the platform to permit the striker to pass through. In the base of this recess near the periphery two holes, diametrically opposite, are drilled to accept the steel pivot pins, over which are assembled the coiled torsion springs and the segments. This assembly is contained by the washer and cover, and when assembled, the tops of the two pins protrude above the top surface of the holder. 4-80 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Design Details (Continued) Segments. The segments, made of aluminum alloy, are flat, irregular, arc-shaped fitments. One end is in the form of a toe machined to act as a working surface when the two segments are assembled in the unarmed or locked position; the other end is wider and acts as a weight which, under the influence of centrifugal force, overcomes the springs and allows the two segments to open out. Two holes are drilled near the toe, the larger fitting over the pin on which the segment pivots, the smaller accommodating the turned up end of the segment spring. In the closed or unarmed position the top portion of the striker bears against the underside of the closed segments, thus preventing the striker from moving forward until the segments are opened by centrifugal force. The needle of the striker assembly protrudes through the hole formed by the two semicircular slots, one in each segment, through the washer and cover, and into the pivot tube of the delayed arming shutter. Segment spring. The segment springs are made of 0.024-inch (0.61-mm) diameter (23 SWG) tinned steel wire, with a 5.2 close-wound coils; the ends of the wire are bent up at right angles to the coils. The springs are assembled over the pivot pins and underneath the segments, the lower end of the spring fitting into a small hole drilled in the holder adjacent to the pin, while the upper end is located in a small hole drilled in the segment. Washer. Made of anodized aluminum alloy, the washer is a flat disk with a hole formed in the center and two slots, diametrically opposite, near the periphery. It is assembled on top of the holder, the protruding ends of the pivot pins being located in the slots, and the point of the striker needle protruding through the central hole. Cover. The cover is made of aluminum alloy, formed with a large hole in the center. It fits over the top of the holder and retains the washer in position above the segments. It is secured in position by spinning or pressing the bottom edge over the external chamfer of the larger diameter portion of the segment holder. Locking ring. The locking ring is made of anodized aluminum alloy. It is cylindrical in shape, formed plain on the outside and screw-threaded inside. Two slots, diametrically opposed, are cut across the mouth to facilitate assembly. It is screwed onto the upper part of the magazine, locking against the top of the body. 4-81 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Design Details (Continued) Delayed-arming shutter No. 38. This consists of four main components: the body, the escapement, a safety plunger with spring, and a shutter containing a 2.8-gr (0.18-gram) "AZ" lugless (tinned copper alloy cup) detonator assembled in a circular-shaped shutter body over which a cover plate fits. The shutter is held in the unarmed position by the spring-loaded, aluminum-alloy, safety plunger which engages in one end of a locking plate. The safety plunger is retained in a recess in the side of the shutter body by a plunger retaining strip. On spin, the safety plunger overcomes its spring and disengages from the recess in the end of the locking plate by centrifugal force; the lead-weighted, biased shutter rotates until the detonator is in a central position over the striker hole. The plunger retaining strip, which engages in a slot cut in the side of the plunger, retains the plunger in its recess in the shutter body. The locking plate, which fits into a slot made across the face of the shutter, moves out and engages in a recess made in the outer side of the shutter body, thus locking the shutter in the armed position. The delay is obtained by means of a pallet-and-pinion mechanism positioned beneath the shutter that oscillates a segment by means of a 'scape wheel and pinion, retarding the opening of the shutter. The shutter commences to open when the shell is spinning between 7000 and 8500 r/min. The time of opening is between 0.02 and 0.055 second when the shell is spinning at 9000 r/min. The closed (lower) face of the delayed-arming shutter rests on the segment holder. When the magazine is screwed home, it clamps both the delayed-arming shutter and segment holder in position, with the creep spring located between the striker flange and the face of the larger recess in the holder. The correct position of the delayed-arming shutter is controlled by the engagement of a screw with the vertical slot in the body. The fuze body and the delayed-arming shutter body are provided with safety-gaging holes that are in alignment in the assembled fuze and through which the "SAFE" position of the shutter is gaged at the filling stage. After gaging, the hole is closed by a screw. The threads of this screw are coated with cement; the thread is stabbed after assembly and the slotted end of the screw is then coated with cement. Magazine (i.e., booster). The magazine is made of anodized aluminum alloy. It is cup-shaped and threaded externally except for an undercut at each end. Two slots are formed in the outer rim to facilitate assembly. Internally, the magazine is bored out to take a prepressed pellet of CE (tetryl) and a small recess, which is filled with loose CE pressed in, is drilled in the center at the bottom, leaving a thin diaphragm of metal between the recess and the outer surface at the base of the magazine. The magazine is screwed into the open 4-82 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160 H-001-75 Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Design Details (Continued) end of the fuze body, with the magazine base resting on the delayed-arming shutter. The outer end of the magazine protrudes above the body of the fuze; it is locked into the body by the locking ring and closed by the magazine cap. Magazine cap. The cap is made of anodized aluminum alloy. It is cup-shaped and internally threaded to screw over the mouth of the magazine. The threads are coated with RD 1286 prior to assembly. It is then secured by crimping the outer rim in three or more equi-spaced positions. A box-cloth disk is attached to the inner surface by shellac adhesive. (C) Safety Safety is provided as follows: ? The rotating delayed-arming shutter is retained in the safe or unarmed position by the spring-loaded safety plunger, which engages in the safety locking plate. This provides bore and muzzle safety to cover a specified minimum distance from the gun when arming commences. ? When the shutter is in the unarmed position, its detonator is screened off from the striker and from the stemmed CE (tetryl) channel leading to the CE pellet in the body of the magazine. ? The shutter is designed to provide a slight delay before it reaches the armed position. The approximate time of operation is 0.02 to 0.055 second at 9000 r/min. ? The striker locking segments prevent the striker from moving forward before firing and hold the striker in the "SAFE" position in transit, handling, and loading. ? The creep spring prevents the tendency of the striker to move forward during flight due to deceleration after leaving the muzzle. 4-83 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116014-001-75 Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Functioning (Fig 4-21) BEFORE FIRING DURING FLIGHT COVER AND WASHER REMOVED FOR ILLUSTRATIVE PURPOSES ON IMPACT LEAD WEIGHT T LOCKING k PLATE SAFETY PLUNGER DETONATOR SHUTTER LOCKED IN THE UNARMED POSITION SHUTTER RELEASED ANO ROTATING TOWARDS THE ARMED POSITION SHUTTER LOCKED IN THE FULLY ARMED POSITION (CONFIDENTIAL) Figure 4-21. Fuze, BD, Model L29A1, functioning views (U). 4-84 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Functioning (Continued) On firing, the shutter, striker-locking segments, and striker setback are retained in the unarmed position by friction. During flight, the segments in the striker-locking assembly move outward against their springs, leaving a clear passage for the strike' to move forward. The safety plunger overcomes its spring and moves outward to release the shutter. The shutter rotates until its detonator reaches a central position directly in alignment with the striker needle and the stemmed CE (tetryl) channel leading to the magazine. The delay is obtained by means of a pallet and escape wheel mechanism positioned beneath the shutter. The escape wheel is fitted with a pinion which is in mesh with a segment on the side of the shutter. The pallet acts as a pendulum and engages successive teeth in the escape wheel to retard the rotary movement of the shutter. When the shutter reaches the fully armed position, it is locked by the locking plate, which moves outward along its slot in the top face of the shutter to engage in a recess in the shutter housing. On impact or graze, the momentum of the striker holder overcomes the creep spring and carries the striker needle forward to pierce the detonator. The resultant wave is transmitted through the stemmed CE in the magazine channel, to the CE pellet in the magazine, and thence to the bunting charge in the shell. (C) Summary of Differences ? Model Al fuze (obsolescent). The model Al is fitted with delayed-arming shutter No. 3B. ? Model A2 fuze. This model is fitted with delayed-arming shutter No. 3C, 3C/1, or 3C/2. These shutters differ from the 3E in that they incorporate a 2.6 gr (0.17 graM ) "LZ" detonator in lieu of a 2.8-gr (0.18-gram) "AZ" detonator. In addition these shutters differ in the following way: ? No. 3C ? same body as No. 3B, i.e., die cast. 4-85 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, BD, Model L29A1 FOM No. 1390-35-1-28 (C) Summary of Differences (Continued) ? No. 3C/1 ? body machined from bar, it also incorporates a shutter-gaging hole of increased diameter. ? No. 3C/2 ? body die cast, but incorporating a shutter-gaging hole of increased diameter. (C) Applications (Ammunition and Weapons) Original Ammunition Weapons 105-mm HESH projectiles, Models L35A2, L37A2, L43A1 120-mm HESH projectiles, Model L31A1 105-mm tank gun, Model L7A1; 105-mm howitzer, Model L10A1 120-mm tank gun, Model L11A1 4-86 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original COMPONENT PARTS SE ALING DISK STOP SCREW SETBACK SLEEVE AST-1160H-001-75 Fuze, BD, Model L16A1 FOM No. 1390-35-2-1 EJECTION SPRING C. E. PELLET PLUNGER 1.50" WAN -j f20 UNS-2A) GENERAL ASSEMBLY Neg. 552506 (C) Description ACTUATING CREEP SLEEVE SPRING LOCKING PIN WITH SPRING AND PLUG ACTUATING SLEEVE PLUNGER EJECTION PIN STRIKER SHUTTER PLATE SHUTTER PLUG PLATE MAGAZINE PLUG SETBACK SLEEVE Figure 4-22. Fuze, BD, Model Ll6A1, exploded and cutaway views (U). SAFETY BAND (CONFIDENTIAL) The L16A1 (fig 4-22) is a setback-armed, OD fuze designed to function upon impact With the target. Safety is provided by a steel safety band and a bore-riding pin. This fuze was developed for use with the 88.9-mm (3-inch) HEAT warhead fired from the UK rocket launcher, This fuze is considered bore safe by US standards. (C) Unique Features ? Bore-riding pin and safety band. ? Out-of-line detonator. 4-87 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, BD, Model L16A1 FOM No. 1390-35-2-1 (C) Characteristics Fuze assembly: Body material Weight Markings Length Maj thread diam Booster: Body material Body length Explosive Explosive weight Anodized aluminum alloy Li 6A1 3.5 in (88.9 mm) 2.00 in (50.8 mm) Anodized aluminum alloy 20.3 mm (0.80 in) Tetryl Functional data: Arming method Setback Firing method Impact Safety devices Arming distance Arming time (C) Design Details Original General. The L16A1 fuze (fig 4-22) consists principally of a body, plug, magazine, sealing disk, plunger, creep spring, actuating sleeve, setback sleeve, striker, shutter assembly, detonator, stop screw, locking pin and spring, ejection pin, and safety band. Body. The body is made of anodized aluminum alloy. It is cylindrical in shape and formed plain, with an external diameter of 2 inches (50.8 mm). Internally, a shoulder is formed towards the rear of the body on which an aluminum disk seats, and beyond the shoulder the body is threaded to receive a body closing adapter. The rocket motor screws into the adapter. The front portion of the body is internally threaded at the mouth to accept a plug into which is screwed the magazine. In the side of the body a slot is cut for the ejection pin, and adjacent to it a hole is drilled and threaded for a stop screw. Opposite to *Bore-nding pin and safety band. 4-88 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L16A1 FOM No. 1390-35-2-1 (C) Design Details (Continued) the slot for the ejection pin, a recess is made to house the locking pin and spring, which are retained in the recess by a small screwed plug. Adjacent to the locking pin, another pin is inserted through the side of the fuze body to locate the shutter assembly and prevent it from rotating. Plug. The plug is made of anodized aluminum alloy. It is cylindrical in shape and externally threaded (left handed) to 1.5-inch (38.10-mm) diameter (20 TPI, UNS-2A) partially to screw into the front of the body and partially to engage in the screw threads formed in the rocket head. Internally, it is recessed on two diameters, the larger being threaded to accept the magazine; the smaller is filled with loose tetryl stemmed in, leaving a thin diaphragm of metal between the base of the recess and the outer surface at the base of the plug. Two key holes are drilled in front to facilitate assembly. Magazine (i.e., booster). The body is made of anodized aluminum alloy. It is cup-shaped and externally threaded to screw into the plug. Internally, it houses the prepressed tetryl pellet. Two flats are formed on the base to facilitate assembly into the plug. Sealing disk. This is a dished disk of anodized aluminum alloy. It is assembled into the rear of the body, with the flattened rim pressed against the shoulder formed in the body. Plunger. The zinc-plated brass plunger is cone-shaped with a flange formed at the rear. It is housed inside the body, the flange resting against the inner side of the shoulder formed toward the rear of the body. Creep spring. This is a cylindrical-coiled, tinned, steel-wire spring, formed with 21/2 effective coils of 0.02-inch (0.50-mm) diameter wire. One coil at each end is close-coiled and square with the axis of the spring. It is assembled around the actuating sleeve. Actuating sleeve. The actuating sleeve is made of zinc-plated steel. It is cylindrical in shape and formed with a small external flange at the rear. A longitudinal slot is formed near the center, and three slots are cut in the forward end. It is assembled around the plunger. Setback sleeve. The setback sleeve is made of zinc-plated steel. It is cylindrical in shape with longitudinal and radial slots cut in one side. It is assembled over and around the actuating sleeve. 4-89 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BD, Model L16A1 FOM No. 1390-35-2-1 (C) Design Details (Continued) Striker. The striker consists of a zinc-plated steel pin formed with a needle point, above which is a flange and a shank; a flat double phosphor-bronze spring; and a steel triangular-shaped plate lever formed with a lug at each side. The pin is riveted to the center of the apex of the lever and to one end of the spring. Shutter assembly. This comprises a shutter plate, shutter, shutter spring, shutter-retaining spring, shutter-spring pin, shutter-hinge pin, and shutter-retaining-spring pin. The shutter plate is a flat circular disk, with a slot formed on the outside to fit over a locating pin inserted through the side of the fuze body adjacent to the locking pin. The end of this pin positions the plate and keeps it from rotating. The front surface of the plate is cut away and shaped to act as a guide for the shutter; around the periphery a slot is made to accommodate the retaining spring. The shutter-hinge pin, shutter-spring pin and shutter-retaining-spring pin are also assembled in the front surface of the plate. The rear surface of the plate is recessed, leaving a small portion of metal to act as a stop to the shutter when it is in the armed position. The shutter which is a flat, irregular-shaped component has a hole drilled through the center, and the rear portion of the hole is enlarged to house the detonator. On one side, near the detonator recess, are two small pins. These pins bear against the side of the ejection pin which, when ejected, allows the shutter, under the influence of the shutter spring, to swing into the armed position, thereby bringing the detonator into alignment over the point of the striker. The shutter is assembled over the hinge pin on which it pivots; it is moved into the armed position, when the ejection pin is ejected, by a double-armed spring, which is assembled under tension over a pin positioned to one side of the shutter plate. One arm of the spring bears against the side of the shutter, while the other bears against the side of the shutter plate. In the armed position, a shoulder on the shutter locks behind a projection on the free end of the shutter-retaining spring. Detonator. This is a 0.18-gram (2.8-gr) "AZ" lugless (tinned copper alloy cup) detonator that is assembled with the open end toward the striker. It is assembled in a recess formed in the shutter and is held in position by a retaining washer secured by burring over an upstand formed around the recess. Stop screw. The screw, which is made of zinc-plated steel, has a screwdriver slot in the head. It is assembled in the side of the body and acts as a guide for the setback sleeve and a stop for the actuating sleeve. 4-90 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L16A1 FOM No. 1390-35-2-1 (C) Design Details (Continued) Locking pin and spring. The locking pin is made of zinc-plated brass and formed with a flange around the center. It is assembled in the side of the fuze body, followed by a small cylindrical-coiled, steel-wire spring, and is retained in the fuze body by a small screwed plug. Ejection pin. The ejection pin is made of zinc-plated steel. It is formed from a square bar, with a number of steps or keyways. A dome-shaped cup welded to the outer end of the pin houses one end of a coiled steel-wire ejection spring when the pin is assembled in the fuze. The ejection pin passes through the fuze body and is held in position by the safety band which encircles the body. This pin prevents any movement of the internal parts during storage, transit, and handling; it also retains the shutter in the unarmed position, precluding any accidental functioning. Safety band. The safety band is made of zinc-plated steel. It is formed from a flat steel strip and is hinged in the center, the ends being fitted with an eyelet and an engaging lever for securing purposes. The band is varnished over the zinc plating. Printed in red on one side are the words "SAFETY BAND?NOT TO BE REMOVED UNTIL ROCKET HEAD HAS BEEN LOADED INTO LAUNCHER." On the opposite side the legend is a raised boss fitted with a hard rubber washer around the underside. The washer is retained by lugs turned over onto its outer edges. Earlier versions had a loop instead of an eyelet and were painted green. (C) Safety Safety is provided as follows: ? The safety band secures the ejection pin in position. ? The ejection pin, which is held in position by the safety band during transit and storage, passes between the striker and fuze shutter, preventing contact between them. The ejection pin also keeps the shutter in the unarmed position until after firing. ? The shutter is made with two metal stops which bear against the side of the ejection pin and keep the shutter in the unarmed position until the pin is ejected. In the unarmed position, the detonator is held away from the striker and is out of alignment with the tetryl channel in the fuze plug., 4-91 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Original Fuze, BD, Model L16A1 FOM No. 1390-35-2-1 (C) Functioning The safety band is not removed until just before the rocket head is finally pushed home into the launcher. Under the influence of its spring, the ejection pin moves out of the safe into the locked position. The fuze cannot arm when the ejection pin is moving or when the ejection pin is in either the safe or locked position. As the rocket enters the launcher, the bore of the launcher depresses the ejection pin into the intermediate position, freeing the setback sleeve to move upon firing. Until the rocket is fired the fuze is still safe, since the ejection pin prevents the actuating sleeve, firing pin, and shutter from moving. If it becomes necessary to remove the rocket from the launcher, the ejection pin will move outward under the influence of its spring and reengage the setback sleeve, thus returning the fuze to its locked position. The safety band can then be replaced, thereby returning the ejection pin to its original safe position. When the rocket is fired. The force of setback opposing the strength of the creep spring moves the setback sleeve to its rearward position where it is retained by the locking pin. When the rocket leaves the muzzle of the launcher. The ejection pin is thrown clear of the fuze, the shutter revolves under the influence of its spring. The pin is locked in the armed position when a shoulder on the shutter locks behind a projection on the end of the shutter-retaining spring. The fuze is thus fully armed. During flight. The setback sleeve and the actuating sleeve are prevented from rotating by the stop screw which passes through a slot provided in both sleeves. The striker spring also prevents the striker from impinging on the detonator, and the creep spring retards the forward movement of the plunger and actuating sleeve. The strength of the creep spring is strong enough to retard the plunger and actuating sleeve and to prevent the fuze from firing should the rocket strike a light object such as light brush or undergrowth. Upon impact or graze with a heavy object. The inertial plunger and actuating sleeve overcome the strength of the creep spring and move forward. The actuating sleeve, aided by the weight of the plunger, bears on the lugs of the triangular frame on which the striker is mounted. The striker spring is depressed and the striker point forced into the detonator which, in turn, detonates the tetryl pellet in the magazine and the filling in the rocket head. 4-92 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 ; CONFIDENTIAL Original AST-116011-001-15 Fuze, BD, Model L16A1 FOM No. 1390-35-2-1 (C) Applications (Ammunition and Weapons) Ammunition Weapons 88.9-mm (3.5-in) HEAT warhead UK M20 Mk 2 rocket launcher 4-93 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original (This page intentionally left blank) 4-94 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original t 2 00" DI AM CONFIDENTIAL PLUNGER AST-116011-001-75 Fuze, BD, Model L5, M404,Mk 1 FOM No. 1390-35-2-2 CREEP SPRING 1 50 DIA(20 UN.S-2A) ACTUATING SLEEVE SETBACK SAFETY BAND SEALING DISC SETBACK SLEEVE BODY -- STOP SCREW CREEP SPRING I PLUNGER SAFETY BAND EJECTION PIN _._ PLUG ? ACTUATING SLEEVE STRIKER \ DETONATOR (86 GR AZYI SETBACK SLEEVE LOCKING PIN AND SPRING C E PELLET PAPER DISC MAGAZINE SLEEVE DETONATOR SAFE POSITION EJECTION PIN SETBACK SLEEVE DETONATOR SAFETY BAND LOCKED POSITION ROCKET LOADED Neg. 552507 (CONFIDENTIAL) Figure 4-23. Fuze, PD, Model L5, M404, Mk 1, exploded and cutaway views (11). 4-95 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST1160H-00145 Original Fun, BD, Model L5, M404Mk 1 FOM No. 1390-35-2-2 (C) Description The L5 fuze (fig 4-23) is a setback-armed, BD type designed for use with HEAT ammunition fired from the UK, M20, 3.5-inch rocket launcher. This fuze is obsolescent. (C) Unique Features ? Bore-riding ejection pin and safety band. ? Actuating and setback sleeve. (C) Characteristics Fuze assembly: Body material Anodized aluminum alloy Weight Markings L5, UK, M404 Mk 1 Length 3.145 in (79.88 mm) Max diam 2.00 in (50.8 mm) Plug thread diam 1.50 in (38.1 mm) Booster: Body material Anodized aluminum alloy Body length 7 Explosive Tetryl Explosive weight 7 Functional data: Arming method Setback Firing method Impact Safety devices Safety band & ejection pin Arming distance 7 Arming time 4-96 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L5, M404,Mk 1 FOM No. 1390-35-2-2 (C) Design Details General. The L5, UK M404 Mk 1 fuze (fig 4-23) is a base percussion detonating type functioning with non-delay action on impact. It consists principally of a body, plug, magazine, sealing disk, plunger, creep spring, actuating sleeve, setback sleeve, striker, detonator, stop screw, locking pin and spring, ejection pin, and safety band. Body. The body is made of anodized aluminum alloy. It is cylindrical in shape, formed plain, with an external diameter of 2 inches (50.8 mm). Internally, a shoulder is formed toward the rear of the body on which an aluminum disk seats, and beyond the shoulder the body is threaded to receive a body-closing adapter onto which the rocket motor is screwed. The front portion of the body is threaded internally at the mouth to accept a plug into which the magazine is screwed. In the side of the body a slot is cut for the ejection pin, and adjacent to it a hole is drilled and threaded for a stop screw. A recess is made opposite the slot for the ejection pin to house the locking pin and spring, which are retained in the recess by a small screwed plug. Plug. This plug is made of anodized aluminum alloy. It is cylindrical in shape and threaded externally (left handed) to 1.5-inch (38.1-mm) diameter (20 TPI UNS-2A) partially to screw into the front of the body and partially to engage in the screw threads formed in the rocket head. Internally, it is recessed on two diameters, the larger being threaded to accept the magazine, the smaller housing the detonator. A circumferential recess is formed around the face of the rear of the plug, and two holes are drilled in the front to facilitate assembly. A paper disk is inserted between the plug and the magazine, being secured to the face of the plug by shellac. Magazine (i.e., booster). The magazine is made of anodized aluminum alloy. It is cup-shaped and threaded externally to screw into the plug. Internally, it houses the prepressed tctryl pellet. Two flats are formed on the base to facilitate assembly into the plug. Sealing disk. This is a dished disk of anodized aluminum alloy. It is assembled into the rear of the body, and the rim of the disk is flattened by the shoulder formed in the body. Plunger. The plunger is made of zinc-plated brass. It is cone-shaped with a flange formed at the rear. It is housed inside the body, the flange resting against the inner side of the shoulder formed toward the rear of the body. 4-97 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 OriGinal Fuze, BD, Model L5, M404,/vllc 1 FOM No. 1390-35-2-2 (C) Design Details (Continued) Creep spring. This is a cylindrical-coiled, tinned, steel-wire spring, formed with two and one-half effective coils of 0.02-inch diameter wire, one coil at each end being close-coiled and ground square with the axis of the spring. It is assembled around the actuating sleeve. Actuating sleeve. The actuating sleeve is made of zinc-plated steel. It is cylindrical in shape and formed with a small external flange at the rear. A longitudinal slot is formed near the center and three slots are cut in the forward end. It is assembled around the plunger. Setback sleeve. The setback sleeve is made of zinc-plated steel. It is cylindrical in shape and a longitudinal and radial slot are cut in one side. It is assembled over and around the actuating sleeve. Striker. The striker consists of a zinc-plated steel pin formed with a needle point, above which is a flange and a shank; a flat double phosphor-bronze spring; and a steel triangular-shaped plate lever formed with a lug on each side. The pin is riveted to the center of the apex of the lever and to one end of the spring. Detonator. This is a 0.56-gram (8.6-gr) "AZY" (copper alloy cup) detonator that is assembled with the open end toward the striker, behind a glazed board washer in a hole formed in the center of the plug. Stop screw. The screw is made of zinc-plated steel with a screwdriver slot in the head. It is assembled in the side of the body and acts as a guide for the setback sleeve and a stop for the actuating sleeve. Locking pin and spring. The locking pin is made of zinc-plated brass formed with a flange around the center. It is assembled in the side of the fuze body with its small, cylindrical-coiled, steel-wire spring, which is retained in the fuze body by a small screwed plug. Ejection pin. The ejection pin is made of zinc-plated steel. It is formed from square bar, with a number of steps or keyways. A dome-shaped cup is welded to the outer end and houses one end of a coiled, steel-wire ejection spring when the pin is assembled in the fuze. The ejection pin passes through the fuze body and is held in position by the safety band 4-98 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Origins AST-1160H-001-75 Fuze, BD, Model L5, M404Mk 1 FOM No. 1390-35-2-2 (C) Design Details (Continued) that encircles the body. This pin prevents any movement of the internal parts during storage, transit, and handling; it also masks the detonator from the striker, thus precluding any accidental functioning. Safety band. The safety band is made of zinc-plated steel. It is formed from flat spring strip, hinged in the center, and the ends are fitted with a loop and engaging lever for securing purposes. The band is painted green and printed in red on the side are the words "SAFETY BAND?NOT TO BE REMOVED UNTIL ROCKET HEAD HAS BEEN LOADED INTO LAUNCHER." On the side opposite the legend is a raised boss, around the underside of which is fitted a neoprene washer, which is retained by lugs turned over on to the outer edges. (C) Safety The ejection pin, which is held in position by a hinged safety band, prevents any movement of the internal parts during storage and handling and, in addition, masks the 8.6-gr (0.56-gram) "AZY" detonator from the striker. 4-99 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, BD, Model L5, M404Alk 1 FOM No. 1390-35-2-2 (C) Functioning (Fig 4-24) ON FIRING Original STOP SCREW CREEP SPRING ON IMPACT OR GRAZE DURING FLIGHT NORMAL ON LEAVING LAUNCHER DURING FLIGHT ON IMPACT OR GRAZE ACTION OF STRIKER Neg. 552508 (CONFIDENTIAL) Figure 4-24. Fuze, BD, Model L5, M404,Mk 1, functioning views (U). 4-100 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, BD, Model L5, M404,Mk 1 FOM No. 1390-35-2-2 (C) Functioning (Continued) The safety band is not removed until just prior to the rocket head finally being pushed home into the launcher, and under the influence of its spring the ejection pin moves out of the safe position to lock in the setback sleeve. The fuze cannot arm when the ejection pin is in either the safe or locked position. The bore of the launcher depressei the ejection pin into the intermediate position as the rocket enters the launcher. The setback sleeve is then free to move upon firing. Until the rocket is fired the fuze is still safe, since the ejection pin prevents movement of the actuating sleeve and firing pin. If it becomes necessary to remove the rocket from the launcher, the ejection pin will move outward and re-engage the setback sleeve, thus returning the fuze to its locked position. The safety band can then be replaced, thereby returning the ejection pin to the original safe position. When the rocket is fired. The force of setback opposing the action of the creep spring moves the setback sleeve to its rearward position, where it is held by the locking pin. When the rocket leaves the muzzle of the launcher. The ejection pin is thrown clear of the fuze and the fuze is fully armed. During flight. The setback sleeve and the actuating sleeve are prevented from rotating by the stop screw, which passes through a slot provided in both sleeves. The striker spring also prevents the striker point from impinging on the detonator, and the creep spring retards the forward movement of the plunger and actuating sleeve. The strength of the creep spring is sufficient to retard the plunger and actuating sleeve and to prevent the fuze from firing should the rocket strike a light object such as light brush or undergrowth. Upon impact or graze with a heavy object. The inertial plunger and actuating sleeve overcome the force of the creep spring and move forward. The actuating sleeve, aided by the weight of the plunger, bears on the lugs of the triangular frame on which the striker is mounted. The striker spring is depressed and the striker forced into the detonator which, in turn, detonates the tetryl pellet in the magazine and the filling in the rocket head. (C) Applications (Ammunition and Weapons) Ammunition Weapons 3-in HEAT warhead 3.5-in rocket launcher, UK Model M20 Mk 2 4-101 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 (This page intentionally left blank) 4-102 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Firing Pin CONFIDENTIAL LTh AST-1160H-001-75 Fuze, BDSD, Type? FOM No. 1390-37-1-8 Booster Cup ---Upper Fuze Body Firing Sleeve Firing Spring Arming Ball (4) Shock Element Housing Shock Element Detonator Detonator Rotor Firing Sleeve Guide ----Lower Fuze Body ?Stake Pin Neg. 552247 Spanner Hole (2) (CONFIDENTIAL-NED) Figure 4-25. Fine, BDSD, Type ?, section view (U). NO FOREIGN DISSEM 4-103 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116 0H-001-75 Original Fuze, BDSD, Type? FOM No. 1390-37-1-8 (C) Description This (fig 4-25) is a conventional, BD fuze with a self-destruct feature actuated by projectile spin decay. The out-of-line detonator is mounted in a ball rotor. This fuze is used with the 30x113 mm B APHE1 cartridge, Type 9532, which is designed for air-to-air use in DEFA, Type 552 aircraft guns. The fuze is a copy, with minor modifications, of the Oerlikon BDSD fuze, Type BZD-0236, which was developed prior to 1962. The fuze is unmarked. (C) Characteristics Fuze assembly: Body material Aluminum Weight 41.3 g (0.09 lb) Markings None Booster: Body material Steel Body length 15.2 mm (0.60 in) Explosive Explosive weight 0.8 g (12.3 gr) Functional data: Arming method Spin Firing method Impact Safety devices Out-of-line detonator in ball rotor Arming distance ?3 m (est) Arming time 7 Self-destruct time 5-13 s (est) Delay time 7 NO FOREIGN DISSEM 4-104 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160Hs001-75 Fuze, BDSD Type ? FOM No, 139O-3718 (c-NFD) Design Details Except for two Minor internal changes, this fuze is a copy of the Oetlikon fuze. BDSD, Type BZD-0236. Changes include provision of a separate firings pin instead of the Oerlikon one piece firing pin and firingspin bushing, and a booster cup that projects into the explosive cavity. The fuze dig 4-26) consists of an aluminum turd hods) that contains a self-destract mechanism, a firing pin, a hall rotor that contains an out-of-line detonator, and a booster. In storage and shipment the fuze is kept safe by the out--of-hoe position of the detonator In the rotor. Rotor position is maintained by pressure from the self-destruct spring and the shock element. acting through the fning-pin bushing. 03tn* ?Sbank Mt** 8*n Firing . _ - VS tAux 'Spring ? Dtt.***s* ,irtze 4* 'rOihcrk X)arept *bock amant 91***** taut* thu* Aady Neg. 552246 (CONFIDEN11A1.-NFD) Figure 4-26. Fuze, BDSD, Type ?, exploded view (ln, NO FOREIGN DISSEM 4-105 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, BDSD, Type? FOM No. 1390-37-1-8 (C-NFD) Functioning Upon firing, setback forces cause the firing pin bushing to move to the rear, crushing the shock element and further compressing the self-destruct spring. At this point centrifugal force causes the arming balls to move outward and rearward, against the conical interior surfaces of the self-destruct housing. This action moves the firing pin bushing further rearward and restrains the self-destruct spring. Pressure on the rotor is now released. Centrifugal force causes the unbalanced rotor, now free, to rotate until the detonator is aligned with the firing pin. Upon impact, inertia added to the pressure of the compressed self-destruct spring overcomes centrifugal force, acting on the arming balls. These balls are forced inward into their recess in the firing-pin bushing, and the firing pin is driven into the detonator, initiating detonation of the booster. If impact does not occur, projectile spin will decay and centrifugal force decrease until the compressed self-destruct spring overcomes the spin force on the arming balls and drives the firing pin into the detonator. (C-NFD) Applications (Ammunition and Weapons) Ammunition Weapons 30x113-mm B APHEI cartridge, Type 9532 30-mm aircraft gun, DEFA, Type 552 NO FOREIGN DISSEM 4-106 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Section V. TIME FUZES 5-1 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 AST-1160H-001-75 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Section V. TIME FUZES GENERAL (U) Time fuzes have been designed or are under development for artillery, rocket, mortar, and recoilless ammunition applications. These fuzes are designed to function after a predetermined time. "Time" refers to the length of time from the instant of firing the weapon to the instant of functioning of the fuze. Some of the older obsolescent fuzes utilize pyrotechnic time train rings, while the most recent developments utilize clockwork-type time mechanisms. (U) The mechanical timers employed are usually detented or restrained by a trigger mechanism which is released on setback during firing or, in the case of the older types, the pyrotechnic time train rings are initiated on setback by a stab-type firing pin. (U) Recent mechanical time (MT) fuzes include a backup impact function, usually incorporating a superquick action upon impact. (U) The fuzes described in this section are for either high- or low-"g" acceleration, and for fin- or spin-stabilized projectiles or warheads. Most of these fuzes require either setback or centrifugal force environmental stimulus for arming. (U) With the exception of some older obsolescent types, the fuze designs presented in this handbook are well within the current state-of-the-art and, in some instances, incorporate unique features. 5-3 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-II60H-001-75 INDEX FOM No. Nomenclature* Page 1390-16-1-8-1 Fuze, MTSQ, Model DM 93 5-7 1390-16-1-14 Fuze, MTSQ, Model DOPPZ DM 53 5-13 1390-16-1-18 Fuze, MTSQ, Model DM 123 5-15 1390-16-1-29 Fuze, BD, Model BDZ DM 701 5-19 1390-16-1-32 Fuze, MTSQ, Model DOPPZ DM 43 5-21 1390-16-1-33 Fuze, MTSQ, Model DOPPZ DM 63 5-23 1390-16-1-34 Fuze, MTSQ, Model DOPPZ DM 73 5-25 1390-16-1-35 Fun, MTSQ, Model DOPPZ DM 103 5-27 1390-16-1-36 Fuze, MTSQ, Model DOPPZ DM 113 5-31 1390-17-1-15 Fuze, Time, Model ? 5-33 1390-17-1-20 Fuze, MT, Model MH 55 5-39 1390-17-3-1 Fuze, MT, Model CD-17 5-45 1390-18-1-8 Fun, MTSQ, Model 544 (Dixi) 5-49 1390-18-1-16 Fuze, MTSQ, 30-second (Tavaro) 5-53 1390-18-1-19 Fuze, MT, Model STIDR M/70, URVgrk 5-57 1390-35-1-6 Fuze, MTSQ, Model No. 213 Mk 5 5-59 1390-35-1-29 Fuze, Time, Model No. 390 Mk 1 5-67 1390-37-1-4 Fuze, Time, Model? 5-75 1390-37-1-6 Fuze, Time, Model? 5-79 *All fine nomenclatures are UNCLASSIFIED. 5-5 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 LIST OF ILLUSTRATIONS Figure Title* Original Page 5-1 Fuze, MTSQ, Model DM 93, contour view 5-7 5-2 Fuze, MTSQ, Model DM 93, section view 5-9 5-3 Fuze, MTSQ, Model DM 93, setback device 5-11 5-4 Fuze, MTSQ, Model DM 93, packaging container 5-12 5-5 Fuze, MTSQ, Model DOPPZ DM 53, full view with packaging container 5-13 5-6 Fuze, MTSQ, Model DM 123, full view 5-15 5-7 Fuze, MTSQ, Model DOPPZ DM 103, full view 5-27 5-8 Fuze, MTSQ, Model DOPPZ DM 103, section view 5-28 5-9 Fuze, time, Model ?, contour view with 60-mm mortar projectile 5-33 5-10 Fuze, time, Model ?, exploded view 5-35 5-11 Fuze, time, Model ?, section view 5-36 5-12 Fuze, MT, Model MH 55, with 60-mm illumination projectile 5-39 5-13 Fuze, MT, Model MH 55, exploded view 5-41 5-14 Fuze, MT, Model CD-17, full view 5-45 5-15 Fuze, MT, Model CD-17, contour and section views 5-47 5-16 Fuze, MTSQ, Model 544, full view 5-49 5-17 Fuze, MTSQ, Model 544, section view 5-51 5-18 Fuze, MTSQ (Tavaro), contour and section views 5-54 5-19 Fuze, MT, Model STIDR M/70, URVgrk 5-57 5-20 Fuze, MTSQ, Model No. 213 Mk 5, full and section views 5-59 5-21 Fuze, time, Model No. 390 Mk 1, full and section views 5-67 5-22 Fuze, time, Model ?, exploded view and 52-mm projectile 5-75 5-23 Fuze, time, Model ?, contour and section views 5-77 5-24 Fuze, time, Model ?, full view with projectile 5-79 5-25 Fuze, time, Model ?, exploded view 5-81 5-26 Fuze, time, Model ?, contour and section views 5-82 *All figure titles are UNCLASSIFIED. 5-6 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116014-00145 Fuze, MTSQ, Model DM 93 FOM No. 1390-16-1-8-1 Neg. 516978 ALL DIMENSIONS IN MM (UNCLASSIFIED) Figure 5-1. Fuze, MTSQ, Model DM 93, contour view (U). (U) Description The DM 93 fuze (fig 5-1) is a delayed-arming-type MT fuze desired with a backup SQ impact function. It was developed by Junghans of West Germany for use with illumination and colored-marker mortar projectiles. The clockwork employed is a 60-second timer with 2-second graduations indexed on the fuze body. The backup impact function is provided by a protruding-type striker, permitting a graze-sensitivity feature. 5-7 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, MTSQ, Model DM 93 FOM No. 1390-16-1-8-1 (U) Unique Features ? Pull wire for positive safety during handling. ? Spring-loaded eccentric rotor housing out-of-line detonator. ? Locking shaft-pinion-gear arrangement for delay arming. ? Protruding striker-firing pin assembly. ? Double-safety mechanism via two setback pins. (U) Characteristics Fuze assembly: Body material Weight Markings Length Body diam Expelling charge cup: Body material Body length Explosive Explosive weight Aluminum (est) 202 ?-5 g (0.44 lb ? 77 gr) DOPPZ DM 93 87.7 mm (3.45 in) 49 mm (1.93 in) Aluminum Black powder Functional data: Arming method Firing method Safety devices Arming distance Arming time Setback Mechanical time & impact 50 m is '2 setback pins, 2 locking balls, locking spnng, pull wire, and ou t-of.line detonator. 5-8 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H4101-75 Fuze, MTSQ, Model DM 93 FOM No. 1390-164-8-1 (U) Design Details The DM 93 MTSQ fuze (fig 5-2) consists primarily of a two-piece movable setting cap (1), a fuze body (2), a rear plug (3), and an expelling charge cup (4). (UNCLASSIFIED) Figure 5-2. Fuze, MTSQ, Model DM 93, section view (U). The movable nose cap is bored out to house the protuding-type striker-firing pin assembly which consists of a striker head (5), conical-shaped striker bushing (6), striker-bushing compression spring (7), striker stem (8), bushing support (19), firing-pin 5-9 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1113011-001-75 Fuze, MTSQ, Model DM 93 FOM No. 1390-16-1-8-1 Original (U) Design Details (Continued) head (10), and firing pin (29). The firing pin extends through the timer drum (12), setback device (20) and engages a blind hole of the eccentric rotor (9) when in the safe position. The mechanical timer (see sec VIII for detailed illustrations) includes the release lever (24) connected to the firing lever (23), which has a bent tongue that leans downward against a cam on the timer drum cover (14), which is riveted to the timing ring (13). Other components include a coupling ring (11), setting stop pin (not shown), timer drum (12) housing a wound band spring, and pinion-gears (17). The first of the pinion gears (16) meshes with a toothed segment of the rotors' locking shaft (18) that engages a slotted keyway of the eccentric rotor (9). The anchor or pallet (28) of the clockwork is held in check by the two upper stems (26) of the two setback pins (25). The setback device (see sec VIII for design illustration) is a double-safety mechanism including two setback pins (25) with an upper stem (26) and a lower collar (27), two setback springs, and a setback sleeve. The setback pins are locked in place by two locking balls held in position by a V-shaped locking spring. For positive safety during handling, a pull wire (21) secures the setback pins. The rear plug (13) is bored out to house the eccentric rotor (9). The rotor has a slotted keyway for engaging the locking shaft (18). Two holes are drilled around the periphery of the rotor: one houses the SQ detonator; the other is a blind hole for the firing pin (29). In addition, a central hole has been drilled for housing the torqued spring that rotates the rotor until it is stopped by a pin. The rotor is then in the armed position (i.e., the detonator is in line with the firing pin). The rear plug (3) is threaded externally to facilitate assembly into the fuze body (2) and assembly of the expelling charge cup (4) housing a black powder expelling charge (22). (U) Functioning Prior to firing, the movable nose cap is turned to the desired time setting indicating time of flight and the pull-wire is released. Upon firing, setback force moves the setback sleeve (3) of the setback device (fig 5-3) rearward, forcing the two locking balls and V-shaped locking spring outward. This undetcnts the two setback pins (4), which move rearward compressing their springs. This allows the anchor or pallet of the timer (see fig 5-2) to swing free as a result of the upper stems (2) of the setback pins (4) moving rearward on setback. 5-10 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 -UNCLASSIFIED Original (U) Functioning (Continued) AST-1160H-001-15 Fuze, MTSQ, Model DM 93 FOM No. 1390-16-1-8-1 Neg. 517469 (UNCLASSIFIED) Figure 5-3. Fuze, MTSQ, Model DM 93, setback device (U). In the meantime, the lower collars of the setback pins (4) disengage from their seats in the eccentric rotor, undetenting the rotor which is freed to rotate to the armed position. Arming is delayed until the locking shaft moves out of the slot of the rotor. This takes about 1 second. As soon as the timer has reached the prescribed time delay, according to the setting on the fuze body, the striker bushing spring moves downward, pushing the firing-pin lever and release lever apart and hitting the firing-pin head. The firing pin is driven into the detonator (1), which initiates the relay charge and, in turn, the black powder expelling charge. 5-11 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, MTSQ, Model DM 93 FOM No. 1390-16-1-8-1 (U) Packaging 1 Neg. 516988 (UNCLASSIFIED) Figure 5-4. Fuze, MTSQ, Model DM 93, packaging container (U). The DM 93 fuze is individually packaged in a special contour-shaped plastic container (fig 5-4). (U) Applications (Ammunition and Weapons) Ammunition Weapons 60-mm illumination projectiles; 60-mm colored smoke projectiles 81-mm illumination projectiles; 81-mm colored smoke projectiles 120-mm illumination projectiles; 120-mm colored smoke projectiles 60-mm mortars 81-mm mortars 120-mm mortars 5-12 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original A 6 -7 Fuze, MTSQ, Model DOPPZ DM 53 FOM No, 1390-16414 (1INCLASSIFI 5-5. Fuze MTSQ, Model DOPPZ DM 53, full view with packaging coot FOR OFFICIAL USE ONLY (This ',age I UNC1,ASS I FIEF Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original Fuze, MTSQ, Model DOPPZ DM 53 FOM No. 1390-16-1-14 (FOUO) Description Fuze DOPPZ DM 53 is a West German (Diehl) produced copy of US fuze, MTSQ, M501A1. No booster is used. This fuze was standard in the West German Armed Forces at least as late as 1969. See pertinent US publications (e.g., TM-9-1300-203) for a functioning description and technical data for this fuze. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons Various illuminating, smoke, and colored smoke rounds from 76 mm to 203 mm 76-mm to 203-mm guns and howitzers (FOUO) Interchangeability Fuze DOPPZ DM 53 has no booster. Fuze DOPPZ DM 53 is redesignated DOPPZ DM 63 when booster ZDL DM 12 is used. Fuze DOPPZ DM 53 is redesignated DOPPZ DM 103 when German booster ZDL DM 32 (a copy of US booster M125A1) is used. Fuze DOPPZ DM 53 is redesignated DOPPZ DM 113 when German booster ZDL DM 42 is used. (U) Packaging Each fuze is packed in an individual watertight can. Each fuze can is equipped with a pull-ring opener to ensure easy access to the fuze for firing. Fifteen or 40 fuze cans are packed into each shipping box. Although definite information is not available, the packaging described here may be standard for all fuzes manufactured by Diehl. 5-14 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins AST-1160H-001-75 Neg. 516989 (UNCLASSIFIED) Figure 5-6. Fuze, MTSQ, Model DM 123, full view (U). (U) Description Fuze, MTSQ, DM 123 FOM No. 1390-16-1-18 The DM 123 fuze (fig 5-6) is a setback, delayed-arming MT fuze with an SQ impact function. It was developed by Junghans for use with 60-, 81-, and 120-mm high explosive projectiles. It is similar in design and functioning to that of the DM 93 fine (FOM No. 1390-16-1-8-1), except that the black powder expelling charge has been replaced by a tetryl booster. (U) Unique Features ? Pull-wire for positive safety during handling. 5-15 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, MTSQ, DM 123 FOM No. 1390-16-1-18 (U) Unique Features (Continued) ? Locking shaft-pinion-gear arrangement for delay arming. ? Protruding striker-firing pin assembly. ? Double-safety mechanism via two setback pins. (U) Characteristics Fuze assembly: Body material Weight Markings Length Body diam Aluminum (est) 202?5 g (0.44 lb ? 77 gr) DOPPZ DM 123 87.7 mm (3.45 in) 49 mm (1.93 in) Booster: Body material Aluminum (est) Body length Explosive Tetryl Explosive weight Functional data: Arming method Setback Firing method Mechanical time and impact Safety devices Arming distance 50 m Arming time 1 s ?2 setback pins, 2 locking balls, locking spting, pull-wire, and out-of-line detonator. 5-16 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origind AST-1160E1-001-75 Fuze, MTSQ, DM 123 FOM No. 1390-16-1-18 (U) Design Details and Functioning Design details and functioning are the same as the DM 93 MTSQ fuze (FOM No. 1390-16-1-8-1). See Section VIII for further details on the 60-second timer employed. The contour of the DM 123 fuze being the same as the DM 93 permits packing in the special contour plastic container developed for the DM 93 fuze. (U) Applications (Ammunition and Weapons) Ammunition Weapons 60-mm HE projectiles 81-mm HE projectiles 120-mm HE projectiles 60-mm mortar 81-mm mortar 120-mm mortar 5-17 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, BD, Model BDZ DM 701 FOM No. 1390-16-1-29 (FOUO) Description According to an official West German source, fuze BDZ DM 701 th a German-produced copy of US fuze, BD, M68 Al. This fuze was standard in the West German Armed Forces, at least as late as 1969. See pertinent US publications (e.g., TM 9-1300-203) for technical details of this fuze. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 90x602-mm HE cartridge, Model PBK-LS 90-mm guns 5-19 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 (This page intentionally left blank) 5-20 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-11601I-001-75 Fuze, MTSQ, Model DOPPZ DM 43 FOM No. 1390-16-1-32 (FOUO) Description Fuze DOPPZ DM 43 is a West German-produced copy of US fuze, MTSQ, M502A1. This fuze was standard in the West German Armed Forces at least as late as 1969. See pertinent US publications (e.g., TM 9-1300-203) for technical details of this fuze. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 90x602-mm HE cartridge, Model (?) 90-mm antiaircraft guns 5-21 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original (This page intentionally left blank) 5-22 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, MTSQ, Model DOPPZ DM 63 FOM No. 1390-16-1-33 (FOUO) Description Fuze DOPPZ DM 63 is a DOPPZ DM 53 fuze (see FOM No. 1390-16-1-14) with a German booster, Model ZDL DM 12, attached. The characteristics of the ZDL DM 12 booster are not known to US intelligence elements. Except for this booster assembly, which may. be of German design, the characteristics of fuze DOPPZ DM 63 are those of US fuze, MTSQ, M501A1. This fuze, manufactured by Diehl of West Germany, was standard in the West German Armed Forces, at least as late as 1969. (FOU0) Applications (Ammunition and Weapons) Ammunition Weapons 90x602-mm practice cartridge, Model (?) 105x373-mm cartridges, Models (?) 155-mm projectiles, Models (?) 175-mm practice projectile, Model (?) 203-mm HE projectile, Model (?) 90-mm antiaircraft guns 105-mm guns or howitzers 155-mm howitzers 175-mm gun, M107 (US) 203-mm howitzers (U) Interchangeability Fuze DOPPZ DM 63 is redesignated DOPPZ DM 53 when used without a booster. Fuze DOPPZ DM 63 is redesignated DOPPZ DM 103 when German booster ZDL DM 32 (a copy of US Booster M125A1) is used. Fuze DOPPZ DM 63 is redesignated DOPPZ DM 113 when German booster ZDL DM 42 is used. 5-23 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original Fuze, MTSQ, Model DOPPZ DM 63 FOM No, 1390-16-1-33 (U) Packaging Packaging for this fuze is believed to be the same as for fuze DOPPZ DM 53 (see FOM No. 1390-16-1-14) except for slight differences necessary to accommodate the different lengths of the different fuze models. 5-24 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, MTSQ, Model DOPPZ DM 73 FOM No. 1390-16-1-34 (FOUO) Description According to an official West German Government publication, this is the No. 554 fuze, designed by the Dixi Company of Switzerland, assembled with German booster, Model ZDL DM 42. It is uncertain whether the fuze body is Swiss manufactured or merely Swiss designed. Diehl is known to produce booster ZDL DM 42, but it is unknown whether Diehl is the sole producer of this booster. We presently hold no information on the Dixi No. 554 fuze. Some information on booster ZDL DM 42 is available in the article on PD fuze, Model AZ DM 211 (see FOM No. 1390-16-1-26) elsewhere in this handbook. This fuze was standard in the West German Armed Forces, at least as late as 1969. (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 105x373-mm cartridges, Models? 155-mm HE projectile, Model ? 105-mm guns or howitzers 155-mm howitzers 5-25 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 (This page intentionally left blank) 5-26 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-115011-001-75 Fuze, MTSQ, Model DOPPZ DM 103 FOM No. 1390-16-1-35 Neg.515124 (UNCLASSIFIED) Figure 5-7. Fuze, MM, Model DOPPZ DM103, full view (U). (FOUO) Description Fuze DOPPZ DM 103 (fig 5-7), a West German-manufactured (Diehl) copy of US fuze. MTSQ, M520A1, was standard in the West German Armed Forces at least as late as 1969. German booster ZDL DM 42 (a copy of US booster Ml 25A1) is used. Times between 2 and 75 seconds may be set in 0.5-second increments. When no time is set (fuze setting "S-), this fuze functions as an SQ PD fuze. This fuze contains a clockwork mechanism (see fig 5-8) to 5-27 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 Original Fuze, MTSQ, Model DOPPZ DM 103 FOM No. 1390-16-1-35 (FOU0) Description (Continued) ensure delayed arming. A safety wire is used during transport as an additional safety feature. See pertinent US publications (e.g., TM 9-1300-203) for additional technical data. (U) Characteristics Material used: Nose portion Aluminum Central body portion Brass Timing ring and lower body Aluminum Timing mechanism Brass and aluminum Booster (except booster cup) Brass Booster cup Aluminum Head relay detonator eat ety pin lead charge clockwork mechanism detonator :toaster M 125 Al, altemativ boaster DM 42 Neg. 515122 (UNCLASSIFIED) Figure 5-8. Fuze, MTSQ, Model DOPPZ DM 103, section view (U). 5-28 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, MTSQ, Model DOPPZ DM 103 FOM No. 1390-16-1-35 (FOU0) Applications (Ammunition and Weapons) Ammunition Weapons 105x373-mm smoke ("fog") cartridge, Model (?) 155-mm HE projectile, Model (?) 175-mm practice projectile, Model (?) 203-mm HE projectile, Model (?) 105-mm guns or howitzers 155-mm howitzers 175-mm guns (US M107) 203-mm howitzers (FOUO) Interchangeability Fuze DOPPZ DM 103 is redesignated DOPPZ DM 53 when used without a booster. Fuze DOPPZ DM 103 is redesignated DOPPZ DM 63 when reassembled with German booster ZDL DM 12. Fuze DOPPZ DM 103 is redesignated DOPPZ DM 113 when reassembled with German booster ZDL DM 42. (U) Packaging It is believed that this fuze uses the same packaging (with minor changes in container dimensions) as is described in the article on fuze DOPPZ DM 53 (FOM No. 1390-16-1-14) elsewhere in this handbook. 5-29 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1160H-001-75 (This page intentionally left blank) 5-30 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, MTSQ, Model DOPPZ DM 113 FOM No. 1390-16-1-36 (FOUO) Description Fuze DOPPZ DM 113 is a West German-manufactured (Diehl) US fuze, MTSQ, M501A1 (German Model DOPPZ DM 53) with a German-designed booster, Model ZDL DM 42, attached. This fuze was standard in the West German Armed Forces at least as late as 1969. For information on booster ZDL DM 42, see the article on fuze AZ DM 211 (FOM No. 1390-16-1-26). For technical details of this fuze (except for the booster), see pertinent US publications (e.g., TM 9-1300-203). (FOUO) Applications (Ammunition and Weapons) Ammunition Weapons 90-mm practice cartridge, Model (?) 105x373-mm cartridges, Models (?) 155-mm projectiles, Models (?) 175-mm practice projectile, Model (?) 203-mm HE projectile, Model (?) 90-mm guns 105-mm guns or howitzers 155-mm howitzers 175-mm guns (US M107) 203-mm howitzers (FOUO) Interchangeability Fuze DOPPZ DM 113 is redesignated DOPPZ DM 53 when used without a booster. Fuze DOPPZ DM 113 is redesignated DOPPZ DM 63 when reassembled with German booster ZDL DM 12. Fuze DOPPZ DM 113 is redesignated DOPPZ DM 103 when reassembled with German booster ZDL DM 32 (a copy of US booster M125A1). (U) Packaging It is believed that packaging for this fuze is the same as for fuze DOPPZ DM 53 (see FOM No. 1390-16-1-14), except for small differences in package dimensions necessary to accommodate the DOPPZ DM 113. 5-31 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-116011-001-75 Original (This page intentionally left blank) 5-32 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, Time, Model ? FOM No. 1390-17-1-15 ..--Z.SaCini,V01{44X Itattil4Ail PiAlit t20Tril fab%OisSM $S4 acsn , Neg. 516409 (UNCLASSIFIED) C L ASS I F IE D) Figure 5-9. Fine, time, Model ?, contour view with 60-mm mortar projectile (U). (C) Description The French time fuze, Model ? (fig 5-9), was developed for the M50 illuminating mortar projectiles. It is a setback-initiated fuze with an adjustable pyrotechnic time train delay from 4 to 20 seconds, It also has a night adjustment of 12, 15, and 20 seconds delay. The fuze is not bore safe. The only safety device is a pin that passes through the body and firing pin. 5-33 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Original Fine, Time, Model? FOM No. 1390-17-1-15 (C) Characteristics Fuze assembly: Body material Aluminum Weight 0.89 lb (403 g) Length (overall) 2.27 in (57.6 mm) Length (exposed) 2.05 in (46.3 mm) Max diam 2.32 in (59 mm) Thread diam 2.05 in (51.8 mm) TPI 20 No. of vent holes 9 No. of relay pellets 2 Relay pellet expl. Black powder Relay expl. weight 0.08 g (1.23 gr) Expulsion charge expl. Black powder Expulsion charge weight 2.55 g (39.27 gr) Time train ring explosive Black powder Tinie train ring material Brass Functional data: Arming method Setback Firing method Impact Safety devices Safety pin Arming distance 7 Arming time Delay time 4 thru 20 s 5-34 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 (C) Design Details FIRING PIN RETAINING PLUG SETBACK SPRING FUZE BODY FIBER DISK Fuze, Time, Model ? FOM No. 1390-17-1-15 FIBER WASHER METAL WASHER RETAINING NUT SAFETY PIN TIME TRAIN RING 7ALUMINUM RING LOCK WASHER RETAINING RING RETAINING Neg. 516413 (UNCLASSIFIED) Figure 5-10. Fuze, time, Model ?, exploded view (U). The fuze (fig 5-10) consists of an aluminum fuze body and a movable brass time train ring. The nose portion of the fuze body is counterbored to house the stab-type primer, setback spring, and firing pin, which are secured by a retaining plug. The fuze body has nine vent holes drilled into the outer surface and downward to vent the black powder charge located in the circle groove of the time train ring. The movable time ring can be manually set to any of the locations marked on the fuze body. There is a niche-and-groove arrangement on the time ring. A spring-wire pin enters the niche dictated by the indenting arrangement. The delay settings for night use are 12, 15, and 20 seconds. 5-35 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 I Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, Time, Model? FOM No. 1390474-15 (C) Design Details (Continued) The time ring houses the black powder relay, black powder time train, and another black powder relay crimped into the passage through the time ring. The lower portion of time ring contains the black powder expulsion charge, held in place by an aluminum ring, and a cloth-covered disk and retainer that screws into the time ring. (C) Functioning Neg. 516411 7 5 (UNCLASSIFIED) Figure 5-11. Fuze, time, Model ?, section view (U). Prior to firing the safety pin is removed. Upon firing, setback causes the firing pin (1) to compress thc setback spring (2) and to stab the primer (3), which ignites the black powder relay (4), initiating the black powder time train (5). After the time train burns its prescribed delay time according to the fuze 5-36 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fine, Time, Mode! FOM No. 1390-17-1-15 (C) Functioning (Continued) setting, the black powder relay pellet (6) is ignited, initiating the black powder expelling charge (7) which ejects the parachute and the ignited candle. (11) Applications (Ammunition and Weapons) Ammunition Weapons 60-mm illuminating projectile, Model 51 Brandt 60-mm mortar 5-37 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 AST-1160H-001-75 CONFIDENTIAL Original (This page intentionally left blank) ( 5-38 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-00145 Fuze,MT. Model FOM No, 139O (UNCLASSIFIED) Figure 542. Fuzc MT. Model MU 55, with 6Onini I project). (I) 5-39 UNCLASSIFiED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, MT, Model MH 55 FOM No. 1390-17-1-20 (U) Description The French MH 55 MT fuze (fig 5-12) was developed by Hotchkiss-Brandt for 60-mm illumination projectiles fired from the Commando mortar. It employs a 35-second mechanical timer graduated from 7 to 35 seconds. (U) Design Details The fuze consists of three principal parts: the fuze body, the clockwork mechanism (i.e., timer), and a movable head. The fuze body is secured to the body of the projectile by steel rivets. It contains a stab-type detonator and a black powder expelling charge. A spring plunger, located between the body and movable head, enables the fuze to be set at any of three pre-selected click-stop settings (18, 22, or 24 1/2 seconds). The clockwork mechanism or timer contains a striker, mainspring, gear train, and escapement, together with several mechanical devices controlling safety and arming. The movable head of the fuze is keyed to the fuze body and pinned to the lower part of the clock mechanism. 5-40 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 :64-8DLP09i0i1313iirli)013100030001-0 Original AST-11608-001-75 (U) Safety 13 14 25 _15 16 Fun, MT, Model MH 55 FOM No.1390-17-1-20 Neg. 516580 (UNCLASSIFIED) Figure 5-13. Fuze, MT, Model MH 55, exploded view (U). 5-41 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, MT, Model MH 55 FOM No. 1390-17-1-20 (LI) Safety (Continued) Safety of the fuze (fig 5-13) is provided as follows: ? The spring-loaded striker (17,2) is prevented from striking the detonator (1) by its flange, which engages firing arm (25). A cutout slot in rear of the striker (2) engages an arm of the safety lever (19). ? The firing arm (25) is held in position by a torsion spring, and the safety lever (19) is held by the tongue of the steel plate (9). ? A dowel pin (7) of the safety lever (19) prevents movement of the pellet (8). ? A gas-operated piston (23), whose function is to bend the tongue of the spring steel plate (9) away from the safety lever (19), is prevented from moving by a safety pin (12) passing through the tail of the projectile. (U) Functioning (fig 5-13) Original Prior to firing. Before the projectile is loaded in the mortar, the safety pin (12) is removed from the fuze. Variations in time setting are obtained by altering the relative positions of the pin of the firing lever and the perforations in the timing disk. Upon firing. When the mortar is fired, gases from the burning propellant enter the rear of the fuze and force the piston (23) forward. The top of the piston strikes the tongue of the spring steel plate (9) and bends it upward free of the downward projecting arm of the safety lever (19). Once the safety lever is free of the steel plate, the torsion spring (6) turns the safety lever about its pivot point. As the safety lever turns, its upward projecting arm (5) moves out of the cutout recess in the tail of the striker, and its dowel pin (7) moves clear of the pallet (8). Time mechanism operation. The pallet is then free to oscillate, driven by the prewound mainspring (4) and controlled by its hair spring. As the mainspring runs down, it turns the timing disk (3). A pin (15) in the firing arm (25) bears on the upper surface of the rotating timing disk. When the set time has elapsed, a perforation (16) in the timing disk coincides with the pin which drops into the recess. Further movement of the timing disk causes the firing arm to swing about its pivot, overcoming the torsion spring and moving clear to the flange of the striker. 5-42 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (Continued) AST-1160H-001-75 Fuze, MT, Model Ml-! 55 FOM No. 1390-17-1-20 Striker operation. The striker (2) is then free and is thrown forward into the detonator (1) by its spring (17).. 5-43 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLA Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED original AST-1160H-001-75 Neg. 517123 (UNCLASSIFIED) Figure 544, Fuze, MT, Model CD-17, full view (U), (0) Description Fuze, MT, Model CD-17 FOM No, 139047-34 The CD47 mechanical time fuze (fig 544) was developed by rhe French for use with photo flash or cluster bombs. It is a vane arming type employing a mechanical timer. Fuze may be set from 5 to 90 seconds time of flight by loosening a knurled head set screw and rotating setting dial to ?prescribed time. Safety during handling and transportation is accomplished via a seated wire inserted through the fuze nose clamp lever and timing disk pin stop. 5-45 UNCLASSIF D Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, MT, Model CD-17 FOM No. 1390-17-3-1 (U) Unique Features ? Clockwork mechanism driven by runaway escapement detented by a stop Pin. ? Spring-loaded firing pin detented by a safety block and locking ball. ? Air vane arming technique. ? Sealed wire locking nose clamp and timing disk stop pin. (U) Characteristics Fuze assembly: Body material Aluminum Weight 0.83 lb (376 g) Length 4.10 in (104 mm) Max diam 1.63 in (41 mm) Max thread diam 1.48 in (37.6 mm) Booster: Body material Aluminum Type Stab Explosives: 1st charge Potassium chlorate, antimony sulfide, nitride 2d charge Nitride 3d charge Tetryl Explosive wt: 1st charge 0.03 g (0.46 gr) 2d charge 0.275 g (4.23 gr) 3d charge 0.1 g (1.5 gr) Functional data: Arming method Air vane Firing method Impact Safety devices Arming distance ** Arming time *Sealed wire locking fuze nose clamp and timing disk stop pm, safety block detent on spring-loaded firing pin, ball detent on spring-loaded firing pm. **Fuze arms after 10 revolutions of arming vanes. 5-46 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (fig 5-15) 4 36 AST-116011-001-75 Fuze, MT, Model CD-17 FOM No. 1390-17-3-1 II ALL DIMENSIONS IN INCHES Neg. 517124 (UNCLASSIFIED) Figure 5-15. Fuze, MT, Model CD-17, contour and section views (U). Arming during handling and transportation is prevented by means of a scaled arming wire (17), which has to be replaced by another wire prior to bomb insertion. The fuze may be set for 5 to 90 seconds by loosening the knurled head set screw (6) and rotating the setting dial to desired time of flight. Upon bomb release, the wire replacing the arming wire (17) must be removed to release the spring-loaded timing-disk stop pin (14) and nose clamp (15). As the bomb drops, the arming vanes (2) rotate in the air stream, and the threaded bushing (3) moves down to free the safety block (1). With safety block drop off, the spring-loaded firing pin (12) is armed. 5-47 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, MT, Model CD-17 FOM No. 1390-17-3-1 (U) Functioning (Continued) The fixed pinion (5) and gear (4) on the threaded bushing act as stops so that the bushing will not rotate with the arming vanes. At completion of arming, gear (4) is no longer engaged with the fixed pinon; therefore, the bushing (3) rotates freely with the arming vanes. The disengaged gear prevents disarming once arming is accomplished. Time delay is achieved by the mainspnng (10) dnven movement with runaway escapement (11). With the pin stop (14) removed, the timing disk (9) rotates until the prescribed time is reached. A segment (8) then drops into the slot in the timing disk. This releases another segment (16), which releases the firing-pin decent pin (7). The detent pin (7) then moves out, and the spring-loaded firing pin (12) is released, stabbing the booster (13) and initiating the photo flash bomb. (U) Applications (Ammunition and Weapons) Ammunition Weapons 150-lb photo flash bombs; 500-lb cluster bombs Fighter bombers or bombers. 5-48 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, MTSQ, Model 544 (Dixi) FOM No. 1390-18-1-8 Neg. 507934 (UNCLASSIFIED) Figure 5-16. Fuze, MTSQ, Model 544, full view (U). (U) Description The Dixi MTSQ fuze, Model 554 (fig 5-16), was designed to be used primiarly in US 105-mm howitzer ammunition. The fuze is bore safe inasmuch as it is unarmed until it reaches maximum rotational velocity at the muzzle of the weapon. Grooves in the nose and body permit the fuze to be set in a fuze setter. Settings can be read to 0.2 second. (U) Unique Features Dixi Will modify this fuze to accommodate gravitational forces ranging from a low of 3,000 r/min to a high of 40,000 r/min to satisfy customer requirements. 5-49 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, MTSQ, Model 544 (OW) FOM No. 1390-18-1-8 (U) Characteristics Fuze assembly: Body material Brass w/aluminum base Weight 0.65 kg Markings 544 Booster: Body material Body length Ex plosive Explosive weight Functional data: Arming method Setback & spin Firing method Time/impact Safety devices Spin-freed firing pin Arming distance 7 Arming time 0.2 s for SQ Variable time 3 to 75 s Delay time none 5-50 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning (fig 5-17) Neg. 507935 24 DIAM I? DIAM 14 TRI ALL DIMENSIONS IN INCHES AST-1160H-001-75 Fuze, MTSQ, Model 544 (Dixi) FOM No. 1390-18-1-8 (UNCLASSIFIED) Figure 5-17. Fuze, MTSQ, Model 544, section view (U). To set the fuze, the nose (1) and the escapement housing (7) that are fixed on the grooved base (10) in which the driving balls (11) are housed form a unit that is rotated in respect to the body (18). When the nose is turned right or left, the distance between the notch on the timing disk (12) and the trigger (13) is changed. The setting indicated on the nose corresponds directly with the time that the disk needs to travel until the trigger falls into the notch of the timing disk. On firing, inertia causes the setback weight (5) to press against the locking pins (8), which fit into a recess between the body and the grooved base. At the same time, the escapement lock (6) is moved rearward, unlocking the movement. Spin causes the escapement lock to tip the side, preventing its return when acceleration 5-51 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, MTSQ, Model 544 (Dixi) FOM No. 1390-18-1-8 (U) Functioning (Continued) ceases. When acceleration ceases, the mechanism is driven by the driving balls. At the end of the set time, the notch of the timing disk readies the place where the point of the triKer, driven by spin enters the notch. This action unlocks the detonator housing (15), which moves outward under the effect of spin. This motion drives the detonator (16) against the firing pin (14), initiating the round. During both transportation and the first few seconds of flight, the PD firing pin (2) is blocked from the primer (4) by the washer (3). At the end of the designated time, the movement unlocks the firing pin, arming the fuze. On impact of the projectile, the firing pin is driven into the primer, initiating the relay, which is contained in the housing (17). (U) Applications (Arnmunition and Weapons) Ammunition Weapons 105-mm HE cartridge US M101/M101A1 howitzers, Italian 105-mm pack howitzer, Model M14 5-52 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Description AST-116011-001-M Fuze, MTSQ, 30 second (Tavaro) FOM No. 1390-18-1-16 The Tavaro MTSQ fuze was designed to be fired with high-explosive projectiles from 90-mm antiaircraft guns. It can be set in 0.2-second increments to function from 1 to 30 seconds after finng. Safety during handling is achieved by means of pin-activated detents on the clock escapement mechanism. This fuze is similar to the US M43A5 fuze. (U) Characteristics Fuze Assembly: Body material Steel Weight 0.60 kg (1.32 lb) Markings Does not apply Booster: Body material Body length Explosive Explosive weight Functional data: Arming method Firing method Safety devices Arming distance Arming time Variable time Delay time Does not apply Does not apply Does not apply Does not apply Setback & spin Time/impact Spin-activated detents Does not apply Does not apply 1 to 30 s None 5-53 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, MTSQ, 30 second (Tavaro) FOM No. 1390-184-16 (U) Functioning (fig 5-18) A o ,RPIIIF ? kkit A a te-=-Ny Le. Trys, 1 r i bi4 A- fit ' f t it AIM AVM Nk i '-.11k ?jislatm?'4 1 OK !Easacih - la ?gnu &ism lining r I _vie 9, a-. alirj -swam Original Neg. 507943 ALL DIMENSIONS IN INCHFc (UNCLASSIFIED Figure 5-18. Fun, MTSQ (Tavaro), contour and section views (U). Upon firing, centrifugal force moves the rack (3) outward, freeing the upper plunger (2) for impact action. Friction in the rack-and-pinion system retards the rack's motion. If impact should occur before the timing device has freed the lower plunger (10), the upper plunger will fire the detonator (5). The shock wave from the detonator follows a free path around the timer to set off the primer (14). 5-54 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, MTSQ, 30 second (Tavaro) FOM No. 1390-18-1-16 (U) Functioning (Continued) The MT function is provided by a mainspring-driven clock mechanism (9) that incorporates a cylindrical pallet and torsion bar escapement system. The fuze is set to the desired time by rotating the nose (1). Torsion-spring action provides constant setting torque. During setting, the timing cup of the clock mechanism rotates with the center section (4) and the nose. Upon firing, setback causes the weight (6) to shear off the pin (17) and drive the locking pin (18) into the fuze body (20). The set position of the fuze is then fixed. The mainspring, regulated by the timing mechanism, drives the timing cup. The stop (13) prevents the timing-cup pin from rotating. After setting, the stop is no longer an obstacle. Setback causes the weight (11) to move back and rotate the timing-cup pin clear. The spin-activated detents on the escapement are now liberated. As time elapses, the timing cup rotates to set the location where the segment (19) moves into the opening in the timing cup under centrifugal force; thus freeing the lower plunger (10). The spring-loaded plunger then ignites the primer. The segment (16) rotates with the opening during setting, thus preventing the segment (19) from moving out before the set time. (U) Applications (Ammunition and Weapons) Ammunition Weapons 90-mm HE projectile ? 90-mm AA guns 5-55 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL OrirOnel Neg. 517 ?It C) Description AST-1160H-001-75 Fuze, MT, Model STIDR M/70, URVgrk FOM No. 1390481 19 (UNCLASSIFIED) Figure 5-19. Fuze, MT, Model STIDR M/70, URVgrk (U). The M/70 MT fuze (fig 5-19) was developed by Forenacle Fabriksverken of Eskitsruna, Sweden, for use with smoke and illumination mortar projectiles. It employs a 60-second timer developed by Thiel of Sweden, The fuze is graduated in 0.5-second increments and is reportedly accurate up to a ?03 second. It employs three safeties to preclude early start of the clockwork. Upon elapse of the time setting, a firing pin initiates a percussion cap, setting off a 10-gram (0.022-lb) black powder expelling charge, Exact design details are not known at this time. 5-57 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 (This page intentionally left blank) 5-58 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original CLOSING DISK (WINDSHIELD) AST-1160H-001-75 Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 DETONATOR ? (5 7 GR AZ) HAND RACE HAND - ).? Z 0" DIAM ?4 (14 Threads Per Inch) TENSIONING SCREWS (3) DETONATOR HOLDER (LOWER) - --SAFETY CAP STRIKER HEAD NEEDLE STRIKER CUP _ HEAD DETONATOR HOLDER (UPPER) PELLET HOLDER - POWDER PELLET )- LOCKING WEIGHT SHEAR WIRE (31 LOCKING PIN (3) -DOME DETONATOR (5 7. GR. AZ) SHUTTER RETAINING SCREW STEMMED C E. BOTTOM CAP UNARMED TENSIONING RING BODY TIME MECHANISM -- DOWEL PIN MAGAZINE SECURING RING BOXCLOTH DISC ? ? C E. PELLET PAPER TABLET SHUTTER SPRING -- SHUTTER UNARMED ON FIRING Neg. 552520 SHUTTER ARMED ON IMPACT (CONFIDENTIAL) Figure 5-20. Fuze, MTSQ, Model No. 213 Mk 5, full and section views (U). 5-59 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 (C) Description The Mk 5 No. 213 fuze (fig 5-20) is an MT fuze with a backup impact function. It employs an 80-second time mechanism (FOM No. 1390-35-10-1). (See section VIII for detailed description.) This fuze was designed by the United Kingdom for use with high-explosive and color bursting artillery projectiles. (C) Characteristics Fuze assembly Body material Steel or brass Weight Markings 213 Mk 5 Max length 4.875 in (123.8 mm) Thread diam 2.00 in (50.8 mm) TPI 14 Booster: Body material Body length Explosive Explosive weight Functional data: Arming method Firing method Safety devices Arming distance Arming time (C) Design Details (fig 5-20) Brass 2 Tetryl 7 Setback & centrifugally armed Time & impact Safety cap & out-of-line detonator 7 7 General. The Mk 5 No. 213 fuze is fitted with a mechanical timing mechanism which is operated by a mainspring and controlled by an escapement. The time of bursting of the shell can be varied to actuate between 0 and 80 seconds after the gun is fired. The upper part of the fuze is arranged for direct percussion action on impact. The fuze consists principally of a body, dome, head, locking weight, striker head with needle, detonator 5-60 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 (C) Design Details (Continued) holders (upper and lower), pellet holder, shutter, magazine and cap, tensioning ring, timing mechanism (80 seconds) No. 1A, and a safety cap. The exterior of the body is threaded at the bottom to 2-inch diameter (14 TPI, right hand) to screw into the nose of the shell. The top of the body is enlarged and shaped to conform to the contour of the shell: this contour is maintained by the dome and lower portion of the head of the fuze; the upper portion of the head is shaped to the same contour as the No. 117 and 119 (b) (cap off) fuzes. A platform divides the interior of the body. The upper part contains the movement, a recess in the underside of the platform takes the lower detonator holder, and the bottom part contains the shutter and magazine. A brass dome covers the top of the clock and can be rotated in the fuze body. The dome is retained by a spring-tensioning ring which fits in an internal groove near the foot of the dome. Inside the head of the fuze is a locking weight. On firing, the setback of this weight breaks the shear wires and drives the locking pins downward. The locking pins cut through the upper edge of the body surrounding the time mechanism, thus locking the dome in the position in which it has been set. Beneath the locking weight is a platform or hand race, across which a shaped slot is cut. Rotation of the dome positions the slot and thereby sets the fuze. The clockwork mechanism rotates a spring-loaded hand beneath the hand race; it is driven by a mainspring and controlled by an escapement through a train of gear wheels. The clock work mechanism is started by firing the gun, the hand being released for rotation by the setback of a trigger. Clockwork mechanism. The clock Is assembled as a complete unit and fixed to the top of the platform in the fuze body. The "Mechanism, time, 80 seconds, No. 1A" is described in section VIII. Head. The head, made of an aluminum alloy, is shaped to fit the contour of the fuze dome into which it screws. The top is threaded externally to accommodate the safety cap. Internally, it is bored from the bottom to accommodate the locking weight, a pellet holder, and, on a smaller diameter, to accommodate the upper detonator holder. From the top it is bored to accommodate the striker cup and striker head with needle (firing pin). After assembly of the striker, the recess in the top of the head is closed by a closing disk and washer which are secured by turning over a lip formed in the top of the head. 5-61 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 (C) Design Details (Continued) Body. The body, made of brass or steel, is formed with a shoulder, below which it is threaded to 2-inch diameter [14 threads per inch (TPI), right hand] to fit the fuze hole of the shell. Above the shoulder is an inclined surface graduated "0" to "80" and engraved in black with an arrow head and the word "SAFE" and filled in with red in the ungraduated space between the figures "80" and "0". Internally, the upper body contains the clockwork mechanism, below which is the lower detonator holder. A slot in the top of the magazine houses a movable shutter retained in the unarmed or safe position by a steel spring. Striker. The striker consists of a steel striker head and needle. The needle formed with a flange, seats in a recess formed in the striker head and is secured by turning over a lip. The striker is held from the upper percussion detonator by a striker cup through which the needle protrudes. Detonator holder. (Upper). This is a cylindrical aluminum alloy holder with a flange formed at the base. Internally, the top is recessed to take a varnished 5.5-gr (0.36-gram) "LZ" detonator (QX 216 AF); below this it is bored to form a flash channel. It is inserted in the fuze head from underneath, with the detonator immediately beneath the striker needle. Detonator holder. (Lower). This is assembled off center on the underside of the platform above the sliding shutter. The brass holder is recessed to accommodate a 5.5-gr (0.36-gram) "LZ" detonator, which is secured in position by burring over a lip formed on the holder. A hole is bored through the bottom of the detonator recess to permit the flash from the detonator to pass to the oblique channel in the shutter when in the armed position. Pellet holder. The cylindrical pellet holder is made of aluminum alloy. Externally, it is threaded at the top, and a hole is formed in the base. It contains a perforated black power pellet. It is assembled in the head below the flange on the detonator holder (upper). Shutter (i.e., slider). The brass shutter slides in a slot on top of the magazine (i.e., booster). At one end is an oblique channel filled with tetryl. A small hole in the side takes the end of a steel shutter spring, which pivots on a dowel pin and keeps the shutter at the center in the unarmed or safe position. In this position the oblique channel is clear of both the detonator and magazine channel. 5-62 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1 1MO-001-75 Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 (C) Design Details (Continued) When the shell is in flight, centrifugal force overcomes the spring and pulls the shutter outward to the open or armed position. In this position the lower detonator, shutter channel, and magazine channel are all in alignment. Detonators. The upper detonator is a 5.5-gr (0.36-gram) "LZ" percussion detonator in a lugless, tinned, copper-alloy cup. The disk is varnished and colored blue for identification purposes. The lower detonator is a 5.5-gr(0.36-gram)"LZ" time detonator in a lugless, tinned, copper-alloy cup. It differs from the upper detonator in that the disk is NOT varnished and it is colored red. Magazine (i.e., booster) securing ring. This is a brass collar threaded on the outside to enter the fuze body from underneath. It surrounds the magazine and secures it by bearing on the undersurface of the flange formed on the upper part of the magazine. The ring is secured by a No. 2 BA steel set screw inserted from the side of the threaded portion near the bottom of the fuze body. Four slots at the bottom are for an assembly cool. Magazine (i.e., booster). The magazine is made of brass and threaded externally at the bottom to take a bottom cap. It is bored from the underside to form a recess to take a terryl pellet sealed by a box-cloth disk, and retained in position by the bottom cap. A flange is formed towards the top of the magazine, the undersurface of which forms a bearing for the magazine securing ring. The top forms a platform for the shutter assembly. A slot across the top accommodates the sliding shutter. A dowel pin in the recess forms a pivot for the shutter spring, and another positions the magazine to the fuze body platform. A small channel off center, with a diaphragm of metal left at the top, leads from the shutter slot to the recess in the magazine. It is filled with tetryl. The magazine is held in position by the magazine securing ring. Magazine cap (QX 1599). Made of lead-free brass designed to withstand the required closing torque, the magazine cap is internally threaded. It screws over the bottom of the magazine and retains the tetryl pellet and box-cloth disk in position. After filling the magazine, the cap is screwed on and then crimped in two or more equidistant-spaced places to prevent it unscrewing. 5-63 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 (C) Design Details (Continued) Safety cap. Made of steel or malleable cast iron, the safety cap is dome shaped with a flattened top and a flat steel spnng riveted into an oblique slot on one side. The free end of the spring engages in the milling on the fuze head and retains the cap in position. The cap is formed with a milled ring around its circumference and is internally threaded at its lower end for engagement with the threads formed on top of the fuze head. The cap is painted or lacquered black externally. Tin-plating. Some components are tin-plated to overcome possible deterioration of the fuze during storage and thus improve its safety. The components so treated are magazine, body (internal), detonator holders, shutter, and striker cup. (C) Safety ? The safety cap protects the windshield and striker head during storage and transit. ? When the fuze is set at SAFE, the hand race in the dome is coincident with the hand that is prevented from rising by the muzzle safety device bridge. ? The tensioning ring prevents the dome being accidentally moved during storage and transit. ? Three equidistant-spaced shear wires secure the locking weight to the wall of the head, preventing movement of the locking weight before firing. ? When in the unarmed position, the shutter masks off the stemmed tetryl in the magazine channel and prevents a prematurely fired lower detonator from initiating the tetryl pellet in the magazine. ? The tngger prevents the hand from rotating and the time mechanism from starting until the gun is fired. 5-64 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-76 Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 (C) Safety (Continued) ? The centrifugal safety catch is housed under the striker cam until the shell rotates in flight. It serves a dual purpose: (1) In the event of the clockwork mechanism being set in action accidentally the catch prevents the striker reaching the detonator. (2) If a fuze with the clockwork mechanism accidentally set in action were loaded and the gun fired, the centrifugal safety catch would be prevented from swinging out from under the cam as the latter would, immediately as the hand is lifted, jam down on to a step cut in the catch for this purpose. ? The muzzle safety bridge prevents the hand rising until the shell is well clear of the muzzle. This device operates if the fuze is set too short. (C) Functioning Prior to loading, the fuze is set to the time required, and the safety cap is removed. Timing mechanism operation: On firing. The locking weight in the head sets back, shearing the copper pins and forcing the locking pins downward. The pins cut through the top lip in the body and enter the recess formed in the dome. This locks dome and body together and prevents movement from the time set position. The trigger sets back and the trigger locking bolt is forced outward by its spring to retain the trigger. The hand is now released from the trigger, but prevented from rising by the muzzle safety device bridge. During acceleration in the bore, it is unlikely that the pellet will oscillate owing to the force of the setback. When the muzzle is reached, the hand begains to rotate in a counter-clockwise direction by the action of the mainspring. When acceleration ceases, the centrifugal safety catch flies outward, due to centrifugal force, and leaves the striker supported by its cam resting on the pillar. 5-65 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, MTSQ, Model No. 213 Mk 5 FOM No. 1390-35-1-6 (C) Functioning (Continued) During flight. The shutter moves outward against its springs, by centrifugal force, bringing the fire channel coincident with the lower detonator and the channel leading to the magazine. When the clockwork mechanism has run the prescribed time according to the setting, the hand has been brought immediately under the slots in the hand race and rises under the influence of its spring to release the lever that controls the striker. The release of the lever allows the spring to rotate the cam off the pillar and force the striker down on the detonator. The striker is forced by its spring into the detonator, which fires. The flash passes through the stemmed tetryl channel in the shutter to the tetryl pellet in the magazine. Percussion arrangement: On firing. The acceleration of the shell in the bore causes the shutter to set back and set up sufficient frictions in its recess to retain the shutter in the unarmed position while the shell is in the bore. During flight. When acceleration ceases, the shutter moves forward by momentum and outward by centrifugal force, to bring its fire channel in alignment with the lower detonator and the channel to the magazine. On impact. The cap having been removed before loading, the striker head is crushed in and the needle pierces and fires the upper detonator. The resultant wave ignites the gunpowder pellet, the flash from which passes through the dome and fuze body to detonate the lower (time) detonator. The subsequent action is described under "Timing Mechanism." (C) Applications (Ammunition and Weapons) Ammunition Weapons HE and color-bursting projectiles 25-pounder gun, 5.5-in gun, and 7.2-in howitzer 5-66 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original COVER CAP MECHANISM SLEEVE DETONATOR HOLDER N DETONATOR (1 93 GR BP/ - SPRING 0 705 LT__ 2 00" DIAM (14 Threads per Inch) SET SCREW TOP RING ? BOTTOM RING ? BODY -- AST-1160H-001-75 Fuze, Time, Model No. 390 Mk 1 FOM No. 1390-35-1-29 FUNCTION OF TIME RINGS TOP RING MECHANISM SLEEVE PLUG CLOTH DISK BOTTOM RING FUZE POWDER SECURING PIN NEEDLE CLOTH WASHERS NEEDLE MAGAZINE RING -. PELLET POWDER' MAGAZINE...._. PELLETS BASE PLUG ? CLOSING DISK Neg. 552521 (C) Description UNARMED ON FIRING (CONFIDENTIAL) Figure 5-21. Fuze, time, Model No. 390 Mk 1, full and section views (U). The UK No. 390 Mk 1 fuze (fig 5-21) was designed for base-ejection smoke projectiles fired from mortars and field guns. It is a pyrotechnic time train fuze with a top and bottom ring designed to give a burning time between 0 and 23 seconds time of flight. The haze has a cover secured by a wire that has to be removed prior to setting the fuze to the desired time of flight. 5-67 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-116011-001-75 Original Fuze, Time, Model No. 390 Mk 1 FOM No. 1390-35-1-29 (C) Characteristics Fuze assembly: Body material Brass Weight Markings 390 Mk 1 Length 4.90 in (12.416 mm) Expelling charge magazine: Body material Body length Explosive Black powder Explosive weight Functional data: Arming method Setback Firing method Setback Safety devices (C) Design details (fig 5-21) General. The Mk 1 No. 390 fuze consists principally of a body, base plug, needle, spring, detonator-holder, mechanism sleeve and plug, magazine ring, detonator, bottom ring, top ring, cap, and cover. Body. The body is made of brass. The main feature of the body is the platform, below which it is reduced in diameter and threaded 14 TI'] right handed to fit a 2-inch-diameter hole. A stepped shoulder may or may not be formed on the lower edge of the platform. Above the platform, the body is formed with a stern, which is reduced in diameter at the upper end and threaded externally to receive a cap. Thc side of the platform is bevelled and graduated in quarter divisions for almost its entire circumference, the divisions reading from 0 to 30. At the center of the ungraduated portion, between the figures 30 and 0, is engraved a setting mark (a red arrowhead) below which appears the word "SAFE." The graduations are read in conjunction with a line engraved on the bottom ring; when the fuze is set at "safe," the setting mark engraved on the bottom ring coincides with When fine is set on safe, the ridges of the upper and lower tune rings provide a mechanical block of the flash holes between the lower ring and the black powder expelling charge. 5-68 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-116014001-75 Fuze, Time, Model No. 390 Mk 1 FOM No. 1390-35-1-29 (C) Design Details. (Continued) the arrowhead. A hole is bored in the side of the platform for use with a fixing key. The stem is bored centrally from the top to receive the needle, spring and mechanism sleeve, and the detonator-holder and its detonator. Two oblique flash channels lead from the center bore (Le., the detonator channel) to the top time ring to allow the flame and gas from the detonator to circulate in the fuze body, thus ensuring less violent ignition of the time ring. The lower end of the body is bored and recessed to form a magazine and prepared with threads to receive a base plug; a short oblique and vertical channel, containing perforated powder pellets, connects the magazine with the top surface of the flange. The magazine is filled with not less then 80 grains of G.20 gunpowder. A wooden, plastic, or compressed paper ring fitted over a boss formed on the body inside the magazine recess serves to reduce the weight and also the capacity. Base plug. The base plug is made of either brass or zinc-alloy. It is dished on the inner surface and has a flash hole drilled in the center which is closed by a thin brass disk to which a paper disk is affixed with shellac. The plug is screwed into the base of the body and retains the gunpowder charge in the magazine recess, the base of the fuze being sealed with shellac varnish colored red. Needle. The steel needle (i.e., firing pin) is formed with an enlarged head, which acts as a needle pellet, and a long shank. The upper end of the shank is pointed to pierce the detonator. When assembled, it is housed in the center of the body. Spring. This is a spiral of 15 coils of 0.02-inch (0.51 mm) circular section steel wire. It is assembled between the base of the detonator-holder and the head of the needle and surrounds the needle shank. Detonator holder. The brass detonator holder is bored vertically and prepared to house the detonator. Mechanism sleeve. The brass mechanism sleeve is in the shape of a cylindrical tube. It is threaded externally at its lower end to screw into the top of the stem formed on the fuze body and threaded internally at the other end to accept the mechanism sleeve plug. Mechanism sleeve plug. The brass mechanism sleeve plug is formed with a flange, below which it is screw-threaded to engage in the top of the mechanism sleeve. A cloth disk 5-69 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, Time, Model No. 390 Mk 1 FOM No. 1390-35-1-29 (C) Design Details (Continued) Original is shellacked to its inner face, and a screwdriver slot is formed in the head to facilitate insertion. It is screwed into the upper end of the sleeve where it retains the detonator-holder with its detonator, spring, and needle in position. The spring, being in initial compression, prevents the detonator-holder from setting back and the needle from moving forward until the gun is fired. Magazine ring. The magazine ring is a shaped ring of either wood, plastic, or compressed paper. It is inserted and positioned over a boss formed in the magazine portion of the body. Detonator. The "BP" detonator weighs 1.93 grains (0.13 grams) and is assembled in the base of the detonator-holder. Bottom ring. The brass bottom ring is bevelled externally to conform to the shape of the flange of the fuze body. It has a concentric groove, filled with composition SR.227, pressed in and covered by a paper disk washer extending nearly all around its undersurface. A small recess is bored in the top surface and houses a perforated powder pellet. This recess, coincident with the beginning of the groove, is connected to the latter by an oblique channel. A gas escape hole, with an oval, aluminum-alloy sealing disk, is formed in the side of the ring. The ring has setting slots for engagement by a fuze-setting key, and a "setting" line is engraved for reading against the graduations on the flange of the fuze body. It is assembled over the stem of the body on which it is free to rotate, for setting purposes. Top ring. The brass top ring is similar to the bottom ring, but the external circumference is slightly smaller. The oblique channel is filled with pressed-in meal powder and connects the concentnc groove with the port in the stem of the film body when the ring is assembled in position. A gas escape hole, containing a gunpowder pellet retained by an oval, brass sealing disk, is formed in the side of the nng and also connects with the concentric groove and the oblique channel filled with the mealed powder. The concentric groove is filled with fuze powder SR 227 and covered by a paper washer shellacked over the base. Setting slots, for use in conjunction with those in the bottom ring, are cut in the periphery. The ring is assembled over the stem of the fuze body and on top of the bottom ring; it is prevented from rotating by a brass pin which fits coincident recesses prepared in the ring and stem. 5-70 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, Time, Model No. 390 Mk 1 FOM No. 1390-35-1-29 (C) Design Details (Continued) Cap. The cone-shaped cap is made of aluminum alloy. Internally, at the base, it is screw-threaded for assembly over the stem formed on the fuze body. Two holes are drilled radially in the sides to facilitate assembly. After the cap is screwed onto the fuze body, and the fuze is tensioned at 450 -?50 inch-ounces, a hole is drilled through into the stem, the inner portion of the hole in the cap being threaded. A set screw is then inserted and screwed home, the recess behind the screw being sealed with waterproofing composition. Cover. At the time of issue, a 2-inch cover (50.8 mm), time or time and percussion fuze No. 5, is assembled to the fuze. Made of brass and conical in shape, it is fitted with a rounded rubber ring at its lower end, the cover and ring being clamped to the fuze body by a securing band. The band fits under the platform of the body and is pressed tightly around and the ends secured by copper wire; the ends of the wire are twisted and tucked under the band. Alternatively, the cover may be held in position by a securing band secured by a tongue engaging in a slot, the tongue being turned over. A hole in the band coincides with one of the tommy holes in the body of the fuze. When issued, the cover is hermetically sealed. Waterproofing. The joints between the time rings, body and between ring and top cap, escape hole disks, and the set screw in the cap are sealed with Mark 8 Luting. Washers - time rings. Cloth, all wool, melton finish washers are affixed to the upper surface of the platform and of the bottom time ring to ensure a tight joint when assembled and also to prevent any flash-over. Washer for joint between shell and fuze. In the case of fuzes manufactured without a stepped shoulder formed on the fuze body, a brass or tin-plate washer 2.3 inches in diameter is placed under the flange of the fuze body before the fuze is assembled in the shell. This is to prevent pinching the securing band between the flange of the fuze and the lip of the shell, which would make removal difficult. (C) Safety ? Initial compression of needle spring keeps the detonator clear of the needle. 5-71 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, Time, Model No. 390 Mk 1 FOM No. 1390-35-1-29 (C) Safety (Continued) ? When the fuze is set at safe, the flash holes in the lower time ring and to the magazine are blocked by the ridges of the upper and lower time rings, respectively. This provides a double safety device against ignition of the magazine, should the initiating mechanism (i.e., detonator) function prematurely. (C) Preparation for Firing Original The cover must remain on the fuze until immediately before firing, when it is removed by using pliers on the securing wire or tongue of the cover band. The cover should then be eased off the fuze with a screwdriver. The fuze is then set to the required graduation on the body by rotating the setting mark on the bottom ring. (C) Functioning On firing. The detonator sets back on the needle, compressing the spring. The detonator is detonated, and the flash passes through the flash channels in the stem of the body and ignites the mealed powder in the oblique channel in the top ring. This, in turn, ignites the fuze composition, which blows out the closing disk in the gas-escape hole and thus provides a vent for the gases generated as the burning of the time train progresses. During flight. The composition in the top ring burns around until, after an interval of time determined by the setting, the flame reaches the powder pellet in the bottom ring; the pellet is fired and ignites the composition in the bottom ring, which blows out the closing disk in the gas escape hole. The composition in the bottom ring burns around in the reverse direction until, after an interval of time determined by the setting, the flame reaches the powder pellet in the vertical portion of the channel in the body of the fuze which is fired and ignites the pellet in the oblique channel and, in turn, the powder in the magazine. The powder in the magazine explodes, blows out the brass disk in the base plug and the resultant flame passes through to ignite the bunting charge in the head of the shell. (C) Summary of Differences ? Body. A stepped shoulder will always be formed on the underside of the platform of this fuze. A washed 2.3-inch (58.4-mm) diameter is therefore not required when fitting this fuze to a mortar bomb. 5-72 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, Time, Model No. 390 Mk 1 FOM No. 1390-35-1-29 (C) Summary of Differences (Continued) ? Bottom time ring. This fuze is filled with RD 202 instead of SR 227, making this fuze a 46-second fuze; the circular gas escape hole is sealed with an aluminum disk. ? Cap. Tensioned at 750 ?-50 inch-ounces before being secured. (C) Notes Prior to mid-1949, to distinguish them from Mk 1 No. 390 fuzes, the bottom rings of Mk 2 and 2A fuzes were painted or lacquered red to denote that they were filled with slow-burning composition; after that date, this identification was dispensed with. Approval has been given for all marks of fuze, other than those manufactured with a stepped shoulder, to have a brass or tinned-plate 2.3-inch (58.4-mm) diameter washer (QX/88) assembled, at the time of production, under the flange of the fuze to prevent pinching the securing band between the flange of the fuze and the lip of the projectile, thus making removal difficult. This washer was never introduced as a separately demandable item of supply. (C) Applications (Ammunition and Weapons) Ammunition Weapons BE smoke shell or mortar bomb Mk 1 for QF 20-pounder gun, Mk 2 and 2A for 3-in ML mortar 5-73 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original (This page intentionally left blank) 5-74 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original Neg. 516420 BASE FUZE AST 60H-001-75 Fuze, Time, Model FOM No. 1390-3714 FUZE ADAPTER FLAY HOUSING FUZE HOUSING RELAY (2! 5-22. Fuze, time, Model P. exploded and 52-mm p (U). 5-75 CONF DENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 (CONFIDENTIAL) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, Time, Model? FOM No. 1390-37-14 (C) Description The Israeli pyrotechnic time fuze is a base-delay type designed to initiate the black powder expelling charge of 52-mm illuminating mortar projectiles. It consists of the fuze adapter, delay housing, and fuze housing. (C) Unique Features Uses hot gases during firing to initiate two relay elements (dualized for reliability) that in turn initiates the pyrotechnic delay. (C) Characteristics Fuze adapter: Length 1.06 in (26.9 mm) Max diam 1.80 in (45.7 mm) Thread diam 1.19 in (30.2 mm) TPI 16 Fuze housing: Material Steel Length 1.93 in (49.0 mm) Max diam 1.66 in (42.2 mm) - Thread diam 0.49 in (12.0 mm) TPI 16 Delay holder housing: Length 1.05 in (26.7 mm) Max diam 0.63 in (16.0 mm) Thread diam 0.50 in (12.7 mm) TPI 20 Ex plosive Black powder ? Relay elements: No 2 Ty pe Heat sensitive Explosive Black powder ? 5-76 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original (C) Characteristics (Continued) Functional data: Firing method Hot gases Safety devices Pyrotechnic delay Delay time 8.25 s (C) Functioning 30 DIAM LSO DIAM 1 22 DIAM 1.66 DIAM 2.50 48 DIAM 0.25 DIAM 0.78 DIAM 0.51 DIAM Neg. 552572 49 DIAM 16 TPI ALL DIMENSIONS IN INCHES AST-1160H-001-75 Fuze, Time, Model? FOM No. 1390-37-14 Figure 5-23. Fuze, time, Model ?, contour and section views (U). (CONFIDENTIAL) Upon firing, the hot gases generated initiate two relay elements (6) located in the fuze housing (4). This, in turn, initiates the delay composition (3) contained in the delay housing (2), which screws into fuze adapter (1). After burning for about 8.25 seconds, the expelling charge (5) is initiated. The gas generated upon burning propels the illuminant candle and parachute assembly from the projectile. 5-77 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, Time, Model? FOM No. 1390-37-1-4 (U) Applications (Ammunition and Weapons) Original Ammunition Weapons 52-mm illuminating projectiles 52-mm mortar 5-78 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original Neg. 516414 AST?1160H-001-75 ?Fuze Time, Mode! [OM No, 139U-374-6 (CONFIDENTIAL) Figure 5-24, Fuze, time, Model ?, full view with pr 5-79 CONF DENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, Time, Model? FOM No. 1390-374-6 (C) Description The Israeli time fuze, Model ? (fig 5-24), was designed for use with 81-mm illuminating mortar projectiles. It utilizes a black powder time ring. The fuze can be set to provide time delays of 17.3, 19.2, 20.7, and23.9 seconds, respectively. A safety pin, used to prevent the firing pin from moving during handling, also locks the time setting cap. (C) Characteristics Fuze assembly: Body material Aluminum Weight Length 2.68 in (68 mm) Time ring material Brass Time train type Black powder Time train wt. 0.05 lb (22.7 g) Expulsion charge type Black powder Expulsion charge wt. 0.068 lb (30.8 g) Relay pellets (no.) 2 Relay pellets (type) Black powder Functional data: Arming method Setback Firing method Hot gases Safety devices Safety pin Arming distance Arming time Delay time 17.3, 19.2, 20.7, and 23.9s 5-80 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 (C) Design Details (fig 5-25) SAFETY PIN AND INSTRUCTION TAG RUBBER 0-RING BLACK POWDER RELAYS ; Fuze, Time, Model? FOM No. 1390-37-1-6 CI RCLIP SPRING LOCKING PIN PLASTIC FUZE DELAY-TIME SETTER RETAINING PLUG (11- FIRING PIN SETBACK SPRING ? FUZE BODY STEEL BUSHING TIME TRAIN RING SCREWS 3 .:>.....SCREWS BLACK POWDER - COVER PLATE RELAY 0 PAPER GASKET FLAT WASHER 0 EXPELLING CHARGE LOCKING NUT (BLACK POWDER) Neg. 516414 ALUMINUM SEAL 410 CLOSING CUP (CONFIDENTIAL) Figure 5-25. Fuze, time, Model ?, exploded view (U). 5-81 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL MT-1160H-001-75 Original Fuze, Time, Model? FOM No. 1390-374-6 (C) Design Details (Continued) The time fuze consists of two major assemblies: a conical-shaped aluminum body and a brass time train ring. A cylindrical steel insert, counterbored at the top and threaded at the bottom, is pressed axially through the fuze body. The joint between the fuze body and the time train ring is sealed with an 0-ring. A closure assembly is threaded into the base of the time train ring and moisture-proofed with varnish. The fuze body has one vent, which is sealed with epoxy. A transparent plastic time setting cap covers the fuze body. It locks into a slot provided and is ribbed longitudinally on the circumference for gripping purposes. A safety pin prevents movement of the setting cap and firing pin. (C) Functioning (fig 5-26) 2.68 35 .05 1.20 .25-? 21- 40- Neg. 552573 50 DIAM 97 DIAM 3.10 DIAM 3.11 DIAM 2.70 DIAM 20 TM ALL DIMENSIONS IN INCHES 14 13 (CONFIDENTIAL) Figure 5-26. Fuze, time, Model ?, contour and section views (U). 5-82 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 :CIA-IHT.0.213A413001:00030001-0 C Nit U Original AST-1160H-001-75 Fuze, Time, Model? FOM No. 1390-37-1-6 (C) Functioning (Continued) Prior to firing, the plastic time setting cap (13) and fuze body (14) are rotated to align the arrow (see fig 5-24) on the cap with the selected number on the projectile. The safety pin (1) and plastic time cap are then removed. Upon firing, setback forces causes the firing pin (2) to compress-the spring (3) stabbing the primer (4). The flash from the primer ignites relay pellets (5 and 7) in succession. Heat from the flash melts the epoxy (6), opening the vent in the fine. The burning relay pellet (7) then ignites the black powder charge (8) in the time ring (9). After the time ring charge completes the burning cycle predetermined by the fuze time setting, it ignites a relay pellet (11) in the time train ring. This, in turn, ignites the black powder expelling charge (10) for expulsion of the illuminant candle and parachute assembly of the projectile. (U) Applications (Ammunition and Weapons) Ammunition Weapons 81-mm illumination projectiles 81-mm mortar 5-83 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H 1-75 5-84 CONFIDENTIAL f,This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins AST-1160H-001-75 PROXIMITY (VT) FUZES 6-1 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins AST-1160H-001-75 Section VI. PROXIMITY (VT) FUZES GENERAL (U) Proximity (VT) fuzes have been designed or are under development for artillery, rocket, mortar, and bomb applications. These fuzes normally operate on the doppler or infrared principle by proximity sensing of the target; however, in the case of the indirect fire role, some designs are capacitance operated to provide lower burst and minimize electro-countermeasure detection. (U) Some of the earlier fuzes use tube electronics and chemical power, while some of the later ones are transistorized and in some cases use integrated-circuit chip technology and are mechanically powered via a turbine generator concept. (U) Most of the fuze developments included in this handbook require setback or centrifugal force environmental stimulus for arming; almost all have delayed arming?usually accomplished by mechanical, electrical, or pyrotechnic means. (U) Some of the fuzes described in this section surpass the current state-of-the-art of both tube electronic and chemically-powered fuzes. The fuzes presented in this handbook arc designed for either high- or low-"g" acceleration and for fin-(nonrotated) and spin-(rotated) stabilized projectiles or warheads. (U) Proximity fuzes arc sometimes designated as variable time (VT). Although "VT" is a misnomer, it has become an accepted term for proximity fuzing. 6-3 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNLLASSIFIEU Original AST-1160H-001-75 INDEX FOM No. Nomenclature* Page 1390-17-1-24 Fuze, Proximity, Model FU-RA-Fl 6-7 1390-19-1-4 Fuze, Proximity, Model FFV574 6-9 1390-19-1-5 Fuze, Proximity, Model ZELAR 6-15 1390-19-1-18 Fuze, VT, ZONAR 70 grk-12 6-19 1390-20-1-1 Fuze, Proximity, Type NVT-23 6-21 1390-20-1-2 Fuze, Proximity, Type NVT-26 6-23 1390-20-1-3 Fuze, Proximity, Type NVT-227 6-25 1390-20-1-4 Fuze, Proximity, Type NVT-2 6-27 1390-20-1-5 Fuze, Proximity, Type NVT-224 6-31 1390-20-1-6 Fuze, Proximity, NVT-24 6-33 1390-20-1-7 Fuze, VT, Model PPD327 6-35 1390-29-1-4 Fuze, VT, Model NINA 6-39 1390-37-1-1 Fuze, VT, Model I.P 6-43 *All fuze nomenclatures are UNCLASSIFIED. 6-5 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 LIST OF ILLUSTRATIONS Figure Title* Original Page 6-1 Fuze, proximity, Model FP-RA-F1, full view 6-7 6-2 Fuze, proximity, Model FFV574, full view 6-9 6-3 Fuze, proximity, Model FFV574, section view 6-10 6-4 Fuze, proximity, Model FFV574, S&A device 6-11 6-5 Comparison of HOB of doppler vs. capacitance fuzing 6-12 6-6 Fuze, proximity, Model ZELAR, full view 6-15 6-7 Fuze, VT, Model ZONAR 70 grk-12, full view 6-19 6-8 Fuze, proximity, Type NVT-23, full view 6-21 6-9 Fuze, proximity, Type NVT-23, section view 6-22 6-10 Fuze, proximity, Type NVT-26, full view 6-23 6-11 Fuze, proximity, Type NV'T-227, section view 6-25 6-12 Fuze, proximity, Type NVT-2, contour and full views 6-27 6-13 Fuze, proximity, Type NVT-2, section view 6-28 6-14 Fuze, VT, Model PPD 327, section and contour views 6-35 6-15 Fuze, VT, Model PPD 327, functioning sequence 6-37 6-16 Fuze, VT, Model I.P., contour view 6-43 6-17 Fuze, VT, Model I.P., exploded view 6-45 6-18 Fuze, VT, Model I.P., firing sequence 6-46 6-19 Fuze, VT, Model I.P., hermetically-scaled container and wooden box 6-47 *ALE figure titles are UNCLASSIFIED. 6-6 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Neg. 516985 (UNCLASS Figure 64. Fuze, proximity, Model FU-RA-F1, full view (U). AST-1160H4001-75 FU-KA-F1 FOM No 1390171-24 .Description The FUR AF I proximity fuze (fig 6-1) was developed by Telecommunications Radioelectriques ci Telephonigues (TAT) of Paris for use with French 155-mm, high-explosive, artillery projectiles, Model 1956. The fuze, which operates on the doppler principle, is standard for use by the French Army and is intended to increase the lethality of the French howitzer firepower. The fuze incorporates an hi, radioelcctric head composed of a detecting oscillator. The receiving element is an If amplifier terminating in a firing circuit. The fuze is powered by a battery and includes pyrotechnic delayed arming. Fuze functioning is initiated upon setback during firing. 6-7 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 Fuze, Proximity, Model FFV574 FOM No, 139019-14 (UNCLASSIFIED) ASS ED) igure 6-2. Fuze, proximity, Model FFV574, full view (U). (U) Description The FFV574 proximity fuze (Fig 6-2) is manufactured by Fdirenade Fabriksverken of Sweden. It is a transistorized, battery-powered fine used with 75- through 1SOmrn artillery projec 6-9 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, Proximity, Model FFV574 FOM No. 1390-19-1-4 (U) Characteristics Functional data: Arming method Setback and centrifugal force Firing method Impact and proximity Safety devices S&A Arming distance Arming time Self-destruct time 2 Delay time 0.12 s for impact 0.4 s (U) Design Details ANTENNA ELECTRONIC UNIT BATTERY SAFETY AND ARMING DEVICE TIMER MECHANISM ELECTRIC DETONATOR IMPACT MECHANISM SLIDER BOOSTER (UNCLASSIFIED) Figure 6-3. Fuze, proximity, Model FFV574, section view (U). 6-10 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Original Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, Proximity, Model FFV574 FOM No. 1390-19-1-4 (U) Design Details (Continued) The FFV574 VT fuze (fig 6-3) consists of an antenna, electronic unit (which includes an oscillator, frequency detector, amplifier, and noise filter), firing circuit, chemical battery, and S&A device. The S&A device, which functions on setback, includes a mechanical timer for delaying the movement of a spring-loaded slider housing an electric detonator. Figure 6-4 illustrates the component interface of the timer with the shutter (i.e., slider). DETENT 10 BALL 3 ANCHOR ELECTRIC DETONATOR 14 SAFETY 11 PLUNGER DETENT 10 SHUTTER 0 8 FLYWHEEL 7 ANCHOR WHEEL 6 GEAR WHEEL 4 SEGMENT 5 SEGMENT 2 SAFETY PIN 1 SETBACK PIN 16 DETONATOR BOLT 15 SPRING 12 SHUTTER SPRINC (UNCLASSIFIED) Figure 6-4. Fuze, proximity, Model FFV574, SSA device (U). 6-11 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 1 UNCLASSIFIED AST-116011-001-75 Original Fuze, Proximity, Model FFV574 FOM No. 1390-19-1-4 (U) Unique Features The manufacturer claims that the capacitance principle insures a uniform 1-meter height of burst (HOB) for a wide variety of soil conditions and is relatively impervious to electronic countermeasures. Figure 6-5 illustrates HOB of dobbler versus capacitance VT fuzing over different soil conditions. gt. CAPACITANCE 5 10 20 40 80 Neg. 518434 (UNCLASSIFIED) Figure 6-5. Comparison cf HOB of doppler vstapacitance fuzing (U). While the 1-meter HOB is less than optimum, it offers a significant improvement over impact detonation, and the FFV574 fuze is said to be considerably cheaper than doppler-type proximity fuzes. 6-12 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Functioning AST-1160H-001-75 Fuze, Proximity, Model FFV574 FOM No. 1390-19-1-4 The fuze is capacitance operated. The oscillator is tuned by the capacitance between the projectile and the isolated fuze "antenna." As the projectile approaches impact, the effective capacitance between these elements (element-to-ground capacitance) changes very rapidly, thus detumng the oscillator. FREQUENCY NOISE FIRING OSCILLATOR DETECTOR HAMPLIFIER FILTER CIRCUIT L7141 VARIABLE CAPACITANCE TO GROUND The frequency shift is detected, amplified, and conditioned to provide a trigger signal for the firing circuits. 6-13 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 1.95U Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY Original AST-1160H-001-75 Fuze, Proximity, Model ZELAR FOM No. 1390-19-1-5 Neg. 517470 (UNCLASSIFIED) Figure 6-6. Fuze, proximity, Model ZELAR, full view (U). (U) Description The ZELAR (fig 6-6) is manufactured by AB Bofors and Phillips AB of Sweden. It is a transistorized, battery-powered, proximity fuze used with 75- and 155-mm artillery projectiles. 6-15 FOR OFFICIAL USE ONLY (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 FOR OFFICIAL USE ONLY AST-1150H-001-75 Fuze, Proximity, Model ZELAR FOM No. 1390-19-1-5 (U) Unique Features Original The ZELAR permits selection of four impact delays and three proximity sensitivity settings, plus a safe position. Impact delays ? Position 1 provides a delay not to exceed 200 ms for producing ricochet bursts. ? Position 2 provides a delay not to exceed 25 ms for penetration of light Fortifications. ? Position 3 provides SQ functioning with high sensitivity. This feature would permit surface bursts on snow. ? Position 4 provides a low-sensitivity SQ functioning for use in heavy rain. Proximity delays ? Position 5 provides a proper burst height for normal soil conditions. ? Positions 6 and 7 provide a proper burst height for very dry and very wet soil conditions, respectively. ( FOUO) Functioning The proximity function is based on the doppler principle, powered by a reserve battery. A loop-type antenna is used, making the proximity function independent of projectile size. (U) S&A Features The battery electrolyte is encased in a glass ampule which is crushed at firing. When the selector is set at "SAFE," all electrical connections between the electronic assembly and the pyrotechnic chain are broken and initiation circuitry is short circuited. A spin-dependent contact prevents power from reaching the ignition circuit before firing. One delayed-arming 6-16 FOR OFFICIAL USE ONLY Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) S&A Features (Continued) AST-1160H-001-75 Fuze, Proximity, Model ZELAR FOM No. 1390-19-1-5 device is not released until the projectile is at least 75 meters from the muzzle. A second delay prevents initiation of the proximity function until 3 seconds after firing. (U) Characteristics Fuze assembly: Body material Weight Markings 900 g (1.98 lb) Functional data: Arming method Firing method Safety devices Arming distance Arming time Self-destruct time Delay time Frequency (for VT fuze only) Initial setback Impact and proximity Acceleration, rotation, delay 75 m (impact) 3 s (proximity) Impact Selectable 6-17 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-116011-001-75 Fuze, VT, Model ZONAR 70 grk-12 FOM No. 1390-194-D (CONFIDENTIAL) Figure 6-7. Fuze, VT, Model ZONAR 70 grk-12, full view (U). (C) Description The ZONAR 70 grk-12 (fig 6-7) was designed by A/S Kongsberg Openfabrik of Norway for use with the Swedish M58, 120-mm, HE, mortar projectile. The fuze is similar in design to the Norwegian NVT-24 (FOM No. 1390-20-1-6). The ZONAR 70 operates mechanically from the time of firing until 1 second has elapsed on the descending leg of the trajectory; the fuze then operates on the doppler principle In Swedish tests using high-powered and directional jammers, the ZONAR 70 could be jammed; however, Swedish planners assume that the enemy is not likely to concentrate jamming signals of the required magnitude on the battlefield. 6-19 CONFIDENTIAL , Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL ASh l6OH-OO175 Fuze, VT, Model Z NAR 70 grk-12 FOM No, 1390-19.118 IC) Description (Continued) Original The ?norma c was 4% to a under no.-ja.rnmin conditions, Rep ZONAR 70 gave a more consistent ROB 0.5 meters at 650 angle of ralb than the EFV574, capacitance-type, VT fuze. The ZONAR 70 will be used by the Norlands brigades only, because of deep snow country. 6-20 CONFIDENTIAL _Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original ription AST 01-75 Fuze, Proximity, Type NVT-23 FOM No. 1390-2041 (UNCL, MED) Figure 6,9. Fuze, proximity Type NVT-23, full view (U The NVT-23 (fig 6-8), which is manufactured by Kongsberg Vapcn a specific development uf the NVT-2 prototype, self-powered, proxirnt the M43/M43A1 81-mm mortar projectiles. The features are the same as No. 1390-20-1-4) (see app III). 6-21 UNCLASS F ED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 )rik of Norway, is fuze for use with the NVI-2 (FOM Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, Proximity, Type NlIT-23 FOM No, 1390-20-1-1 (,U) Design Details Original ; li - FLRBINE 10 GEAR V 18 - ARMING FORK 26 - BOOSTER 2,3 it() MK SCREEN PLATE 19 ARMING SHAFT 27 - CONTACT S THREADS 4 GUAR I 12 - ELECTRONIC 20 ARMING SPRING 28 - HOLE FOR PACKAGE CONTACT PIN 5 - BEARING 13 PRI NTL[) 21 - LOCKING PIN 29 - NOSE COVER CIRCUIT 6 COIL FORMER 14 OSCILLATOR 22 - ARMING SHAFT 30 - DETONATOR PLATE THREADS CONTACT SrAToR 15 ELECTRONIC 23 - FORK SPRING 31 - DETONATOR HoUS1NG HOUSING GEAR 110x 16 - INSULATOR 24 - TETRYL CHARGE32 - SHUTTER 17 ARMING SHAFT 25 - DETONATOR 33 - SA CONTAINER 177 34 - CONNECTION SPRING (UNCLASSIFIED) Figure GM, Fun, proximity, Type NVT-23, section view (U). Figure 6-9 ?i!J.tocracto the cur/wore-ins of the NVT-23 design. 6-29 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original (C-NFD) Description ASTI1?H Fuze, Proximity, Type NV1'-26 FOM No. 1390-20-1-2 (UNCLASSIFIED) Figure 6-10. Fuze, pro The NVT-26 (fig 6-10) elf-powered, proximity fuze modification consists of a better the object of obtaining nearer opt mity, Type NVT-26, full vie (Li). modification of the Kongsberg V3penfabrik NVT-23, use with the M49A2 60-mm mortar projectile. The of the antenna to the M49A2E2, 60-mm shell with urst height for all charges (see app NO FOREIGN DISSEN 6-23 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST 60H-001-15 (This page intentionally left blank) NO FOREIGN DISSEM 6-24 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Or4gnaI ASTi16OHOO1J5 NOSE CAP Fuze, Proximity, Type NVT-227 FOM No. 1390-20-1-3 SE PORTIO REDUCTION GEAR UPPER FUZE BODY LOWER FUZE BODY ENERATOR TURBI UNIT ELECTR UNIT SU DEA Neg. 5111439 NERATOR ARMINGHAFT S&A DEVICE ARMING FORK BOOSTER ASSEMBLY (UNCLASSIFIED) Figure 6-11. Fuze, proximity, Type NVT227, section view (U). 6-25 UNCLASSIF D Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, Proximity, Type NVT-227 FOM No. 1390-204-3 (U) Description Original The NVT-227 (fig 6-11), which is manufactured by Kongsberg V3pen1ahrik of Norway, is a specific adaptation of the NVT-224, self-powered, proximity fuze for use with the M49A4, 60-mm mortar projectile. This adaptation was pursued because of the generally unsatisfactory performance of the NV*1-26 fuze (see app III). (U) Modifications to NVT-224 Lowering the start and stop torques of the turbine generator to accommodate the lower muzzle velocity of the 60-mm projectile. Removing the apex sensor from the safety and arming chain to accommodate the very low velocity change associated with the apex of charge-2 trajectories. Raising the oscillator frequency to improve antenna performance and increase doppler sensitivity. 6-26 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Orisinal c't Neg. 5111440 1,12S" 20 N5-1 LI 15" -12 NE tg- -465 - FUZE WEIGHT 240 # AST-1150H-001-75 Fuze, Proximity, Type NVT-2 FOM No. 1390-204-4 ALL DiMENSIGNS tJ NM UNLESS OTHERWISE STATED FUZE WEIGHT. 3454 (UNCLASSIFIED) Figure 6-12, Fuze, proximity, Type NVT-2, contour and full views (U). rt.!) Description The NVT-2 (fig 642) is ?a morotype, transistorized, self-powered, proximity fuze for mortar projectiles. Kongsberg Openfabrik of Norway manufactures the NVT-2 in two different sizes and weights to accommodate different size projectiles, Both fuzes function identically. 6-27 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-0 7 Fuze, Proximity, Type NVT-2 FOM No. 1390-204-4 f,U, Unique Features distinguishing feature of the NVT-2 is the use of a turbine that generates the electrical energy necessary to operate the fuze, and provides the mechanical energy to activate the S&A mechanism. The storage life of the fuze is thus indefinite. (See fig 6-13 for main components.) (UNCLAS D Figure 6-13. Fuze, proximity, Type 2 section vie (U). Functioning The NVT-2 is a CW/cloppler-type fuze. The doppler signal is passed through a two-stage amplifier, filter, and pulse-shaping circuit. A cumulative signal effect drives the amplifier output into saturation, triggering the thyristors which ignite the tetryl primer. The height of detonation is set during production for the optimum height for the projectile to be used. 6-28 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, Proximity, Type NVT-2 FOM No. 1390-20-1-4 (U) Functioning (Continued) Thus, otherwise interchangeable fuzes will produce different heights of burst for different projectile types. An impact switch is used to provide an electrical backup detonation in case the proximity sensing electronics should fail. (U) S&A The high-speed turbine drives a rotating arming shaft through a suitable reduction gear. This, in turn, withdraws the arming fork, permitting a tetryl pellet lead-through to rotate into position, and also permitting electrical connections to the primer. This technique is independent of setback and, within limits, muzzle velocity. The turbine requires a sustained projectile velocity of at least 50 m/s so that mechanical arming takes place approximately 150 meters from the muzzle. The newest model incorporates an apex sensor to insure that arming will not take place until after the projectile has passed the maximum trajectory ordinate. (U) Characteristics Fuze assembly: Body material 2 Weight 240 g (0.53 lb), 345 g (0.76 lb) Markings 7 Booster: Body material 2 Body length Explosive tetryl Explosive weight Functional data: Arming method Firing method Safety devices Arming distance Arming time Self-destruct time Delay time Frequency (for VT fuze only) 6-29 Sustained projectile velocity CW doppler Protective nose cap locks turbine 150 m Independent of muzzle velocity Impact s UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, Proximity, Type NVT-2 FOM No. 1390-20-1-4 (U) Applications* (Ammunition and Weapons) Ammunition Weapons 60-mm M49 81-mm M43, 81-mm L15A1 120-mm DM11 120-mm PEPA-LP (rocket-assisted) 107-mm M329 60-mm US 81-mm US, 81-mm UK L16A1 120-mm Tampella, 120-mm Hotchkiss-Brandt 107-mm US The NVT-2 is a prototype (uze. These applications reflect manufacturer's claims. Specific adaptations have been developed for a number of projectiles (see app III). 6-30 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, Proximity, Type NVT-224 FOM No. 1390-20-1-5 (U) Description The NVT-224, which is manufactured by Kongsberg Vapenfabrik of Norway, is a version of the NVT-23, self-powered, proximity fuze used with the M43A1 81-mm mortar projectile. While the basic concept is the same as the NVT-23, the design is more flexible, permitting modification for use with other weapons. The NVT-224 also incorporates silicon transistors for greater reliability and a much stronger antenna insulating ring. 6-31 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 RAI\ K PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H001-75 Fuze, Proximity, Type NVT-24 FOM No. 139O-2O-1- (U) Description The NVT-24 is manufactured by Kongsberg Vipenfabrik of Norway. It is a specific adaptation of the NVT-23, self-powered, proximity fuze for use with 120-mm mortar projectiles. 6-33 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins AST-1160H-001-75 SAFE Neg. 518436 TURBO-ALTERNATOR IF HF PIMA S&A MECH PPD 327 SETBACK SWITCH BOOSTER CHARGE Fuze, VT, Model PPD 327 FOM No. 1390-20-1-7 (UNCLASSIFIED) Figure 6-14. Fun, VT, Model PPD 327, section and contour views (U). (U) Description The proximity/PD fuze PPD 327 (fig 6-14) is based on the CW/doppler principle. The fuze is designed to detonate the 60-mm mortar projectile at an optimum height above the target in open terrain. If the proximity function fails, a sensitive stab detonator initiates the explosive filling at impact. The fuze can be set (externally) for point detonation and can be reset back to proximity function if desired. 6-35 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, VT, Model PPD 327 FOM No. 1390-20-1-7 (U) Design details Original Fuze arrangement. The fuze arrangement is shown in figure 6-14. The fuze consists of an electronic section and a pyrotechnic section; the two section are joined just ahead of the wrench slot. The turbo-alternator is placed in the front of the electronic section, then the LF unit and the HF unit. The electronic section forms the front half of the antenna. The pyrotechnic section contains the S&A mechanism and booster charges. The pyrotechnic section together with the projectile forms the rear half of the antenna, which is a skew dipole (fig 6-15). The option switch is placed outside the electronic section and is resettable. For the PD function, the alternator is shortcircuited. Turbo-alternator. The turbo-alternator is an improved version of the existing KV models, which have proved to have a very high reliability. The turbo-alternator is fitted with a gearbox by which mechanical energy is transferred to the S&A mechanism. LF unit. The generator ac voltage is rectified and ripple-filtered before regulator input. The regulator is a part of a silicon integrated circuit specially designed for turbine-powered proximity fuzes. A fixed-time delay in conjunction with a special apex sensor makes the fuze safe for several seconds of flight. Another part of the integrated circuit is an amplifier. The band-pass characteristics are set to the doppler signal band. The amplifier is used to fire the detonator via the trigger and firing circuits. The amplifier gain and the trigger-threshold level are well defined by the use of feedback technique. S&A unit. The S&A mechanism is connected to the turbo-alternator via an arming shaft with spline coupling. The S&A mechanism consists of a spring-loaded rotor with one electric detonator and one stab detonator. In the safe position the rotor is locked with two rollers held in two grooves in the rotor by the arming shaft, the explosive chain is out-of-line, the electric detonator is short circuited, and the stab detonator is out-of-line with its firing pin. An integrating, setback detent is also contained in the rotor, so that in the safe position the rotor is locked and the arming shaft prevented from rotation. This feature greatly increases the safety of the system, since the setback detent must be released before the arming shaft can be rotated. This prevents rotation of the turbine arming shaft, either accidentally or by sabotage. 6-36 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-75 (U) Functioning ANTENNA V 11F OSCi DETECTOR - Al p-- FILTER LEVEL DETECTOR RESET Neg. 518435 SS MECHANISM TRIGGER CIRCUIT FIRING CIRCUIT TIME DELAY -1 -1 RI Fuze, VT, Model PPD 327 FOM No. 1390-20-1-7 GATEABLE VOLTAGE REGULATOR ELECTRIC DETONAT IMPACT DETONAT TIME DELAY RIPPLE FILTER .11- 01005 BRIDGE I APEX SENSOR PPD 317 BLOCK DIAGRAM TURBINE I I AC GEN MECHANICAL GEAR (UNCLASSIFIED) Figure 6-15. Fuze, VT, Model PPD 327, functioning sequence (U). Mechanical arming. When the projectile is fired, the setback detent is released (5001 minimum), the blocking pin is free to move radially, and the arming shaft may be rotated. When the projectile is outside the barrel, the turbine begins to rotate. Then the arming shaft begins to rotate at a speed 1/312 times the turbine speed. After approximately five revolutions, the rotor is free to rotate to the armed position, where it is locked. In this position the electric detonator is switched from shortcircuiting, and the mechanical detonator is positioned in line with its firing pin. Both detonators are in their explosive line. The projectile has now travelled at least 100 meters from the tube. 6-37 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Faze, VT, Model PPD 327 FOM No. 1390-20-1-7 (U) Functioning (Continued) Proximity arming. Due to the incorporated apex sensor, the whole fuze, including the HF unit and firing circuit, is de-energized during the first half of the trajectory until the apex is reached. Then the generator speed increases, turning on a time delay of 3 seconds. Following this delay, the regulator comes on, energizing the HF unit and giving power to the LF unit. The firing capacitor begins charging when the regulator comes on. This capacitor has a separate delay which can be determined by the customer and set during production. By using three separate time delays, together with an apex sensor, the fuze is extremely safe against early bursts in the first part of the trajectory. This safety is partly reduced as the target is approached. Proximity function. As the fuze approaches the target, the doppler signal from the HF detector increases and is amplified. When the amplitude reaches a certain level, set by the level detector, the trigger circuit is activated. This turns on the firing circuit, discharging the firing capacitor and firing the detonator. Point detonation. When the fuze is set for point detonation, the turbo-alternator is shortcircuited and no electric power is fed to the electronic sections. After mechanical arming, the stab detonator is in line with its firing pin. When an object is hit, the stab detonator is initiated and the projectile explodes. 6-38 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, VT, Model NINA FOM No. 1390-29-1-4 (C) Description (C) The NINA proximity fuze is a prototype development being undertaken by Phillips USFA of Eindhover, Netherlands, for use on all rotating artillery and mortar projectiles fired from the 120-mm rifled mortar, 105-mm howitzer, 155-mm howitzer, 175-mm gun, and 8-inch howitzer. (C) The fuze operates on the doppler principle and utilizes a loop antenna. It is intended to function at accelerations from 800 to 22,000 g at 2800 to 20,000 rimin. (U) The fuze is powered by a chromic acid battery molded in glass-filled nylon and sealed against leakage by an ultrasonically-molded cover. The electrolyte is contained in a glass ampoule with an attached weight to facilitate breakage under setback. The power is voltage regulated and filtered. (C) The fuze can be set for different arming times and HOB. An electrical setter contacts seven pads near the base of the fuze, permitting selection of a proximity arming time of 1.5 or 3 seconds and one of three HOB; 5, 8, or 10 meters. Turn on time is determined by a resistor-capacitator (RC) timer. Accuracy is enhanced by the setter, which measures the value of the R, the C, and the detector threshold and then applies an appropriate charging voltage through two open lead relays in order to minimize bleed off. Required time accuracy is maintained at least 15 min after setting. (C) Impact functioning is provided by an exposed crush switch in the nose which is connected to the firing circuit through choked leads to a double-element, locking, setback switch and firing circuit. The S&A device, which establishes minimum arming distance, was adopted directly from the Swiss Dixie fuze. A four-element explosive train is employed. The first element is a low-output electric primer attached to the E head. This is followed by a sensitive lead, an out-of-line tetryl lead, and a tetryl booster. (C) The NINA VT fuze utilizes a longitudinal, one-turn loop with a circuitboard mounted coplanar with the loop. A field effect transistor chip mounted at the top of the board is the principal active device in the circuit. Doppler signals are amplified by an integrated circuit (IC) with a 280 active device mounted on a two-sided printed circuit board. Firing occurs when the first doppler cycle exceeds a set threshold. No integration or other sophistication is used for signal processing. 6-39 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, VT, Model NINA FOM No. 1390-29-1-4 (C) Description (Continued) (C) Protection against countermeasures is provided by circuitry that permanently reduces the HOB to half or to impact, depending on the severity of the jamming before electrical arming takes place. This is performed by switching and sensing functions in the IC. A limiter circuit provides protection against radar pulses. (C) Characteristics Functional data: An Principle Acceleration Rotation Applicable Mil. Std Base safety Impact Proximity action Time setting HOB Operating temperature range Storage temp. range Anti-jamming devices Reliability Battery Stage of development 6-40 Loop Doppler Min 800 g Max 22,000 g Min 2800 r/min Max 20,000 r/min Mil. Std. 333, Mil. Std. 331 Pyrotechnic train armed between a min of 40 m and a max of 300 m (between 0.5 and 1 s) Superquick Impact action armed between a min of 0.5 s and a max of 1 s Functioning at impact angles of 0? -75? with normal electric switch After 3 s if no time setting, or 1 s after time set, last 3 s of flight MM 4s, max 120 sin steps of 0.1 s Accuracy ?2.5%, or min of 1 s RC timer 5, 8, or 10 m at reflection coefficient 0.5 32? to +52?C according to Stanag 2831 (-25? to +125?F) -34? to +63?C By timing and by "ASPRO" system of detection and reducing jamming 85% Chromic acid Prototype production mid 1974; full production 1976 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, VT, Model NINA FOM No.1390-29-1-4 (C) Characteristics (Continued) Safety devices Electric and pyrotechnic Primer Electric Electronic components Integrated circuits & transistors Price N fl. 120 6-41 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original (This page intentionally left blank) 6-42 CONFIDENTIAL (This page is UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original WEIGHT : 594q AST-1160H-001-75 Fuze, VT, Model 1.P. FOM No. 1390-37-14 Ii. 48.3 max 053.2 ma x. a 0 N re dimensions in mm Neg. 515310 Figure 6-16. Fuze, VT, Model I.P., contour view (U). (U) Description (UNCLASSIFIED) The Israeli Military Industries (IMI) fuze, Model I.P. (fig 6-16) is a transistorized, electric-powered, VT fuze with a reliable arming mechanism and an electronic target-detection unit to assure effective airburst above the target. The fuze operates on the doppler principle. Due to the absence of a chemical power source, the storage life of the fuze is practically unlimited. The fuze was designed for use with nonrotating ammunition. (U) Unique features ? Back-up impact function in case of electronic failure. ? Electronic target-detection unit. ? Delayed-arming mechanism. ? Electrical arming. 6-43 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-11601-1-001-75 Original Fuze, VT, Model 12. FOM No. 1390-37-1-1 (U) Characteristics Fuze assembly: Body material Weight 594 g (1.31 lb) Markings Length 227 mm (8.94 in) Max diam 61.5 mm (2.42 in) Booster: Body material Body length 27.7 mm (1.09 in) Explosive Explosive weight 7 Functional data: Arming method Electric Firing method Electronic or impact Safety devices Delayed arming Arming distance 7 Arming time (U) Dcsign Details The Model I.P. proximity fuze (fig 6-17) consists of an electronic unit of solid-state components, electrical power supply, firing capacitor, electric squib, impact-switch delayed arming mechanism, electric detonator, and booster assembly, as well as a back-up impact detonator. The impact detonator has been incorporated in the fuze in case of electronic failure. 6-44 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details (Continued) Fmng Capacitor, AST-1160H-001-75 Fuze, VT, Model LP. FOM No. 1390-374-1 Squib Impact Switch Neg. 515306 Power Supply Electronic Unit SOLID-STATE COMPONENTS PRINTED CIRCUITRY Booster Time Delay Mechanism Figure 6-17. Fuze, VT, Model LP., exploded view (U). (U) Functioning (UNCLASSIFIED) Upon firing, the fuze is electrically powered; the altitude detector functions on the doppler principle to generate an impulse to the thyristor-type firing circuit. Simultaneously at launch, the time-delay mechanism is electrically initiated. (See fig 6-18 for firing sequence.) 6-45 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, VT, Model I.P. FOM No. 1390-37-1-1 (U) Functioning (Continued) Alfitude Dotoctor Firing Firing Circuit Capacitor Squib NM+ Detonator Impact Switch Time Delay Device Electrical Arming Original Neg. 515307 (UNCLASSIFIED) Figure 6-18. Fuze, VT, Model I.P., firing sequence (U). (U) Applications (Ammunition and Weapons) Ammunition Weapons 120-mm HE projectiles 120-mm mortars 6-46 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original P4 eking AST-11601-1-001-75 Fuze. VT, Model I.P. ['OM No. 1390-37-1-1 Neg. 515311 (UNCLASSIFIED) Figure 649. Fuze, VT, Model I.P., hermetically-sealed container and woodcn box (U). n-47 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, VT, Model I.P. FOM No. 1390-37-1-1 (1J) Packing (Continued) Each fuze is packed in a hermetically-sealed, sheet-metal container (fig 6-19). Fifteen fuzes are overpacked in a rigid, foam-lined, wooden box with a volume of 0.08 m'and weight of 24 kg. 6-48 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160 H-001-75 Section VII. MINE AND GRENADE FUZES, IGNITERS, AND NONELECTRIC FIRING DEVICES 7-1 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Section VII. MINE AND GRENADE FUZES, IGNITERS, AND NONELECTRIC FIRING DEVICES GENERAL (U) Mine and grenade fuzes have been designed or are under development for antitank and antipersonnel applications. Mine fuzes usually are contact-type fuzes that are actuated by direct application of pressure when tanks or personnel cross over the buried mines. Grenade fuzes are of the pyrotechnic delay-type, in which a cocked striker stabs a detonator after the delay element bums out. (U) Removable safety clips are used with mine fuzing to keep the mines in the unarmed state until they are laid or implanted; a safety ring and pin normally keep the grenade in an unarmed state until removed prior to throwing or launching from the grenade launcher. (U) Igniters and firing devices are used with mines, grenades, and explosive charges in a variety of applications including mine clearance, antipersonnel, antitank, and booby trap operations. (U) The fuzes and igniters described in this section are considered within the state-of-the-art; in some instances, they incorporate unique features. 7-3 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original FOM No. AS1'-1160H-001-75 INDEX Nomenclature* Page Mine Fuzes 1390-16-5-1 Fuze, Mine, Pressure/Pull, Model DM-56 7-9 1390-17-5-2 Fuze, Mine, Pressure, Chemical, Model 1951 7-11 1390-17-5-5 Fuze, Mine, Pressure, Nonmetallic, Model 50 1390-17-5-6 Fuze, Mine, Pressure, Nonmetallic, Model 52 7-15 1390-19-5-1-3 Fuze, Mine, Pull, Model 48 7-17 1390-19-5-2 Fuze, Mine, Pressure, Model 47 7-19 1390-19-5-3 Fuze, Mine, Pressure, Model 49 7-21 1390-29-5-2 Fuze, Mine, Pressure, Nonmetallic, Model 26 7-23 1390-29-5-3 Fuze, Mine, Pressure, Nonmetallic, Model 22 7-25 1390-33-5-3 Fuze, Mine, Pressure, Chemical, Plastic, Model 52 7-27 1390-33-5-5 Fuze, Mine, Pressure/Pressure Release Model 47-11 7-29 1390-35-5-1 Fuze, Mine, Pressure, No. 2 Mk 2/1 7-31 1390-35-5-2 Fuze, Mine, Pressure, No. 4 Mk 2 7-35 1390-16-4-8 Fuze, Grenade, Pyrotechnic Delay, Integral, Model (Diehl) 1390-16-9-1 Fuze, Grenade, Pyrotechnic Delay, Model DM 82 7-41 1390-35-4-2 Fuze, Grenade, Model L25A2 7-13 Grenade Fuzes 7-39 *All fun nomenclatures are UNCLASSIFIED. 7-5 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 7-45 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original FOM No. INDEX (Continued) Nomenclature* Igniters Page 1375-17-3-1 Igniter, Pull Type, Model Mk F2 7-47 1375-17-3-2 Igniter, Nondetectable, Model ALBACID 7-49 Nonelectric Firing Devices 1375-17-3-3 Firing Device, Pull Type, Nondetectable, Model ALSETEX *All fuze nomenclatures are UNCLASSIFIED. 7-6 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 7-51 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 LIST OF ILLUSTRATIONS Figure Title* Page Mine Fuzes 7-1 Fuze, mine, pressure/pull, Model DM 56, general and section views 7-9 7-2 Fuze, mine, pressure, chemical, Model 1951, general view 7-11 7-3 Fuze, mine, pressure, nonmetallic, Model 50, general and section views 7-13 7-4 Fuze, mine, pressure, nonmetallic, Model 52, general and section views 7-15 7-5 Fuze, mine, pull, Models 41, 42, 42P, and 48, general and section views 7-17 7-6 Fuze, mine, pressure, Model 47, section view 7-19 7-7 Fuze, mine, pressure, Model 49, section and exploded views 7-21 7-8 Fuze, mine, pressure, nonmetallic, Model 26, general and section views 7-9 Fuze, mine, pressure, nonmetallic, Model 22, general and section views 7-10 Fuze, mine, pressure, chemical, plastic, Model 52, external views 7-11 Fuze, mine pressure/pressure release, Model 47-11, general and section views 7-12 Fuze, mine, pressure, No. 2 Mk 2/1, general and section views 7-13 Fuze, mine, pressure, No. 4 Mk 2, general and section views Grenade Fuzes 7-14 Grenade, HE, 76 mm, Model (Diehl), section view 7-15 Fuze, grenade, pyrotechnic delay, integral, Model (Diehl) 7-16 Fuze,-grenade, pyrotechnic delay, Model DM 82, general and section views *All figure rules are UNCLASSIFIED. 7-7 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 7-23 7-25 7-27 7-29 7-31 7-35 7-39 7-39 7-41 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Figures Title* Page 7-17 Fuze, grenade, pyrotechnic delay, Model DM 82, cutaway view 7-42 7-18 Fuze, grenade, Model L5A2, section view 7-45 Igniters 7-19 Igniter, pull type, Model Mk F2, general view 7-47 7-20 Igniter, nondetectablc, Model ALBACID, general view 7-49 Nonelectric Firing Device 7-21 Firing device, pull ty pc, nondetectable, Model A LSETEX, general view 7-51 7-8 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fun, Mine, Pressure/Pull, Model DM 56 FOM No. 139046-54 SAFETY PIN AND CAP ASSEMBLY STRIKER- RETAINING FORK STRIKER SPRING BODY STRIKER DETONATOR ASSEMBLY Neg. 509523 (UNCLASSIFIED) Neg. 509524 (U) Description (UNCLASSIFIED) Figure 7-1. Fuze, mine, pressure/pull, Model DM 56, general and section views (U). The DM 56 (fig 7-1) is a combination pressure- or pull-activated fuze used with the DM 31 antipersonnel mine. Except for the aluminum detonator assembly, the fuze is made of brass. The external fuze threads are protected by a red, molded-plastic shipping cap. A safety-pin assembly insures safety until the fuze is to be armed. 7-9 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, Mine, Pressure/Pull, Model DM 56 FOM No. 1390-16-5-1 (U) Functioning The fuze is armed by unscrewing the safety-pin cap from the safety-pin assembly and removing the safety pin from the striker. The striker is then held against the compressed striker spring by the striker retaining fork. A pressure of 12 lb (5.5 kg) applied to the striker head forces open the lugs of the retaining fork, allowing the striker spring to drive the striker forward. Removal of the retaining fork by a trip wire will also initiate fuze action. 7-10 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST1160H-001-75 Ficre, Mule, Pressure, Chenntai, Model 1951 EOM No, 13901T5-2 Neg. 509525 (UNCLASSIFIED) Figure 7-2. Fuze, mine, pressure, chemical, Model 1951, general view (U). (U) Description This universal, nonmetallic ?(plastic), pressure fuze (fig 7-2) is armed by removing the detonaror retaining ring, inserting a Model 50 detonator in the fame well, and replacing the ring. The fuze may he used in any antitank mine. (U) Functioning Pressure on the plunger ruptures the hear ?collar, allowing the plunger to move and crush a vial of add. The acid reacts with a chemical pellet and initiates the detonator by hypergolie reaction, 74! (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Neg. 514559 (U) Description AST-1 OH 1-75 FLUE', Mine, Pressure, Nonmetallic, Model 50 FOM No. 1390-17-S-5 iffEga -8110 011.14,10 (UNCLASSIFIED) !Neg. 514555 Figure 7-3. Fun, mine, pressure, nonmetallic, Model 50, general and section views (14 II NC LASSIFIED The Model 50 fuze (fig 7-3) is made of plastic, with no metallic components; it is practically undetectable by electronic mine detectors. It was designed for use in the Model 51 antitank mine. The fuze is armed by installing the detonator; it has no safety devices, (U) Functioning When a force of 75 lb (34 kg) is applied to the plunger, the shear pin fails and the plunger moves downward, crushing a vial of acid. Thc acid reacts with a chemical pellet to produce a flame which initiates the detonator. 7-13 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Neg. 514560 (UNCLASSIFIED) ( U) Description AST-1160H-001-75 Fuze, Mine, Pressure, Nonmetallic, Model 52 FOM No. 1390-17-5-6 FRICTION-SENSITN COMPOUND STRIKER Neg. 514561 Figure 7-4. Fuze, mine, pressure, nonmetallic, Model 52, general and section views (U). (UNCLASSIFIED) The Model 52 fuze, like the Model 50, is made of plastic with no metallic components (fig 7-4). It is designed for use in nonmetallic antitank mines. The fuze is armed by installing the detonator; it has no safety devices. 7-15 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-116011-001-75 Original Fuze, Mine, Pressure, Nonmetallic, Model 52 FOM No. 1390-17-5-6 (U) Functioning When a force of approximately 33 lb (15 kg) is applied to the striker, the integral shear collar fails. The conical lower end of the striker, which is charged with a mixture of red phosphorus and ground glass, is forced against a mating surface. The resulting friction ignites the red phosphorus, in turn initiating the detonator. 7-16 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins REMOVABLE TOPS AND STRIKER ASSEMBLIES MODEL 41 Neg. 508883 (U) Description COTTER TYPE SAFETY TRANSIT PIN STRIKER RETAINING PIN HOLE AST-1160H-001-75 Fuze, Mine, Pull, Model 48 FOM No. 1390-19-5-1-3 FIXED TOPS AND STRIKER ASSEMBLIES CLIP-TYPE SAFETY PIN PERCUSSION CAP STRAIGHT STRIKER. RETAINING PIN MODEL 42 MODEL 42P WINGED STRIKER. RETAINING PIN DETONATOR, FACTORY INSTALLED MODEL 48 (UNCLASSIFIED) Figure 7-5. Fuze, mine, pull, Models 41, 42, 42P, and 48, general and section views (U). The Swedish Models 41, 42, 42P, and 48 pull fuzes (fig 7-5) are basically the same; all are simple pull fuzes with spring-loaded strikers. They are activated by a pull of from 5 to 11 lb (2.27 to 5 kg) on the striker retaining pin. These fuzes are used on Models 41, 42, and 42P trip flare antipersonnel mines. (U) Functioning When a pull of from 5 to 11 lb (2.27 to 5 kg) is exerted on the striker retaining pin, the pin is withdrawn, allowing the spring-loaded striker to snap forward, striking the stab primer and initiating fuze action. 7-17 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins AST-1160H-001-75 SPRING CASE STRIKER Neg. 508893 1.3 INCHES teA //.:4 / ? 1 ? xN Fuze, Mine, Pressure, Model 47 FOM No. 1390-19-5-2 PLUNGER SHEAR PIN STRIKER-RETAINING BALL THREADED BUSHING PERCUSSION CAP DETONATOR ASSEMBLY (UNCLASSIFIED) Figure 7-6. Fine, mine, pressure, Model 47, section view (U). (U) Description The Model 47 pressure fuze (fig 7-6) consists of a cylindrical metal case that houses a plunger retained by a shear pin and a spring-loaded striker retained by balls. The plunger protrudes through the top of the case; the shear pin passes through the plunger and rests on the top of the case. A threaded bushing screwed into the bottom of the fuze retains the stab primer and detonator assembly. The fuze is used in antitank mines. 7-19 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, Mine, Pressure, Model 47 FOM No. 1390-19-5-2 (U) Functioning When a pressure of 440 lb (200 kg) is applied to the top of the plunger, the shear pin fails, freeing the plunger. When a second pressure pulse of 44 lb (20 kg) is applied, the retaining balls are freed and the spring-loaded striker drives the firing pin into the stab primer, initiating fuze functioning. 7-20 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original SAFETY-CLIP CORD PLUNGER SAFETY CL IP COLLAR METAL MEMBRANE SPRING STRIKER Neg. 508894 BUSHING STRIKER-RETAINING LUG AST-116011-001-75 Fuze, Mine, Pressure, Model 49 FOM No. 1390-19-5-3 PERCUSSION CAP DETONATOR ASSEMBLY Neg. 509529 (UNCLASSIFIED) (UNCLASSIFIED) Figure 7-7. Fuze, mine, pressure, Model 49, section and exploded views (U). (U) Description The lower part of the Model 49 fuze (fig 7-7) contains an integral primer-detonator assembly and a spring-loaded striker retained in position by small lugs. The top of the assembly is covered by a thin metal membrane. The entire assembly is held within a cylindrical collar by a threaded bushing. A four-pronged plunger, held in position by a safety clip, is set into the cylindrical collar. This fuze is used in antitank mines. (U) Functioning The fuzc is armed by removing the safety clip. Pressure applied to the plunger forces the latter through the metal membrane, compressing the striker spring. Sufficient pressure will cause the lugs retaining the striker to fail, allowing the striker spring to drive the primer-detonator, initiating fuze functioning. 7-21 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAR Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, Mine, Pressure, Nonmetallic, Model 26 FOM No. 1390-29-5-2 SHEAR COLLAR FRICTION-SENSITIVE COMPOUND STRIKER Neg. 509527 (UNCLASSIFIED) Neg. 509528 Figure 7-8. Fuze, mine, pressure, nonmetallic, Model 26, general and section views (U). (U) Description (UNCLASSIFIED) The Model 26 fuze (fig 7-8) resembles the French Model 52 fuze. Made almost entirely of plastic, this fuze is used in the Model 26 heavy antitank mine. The absence of metallic components makes this fuze/mine combination extremely difficult to detect with electronic mine detectors. Model 26 fuzes and their detonators are packed in individual plastic containers. (U) Functioning The fuze is armed by installing a detonator when the fuze is assembled to the mine. When pressure between 35 and 100 lb (16 to 45 kg) is applied to the top of the striker, a shear collar fails, allowing the striker's tapered end, which is coated with a friction-sensitive compound, to enter a mating tapered recess within the fuze body. Friction creates a flame which initiates the detonator. 7-23 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins AST-1160H-001-75 Fun, Mine, Pressure, Nonmetallic, Model 22 FOM No. 1390-29-5-3 Neg. 509530 Neg. 509529 (UNCLASSIFIED) Figure 7-9. Fuze, mine, pressure, nonmetallic, Model 22, general and section views (U). (U) Description (UNCLASSIFIED) The Model 22 fuze (fig 7-9) consists of a plastic body, a cone-shaped cup, and a striker with an integral shear collar. The bottom end of the striker is conical to mate with the cup. Both conical surfaces are coated with a friction flash compound. The fuze is used in the Model 22 antipersonnel mine. (U) Functioning When a force of 11 to 55 lb (5 to 25 kg) is applied to the upper end of the striker, the shear collar fails and the striker is forced downward. Friction between the conical mating surfaces results in a flame which initiates the detonator. 7-25 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLA PASE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Fuze, Mine, Pressure, Chemical, Plastic, Model 52 FOM No. 1390-33-5-3 Neg. Si:45 (UNCLASSIFIED) Figure 7-10. Fuze, mine, pressure, chemical, plastic, Model 52, external views (U). (U) Description This polystyrene fuze (fig 7-10) encloses two chemical-filled vials. Four of these fuzes are used in the Model 52 antitank mine (FOM No. 33-1345-1-5). A plastic plunger, retained over the vials by a plastic shear collar, fits into the top of the fuze. (U) Functioning Pressure applied to the top of the mine breaks the mine's shear lugs, transferring pressure to at least one of the four fuze plungers. The fine's shear collar fails under pressure, and the plunger crushes the two vials. The chemicals (sulphuric acid and potassium perchlorate) react, causing a flame that initiates the detonator-booster and the main charge. 7-27 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 RAI\ K PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Neg. (UNCLASSIFIED) 508443 AST-11608-001 -75 Fuze, Mine, Pressure/Pressure Release, Model 47-11 FOM No. 1390-33-5-5 UPPER RECESS LOWER RECESS Neg. 508442 PRESSURE SHEAR PIN Figure 7-11. Fuze, mine, pressure/pressure release, Model 47-11, general and section views (U). 7-29 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 STRIKER SPRING STRIKER RETAINING BALLS (2) ARMING SHEAR PIN STRIKER PERCUSSION CAP DETONATOR (UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Fuze, Mine, Pressure/Pressure Release, Model 47-11 FOM No. 1390-33-5-5 (U) Description The Model 47-11 fuze (fig 7-11) is quite similar to the World War 11 German Tel'ermine fuze 43. The fuze weighs 127.5 grams (0.28 lb). The fuze body is of steel. The Model 47-11 fuze is used in the Model 47-1 antitank mine (FOM No. 33-1345-1-2). (U) Functioning The fuze is armed upon installation in a mine by screwing down the pressure plate. This action forces the plunger down, causing the arming shear pin to fail. The fuze is then armed; the striker spring, which is partially compressed, keeps the plunger in contact with the pressure plate. The latter limits further upward movement of the plunger, while two striker retaining balls prevent the striker spring from forcing the striker down into the stab primer. In this position the fuze cannot function by the addition or release of pressure. If a load of 550 lb (250 kg) or greater is applied to the pressure plate, the plunger is forced downward and the pressure shear pin fails, allowing further downward movement. When the upper recess within the plunger becomes aligned with the striker retaining balls, the balls are free to be cammed outward by the spring-loaded striker. This action frees the striker to snap downward under pressure of the striker spring, so that it impacts the stab primer and initiates the detonator. Should the pressure plate be removed, the striker spring forces the plunger upward until the lower edge of the plunger clears the striker retaining balls. The spring-loaded striker then cams the balls outward into the lower recess, freeing the striker to snap downward and impact the stab primer to initiate the detonator. The fuze has no other safety devices. 7-30 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, Mine, Pressure, No. 2 Mk 2/1 FOM No. 1390-35-5-1 STRIKER CROWN 1.47 IN DIAM CAP SAFETY PIN ?: RUBBER SEALING RING STRIKER SUPPORTING RING SIKER 1.15 IN RETAINING CUP .1 DETONATOR, NO 1A PER& MINE FUZE, MARK 1/1 DETONATOR 115 GR "A" CASED/ PRESSED A.S.A. COMPOSITION (ABOUT 0.35 GRAM) 321N PRESSED C. E. (ABOUT 0.55 GRAM) Neg. 552522 (C) Description ?.. ALL DIMENSION'S ARE IN INCISES- Figure 7-12. Fuze, mine, pressure, No. 2 Mk 2/1, general and section views (U). IN ElIAM.1. (CONFIDENTIAL) The No. 2 Mk 2/1 mine fuze (fig 7-12) is a pressure-operated type developed by the United Kingdom for use with the No. 6 Mk 1 antipersonnel mine. Except for the detonator housing and the tip of the striker, the fuze assembly is made of nonmetallic materials. The fuze is designed to resist activation by the blast of an antitank mine detonated not less than 6 ft away. The fuze consists principally of a body, cap, striker, striker supporting ring, safety-pin sealing ring, retaining cup, and a 2.5-gr (0.16-gram) detonator. 7-31 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160I1-001-75 Original Fuze, Mine, Pressure, No. 2 Mk 2/1 FOM No. 1390-35-5-1 (C) Design Details Body. The body is made of clear unpigmenied polystyrene. Externally it is cylindrical in shape with ribs formed around the circumference. A large boss is formed in the center of the base, and a recess is formed in this boss to house the assembled detonator. The external portion of the boss is threaded to screw into the adapter of the mine; around the boss, the body is hollowed out. A recess is also formed in the top surface of the body, and in the center of this recess a cone-shaped hole is formed, the base of the hole connecting with the detonator recess. Cap. Made of polystyrene, colored camouflage brown, the cap is roughly dome-shaped; the surface above where it fits into the body is left hatched. A hole is formed in the center to take the striker. Before the cap is assembled in the top of the body, the rim is coated with RD 1279 cement, and the two components are compressed until the cement has hardened. Striker. Made of polystyrene, colored camouflage brown, the striker consists of a stem with the lower portion formed into a truncated cone, the tip of which is fitted with a brass striker pin. A 3/32-inch-diameter hole is drilled through the stem at right angles to the axis to accommodate the safety pin. To obviate the possibility of the safety-pin hole being fouled by the ingress of adhesive composition, a hole is drilled concentrically through the stem and is closed at the upper end with a parallel polystyrene plug secured in position with RD 1279 cement. Striker supporting ring. A split supporting ring of ebonite, molded in the form of a horseshoe and tapered internally to suit the cone of the striker, is positioned just below the highest diameter of the cone and rests on the fuze body. The striker is designed so that when assembled in the fuze the truncated cone is clear of the supporting ring. Safety pin. The safeiy pin consists of a length of No. 14 SWG 2.03-mm (0.08-inch) (equivalent to No. 12 AWG) phosphor-bronze wire bent to form two separate arms: one straight for insertion through the hole in the stem of the striker, the other with a semicircular bend in it to clip around the external circumference of the striker. A finger loop is also formed to facilitate extraction. Sealing ring. A small rubber sealing ring fitted around the striker stem, just above the truncated cone, is under radial compression between the stem of the striker and fuze cap, providing a watertight seal. 7-32 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-116011-001-75 Fuze, Mine, Pressure, No. 2 Mk 2/1 FOM. No. 1390-35-5-1 (C) Design Details (Continued) Retaining cup. This is of white polystyrene, in the form of a cup, with a hole formed in the base. It fits over the head of the No. 106 detonator and also accommodates the 2.5-gr (0.16-gram) "A" detonator, which is assembled in the top of the open end of the former. The cup with detonators assembled is coated with RD 1221 A cement, covered with a tin foil disk, and then pushed home in the hole in the center of the body where the cement is allowed to set hard. Detonator 2.5-gr (0.16-gram) "A" cased. This is a tinned brass, cased cup formed with an external flange and filled with 2.5 gr (0.16 gram) of "A" mixture. It is distinguished by being marked with a green spot. It is assembled in the open end of the No. 106 detonator, the flange resting on the rim or mouth of the No. 106 detonator. Detonator No. 2 Mk 1/1, antipersonnel mine fuze. This consists of the retaining cup (see above) and a No. 106 Mk 1 detonator. Before the No. 106 detonator with the 2.5-gr (0.16-gram) "A" cased detonator assembled in the top is pushed down through the hole in the cup, approximately two turns of waterproof fabric adhesive tape 0.17 inch (4.32 mm) in width is wrapped around the No. 106 detonator above the flange and coated with RD 1219 composition. The flange of the detonator is also coated with RD 1219 composition, and the detonator is then pushed into the retaining cap until the flange rests on the base of the cup. A fillet of RD 1219 composition is applied to the joint where the detonator emerges from the base of the cup. Detonator No. 106 Mk 1. This is in the form of a tube with an inverted domed base with a flange formed just below the open end. It is filled, commencing from the base, with about 0.55 gram (8.4 grains) of CE (i.e., tetryl) pressed in, above which is about 0.35 gram (5.3 gr) of A.S.A. composition also pressed in, leaving the top portion of the tube empty. (C) Laying of Mine To facilitate actuation of the fuze when assembled to the mine, a striker crown is provided. The striker crown, of brown polystyrene, consists of a crown-shaped piece having three equispaced diverging prongs. It is positioned over the projecting end of the fuze striker to increase the effective area of the head after laying. There are two current marks of striker crown, the Mark 1/1 and the Mark 2. The differences are as follows: 7-33 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Fuze, Mine, Pressure, No. 2 Mk 2/1 FOM No. 1390-35-5-1 (C) Laying of Mine (Continued) Mark 1/1. - This is a Mark 1 pattern modified by the insertion into the recess of a 0.1-in (2.54-mm) thick white polystyrene disk, thereby reducing the depth of the recess to that of the Mark 2 pattern. Mark 2. - The Mark 2 is generally similar to the Mark 1/1, and differs from the original Mark 1 pattern by haying the depth of the body recess reduced from 0.4 to 0.3 inch (10.6 to 7.62 mm) and a recess 0.156x0.1 inch (3.96x2.54 mm) deep formed in the center of the base of the larger recess. A 1/4-inch (6.25-mm) figure '2' is moulded on top of the body. (C) Functioning The fuze is pressure-activated. The amount of pressure required to activate the fuze is unknown. 7-34 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original RUBBER SEALING RING NEEDLE DETONATOR (5 GR. AZ) STEMMED C E. ARMED ? CAP SCREW LOCKING PIN SPRING ? PLUNGER - BODY COLLAR STRIKER DIAPHRAGM POSITIONING RING STRIKER HOUSING SEPTUM AST-1160H-001-75 Fuze, Mine, Pressure, No. 4 Mk 2 FOM No. 1390-35-5-2 SAFETY CLIP RUBBER SEALING RING DETONATOR HOUSING UNARMED FUZE CLIP Of fitted. attached to SAFETY CLIP) Neg. 552523 ON ACTUATION ALL DIMENSIONS IN INCHES (CONFIDENTIAL) Figure 7-13. Fuze, mine, pressure, No. 4 Mk 2, general and section views (U). 7-35 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Fuze, Mine, Pressure, No. 4 Mk2 FOM No. 1390-35-5-2 (C) Description Original The No. 4 Mk 2 fuze (fig 7-13) is a pressure-operated fuze developed by the United Kingdom for use with the Mk 7 series antitank mines. It consists principally of a body, main spring, cap, screw, plunger, striker assembly, positioning ring, striker housing, detonator housing, and a 5.7-gr (03.7-gram) "AZ" detonator and safety clips. (C) Design Details Body. Made of aluminum alloy anodized, the body is cylindrical in shape and is reduced in diameter at the top to form a guide, below which is a flange to support the spring. A hole is formed centrally to accommodate the plunger, positioning ring, and striker diaphragm?below which the body is screw-threaded to accept the striker housing. The words "MINE UNARMED" are stamped around the bottom face of the body and filled in with red. Cap. The cap is made of electrozinc-plated steel. Externally, it is dome shaped with a flat top and is formed with a flange at the base. The words "MINE ARMED" are stamped on the top and filled in with red. Internally, it is hollowed out to accommodate the spring; it has a boss formed in the center to fit into the recess made in the top of the plunger and a central clearance hole drilled through the top to allow the screw to pass through and engage in the top of the plunger. When the cap is assembled and the screw is screwed home in the top of the plunger, a pin of hard brass is driven obliquely through the cap, plunger, and screw, locking these three components together, after which the end of the pin is stabbed to retain it in position. Plunger. The plunger is made of electrozinc-plated steel. Externally, it is cylindrical in shape and is formed with a flange near the base, below which it is reduced in diameter to form a small boss. A small recess is formed in the top face to fit over the boss formed inside the cap, and a hole is drilled in the center and threaded to accept the shank of the hexagon-head screw which secures the cap in position. A rubber sealing ring seats in a groove around the plunger and seals the mating surfaces between the body and the plunger. Spring. The spring is a cylindrical coiled spring of rectangular-section spring steel. It is composed of two working coils, the ends being close coiled and ground flat. It is rustproofed by a phosphate process and coated with lanolin. It is assembled under the cap and seats around the top portion, with the bottom coil resting on the flange of the body. 7-36 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Fuze, Mine, Pressure, No. 4 Mk 2 FOM No. 1390-35-5-2 (C) Design Details (Continued) Shutter assembly. The shutter assembly comprises a diaphragm, point (i.e., needle), and collar. ? The diaphragms, made of beryllium copper, are dome-shaped disks with a hole drilled in the center. Two diaphragms are placed one on top of the other; the shank of the point passes through the center of the diaphragms from underneath, after which the collar is placed over the shank, which is then opened up with a center punch to secure it in the collar. The whole assembly is then chamfered. ? The steel point is formed with a sharp needle point, above which is formed a flange and a shank. ? The steel collar is cylindrical in shape with an internal chamfer formed at both top and bottom. Striker housing. The housing is made of electrotin-plated brass. Externally, it is cylindrical in shape, formed plain at the top and screw-threaded below. A hole is drilled and screw-threaded in the center of the base to accept the detonator housing. Two diametrically opposed holes are also drilled in the base to facilitate assembly. It is bored out on several diameters from the top, and a small hole is drilled through the center to connect with the recess formed in the base. Eight equidistant-spaced slots are cut in the rim of the upper face. Detonator housing. The detonator housing is also made of electrotin-plated brass. Externally, it is cylindrical in shape and threaded to screw into the base of the striker housing. Two diametrically opposed holes are also drilled in the base to facilitate assembly. Internally, it is bored out on two diameters, leaving a thin diaphragm of metal at the base. The smaller cavity at the base is filled with loose CE stemmed in, the detonator being assembled in the larger cavity above. A circular recess is formed in the upper face to accept a rubber sealing ring. Detonator. This 5.7-gr (0.37-gram) "AZ" lugless (tinned copper alloy cup) detonator is assembled in the detonator housing base downwards. After assembly, a lead/tinfoil septum is placed over the top of the housing. 7-37 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL MT-1160H-001-75 Original Fuze, Mine, Pressure, No. 4 Mk 2 FOM No. 1390-35-5-2 (C) Functioning The fuze functions upon contact with tank tracks. The exact pressure for functioning is not known. 7-38 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original Fuze, Grenade AST-1160H-001-75 nic Dday, Integral, Model (Diehl) FOM No, 1390164-8 Neg. 515126 ((JNCLASSIFIED) Figure 744. Grenade, HE, 76 mm, Model (Diehl), section view (U). Neg. 515127 Figure 745, Fuze, grenade, pyrotechnic delay. integral, Model (Diehl) (U). 7-39 UNCLASSIFIED UNCLASSIFIED) Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160/1-001-75 Original Fuze, Grenade, Pyrotechnic Delay, Integral, Model (Diehl) FOM No. 1390-16-4-8 (U) Description The Diehl pyrotechnic delay fuze is an integral design used with 76-mm fragmentation grenades (fig 7-14). It is intended for use with grenades electrically fired from a modified smoke grenade projector mounted on armored vehicles. The fuze uses the high pressure generated from the grenade's propelling charge for arming and initiation of the pyrotechnic delay. Safety is provided by a safety pin (1) and a shear collar (9) which detents the cocker-type striker (7). The illustration shown on the right (fig 7-15) is a section view of the pyrotechnic delay and detonator assembly. (U) Functioning Prior to loading, the safety pin (1) must be removed. The ignition current from the electrical firing unit flows through contact rings (2) and the cable (3) to the igniter cap (4), which then ignites the propellant (5). The gas pressure generated by the combustion of the propellant expands through the gas ports (6) into the remaining space in the launcher, propelling the grenade. Simultaneously, the initial pressure shears off the collar (9), undetcnting the cocker striker (7), which then initiates the fuze (8). The pyrotechnic delay burns for 3 seconds, resulting in the initiation of the detonator which, in turn, detonates the high-explosive filler of the grenade. 7-40 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-116011-001-15 Fuze, Grenade, Pyrotechnic Delay, Model DM 82 FOM No. 1390-16-9-1 Neg. 515129 (U) Description (UNCLASSIFIED) Neg. 515123 (UNCLASSIFIED) Figure 7-16. Fuze, grenade, pyrotechnic delay, Model DM 82, general and section views (U). The Diehl hand grenade fuze, Model DM 82 (fig 7-16), was developed to insure maximum safety to the soldier throwing the grenade. It is a pyrotechnic delay-type that burns for 4 seconds. The DM 82 has been tested to function at -40? to +50?C with a 99.9% reliability. It uses a 5/8-inch (15.9-mm) 11 UNC-2A thread, allowing use with most conventional grenades. The fuze is currently being used with the FRG DM 51 HE/fragmentation grenade. 7-41 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Fuze, Grenade, Pyrotechnic Delay, Model DM 82 FOM No. 1390-16-9-1 (U) Unique Features ? Detonator ? Throwback safety. (U) Functioning Original Neg. 515131 (UNCLASSIFIED) Figure 7-17. Fuze, grenade, pyrotechnic delay, Model DM 82, cutaway view (U). 7-42 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001.75 Fuze,Grenade, Pyrotechnic Delay, Model DM 82 FOM No. 1390-16-9-1 (U) Functioning (Continued) Prior to throwing the grenade, the safety cotter pin (1) is removed. After the grenade leaves the thrower's hand, the hammer (3)* hits the DM 1024 primer cap (4) of the primer charge as a result of pressure applied by the torsion spring (2). Simultaneously, the protective cap (5) and safety cover (6) are thrown off. The flash of the percussion primer initiates the delay charge (7) in the delay tube (8). After burning for 2.5 seconds, the heat generated melts the soldering joint between the soldering wing (9) and the delay tube (8) and detonator holder (10). This allows the pressure spring (11) to push the detonator holder rearward against the booster (13). After the delay charge has burned out (4.0 seconds), the flash penetrates two bores of the throttle clip (14), bending the flap valve (15) up, enabling the flash to initiate the detonator (12) and, in turn, the booster (13). *Note. The bead against which the hammer (3) rests prevents the hammer from completing its rotation and hitting the pnmcr until the safety lever reaches an opening angle of 6e. 7-43 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original CAP AST-1160H-001-75 Fuze, Grenade, Model L25A2 FOM No. 1390-354-2 DELAY PELLET Figure 7-18. Fuze, grenade, Model L5A2, section view (11). (U) Description The L25A2 fuze (fig 7-18) was designed for use with the controlled-fragmentation grenade, Model L2A1. The fuze incorporates a conventional lever release mechanism with a safety pin and a percussion cap which fires a pyrotechnic delay that burns for 4.3 ?-0.3 seconds. The grenade with its fuze is marketed by the Director of Sales, Ministry of Defense, SStuart House 23-25 Soho Sq., London WIV5FS. 7-45 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Igniter, Pull type, Model Mk F2 FOM No. 1375-17-3-1 (U) Description (UNCLASSIFIED) Figure 7-19. Igniter, pull type, Model Mk F2, general view (U). This pull-type igniter (fig 7-19) contains two safety devices to insure safety in transport, storage, and handling. It can initiate standard mines and booby traps by means of a percussion primer. Two versions of this igniter exist: the metal version, now in production and in use by the French Army, weighs 48 grams (0.10 lb); its diameter is 26.6 mm (1.05 in) and its overall height is 63.5 mm (2.5 in). A nonmetallic, nondetectable version is undergoing standardization tests. This igniter is manufactured by SociEte E. Lacroix, Muret, France. 7-47 .(Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Igniter, Nondetectable, Model ALBACID FOM No. 137547-3-2 Figure 7-20. igniter, nondetectable, Model ALBACID, general view (U). (U) Description This omnidirectional swinging igniter (fig 7-20) is initiated by a swinging antenna, which delays functioning of the fuze until the tank hull is directly above the mine, thus increasing the effectiveness of the explosive charge. When used with Model 51 and 52 nondetectable antitank mines, this igniter makes them effective as tank belly mines. The igniter weighs approximately 210 grams (0.46 lb); is approximately 110 mm (4.33 in) in diameter and 105 mm (4.13 in) long, and extends 55 mm (2.17 in) above the mine body. The antenna, which extends 0.64 meter (25 in) above the top of the mine, can be locked at its base to provide safe handling. All components are made of plastic, sealed against adverse environmental conditions. This igniter was under development in 1973 by Societe Alsatienne d'Etudes et d'Exploitation (ALSETEX). 7-49 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AS7-116011-001-75 ? Firing Device, Pull type, Nondetectable, Model ALSETEX FOM No. 1375-17-3-3 Neg. 516987 (U) Description (UNCLASSIFIED) Figure 7-21. Firing device, pull type, nondetectable, Model ALSETEX, general view (U). This device (fig 7-29) has a plastic body, with all pyrotechnic elements hermetically sealed to prevent deterioration in storage or in service. Overall length including the threaded portion is 72 mm (2.82 in); the visible (external) portion is 64 mm (2.52 in). Diameter is 25 mm (2.95 in) and weight is approximately 20 grams (0.044 lb). This pull-type firing device can be used with all types of metallic or nonmetallic mines or other explosive devices with a standard fuze well. Safety is provided by a safety pin, which can be removed at a distance. This device is under development by the Societe Alsacienne d'Etudes et d'Exploitation (ALSETEX). (U) Functioning After arming, the device functions when the trip wire is pulled. 7-51 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BUNK Pig Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Section VIII. DELAY-ARMING MECHANISMS, TIMERS, AND S&A DEVICES 8-1 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Section VIII. DELAY-ARMING MECHANISMS, TIMERS, AND S&A DEVICES GENERAL (U) Time mechanisms, delay-arming mechanisms, and S&A devices are used in a number of different fuzes. This section provides a more detailed description and functioning of 'Components which are cross referenced to the individual fuze described in other sections of the handbook. 8-3 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original FOM No. INDEX Nomenclature* Delay-Arming Mechanisms AST-1160H-001-75 Page 1390-16-10-4 Delay-Arming Mechanism for Fuze, PD, Model AZ DM 111A3 . 8-9 1390-35-10-3 Delayed-Arming Shutter, No. 3B 8-15 1390-35-10-4 Delayed-Arming Shutter, No. 4A 8-21 Timers 1390-16-10-3 Mechanical Timer,-60 seconds, Model Junghans 8-27 1390-35-10-1 Clockwork Time Mechanism, 80 seconds, No. 1 8-31 1390-35-10-2 Clockwork Time Mechanism, 43 seconds, No. 4 8-43 S&A Devices 1390-17-10-2 S&A Device for VT Fuze, Model FU-RA-F1 8-45 1390-17-10-3 S&A Device for French Crotale SAM 8-47 1390-20-10-1 S&A Device for VT Fuze, Model NVT-227A1 8-53 1390-35-10-5 S&A Device, Model K40A1 8-57 'All fuec lomenchituro..ire UNCLASSIFIED. 8-5 (Reverse Blank) UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 BLANK PAGE Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 LIST OF ILLUSTRATIONS Figure Title* Page Delay-Arming Mechanisms 8-1 Interface of delay-arming mechanism components for fuze, Model AZ DM 111A3 8-9 8-2 Interface of delay-arming mechanism components for Rize, Model AZ DM 111A3, unarmed position 8-11 8-3 Interface of delay-arming mechanism components for fuze, Model AZ DM 111A3, armed position 8-13 8-4 Delayed-arming shutter, No. 3B, external view 8-15 8-5 Delayed-arming shutter, No. 3B, exploded view 8-16 8-6 Delayed-arming shutter, No. 3B, functioning view 8-19 8-7 Delayed-arming shutter, No. 4A, external view 8-21 8-8 Delayed-arming shutter, No. 4A, exploded view 8-22 8-9 Delayed-arming shutter, No. 4A, functioning sequence 8-25 Timers 8-10 60-second mechanical timer, Model Junghans, interface of components 8-27 8-11 60-second mechanical timer, Model Junghans, timer and setback device 8-29 8-12 80-second mechanical timer, No. 1, exploded view 8-31 8-13 80-second mechanical timer, No. 1, functioning views 8-40 8-14 43-second mechanical timer, No. 4, contour, exploded, and functioning views 8-43 S&A Devices 8-15 S&A device for VT fuze, Model TRT, section view 8-45 8-16 Crotale S&A device, bottom view 8-47 8-17 Detonator/pressure plug assembly for Crotale S&A device 8-48 8-18 Crotale S&A device, section view 8-49 8-19 Crotale S&A device, functioning sequence 8-50 8-20 Turbine generator device for fuze, Model NVT-227A1 8-53 *All Figure titles are UNCLASSIFIED. 8-7 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Original Figure Title* Page 8-21 S&A device for fuze, Model NVT-227A1, section view, unarmed position 8-54 8-22 S&A device for fuze, Model NVT-227A1, section view, armed position 8-55 8-23 Rapier S&A device, Model K40A1 8-57 8-24 Electrical delay switch for Rapier S&A device 8-58 8-25 Expansive motor for Rapier S&A device 8-58 *All figure titles are UNCLASSIFIED. 8-8 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original AST-1160H-001-75 Delay-Arming Mechanism for Fuze, PD, Model AZ DM 111A3 FOM No. 139046404 DELAY-ARMING MECHANISMS (U) General The delay-arming mechanism for the AZ DM 111A3 (FOM No. 1390-16-1-9-1) consists of an interface of the fuze's firing-pin assembly, escapement, rotor, selector stud, and detent system. The escapement, rotor, and detent system of the AZ DM 111A3 is similar to that of the AZ DM 111 and AZ DM 111A1 fuzes (FOM Nos. 1390-16-1-1 and 1390-16-1-2). The AZ DM 111A3 differs in that it employs a protruding-type firing-pin assembly which permits supersensitivity functioning upon impact. The fuze is considered so sensitive that it will function when grazing thin branches or brushwood after the fuze has been armed. The protruding-type striker ensures a high-fragmentation effect from the high-explosive projectiles it is used with. Except for this action, the AZ DM 111A3 fuze functions like the AZ DM 111 and AZ DM 111A1 fuzes. (U) Design Details (UNCLASSIFIED) Figure 8-1. Interface of delay-arming mechanism components for fuze, Model AZ DM 111A3 (U). 8-9 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST11601400145 Original Delay-Arming Mechanism for Fuze, PD, Model AZ DM 111A3 FOM No. 1390-16-104 (U) Design Details (Continued) Figure 8-1 illustrates the interface of the escapement, firing-pin assembly, rotor, selector stud, and detent system. The escapement run-off safety (shown on the left) is provided by the ball release pin (L) and the safety pin (m), which prevents the escapement lever (k) from oscillating. This, in turn, prevents the rotor (o) containing the delay or SQ detonators from rotating to the in-line position. As an additional safety feature of the escapement, the firing pin (a) engages in a matching hole in the rotor (o). The firing pin (a) is pressed rearward against the compression spring (r) by the interlock of the firing-pin recess and the radial slot in the firing-pin locking lever (b). The firing-pin locking lever (b), which is swivel mounted and preloaded by the torsion set-screw spring (c), is locked in place by the pressure of the trigger lever (f) against the safety pin (m). In this position, the firing-pin locking lever (b) cannot release the firing pin (a), thereby preventing it from moving forward. The setback-type pins (m and L) represent a double safety mechanism. The pins are connected in series by means of a locking ball (n). When the projectile is fired, the ball release pin (L) is first pushed rearward. Due to the cone on this detent pin, the locking ball (n) can release the safety pin (m) which then moves rearward. The trigger lever (f) and the escapement are then released. As shown on the right of figure 8-1, the engagement of the pull wire (C) in the recess of the ball release pin (L) blocks the movement of this detent pin in the axial direction. The pull wire (C) provides a positive safety during handling. It must be removed prior to firing. Other components shown in figure 8-1 include the projecting striker head (A), the escape wheel (h), the selector stud (E) and its stop pin (e), the booster lead (g), and the tetryl booster (F). 8-10 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Origins (U) Design Details (Continued) AST-1150H-001-75 Delay-Arming Mechanism for Fuze, PD, Model AZ DM 111A3 FOM No. 1390-16-10-4 (UNCLASSIFIED) Figure 8-2. Interface of delay-arming mechanism components for fuze, Model AZ DM 111A3, unarmed position (U). Figure 8-2 depicts additional design details of the firing-pin assembly, escapement, rotor, selector stud, and dctent system interface. The safety leaf (m1) (shown at right) mounted on the safety pin (in) engages a deepened toothed space of the rotor (o) and 8-11 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED MT-1160H-001-75 Original Delay-Arming Mechanism for Fuze, PD, Model AZ DM 111A3 FOM No. 1390-16-10-4 (U) Design Details (Continued) consequently prevents it from rotating to the armed position. This ensures, from a production standpoint, that the rotor (o) can only be mounted in the unarmed position. The firing-pin locking lever (b) resting against the trigger lever (f) and the pressure of the trigger lever against the safety pin (m) are clearly visible. If the fuze is set to OV (superquick action), the selector stud (E) is in the position depicted by its bisected tap (Es ). In this position, when the rotor (0) is disengaged to rotate to the armed position, it can only rotate until the stop pin (Os) meets the bisected tap (Es ) of the selector. In this position, the OV detonator is in line with the firing pin. If the selector stud (E) is set for MV (delay action), the rotation of the rotor (0) to the armed position is not obstructed by the stop pin (Or) and continues until it is locked by the interrupted gearing of the rotor (0). The MV detonator is then inline with the firing pin (i.e., the fuze is armed). Shown at the right in figure 8-2 is the rotor (0) with the MV detonator (S). This view depicts the firing pin engaging a hole in the rotor. Also depicted is the rotors torsion spring (P) which drive the escapement and consequently causes the rotor to rotate to the armed position after it has been disengaged. Figure 8-3 depicts the interface of the most important fuze components in the armed position. Following a minimum acceleration of approximately 500 g's during a period of at least 0.01 second, the double safety mechanism (i.e., safety pin [m] , locking ball [n] , and ball release pin [Id ) is disengaged. The locking spring (q) engages the recess of the safety pin (m). The ball (n) locks the ball release pin (L). In this manner both detent pins are retained in their rear position. Together with the detent pin (m), the safety leaf (m1) has also been disengaged from the rotor gearing (see view at right in figure 8-3). In addition, the triKer lever (f) is also released. The firing-pin locking lever (b) is free to turn, and the firing pin (a) is released. It jumps forward together with the striker head (A) as the result of the expansion of 8-12 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED Original (U) Design Details (Continued) AST-116014-001-75 Delay-Arming Mechanism for Fuze, PD, Model AZ DM 111A3 FOM No. 1390-16-10-4 (UNCLASSIFIED) Figure 8-3. Interface of delay-arming mechanism components for fuze, Model AZ DM 111A3, armed position (U). compression spring (r). The rotor (0) has also been released by the firing pin (a) and within approximately 1 second rotates to the preset OV or MV position (i.e., 50 or delay action). The fuze is armed within 1.01 seconds. 8-13 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 UNCLASSIFIED AST-1160H-001-75 Or igina Delay-Arming Mechanism for Fuze, PD, Model AZ DM 111A3 FOM No. 1390-16-10-4 (U) Design Details (Continued) Direct-action (i.e., SQ) ignition requires a minimum energy of 1.8 kg/cm on the projected or protruding striker. The same amount of energy is achieved on a 1-mm cardboard disk (specific weight-0.65 kg/cm3) at a projectile velocity of 45 m/s. On the same target, the direct-action ignition requires a minimum energy of 3.6 kg/cm, which necessitates a projectile velocity of 60 m/s. Below a projectile velocity of 350 mls, the air drag is not sufficient to prevent arming of the fuze. Delay-action funceioning occurs 0.05 second after impact. The explosive train runs from detonators (s or t) through the booster lead (g) to the booster charge (F) (see fig 8-1). 8-14 UNCLASSIFIED Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL Original AST-1160H-001-75 Delayed-Arming Shutter, No. 3B FOM No. 1390-35-10-3 - LOCKING PLATE ENGAGED WITH SPIGOT OR PLUNGER SAFETY GAUGING HOLE FOR GAUGING SAFETY POSITION OF SHUTTER WHEN UNIT IS ASSEMBLED IN FUZE Figure 8-4. Delayed-arming shutter, No. 311, external view (U). POSITIONING SLOT FOR ASSEMBLY INTO FUZE (CONFIDENTIAL) (C) General The No. 311 delayed-arming shutter (fig 8-4) is a mechanical safety unit. When it is assembled to a fuze, it insures that the projectile will not arm until it has travelled a predetermined distance from the weapon. Although this shutter is obsolete, it is incorporated in this handbook for review by fuze designers. 8-15 CONFIDENTIAL Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 Declassified and Approved For Release 2014/03/04 : CIA-RDP09-01333R000100030001-0 CONFIDENTIAL AST-1160H-001-75 Original Delayed-Arming Shutter, No. 3B FOM No. 1390-35-10-3 (C) Design Details 0