子分类:
- F42C15/005: .联合型安全机构,即两个或多个安全装置按照预定的序列彼此移动
- F42C15/16: .其中撞针被移至安全作用线以外 (F42C 15/40优先)
- F42C15/18: .其中用于烟火导火索或爆炸导火索元件的载体是移动的 (F42C 15/40优先)
- F42C15/20: .其中移动安全销或止动销使引信解除保险的,例如从撞针移开的 ({F42C 9/041 和}F42C 15/40优先)
- F42C15/24: .其中靠惯性方法产生安全或解除保险作用 (F42C 15/196, F42C 15/20 优先)
- F42C15/28: .靠流动物质,例如细粒,流体的流动而操作的 (F42C 15/26 优先)
- F42C15/32: .靠改变流体压力操作的 (F42C 5/00, F42C 15/29 优先)
- F42C15/34: .其中由雷管与主装药之间烟火或爆炸导火索中的锁定元件产生安全或解除保险作用的 (F42C 15/18,F42C 15/40 优先)
- F42C15/36: .其中由元件的燃烧或熔化来完成解除保险的; {使用温度梯度来解除保险的方法} (F42C 15/31 优先)
- F42C15/38: .其中由化学作用完成解除保险的 (F42C 3/00 优先)
- F42C15/40: .其中安全或解除保险动作是用电的方法完成的
- F42C15/44: .解除保险以后,例如在发射以后,拆除引信或使其成为无危害的装置
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Self-destruction fuze for spin projectiles | US44686165 | 1965-04-09 | US3314362A | 1967-04-18 | FERDINAND IRION |
| 62 | Timing device | US54768466 | 1966-04-01 | US3282582A | 1966-11-01 | DILLIARD ALLEN E |
| 63 | Fuse | US54125644 | 1944-06-20 | US2487789A | 1949-11-15 | CARR WILEY W; WILLKE LOUIS G; PRINCE JR LEON M |
| 64 | Ignition or firing mechanism | US51379743 | 1943-12-10 | US2396064A | 1946-03-05 | KARNER JOSEPH W VAN |
| 65 | Register | US7654136 | 1936-04-27 | US2104208A | 1938-01-04 | OLTROGGE FREDERICK C |
| 66 | 둔감 탄약 신관 | KR1020150137219 | 2015-09-30 | KR1020170038203A | 2017-04-07 | 고용호; 전제헌 |
| 본발명은둔감탄약신관에관한것으로, 탄체(10)에결합되는신관몸체(21)와상기신관몸체(21)의외주면에구비되어상기신관몸체(21)를상기탄체(10)에나사결합하며, 화재시상기탄체(10)에포함되는에너지물질의자동점화온도보다낮은온도에서상기신관몸체(21)가상기탄체(10)로부터분리되도록플라스틱재질로형성되는나사부(25)를포함한다. 본발명은포발사탄약의화재로인한압력을적기에배출시켜둔감성능을향상시킬수 있을뿐 아니라신관의정상운용중에는신관의용도에적합한구조적강도를유지할수 있는이점이있다. | ||||||
| 67 | 폐추진기관의 고체 추진제 처리방법 | KR1020150136104 | 2015-09-25 | KR1020170037047A | 2017-04-04 | 유동진; 유은실; 장혜리; 심용호; 하상욱 |
| 본발명에의하면, 폐추진기관의고체추진제로부터과염소산암모늄을추출하는추출단계; 상기추출단계를통해추출된과염소산암모늄을용해시키는용해단계; 상기용해단계를통해얻은용액에서녹지않은비수용성물질을필터를통해분리시키는분리단계; 및상기분리단계를거친용액을흡착제에통과시켜서정제하는정제단계를포함하는폐추진기관의고체추진제처리방법이제공된다. | ||||||
| 68 | 신관보호용 캡을 구비한 분산탄용 자탄 | KR1020160000324 | 2016-01-04 | KR101687933B1 | 2016-12-19 | 김광련; 김남진 |
| 본발명은다양한종류의집속탄또는분산탄의모탄내에탑재되며, 제조공정중에신관부품의파손이나슬라이더장전등으로인한비정상적인작동을방지함과아울러모탄에탑재된후 각종발사환경으로부터신관부품을보호하고목표상공에서자탄이방출되는과정에서적층된상부자탄으로인한신관부품의파손을방지하면서도신관조립체로부터쉽게분리되는신관보호용캡을구비한분산탄용자탄에관한것으로서, 내부에고폭화약(22)이충전되고상부에스터드가조립된원통형상의자탄몸통(21)과, 폭발력을집중시켜목표물을관통할수 있도록상기자탄몸통(21)의후단내측에설치되는원뿔형상의관통자(23)를포함하는자탄몸체(20)와; 상기고폭화약(22)을폭발시킬수 있도록연결관(40)을통해상기고폭화약(22)에연결되고기폭관(35)이설치된슬라이더(32)의고정을해제하는격침나사(33)가구비되며스터드에의해자탄몸체(20)의상측에결합되는신관조립체(30)와; 제조공정중에상기신관조립체(30)의부품파손및 슬라이더장전에따른비정상작동을방지하고모탄탑재후 발사환경으로부터신관조립체(30)의구성품을보호하도록상기신관조립체(30)에결합되며, 자탄방출시상부자탄의자탄몸체(20) 내부에구속되어상기신관조립체(30)로부터분리되는금속박막재질의캡 부재(10);를포함하고, 상기캡 부재(10)는신관조립체(30)를감싸도록형성되는원통형상의하부체(12)와, 상면이개구된테이퍼형상으로형성되어상기하부체(12)의상측에연결되는상부체(11)와, 상기하부체(12)의하단부분에형성되어상기신관조립체(30)의하단에구비된결합돌기(37)에탄성결합되는복수개의탄성돌기(13)와, 상기하부체(12)의일부가세로방향의절개홈(16)에의해절개되어형성되며서로마주보도록배치되는한 쌍의측면날개(14)를포함하는것을특징으로한다. | ||||||
| 69 | 지능형 지뢰 장치와 그 동작 방법 | KR1020120097128 | 2012-09-03 | KR1020140032027A | 2014-03-14 | 김도현; 유재준; 박종현; 김경호 |
| The present invention relates to an intelligent mine device and an operation method for the same, capable of not only sensing an approach of a target within a predetermined radius but also recognizing an ally on the target and efficiently removing the target. Therefore, the intelligent mine device of the present invention includes a sensor unit sensing the approach of the target; an analysis processing unit distinguishing whether the target is the ally or not by performing wireless communication with the approached target; and a mine blasting unit blasting the mine device as the target is distinguished as an enemy in the analysis processing unit. [Reference numerals] (102) Sensor unit; (104) Transceiving unit; (106) Message generation unit; (108) Analysis processing unit; (110) Mine blasting unit; (112) Initialization unit; (114) Storage unit; (116) Power supply unit | ||||||
| 70 | IGNITION GENERATOR FOR INSENSITIVE AND TAILORABLE EFFECTS, AS A WARHEAD INITIATOR | PCT/US2015034398 | 2015-06-05 | WO2016028361A2 | 2016-02-25 | GRACE FRED IRVIN; BARNARD MICHAEL J; BENTZ DANIEL; ENIG ERIC N; YILBONG KIM |
| An explosive device composed of: a flux compression generator operative to produce a high intensity electric current when activated; and an electrical payload connected to the generator and constructed to receive the high intensity electric current and cause energy in the current to generate a plate or shaped projectile in the payload and to launch the projectiles into an explosive or insensitive reactive material target for the purpose of initiating the reactive material at single or multiple points. | ||||||
| 71 | METHODS AND APPARATUSES FOR ELECTRONIC TIME DELAY AND SYSTEMS INCLUDING SAME | PCT/US2007082641 | 2007-10-26 | WO2008070343A4 | 2009-01-22 | PRINZ FRANCOIS X; ARRELL JOHN A JR; BORJA RONALD S; SLADE WILLIAM J |
| Electronic time delay apparatuses and methods of use are disclosed. An explosive or propellant system, which may be configured as a well perforating system includes an electronic time delay assembly comprising an input subassembly, an electronic time delay circuit, and an output subassembly. The input subassembly is activated by an external stimulus, wherein an element is displaced to activate an electronic time delay circuit. The electronic time delay circuit comprises a time delay device coupled with a voltage firing circuit. The electronic time delay circuit counts a time delay, and, upon completion, raises a voltage until a threshold firing voltage is exceeded. Upon exceeding the threshold firing voltage, a voltage trigger switch will break down to transfer energy to an electric initiator to initiate an explosive booster within the output subassembly. The explosive booster provides the detonation output to initiate the next element explosive or propellant element, such as an array of shaped charges in the well perforating system. | ||||||
| 72 | METHODS AND APPARATUSES FOR ELECTRONIC TIME DELAY AND SYSTEMS INCLUDING SAME | PCT/US2007082641 | 2007-10-26 | WO2008070343A3 | 2008-12-11 | PRINZ FRANCOIS X; ARRELL JOHN A JR; BORJA RONALD S; SLADE WILLIAM J |
| Electronic time delay apparatuses and methods of use are disclosed. An explosive or propellant system, which may be configured as a well perforating system includes an electronic time delay assembly comprising an input subassembly, an electronic time delay circuit, and an output subassembly. The input subassembly is activated by an external stimulus, wherein an element is displaced to activate an electronic time delay circuit. The electronic time delay circuit comprises a time delay device coupled with a voltage firing circuit. The electronic time delay circuit counts a time delay, and, upon completion, raises a voltage until a threshold firing voltage is exceeded. Upon exceeding the threshold firing voltage, a voltage trigger switch will break down to transfer energy to an electric initiator to initiate an explosive booster within the output subassembly. The explosive booster provides the detonation output to initiate the next element explosive or propellant element, such as an array of shaped charges in the well perforating system. | ||||||
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