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 |
|---|---|---|---|---|---|---|
| 1 | 基于射频捷变收发器的雷达引信及其设计方法 | CN201610079510.1 | 2016-02-04 | CN105716480A | 2016-06-29 | 全英汇; 张华童; 李亚超; 邢孟道; 施凯敏; 刘晓东; 张俊力 |
| 基于射频捷变收发器的雷达引信及其设计方法。本发明属于无线电技术领域,公开了一种基于射频捷变收发器AD9361的雷达引信及其设计方法,包括:配置射频捷变收发器AD9361的性能参数;射频捷变收发器AD9361获取发射信号,将发射信号通过射频捷变收发器AD9361的发射通道进行发射;射频捷变收发器AD9361接收回波信号,将回波信号通过射频捷变收发器AD9361的接收通道进行接收,然后发送至控制器FPGA;控制器FPGA根据接收到的回波信号获取目标的运行参数值,若目标的运行参数值满足起爆条件,则控制器FPGA输出起爆信号,可广泛应用于起爆时机的控制、选择最佳的攻击点、按照预定策略完成起爆控制。 | ||||||
| 2 | 一种安全电引火药头 | CN201510972009.3 | 2015-12-18 | CN105387774A | 2016-03-09 | 邢化岛; 吴红波; 朱帅; 缪志军 |
| 本发明提供一种安全电引火药头,包括:塑料塞、旋钮槽、轴槽、内部引线、保险阀、旋钮、轴、保险丝、脚线、引火药、桥丝;其特征在于:旋钮一端与轴一端连接其夹角为90°,轴另一端与保险丝中心相连夹角为90°,旋钮与保险丝夹角为45°。脚线与内部引线连接通过塑料塞固定,内部引线与桥丝连接,引火药包覆桥丝,保险阀轴外径尺寸与塑料塞轴槽内径尺寸大小一致,旋钮与旋钮槽匹配,保险丝长度长于两根内部引线间距,旋钮旋转到旋钮槽右端,保险丝与两根内部引线接触,桥丝短路,引火药处于安全状态,构成完整的一种安全电引火药头。本发明使用方便、安全可靠,便于推广使用。 | ||||||
| 3 | 用于电子时间延迟的方法和装置以及包括它们的系统 | CN200780039650.5 | 2007-10-26 | CN101529197B | 2013-04-10 | F·X·普林兹; 小约翰·A·阿雷尔; R·S·博尔哈; W·J·斯莱德 |
| 本发明公开了电子时间延迟装置以及使用方法。可以构造为井穿孔系统的炸药或推进剂系统包括电子时间延迟组件,该电子时间延迟组件包括输入子组件、电子时间延迟电路和输出子组件。输入子组件由外部刺激来驱动,其中,元件进行移动,以便起动电子时间延迟电路。电子时间延迟电路包括时间延迟装置,该时间延迟装置与电压点火电路连接。电子时间延迟电路计数时间延迟,且在完成时升高电压直至超过临界点火电压。当超过临界点火电压时,电压激发器开关将击穿,以便将能量传递给电起动器,从而起动输出子组件中的炸药引爆剂。炸药引爆剂提供引爆输出,以便起动下一个炸药或推进剂元件,例如在井穿孔系统中的一组聚能炸药。 | ||||||
| 4 | 一种可加密雷管及其使用方法 | CN201710080232.6 | 2017-02-15 | CN106931842A | 2017-07-07 | 赵英亮; 王黎明; 李宁; 李璇; 郭亚静; 张智敏; 张一凡; 韩星程; 王苏恺 |
| 本发明公开了一种可靠性好、安全性高的可加密雷管,包括:雷管管壳,沿其轴线的一端设有开口,且开口处通过固定连接的密封塞封闭;导爆管,其一端位于雷管管壳的外侧、另一端穿过密封塞并延伸至雷管管壳的内侧;爆炸组件位于雷管管壳的内侧、且与开口相对的一端;电子锁组件固定连接于雷管管壳的内壁,且其信号端子穿过雷管管壳并延伸至雷管管壳的外侧;微动组件设置于导爆管与爆炸组件之间,以隔离导爆管与爆炸组件,且微动组件与电子锁组件电连接,以接收电子锁组件发出的电信号并连通导爆管与爆炸组件;解锁组件可拆卸地与电子锁组件的信号端子连接,以通过输入密码实现对电子锁组件的解锁。本发明还公开了上述可加密雷管的使用方法。 | ||||||
| 5 | 一种隔断式MEMS引信 | CN201510790210.X | 2015-11-17 | CN105371713A | 2016-03-02 | 赵玉龙; 胡腾江; 李秀源; 白颖伟 |
| 一种隔断式MEMS引信,包括药剂层,药剂层上部和药剂盖板层通过键合的方式连接,药剂层下部和安保装置层上部通过键合的方式连接,安保装置层下部和加速膛层黏贴,安保装置层包括硅衬底层,二氧化硅层以及可动硅结构层依次制作在硅衬底层上,在可动硅层中制作有四组驱动器,每组驱动器的右、左金属电极分别制作在右、左锚点上,呈阵列的V型热电执行器的两端分别与左、右锚点相连,杠杆的首端通过右柔性梁与中间臂相连,下锚点通过左柔性梁与杠杆的首端相连,隔板位于杠杆的末端并且制作有互锁槽与互锁齿,与相邻隔板对应的互锁齿及互锁槽形成互锁,本发明将MEMS技术应用到引信,具有低成本、高智能、易集成的特点。 | ||||||
| 6 | 用于电子时间延迟的方法和装置以及包括它们的系统 | CN200780039650.5 | 2007-10-26 | CN101529197A | 2009-09-09 | F·X·普林兹; 小约翰·A·阿雷尔; R·S·博尔哈; W·J·斯莱德 |
| 本发明公开了电子时间延迟装置以及使用方法。可以构造为井穿孔系统的炸药或推进剂系统包括电子时间延迟组件,该电子时间延迟组件包括输入子组件、电子时间延迟电路和输出子组件。输入子组件由外部刺激来驱动,其中,元件进行移动,以便起动电子时间延迟电路。电子时间延迟电路包括时间延迟装置,该时间延迟装置与电压点火电路连接。电子时间延迟电路计数时间延迟,且在完成时升高电压直至超过临界点火电压。当超过临界点火电压时,电压激发器开关将击穿,以便将能量传递给电起动器,从而起动输出子组件中的炸药引爆剂。炸药引爆剂提供引爆输出,以便起动下一个炸药或推进剂元件,例如在井穿孔系统中的一组聚能炸药。 | ||||||
| 7 | ZÜNDSYSTEM FÜR EIN SKALIERBARES WIRKSYSTEM | EP15000783.9 | 2015-03-17 | EP2921814B1 | 2016-11-30 | Ackermann, Hans-Dieter |
| 8 | 포고핀이 구비된 안전장전장치 | KR1020150175297 | 2015-12-09 | KR1020170068281A | 2017-06-19 | 윤세현; 임유철; 김명환 |
| 본발명은포고핀이구비된안전장전장치에관한것으로써, 더욱상세하게는포고핀에구비되는탄성부재에의해진동, 충격등에서도정상적이고안정적인연결이가능하도록하기위한포고핀이구비된안전장전장치에관한것이다. | ||||||
| 9 | VERFAHREN UND VORRICHTUNG ZU SICHERUNG UND ENTSICHERUNG EINES WURFKÖRPERS | EP16405034.6 | 2016-12-15 | EP3336482A1 | 2018-06-20 | Spatz, Peter |
Ein Verfahren zur platzsparenden und leicht manuell bedienbaren Sicherung und Entsicherung von Wurfkörpern erfolgt durch Einzelschritte an einem Formkörper (1c) der durch eine Blattfeder (2') den Zündmechanismus (5, 6, 15, 19) sichert und entsichert. Entsprechende Anwendungsbeispiele sind als Vorrichtungen für die Sicherung und Entsicherung von Wurfkörpern, wie Tränengasbehälter und Handgranaten (8) aufgezeigt. Eine bevorzugte Variante zur Verwendurig in Handgranaten enthält im Formkörper (1c) eine Taste T, die durch Drücken mit einem Finger eine laterale Verschiebung in Richtung (A) erlaubt. Dadurch erfolgen die Entsicherung der Handgranate und deren Initiierung.
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| 10 | IGNITION GENERATOR FOR INSENSITIVE AND TAILORABLE EFFECTS, AS A WARHEAD INITIATOR | EP15813147.4 | 2015-06-05 | EP3152513A2 | 2017-04-12 | 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. | ||||||
| 11 | METHODS AND APPARATUSES FOR ELECTRONIC TIME DELAY AND SYSTEMS INCLUDING SAME | EP07871261.9 | 2007-10-26 | EP2076732B1 | 2011-10-26 | 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. | ||||||
| 12 | DETONATOR PROVIDED WITH A SECUREMENT DEVICE | EP16853991.4 | 2016-10-05 | EP3359911A1 | 2018-08-15 | BORGSTRÖM, Ulf; PETTERSSON, Lars-Erik |
| A detonator arrangement (10) comprising a detonator (1) having an initiation charge (2) and a base charge (3), which initiation charge (2) is arranged to initiate a detonation of said base charge (3), characterized in that the said detonator arrangement (10) comprises a securement device (5, 72, 64) movable in relation to the detonator (1), which securement device (5, 72, 64) can be disposed in a first position arranged to prevent a transfer of the detonation of the initiation charge (2) to the base charge (3), whereby the detonation of the base charge is avoided, and in a second position arranged to allow the transfer of the detonation of the initiation charge (2) to the base charge (3), whereby the detonation of the base charge is obtained. | ||||||
| 13 | Zündsystem für ein skalierbares Wirksystem | EP15000783.9 | 2015-03-17 | EP2921814A1 | 2015-09-23 | Ackermann, Hans-Dieter |
Die Erfindung betrifft ein Zündsystem für ein hinsichtlich seiner Leistungsabgabe skalierbares Wirksystem mit zwei unterschiedlichen Zündkreisen für die subdetonative und die detonative Initiierung der Sprengladung des Wirksystems, wobei ein Kontrollmechanismus im subdatonativen Zündkreis die korrekte Funktion überwacht und damit die unkontrollierte vollständige Leistungsabgabe der Wirkladung verhindert.
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| 14 | METHODS AND APPARATUSES FOR ELECTRONIC TIME DELAY AND SYSTEMS INCLUDING SAME | EP07871261.9 | 2007-10-26 | EP2076732A2 | 2009-07-08 | 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. | ||||||
| 15 | Geschosskopf für eine Übungspatrone | EP04016529.2 | 2004-07-14 | EP1508767B1 | 2006-08-30 | Naderhoff, Uwe; Berg, Martin; Kolodzey, Jürgen |
| 16 | Geschosskopf für eine Übungspatrone | EP04016529.2 | 2004-07-14 | EP1508767A1 | 2005-02-23 | Naderhoff, Uwe; Berg, Martin; Kolodzey, Jürgen |
Die Erfindung betrifft einen Geschoßkopf für eine Übungspatrone (2), welche ein sowohl für Übungspatronen als auch Gefechtspatronen gleichen Kalibers verwendbares Antriebsteil (3) mit integriertem Geschoß-Heckteil (4) umfaßt, wobei der Geschoßkopf (1) der Übungs- oder der Gefechtspatrone mit einer zapfenförmigen, in eine Aufnahme (11) des Geschoßkopfes (1) einführbaren Verlängerung (8) des Geschoß-Heckteiles (4) verbindbar ist, und wobei die Verlängerung (8) eine vorderseitig offene Ausnehmung (9) für einen Gefechtskopfzünder (10) enthält. Um zu erreichen, daß der Geschoßkopf (1) nur dann mit einem Antriebsteil (3) verbindbar ist, wenn sichergestellt ist, daß sich kein Gefechtskopfzünder (10) in der entsprechenden Ausnehmung (9) der zapfenförmigen Verlängerung (8) des Geschoß-Heckteiles (4) befindet, schlägt die Erfindung vor, den Geschoßkopf (1) der Übungspatrone (2) auf seiner dem Antriebsteil (3) zugewandten Seite mit einem sich in das Innere der Aufnahme (11) erstreckenden Anschlag (13) zu versehen, derart, daß bei vorhandenem Gefechtskopfzünder (10) dieser beim Verbinden von Antriebsteil (3) und Geschoßkopf (1) gegen den Anschlag (13) stößt und verhindert, daß die Verlängerung (8) ihre Endlage in der Aufnahme (11) des Geschoßkopfes (1) erreicht. |
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| 17 | Selectively disabled ammunition and remote ammunition disabling system and method of use | US15456510 | 2017-03-11 | US09903694B2 | 2018-02-27 | Joseph Dan Palo |
| The present invention provides an ammunition disabling system for selectively disabling ammunition that is operatively coupled to a selectively changeable material. In the operative state the material permits transmission of a percussive impact through the material for enabling firing of the ammunition; and in the deactivated state the material inhibits transmission of the percussion wave through the material for preventing firing of the ammunition. The ammunition disabling system includes an energy wave generator with an energy wave source that emits an energy wave at a frequency resonant a natural frequency of the material. When the ammunition with the material are exposed to the energy wave, the energy wave induces a response (physical and/or chemical) in the material that results in a mechanical change in the material from the operative state to the deactivated state by degrading the mechanical structure of the material. | ||||||
| 18 | Selectively disabled ammunition and remote ammunition disabling system and method of use | US15456509 | 2017-03-11 | US09766051B1 | 2017-09-19 | Joseph Dan Palo |
| The present invention provides an ammunition disabler with a material capable of being selectively changed in response to an energy wave for preemptively disabling ammunition. In at least one embodiment, the ammunition disabler includes a material selectively structurally changeable from an operative state to a deactivated state upon exposure to an energy wave is provided, where the material is positioned at least partially between the firing pin and the priming compound when the ammunition is chambered within the firearm (with the priming compound positioned between the material and the propellant), and related systems, methods and uses. The material may be contained within the primer cup with the priming compound. The material may be positioned adjacent to the priming compound in direct or indirect contact or in close proximity. The material may be positioned externally from the primer cup. | ||||||
| 19 | Selectively Disabled Ammunition and Remote Ammunition Disabling System and Method of Use | US15456510 | 2017-03-11 | US20170261298A1 | 2017-09-14 | Joseph Dan Palo |
| The present invention provides an ammunition disabling system for selectively disabling ammunition that is operatively coupled to a selectively changeable material. In the operative state the material permits transmission of a percussive impact through the material for enabling firing of the ammunition; and in the deactivated state the material inhibits transmission of the percussion wave through the material for preventing firing of the ammunition. The ammunition disabling system includes an energy wave generator with an energy wave source that emits an energy wave at a frequency resonant a natural frequency of the material. When the ammunition with the material are exposed to the energy wave, the energy wave induces a response (physical and/or chemical) in the material that results in a mechanical change in the material from the operative state to the deactivated state by degrading the mechanical structure of the material. | ||||||
| 20 | Pyrotechnic slug | US14386008 | 2013-03-10 | US09127920B2 | 2015-09-08 | Sharon Joseph; Yehiel Argaman; Tal Amlany; Amit Harpaz |
| A pyrotechnic slug, intended to be used by bomb squads to neutralize explosive devices, comprising a hollow cylinder, having an internal space, and having a projectile body made of non-metallic material, the projectile body having a closed front end and an open back end receiving a slug plug, the internal space containing a mixture cavity holding a pyrotechnic mixture, which upon ignition and explosion thereof is configured to create a weak pressure wave, and the pyrotechnic slug having an operating system comprising at least one selected from a list including: a) a mechanical impact firing system; and b) a delayed operating system; wherein the pyrotechnic slug is configured to be propelled from a barrel by one of: a) a separate cartridge; b) a unified slug comprising the projectile body inserted into a cartridge; and c) a rocket motor. | ||||||
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