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 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
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。
2 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
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。
3 Igniter assembly is actuated by the deployment of the parachute and flares, including it JP2001512246 2000-07-19 JP2003529035A 2003-09-30 アンダーソン,デレック・シー; オスターホウト,ライアン・ディー; ポンド,マーク・エイチ
(57)【要約】 このパラシュート照明弾の点火装置組立体は、点火効率の高い信頼性を得るための新規なスライダー(116)を有している。 このスライダーは、点火装置組立体のハウジングのレース溝に沿って移動する。 ハウジングに対して固定状態に保持されたカートリッジがハウジングに配置されている。 このカートリッジは、固定プライマー(122)とスプリングとを有している。 カートリッジに連結された撃鉄アーム(118)は、スプリングが撃鉄アームをプライマーの方へ付勢するコック状態(引かれた点火準備状態)に移動することができる。 スライダーは、点火剤チャンバーとコック壁部分とを有し、装填状態から点火状態にレース溝の長手方向の少なくとも一部分に沿って点火剤チャンバーと連動して移動することができる。 装填状態では、撃鉄アームはコック壁部分によってコック状態に保持される。 点火状態では、点火剤チャンバーはプライマーと整合されかつ連通し、撃鉄アームがコック壁部分から離れて、プライマーを爆発するのに十分なでスプリングが撃鉄アームをコック状態からプライマーに駆動することができる。
4 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.
5 FUSEE POUR PROJECTILE EP86903194.8 1986-06-13 EP0228386B1 1990-01-31 GOLAY, Jean-Pierre
The rocket comprises a striker (8) provided with a pin (9) which is eccentric with respect to the longitudinal axis. By rotating the striker by means of the cap (2) wherein it is mounted, the pin (9) may be placed facing either of two detonators (10 and 11) presenting different firing characteristics.
6 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.
7 FUSEE POUR PROJECTILE EP86903194.0 1986-06-13 EP0228386A1 1987-07-15 GOLAY, Jean-Pierre
La fusée comprend un percuteur (8) muni d'une pointe (9) excentrée par rapport à l'axe longitudinal. En faisant tourner le percuteur au moyen du chapeau (2) dans lequel il est monté, on peut placer la pointe (9) en regard de l'une ou de l'autre de deux amorces (10 et 11) présentant des caractéristiques de mise à feu différentes.
8 Methods and apparatuses for electronic time delay and systems including same US11553361 2006-10-26 US08002026B2 2011-08-23 John A. Arrell, Jr.; Ronald S. Borja; William J. Slade; Francois X. Prinz
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 a detonation output to initiate the next element explosive or propellant element, such as an array of shaped charges in the well perforating system.
9 SAFETY SYSTEM US12620152 2009-11-17 US20100147176A1 2010-06-17 Michael ALCULUMBRE
A small arms projectile for a small arms weapon is provided within a cartridge cover (1). A release element (15) is provided for preventing movement of the projectile=s initiator (11) into an armed position. The release element (15) is held in an engagement position by the cartridge cover (1). Also, a channel (5) is formed between the initiator (11) and the projectile=s explosive charge (8) and a slidable shielding means (6) is provided therein. An insert element (10) is also located in the channel for preventing movement of the shielding means (6) into its armed position. The insert element (10) is held in place by the cartridge cover(1). When the projectile exits the cartridge cover (1) and the weapon=s barrel following firing, the release element (15) is configured to move out of the engagement position to release the initiator (11), and the insert element (10) is configured to move out of the channel (5) to allow the shielding means (6) to move into its armed position.
10 Fuse for projectile US041073 1987-03-12 US4741270A 1988-05-03 Jean-Pierre Golay
A fuse comprises a firing pin provided with a tip eccentric with respect to the longitudinal axis of the firing pin. By turning the firing pin by means of a cap in which it is mounted, the tip can be placed to face one or the other of two firing caps having different firing characteristics.
11 Hydrodynamic firing pin US462857 1983-02-01 US4489654A 1984-12-25 Peter H. Van Sloun; James C. Hall
In combination: an explosive propulsion member having an axial percussion primer; an electric primer mounted to discharge toward the percussion primer along the axis; and apparatus between the primers hydrodynamically responsive to discharge of the electric primer to percussively engage the percussion primer.
12 Delayed action fuze US49268365 1965-10-04 US3320891A 1967-05-23 HOLMES DONALD E
13 Hand grenade US39551741 1941-05-28 US2377207A 1945-05-29 CAMPBELL JOHN B
14 Percussion fuse for projectiles US36032140 1940-10-08 US2322543A 1943-06-22 WILLIAM PATCHETT GEORGE
15 Methods and apparatuses for electronic time delay and systems including same US11876841 2007-10-23 US07789153B2 2010-09-07 Francois X. Prinz; John A. Arrell, Jr.; Ronald S. Borja; William J. Slade
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.
16 METHODS AND APPARATUSES FOR ELECTRONIC TIME DELAY AND SYSTEMS INCLUDING SAME US11876841 2007-10-23 US20080110612A1 2008-05-15 Francois X. Prinz; John A. Arrell; Ronald S. Borja; William J. Slade
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 is 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.
17 Igniter assembly actuated by parachute deployment, and flare containing the same US09619311 2000-07-19 US06412417B1 2002-07-02 Derek C. Anderson; Mark H. Pond; Ryan D. Osterhout
This parachute flare igniter assembly has a novel slider for attaining high reliability in firing efficiency. The slider moves along a raceway of an igniter assembly housing. Also disposed in the housing is a cartridge retained in a stationary state relative to the housing. The cartridge includes a stationary primer and a spring. A striker arm connected to the cartridge is movable into a cocked state in which the spring urges the striker arm towards the primer. The slider has an igniter composition chamber and a cocking wall portion, and is movable in tandem with the igniter composition chamber along at least a portion of the length of said raceway from a loaded position to a firing position. In the loaded position, the striker arm is maintained in the cocked state by the cocking wall portion. In the firing position, the igniter composition chamber is aligned and in communication with the primer and the striker arm is free of the cocking wall portion to permit the spring to drive the striker arm from the cocked state into the primer with the force sufficient to detonate the primer.
18 Mechanical fuze for projectiles US5843860 1960-09-26 US3090311A 1963-05-21 FRITZ BERGER
19 Grenade fuze US45780154 1954-09-22 US2872866A 1959-02-10 BROWN JULIUS L; ODIERNO SILVIO J; JACK SCHWARZSCHILD; WENIG HAROLD G
20 Point detonating fuze US43567854 1954-06-10 US2808000A 1957-10-01 LINDSAY HARVEY B
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