公开(公告)号：US08701557B2

公开(公告)日：2014-04-22

申请号：US13022164

申请日：2011-02-07

申请人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darryl Budy ,  Christopher Schott

发明人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darryl Budy ,  Christopher Schott

IPC分类号： F42B3/10

CPC分类号： F42B3/124 ,  F42B3/125 ,  F42C9/00 ,  F42C14/00 ,  F42C19/02

摘要： Embodiments of an initiator support assembly that includes an initiator housing including an initiator cavity system are generally described herein. In some embodiments, a bridge substrate is positioned within the initiator cavity. The bridge substrate includes a substrate base including a uniform first planar surface and an opposed second surface. The bridge substrate further includes a first bridge contact extending over the substrate base. The first bridge contact is substantially flush with the first planar surface. A second bridge contact extends over the substrate base. The second bridge contact is substantially flush with the first planar surface. The first and second bridge contacts and the uniform first planar surface form a continuous planar mounting surface. An explosive charge, positioned within the initiator cavity, includes a charge mounting surface that is continuously coupled in surface-to-surface contact across the continuous planar mounting surface.

摘要翻译： 包括引发器腔体系统的引发器壳体的引发器支撑组件的实施例在本文中大体上被描述。 在一些实施例中，桥接衬底位于引发器腔内。 桥基板包括具有均匀的第一平坦表面和相对的第二表面的基板基底。 桥基板还包括延伸在基板基底上的第一桥接触。 第一桥接触头与第一平面表面基本齐平。 第二个桥接触头延伸到基板基底上。 第二桥接触件与第一平面表面基本齐平。 第一和第二桥接触件和均匀的第一平面形成连续的平面安装表面。 位于引发器腔内的爆炸物包括电荷安装表面，该电荷安装表面在穿过连续的平面安装表面的表面到表面接触处连续耦合。

公开(公告)号：US08430028B2

公开(公告)日：2013-04-30

申请号：US13076684

申请日：2011-03-31

申请人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darryl Budy

发明人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darryl Budy

IPC分类号： F42B3/10

CPC分类号： F42C19/04 ,  F42B3/10 ,  F42B3/11 ,  F42C19/02

摘要： Some embodiments pertain to an initiator support assembly that includes a casing and one or more initiator leads extending from the casing. The transmission of current through the initiator leads detonates an explosive charge within the casing. The casing includes a flange and a dampening member attached to the flange. The dampening member is between the flange and a structure where the initiator support assembly is mounted. The dampening member dampens shock that would otherwise be transferred from the structure to the initiator support assembly. In another example embodiment, at least a portion of the casing is formed of an interior wall, a dampening layer covering at least a portion of the interior wall and an exterior wall. The dampening layer dampens shock to the initiator support assembly that would otherwise be transferred from a structure to the initiator support assembly when the exterior wall is mounted to the structure.

摘要翻译： 一些实施例涉及引发器支撑组件，其包括壳体和从壳体延伸的一个或多个引发器引线。 电流通过引发器引线的传输引爆了壳体内的爆炸性电荷。 壳体包括凸缘和连接到凸缘的阻尼构件。 阻尼构件位于凸缘和安装起动器支撑组件的结构之间。 阻尼构件减震否则将从结构传递到起动器支撑组件的冲击。 在另一示例性实施例中，壳体的至少一部分由内壁，覆盖内壁的至少一部分和外壁的阻尼层形成。 当外壁安装到结构体上时，阻尼层会阻止起动器支撑组件的冲击，否则该起动器支撑组件将从结构转移到起动器支撑组件。

公开(公告)号：US20120227607A1

公开(公告)日：2012-09-13

申请号：US13076684

申请日：2011-03-31

申请人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darrly Budy

发明人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darrly Budy

IPC分类号： F42C19/00 ,  F16F7/00

CPC分类号： F42C19/04 ,  F42B3/10 ,  F42B3/11 ,  F42C19/02

摘要： Some embodiments pertain to an initiator support assembly that includes a casing and one or more initiator leads extending from the casing. The transmission of current through the initiator leads detonates an explosive charge within the casing. The casing includes a flange and a dampening member attached to the flange. The dampening member is between the flange and a structure where the initiator support assembly is mounted. The dampening member dampens shock that would otherwise be transferred from the structure to the initiator support assembly. In another example embodiment, at least a portion of the casing is formed of an interior wall, a dampening layer covering at least a portion of the interior wall and an exterior wall. The dampening layer dampens shock to the initiator support assembly that would otherwise be transferred from a structure to the initiator support assembly when the exterior wall is mounted to the structure.

摘要翻译： 一些实施例涉及引发器支撑组件，其包括壳体和从壳体延伸的一个或多个引发器引线。 通过引发器引线的电流传输引爆壳体内的爆炸性电荷。 壳体包括凸缘和连接到凸缘的阻尼构件。 阻尼构件位于凸缘和安装起动器支撑组件的结构之间。 阻尼构件减震否则将从结构传递到起动器支撑组件的冲击。 在另一示例性实施例中，壳体的至少一部分由内壁，覆盖内壁的至少一部分和外壁的阻尼层形成。 当外壁安装到结构体上时，阻尼层会阻止起动器支撑组件的冲击，否则该起动器支撑组件将从结构传递到起动器支撑组件。

公开(公告)号：US20120199030A1

公开(公告)日：2012-08-09

申请号：US13022164

申请日：2011-02-07

申请人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darryl Budy ,  Christopher Schott

发明人： Bradley Biggs ,  Timothy B. Bonbrake ,  George Darryl Budy ,  Christopher Schott

IPC分类号： F42C11/00 ,  F42C19/12

CPC分类号： F42B3/124 ,  F42B3/125 ,  F42C9/00 ,  F42C14/00 ,  F42C19/02

摘要： Embodiments of an initiator support assembly that includes an initiator housing including an initiator cavity system are generally described herein. In some embodiments, a bridge substrate is positioned within the initiator cavity. The bridge substrate includes a substrate base including a uniform first planar surface and an opposed second surface. The bridge substrate further includes a first bridge contact extending over the substrate base. The first bridge contact is substantially flush with the first planar surface. A second bridge contact extends over the substrate base. The second bridge contact is substantially flush with the first planar surface. The first and second bridge contacts and the uniform first planar surface form a continuous planar mounting surface. An explosive charge, positioned within the initiator cavity, includes a charge mounting surface that is continuously coupled in surface-to-surface contact across the continuous planar mounting surface.

摘要翻译： 包括引发器腔体系统的引发器壳体的引发器支撑组件的实施例在本文中大体上被描述。 在一些实施例中，桥接衬底位于引发器腔内。 桥基板包括具有均匀的第一平坦表面和相对的第二表面的基板基底。 桥基板还包括延伸在基板基底上的第一桥接触。 第一桥接触头与第一平面表面基本齐平。 第二个桥接触头延伸到基板基底上。 第二桥接触件与第一平面表面基本齐平。 第一和第二桥接触件和均匀的第一平面形成连续的平面安装表面。 位于引发器腔内的爆炸物包括电荷安装表面，该电荷安装表面在穿过连续的平面安装表面的表面到表面接触处连续耦合。

公开(公告)号：US07240617B1

公开(公告)日：2007-07-10

申请号：US11389766

申请日：2006-03-27

申请人： Timothy B. Bonbrake ,  Christopher J. Rutz ,  Christina L. Adair

发明人： Timothy B. Bonbrake ,  Christopher J. Rutz ,  Christina L. Adair

IPC分类号： F42C15/00

CPC分类号： F42C15/40

摘要： An arming system for a weapon, such as a missile, includes a pair of logic elements that output different types of signals upon the occurrence of different pre-arming events. The different types of signals may be, for instance, signals at different frequencies. The different signals are combined in a mixer. The mixed combined signal may be processed by passing it though elements such as a band pass filter and/or a pulse-width modulator/controller. An arming switch is configured to initiate arming when a predetermined condition in the combined signal is detected, such as the presence of a frequency in the combined signal at the difference between the frequencies of the individual signals from the logic elements. By basing arming on characteristics of a mixed combined signal from two logical elements, there are no credible single-point failure modes in the arming system.

摘要翻译： 用于武器（例如导弹）的武装系统包括一对在发生不同预警事件时输出不同类型的信号的逻辑元件。 不同类型的信号可以是例如不同频率的信号。 不同的信号在混合器中组合。 混合的组合信号可以通过使其通过诸如带通滤波器和/或脉冲宽度调制器/控制器的元件来进行处理。 布防开关被配置为当检测到组合信号中的预定条件时启动布防，例如在来自逻辑元件的各个信号的频率之间的组合信号中出现频率差。 通过对来自两个逻辑元件的混合信号的特征进行布防，在布防系统中没有可信的单点故障模式。

公开(公告)号：US5216325A

公开(公告)日：1993-06-01

申请号：US469898

申请日：1990-01-24

申请人： Chiman R. Patel ,  Timothy B. Bonbrake ,  Barry L. Driscoll

发明人： Chiman R. Patel ,  Timothy B. Bonbrake ,  Barry L. Driscoll

IPC分类号： F42C19/12 ,  F42C19/06 ,  H01T2/00 ,  H01T2/02

CPC分类号： H01T2/02 ,  F42C19/06

摘要： An improved solid state spark gap for use, for example, in firing munitions. The spark gap is formed by depositing a trigger electrode on a dielectric substrate, precisely covering the trigger electrode and an adjoining area with a dielectric layer, and forming an anode and a cathode on the dielectric layer with a spark gap there between. The anode and cathode do not overlap the trigger electrode. The spark gap may be enclosed within a hermetically sealed inert gas filled cover.