Dual redundant electro explosive device latch mechanism
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
UP-0077157
(2008-03-17)
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등록번호 |
US-7775147
(2010-09-06)
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발명자
/ 주소 |
- Crawford, Daniel M.
- Morgan, Bruce E.
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출원인 / 주소 |
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대리인 / 주소 |
Schwegman, Lundberg & Woessner, P.A.
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인용정보 |
피인용 횟수 :
1 인용 특허 :
7 |
초록
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A latch including a first electrical explosive device disposed between first and second surfaces and a second electrical explosive device disposed between said first and second surfaces in series with said first electrical explosive device. In the illustrative embodiment, the vehicle is a missile or
A latch including a first electrical explosive device disposed between first and second surfaces and a second electrical explosive device disposed between said first and second surfaces in series with said first electrical explosive device. In the illustrative embodiment, the vehicle is a missile or torpedo, the first surface is a drag door and the second surface is a vehicle body. In this embodiment, the first electrical explosive device is coupled to the vehicle body on a first end of the device and to a common series attachment on another end thereof and the second electrical explosive device is connected to the common series attachment on a first end and to the drag door on a second end thereof. An arrangement is included for activating the electrical explosive devices to effect a deployment of the drag door with a high degree of reliability.
대표청구항
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What is claimed is: 1. A dual-redundant electro-explosive device latch mechanism comprising: first, second and third brackets in a series arrangement; a first electrical explosive device coupling only the first and second brackets; and a second electrical explosive device coupling only the second a
What is claimed is: 1. A dual-redundant electro-explosive device latch mechanism comprising: first, second and third brackets in a series arrangement; a first electrical explosive device coupling only the first and second brackets; and a second electrical explosive device coupling only the second and third brackets, wherein the first bracket is coupled to a vehicle body and the third bracket is coupled to a drag door, and wherein failure of either but not both electrically explosive devices to activate is effective to decouple at least one of the first or third bracket from the second bracket to provide separation of the drag door from the body at the latch mechanism. 2. The dual-redundant electro-explosive device latch mechanism of claim 1 wherein when either but not both of the explosive devices fails to activate, the first or third bracket is configured to separate from the second bracket to unlatch the drag door to provide fail-safe operation. 3. The dual-redundant electro-explosive device latch mechanism of claim 2 wherein the first electrical explosive device is coupled to the vehicle body on a first end of the device and to a common series attachment on another end thereof. 4. The dual-redundant electro-explosive device latch mechanism of claim 3 wherein the second electrical explosive device is connected to the common series attachment on a first end and to the drag door on a second end thereof. 5. The dual-redundant electro-explosive device latch mechanism of claim 2 wherein the vehicle is a missile, and wherein unlatching of the drag door is configured to disrupt flight of the missile. 6. The dual-redundant electro-explosive device latch mechanism of claim 2 wherein the vehicle is an unmanned aircraft, and wherein unlatching of the drag door is configured to disrupt flight of the unmanned aircraft. 7. The dual-redundant electro-explosive device latch mechanism of claim 2 wherein the vehicle is a torpedo, and wherein unlatching of the drag door is configured to disrupt motion of the torpedo. 8. The dual-redundant electro-explosive device latch mechanism of claim 1 further including means for activating the electrical explosive devices simultaneously. 9. A vehicle comprising: a body; and at least one drag door attached to the body on one end of the drag door and secured to the body on another end of the door with a latch, the latch comprising: first, second and third brackets in a series arrangement; a first electrical explosive device coupling only the first and second brackets; and a second electrical explosive device coupling only the second and third brackets, wherein the first bracket is coupled to the body and the third bracket is coupled to the drag door, and wherein failure of either but not both electrically explosive devices to activate is effective to decouple at least one of the first or third bracket from the second bracket to provide separation of the drag door from the body at the latch mechanism. 10. The vehicle of claim 9 wherein when either but not both of the explosive devices fails to activate, the first or third bracket is configured to separate from the second bracket to unlatch the drag door to provide fail-safe operation. 11. The vehicle of claim 10 wherein the first electrical explosive device is coupled to the vehicle body on a first end of the device and to a common series attachment on another end thereof, and wherein the second electrical explosive device is connected to the common series attachment on a first end and to the drag door on a second end thereof. 12. The vehicle of claim 9 wherein the vehicle is a missile, and wherein unlatching of the drag door is configured to disrupt flight of the missile. 13. The vehicle of claim 9 wherein the vehicle is a torpedo, and wherein unlatching of the drag door is configured to disrupt motion of the torpedo. 14. The vehicle of claim 9 wherein the vehicle is an unmanned aircraft, and wherein unlatching of the drag door is configured to disrupt flight of the unmanned aircraft. 15. The vehicle of claim 9 further including means for activating the electrical explosive devices simultaneously. 16. A dual-redundant latch comprising: a first bracket coupled to a first surface; a second bracket; and a third bracket coupled to a second surface, wherein the first, second and third brackets are in a series arrangement, wherein the first and second brackets are configured to be coupled by a first release mechanism and the second and third brackets are configured to be coupled by a second release mechanism, and wherein failure of either but not both electrically explosive devices to activate is effective to decouple at least one of the first or third brackets from the second bracket. 17. The dual-redundant latch of claim 16 wherein the release mechanisms are electrically explosive devices, and wherein when either but not both of the explosive devices fails to active, the first or third bracket is configured to separate from the second bracket to unlatch the latch to provide fail-safe operation. 18. The dual-redundant latch of claim 17 further including an arrangement for activating the explosive devices simultaneously. 19. A method for deploying a drag door comprising: securing the drag door to a vehicle body with a dual-redundant electro-explosive device latch mechanism comprising first and second electrical explosive devices; and simultaneously activating the electrical explosive devices, wherein the latch mechanism comprises first, second and third brackets are in a series arrangement, wherein the first electrically explosive device couples the first and second brackets, wherein the second electrically explosive device couples the second and third brackets, and wherein failure of either but not both electrically explosive devices to activate is effective to decouple at least one of the first or third bracket from the second bracket to provide separation of the drag door from the body at the latch mechanism. 20. The method of claim 19 wherein when either but not both of the explosive devices fail to operate, the first or third bracket is configured to separate from the second bracket to unlatch the drag door to provide fail-safe operation. 21. The method of claim 20 wherein the first electrical explosive device is coupled to the vehicle body on a first end of the device and to a common series attachment on another end thereof. 22. The method of claim 21 wherein the second electrical explosive device is connected to the common series attachment on a first end and to the drag door on a second end thereof. 23. The method of claim 20 wherein the vehicle is a missile, and wherein unlatching of the drag door is configured to disrupt flight of the missile. 24. The method of claim 20 wherein the vehicle is a torpedo, and wherein unlatching of the drag door is configured to disrupt motion of the torpedo. 25. The method of claim 20 wherein the vehicle is an unmanned aircraft, and wherein unlatching of the drag door is configured to disrupt flight of the unmanned aircraft.
이 특허에 인용된 특허 (7)
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Kister, Thomas, Composite structural part comprising pyrotechnic detonating rupture means.
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Chow Weichien (Park Forest IL), Interstage electrical connector.
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Cleveland,Mark A., Low shock separation joint.
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Cleveland,Mark A., Low shock separation joint and method therefor.
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Brede,Uwe; Lancht,Horst, Pyromechanical separating element.
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Green Richard F. (Jackson MI) Manor LeRoy L. (Jackson MI), Self-orienting device.
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Nowak,Wieslaw; Nowak,Zygmunt; Nowak,Janusz, System of devices for emergency opening of vehicle doors.
이 특허를 인용한 특허 (1)
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Gatzke, Sten, Signal strength dependent cover unlocking device for a duct housing a secondary power supply device in an aircraft fuselage.
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