Compression spring wing deployment initiator
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0376747
(2011-04-04)
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등록번호 |
US-8754352
(2014-06-17)
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국제출원번호 |
PCT/US2011/031074
(2011-04-04)
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§371/§102 date |
20111207
(20111207)
|
국제공개번호 |
WO2011/126970
(2011-10-13)
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발명자
/ 주소 |
- Pietrzak, Amy
- Krueger, Michael J.
|
출원인 / 주소 |
- BAE Systems Information and Electronic Systems Integration Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
4 |
초록
▼
A wing deploy initiator for deploying guidance wings of a rocket or missile, such as the APKWS, provides enhanced wing deploy performance with reduced complexity, cost, and likelihood of failure. The invention includes a cam which is driven between the stowed guidance wings by at least one compressi
A wing deploy initiator for deploying guidance wings of a rocket or missile, such as the APKWS, provides enhanced wing deploy performance with reduced complexity, cost, and likelihood of failure. The invention includes a cam which is driven between the stowed guidance wings by at least one compression spring, thereby forcing the guidance wings outward through slots in the fuselage of the rocket or missile. Oblique flat sides of the cam can push against beveled edges on the wings. The cam can be attached to spring mandrels, and the cam and mandrels can pass through a retaining plate as the springs decompress. Embodiments can exert sufficient push force to enable the wings to break through frangible slot covers. An embodiment applicable to the APKWS includes only 13 parts, and can exert up to 10 lb push force on each wing after 0.3 inches of wing travel.
대표청구항
▼
1. A wing deploy initiator for initiating deployment from a stowed configuration of a plurality of guidance wings of a rocket or missile, the guidance wings being hinged at distal ends thereof so as to pivot outward during wing deployment through corresponding wing slots provided in a fuselage of th
1. A wing deploy initiator for initiating deployment from a stowed configuration of a plurality of guidance wings of a rocket or missile, the guidance wings being hinged at distal ends thereof so as to pivot outward during wing deployment through corresponding wing slots provided in a fuselage of the rocket or missile, proximal ends of the guidance wings being located in mutual proximity within the fuselage when the guidance wings are in the stowed configuration, the wing deploy initiator comprising: a cam, the cam being too large to pass between the guidance wings when the guidance wings are in the stowed configuration; andat least one compression spring, the compression spring being configured to drive the cam distally between the guidance wings, the cam thereby forcing the guidance wings to pivot apart from each other and outward through the wing slots. 2. The wing deploy initiator of claim 1, wherein the cam includes a plurality of flat surfaces oriented at oblique angles relative to a longitudinal axis of the rocket or missile, the flat surfaces being oriented so that each of the flat surfaces maintains contact with a corresponding one of the guidance wings as the cam is driven distally between the guidance wings. 3. The wing deploy initiator of claim 2, wherein the flat surfaces of the cam are configured so as to be substantially parallel to beveled edges provided on the corresponding guidance wings, the flat surfaces of the cams thereby making parallel contact with the beveled edges of the corresponding guidance wings as the cam is driven distally between the guidance wings. 4. The wing deploy initiator of claim 1, wherein each of the compression springs surrounds a mandrel and is retained between a distal end of the mandrel and a retainer plate, a proximal end of the mandrel being able to pass through an opening in the retainer plate so as to compress the compression spring against the retainer plate, the cam being attached to the plurality of mandrels. 5. The wing deploy initiator of claim 4, wherein the cam is attached to the mandrels near the proximal ends of the mandrels. 6. The wing deploy initiator of claim 5, wherein the cam is able to pass through an opening in the retainer plate as the proximal ends of the mandrels pass through the retainer plate. 7. The wing deploy initiator of claim 6, further comprising a cam mount attaching the cam to the proximal ends of the plurality of mandrels, the cam mount being unable to pass fully through the retainer plate, the cam mount thereby preventing removal of the mandrels from the retainer plate. 8. The wing deploy initiator of claim 1, wherein the guidance wings are maintained in the stowed configuration by a wing retaining mechanism, the guidance wings thereby preventing the distal movement of the cam until the wing retaining mechanism is released so that the guidance wings can be driven outward by the distal movement of the cam. 9. The wing deploy initiator of claim 1, wherein the wing deploy initiator is configured for use with an guided missile. 10. The wing deploy initiator of claim 1, wherein the wing deploy initiator consists of a total of 13 parts. 11. The wing deploy initiator of claim 1, wherein the wing deploy initiator is able to exert at least 10 lb of push force on each wing after 0.3 inches (2.5 degrees) of wing travel from each wing's stowed position. 12. The wing deploy initiator of claim 1, wherein the wing deploy initiator is able to exert sufficient push force on each wing to cause each wing to break through a frangible cover installed over the corresponding wing slot.
이 특허에 인용된 특허 (4)
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Perry, Craig; Schroeder, Richard W.; Voigt, Allan A., Cover ejection and fin deployment system for a gun-launched projectile.
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Terhune, Robert; Hollis, Michael, Extendable fins for a tube-launched projectile.
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Myers Glenn G. (Mission Viejo CA), Folding wing structure with a flexible cover.
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Palani, Kumaraguru Poonamalli; Burt, Raymond Lee, Multi-stage fin deployment assembly.
이 특허를 인용한 특허 (1)
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Lyman, Ward D.; Koehler, Frederick B., Shape memory alloy disc vent cover release.
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