Thermal rocket initiator mechanism and rocket system incorporating same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42C-015/31
F02K-009/95
출원번호
US-0999384
(2014-02-20)
등록번호
US-9482185
(2016-11-01)
발명자
/ 주소
Borrell, Frederick J
출원인 / 주소
The United States of America as Reprented by the Secretary of the Navy
대리인 / 주소
Zimmerman, Fredric J.
인용정보
피인용 횟수 :
1인용 특허 :
13
초록▼
A thermal rocket initiator mechanism, including a housing; a primer carriage translatable within the housing; a percussion primer disposed within the primer carriage; and a pair of actuator rods disposed within the housing where one of the pair of actuator rods is coupled to the primer carriage and
A thermal rocket initiator mechanism, including a housing; a primer carriage translatable within the housing; a percussion primer disposed within the primer carriage; and a pair of actuator rods disposed within the housing where one of the pair of actuator rods is coupled to the primer carriage and the other pair of actuator rods is coupled to the housing. The mechanism further includes a rocker arm coupling the pair of actuator rods to one another where the pair of actuator rods are manufactured from a shape memory alloy that changes dimensions upon heating, translating the primer carriage within the housing and correspondingly actuating the percussion primer. The pair of actuator rods includes a long actuator rod and a short actuator rod. The percussion primer is actuated through a ramp structure coupled to the primer carriage and a spring structure coupled to the housing.
대표청구항▼
1. A thermal rocket initiator mechanism, comprising: a housing;a primer carriage being translatable within the housing;a percussion primer being disposed within the primer carriage;a pair of actuator rods being disposed within the housing, wherein one of the pair of actuator rods is coupled to the p
1. A thermal rocket initiator mechanism, comprising: a housing;a primer carriage being translatable within the housing;a percussion primer being disposed within the primer carriage;a pair of actuator rods being disposed within the housing, wherein one of the pair of actuator rods is coupled to the primer carriage and the other of the pair of actuator rods is coupled to the housing; anda rocker arm coupling the pair of actuator rods to one another,wherein the pair of actuator rods are manufactured from a shape memory alloy that changes dimensions upon heating to an alloy transition temperature, thereby translate the primer carriage within the housing and correspondingly to actuate the percussion primer. 2. The thermal rocket initiator mechanism of claim 1, wherein the pair of actuator rods comprise one actuator rod that is relatively longer and one actuator rod that is relatively shorter. 3. The thermal rocket initiator mechanism of claim 1, wherein the shape memory alloy comprises NiTiNOL. 4. The thermal rocket initiator mechanism of claim 1, wherein the percussion primer is actuated through a ramp structure coupled to the primer carriage and a spring structure coupled to the housing. 5. The thermal rocket initiator mechanism of claim 4, wherein the spring structure actuates a detent ball disposed adjacent to the percussion primer. 6. The thermal rocket initiator mechanism of claim 1, further comprising a safety interlock mechanism actuated by an actuation material disposed in a cavity adjacent to the percussion primer. 7. The thermal rocket initiator mechanism of claim 1, wherein the percussion primer, when actuated, actuates, a rocket motor igniter. 8. A method for providing a thermal rocket initiator mechanism, comprising: providing a housing;providing a primer carriage being translatable within the housing;providing a percussion primer being disposed within the primer carriage;providing a pair of actuator rods being disposed within the housing, wherein one of the pair of actuator rods is coupled to the primer carriage and the other of the pair of actuator rods is coupled to the housing; andproviding a rocker arm coupling the pair of actuator rods to one another,wherein the pair of actuator rods are manufactured from a shape memory alloy that changes dimensions upon heating to an alloy transition temperature, thereby translate the primer carriage within the housing and correspondingly to actuate the percussion primer. 9. The method of claim 8, wherein the pair of actuator rods comprise one actuator rod that is relatively longer and one actuator rod that is relatively shorter. 10. The method of claim 8, wherein the shape memory alloy comprises NiTiNOL. 11. The method of claim 8, wherein the percussion primer is actuated through a ramp structure coupled to the primer carriage and a spring structure coupled to the housing. 12. The method of claim 11, wherein the spring structure actuates a detent ball disposed adjacent to the percussion primer. 13. The method of claim 8, further comprising providing a safety interlock mechanism actuated by an actuation material disposed in a cavity adjacent to the percussion primer. 14. The method for providing a thermal rocket initiator mechanism of claim 8, wherein the percussion primer, when actuated, actuates, a rocket motor igniter. 15. A rocket system, comprising: a thermal rocket initiator mechanism, comprising: a housing;a primer carriage being translatable within the housing;a percussion primer being disposed within the primer carriage;a pair of actuator rods being disposed within the housing, wherein one of the pair of actuator rods is coupled to the primer carriage and the other of the pair of actuator rods is coupled to the housing; anda rocker arm coupling the pair of actuator rods to one another,wherein the pair of actuator rods are manufactured from a shape memory alloy that changes dimensions upon heating to an alloy transition temperature, thereby translate the primer carriage within the housing and correspondingly to actuate the percussion primer; anda rocket motor igniter being actuated by the percussion primer of the thermal rocket initiator mechanism. 16. The rocket system of claim 15, wherein the pair of actuator rods comprise one actuator rod that is relatively longer and one actuator rod that is relatively shorter. 17. The rocket system of claim 15, wherein the shape memory alloy comprises NiTiNOL. 18. The rocket system of claim 15, wherein the percussion primer is actuated through a ramp structure coupled to the primer carriage and a spring structure coupled to the housing. 19. The rocket system of claim 18, wherein the spring structure actuates a detent ball disposed adjacent to the percussion primer. 20. The rocket system of claim 15, further comprising a safety interlock mechanism actuated by an actuation material disposed in a cavity adjacent to the percussion primer.
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