Thermal protection system and related methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02K-009/68
F16J-015/20
F16J-015/32
F16C-033/00
출원번호
US-0763280
(2007-06-14)
등록번호
US-8276361
(2012-10-02)
발명자
/ 주소
Garbe, Duane J.
출원인 / 주소
Alliant Techsystems Inc.
대리인 / 주소
TraskBritt
인용정보
피인용 횟수 :
3인용 특허 :
9
초록▼
A thermal protection system and a method of manufacturing are disclosed. The thermal protection system may be configured to protect a movable joint, for example, a flexible bearing of a rocket motor nozzle. The thermal protection system includes a series of annular shims separated by a plurality of
A thermal protection system and a method of manufacturing are disclosed. The thermal protection system may be configured to protect a movable joint, for example, a flexible bearing of a rocket motor nozzle. The thermal protection system includes a series of annular shims separated by a plurality of discrete spacers. Each shim of the series of annular shims may have a larger diameter than the previous shim, and the shims may nest. The shims may comprise a thermally stable material, and the discrete spacers may comprise an elastomer. Optionally, an annular bearing protector may separate the annular shims from the flexible bearing.
대표청구항▼
1. A thermal protection system for a movable joint of a rocket motor, the thermal protection system comprising: a plurality of nested annular shims comprising a cloth composite; anda plurality of discrete spacers disposed between at least two adjacent nested annular shims of the plurality of nested
1. A thermal protection system for a movable joint of a rocket motor, the thermal protection system comprising: a plurality of nested annular shims comprising a cloth composite; anda plurality of discrete spacers disposed between at least two adjacent nested annular shims of the plurality of nested annular shims, the plurality of discrete spacers defining gas-flow spaces between adjacent discrete spacers and between the at least two adjacent nested annular, shims, the gas-flow spaces configured to accommodate flow of gas between the adjacent discrete spacers and between the at least two adjacent nested annular shims. 2. The thermal protection system of claim 1, wherein each discrete spacer of the plurality of discrete spacers comprises an elastomer. 3. The thermal protection system of claim 1, wherein the cloth composite comprises a carbon cloth and a phenolic resin. 4. The thermal protection system of claim 1, wherein the cloth composite comprises a glass cloth and a phenolic resin. 5. The thermal protection system of claim 1, wherein each discrete spacer of the plurality of discrete spacers is disc-shaped, a plurality of the disc-shaped discrete spacers being disposed in a spaced arrangement along a surface of one of the plurality of nested shims. 6. The thermal protection system of claim 1, wherein each nested annular shim of the plurality of nested annular shims has a surface conforming to a surface of a concentric sphere. 7. The thermal protection system of claim 1, wherein at least some of the plurality of discrete spacers are bonded to a surface of at least one nested annular shim of the plurality of nested annular shims. 8. The thermal protection system of claim 7, wherein the at least some of the plurality of discrete spacers are bonded to a surface within an annular notch extending into the at least one nested annular shim of the plurality of nested annular shims. 9. The thermal protection system of claim 1, further comprising end rings comprising the cloth composite. 10. The thermal protection system of claim 1, wherein each discrete spacer of the plurality of discrete spacers comprises an elastomer portion and a metal cap. 11. The thermal protection system of claim 1, wherein each discrete spacer of the plurality of discrete spacers comprises a spring. 12. The thermal protection system of claim 11, wherein the spring comprises a body portion and radially extending fingers. 13. A rocket motor, comprising: a movable thrust nozzle including a flexible bearing assembly;a thermal protection system disposed about the movable thrust nozzle, adjacent the flexible bearing assembly, the thermal protection system comprising: a plurality of nested annular shims comprising a cloth composite; anda plurality of discrete spacers disposed between at least two adjacent nested annular shims of the plurality of nested annular shims, the plurality of discrete spacers defining gas-flow spaces between adjacent discrete spacers and between the at least two adjacent nested annular shims, the gas-flow spaces configured to accommodate flow of gas between the adjacent spacers and between the at least two adjacent nested annular shims. 14. The rocket motor of claim 13, further comprising a separator positioned between the thermal protection system and the movable thrust nozzle. 15. The rocket motor of claim 14, wherein the separator comprises an annular body of silicone. 16. The rocket motor of claim 13, wherein the flexible bearing assembly comprises a plurality of elastomer layers stacked alternately with rigid layers. 17. The rocket motor of claim 13, further comprising a first end ring positioned between the plurality of nested annular shims and a fixed housing of the movable thrust nozzle. 18. The rocket motor of claim 17, further comprising a second end ring positioned between the plurality of nested annular shims and an end ring of the flexible bearing assembly. 19. A thermal protection system of a rocket motor, comprising: a plurality of nested annular shims comprising a cloth composite; anda plurality of spacers disposed between at least two adjacent nested annular shims of the plurality of nested annular shims, each spacer of the plurality of spacers comprising a skid shoe positioned on a surface thereof;wherein the plurality of spacers define tortuous paths between adjacent spacers and between the at least two adjacent nested annular shims, the tortuous paths configured to accommodate passage of gas between the adjacent spacers and longitudinally across a surface of each of the at least two adjacent nested annular shims. 20. The thermal protection system of claim 19, wherein each spacer of the plurality of spacers comprises: an annular cavity extending from an opening in a surface thereof; andan insulative nub on a circumferential edge of the spacer, the insulative nub spaced apart from the skid shoe. 21. A method of assembling a thermal protection system of a rocket motor, comprising: nesting a first annular shim having a plurality of discrete spacers attached thereto within an end ring of a flexible bearing assembly;nesting at least one second annular shim having a plurality of discrete spacers attached thereto within the first annular shim, the first annular shim located adjacent to and at least partially encircling the at least one second annular shim; anddefining gas-flow spaces between adjacent discrete spacers and between the first annular shim and the at least one second annular shim, the gas-flow spaces configured to accommodate flow of gas between the adjacent discrete spacers and between the first annular shim and the at least one second annular shim. 22. The method of claim 21, further comprising mechanically locking the first annular shim against the end ring of the flexible bearing assembly with the at least one second annular shim. 23. The method of claim 21, further comprising bonding at least some of the plurality of discrete spacers to the first annular shim. 24. The method of claim 21, further comprising bonding at least some of the plurality of discrete spacers to a surface within an annular notch extending into the first annular shim.
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이 특허에 인용된 특허 (9)
Brown William S. (Woodland Hills CA), Extendible nozzle.
Beckett Carl D. (Vancouver WA) Lauhala Victor C. (Richland WA) Neely Ron (Kennewick WA) Penswick Laurence B. (Richland WA) Ritter Darren C. (Benton City WA) Nelson Richard L. (Pasco WA) Wimer Burnell, Flexure bearing support, with particular application to stirling machines.
McCullough Edward E. (Brigham City UT) Greenwood Stewart H. (North Ogden UT) Sherard ; Jr. Hoyt (Pleasant View UT) McDonald Richard D. (Garland TX) Hirschi Ronald G. (North Ogden UT) Randall Alfred R, Support system for rocket thrust nozzles.
Gajiwala, Himansu M.; Hall, Steven B., Methods of forming flexible structures for a rocket motor assembly, related flexible structures, and related assemblies including the flexible structures.
Isaac, Clinton R.; Naramore, Adam; Thrasher, Talbot P.; Lajczok, Michael D.; Bellotte, Joseph, Space storable, thrust-vectorable rocket motor nozzle and related methods.
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