Rocket multi-nozzle grid assembly and methods for maintaining pressure and thrust profiles with the same
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0049024
(2011-03-16)
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등록번호 |
US-8596040
(2013-12-03)
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발명자
/ 주소 |
- Chasman, Daniel
- Haight, Stephen D.
- MacInnis, Daniel V.
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출원인 / 주소 |
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대리인 / 주소 |
Schwegman, Lundberg & Woessner, P.A.
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인용정보 |
피인용 횟수 :
0 인용 특허 :
7 |
초록
▼
A rocket multi-nozzle grid assembly includes an insulator grid, a plurality of refractory nozzle fittings and a grid support plate. The grid support plate braces the plurality of refractory nozzle fittings and the insulator grid. The insulator grid includes insulator orifices, each of the nozzle fit
A rocket multi-nozzle grid assembly includes an insulator grid, a plurality of refractory nozzle fittings and a grid support plate. The grid support plate braces the plurality of refractory nozzle fittings and the insulator grid. The insulator grid includes insulator orifices, each of the nozzle fittings includes a fitting orifice and the grid support plate includes a plurality of plate orifices. The rocket multi-nozzle grid assembly includes a plurality nozzles. Each nozzle includes a plate orifice aligned with one insulator orifice and one fitting orifice. Exhaust gases are directed through the plurality of nozzles. The multi-nozzle grid assembly substantially maintains its surface area throughout operation of a rocket motor.
대표청구항
▼
1. A rocket multi-nozzle grid assembly comprising: an insulator grid, the insulator grid includes a plurality of insulator orifices;a plurality of refractory nozzle fittings coupled along the insulator grid, each of the plurality of refractory nozzle fittings includes a fitting orifice;a grid suppor
1. A rocket multi-nozzle grid assembly comprising: an insulator grid, the insulator grid includes a plurality of insulator orifices;a plurality of refractory nozzle fittings coupled along the insulator grid, each of the plurality of refractory nozzle fittings includes a fitting orifice;a grid support plate directly connecting to the plurality of refractory nozzle fittings and the insulator grid, the plurality of refractory nozzle fittings are interposed between the insulator grid and the grid support plate, and the grid support plate includes a plurality of plate orifices; anda plurality of nozzles, each of the plurality of nozzles includes one plate orifice of the plurality of plate orifices aligned with one insulator orifice of the plurality of insulator orifices and one fitting orifice of a refractory nozzle fitting of the plurality of refractory nozzle fittings, and each of the plurality of nozzles includes a tapered inlet surface formed by at least the insulator grid and one refractory nozzle fitting of the plurality of refractory nozzle fittings. 2. The rocket multi-nozzle grid assembly of claim 1, wherein one or more of the plurality of refractory nozzle fittings are each seated within separate fitting cavities in the grid support plate. 3. The rocket multi-nozzle grid assembly of claim 2, wherein one or more of the fitting cavities include plate flanges and one or more of the nozzle fittings include fitting flanges, and the fitting flanges are seated along the plate flanges. 4. The rocket multi-nozzle grid assembly of claim 1, wherein the insulator grid includes an ablative material configured to sacrificially ablate when impinged with exhaust gases. 5. The rocket multi-nozzle grid assembly of claim 1, wherein the grid support plate has a plate tensile modulus greater than both of a fitting tensile modulus of the nozzle fittings and an insulator tensile modulus of the insulator grid. 6. The rocket multi-nozzle grid assembly of claim 1, wherein the plurality of nozzles includes a convergent nozzle portion having the tapered inlet surface tapering toward a nozzle throat. 7. The rocket multi-nozzle grid assembly of claim 6, wherein the tapered inlet surface is configured to direct ablated fragments of the insulator grid through one or more of the plurality of nozzles. 8. The rocket multi-nozzle grid assembly of claim 6, wherein the tapered inlet surface includes a tapered fitting inlet surface in one or more of the refractory nozzle fittings. 9. The rocket multi-nozzle grid assembly of claim 6, wherein the tapered inlet surface includes one or more tapered insulator inlet surfaces in the insulator grid. 10. The rocket multi-nozzle grid assembly of claim 6, wherein the tapered inlet surface includes a continuous radial taper extending between the insulator grid and one or more of the plurality of refractory nozzle fittings. 11. The rocket multi-nozzle grid assembly of claim 1, wherein one or more of the plurality of nozzles includes a divergent nozzle portion having a tapered outlet surface tapering toward a nozzle throat. 12. The rocket multi-nozzle grid assembly of claim 11, wherein the tapered outlet surface includes a tapered fitting outlet surface in one or more of the refractory nozzle fittings. 13. The rocket multi-nozzle grid assembly of claim 11, wherein the tapered outlet surface includes a continuous taper extending between one or more of the plurality of refractory nozzle fittings and the grid support plate. 14. The rocket multi-nozzle grid assembly of claim 1, wherein a portion of the insulator grid extends over the plurality of refractory nozzle fittings. 15. A rocket motor comprising: a motor housing including a combustion chamber;a propellant within the combustion chamber;a rocket multi-nozzle grid assembly coupled with the motor housing, the rocket multi-nozzle grid assembly includes:an insulator grid, the insulator grid includes a plurality of insulator orifices;a plurality of refractory nozzle fittings coupled along the insulator grid, each of the plurality of refractory nozzle fittings includes a fitting orifice;a grid support plate directly connecting to the plurality of refractory nozzle fittings and the insulator grid, the plurality of refractory nozzle fittings are interposed between the insulator grid and the grid support plate, and the grid support plate includes a plurality of plate orifices; anda plurality of nozzles in communication with the combustion chamber, each of the plurality of one or more of the nozzles includes one plate orifice of the plurality of plate orifices aligned with one insulator orifice of the plurality of insulator orifices and one fitting orifice of a refractory nozzle fitting of the plurality of refractory nozzle fittings and each of the plurality of nozzles includes a tapered inlet surface formed by at least the insulator grid and one refractory nozzle fitting of the plurality of refractory nozzle fittings. 16. The rocket motor of claim 15, wherein one or more of the plurality of refractory nozzle fittings are each seated within separate fitting cavities in the grid support plate. 17. The rocket motor of claim 15, wherein the insulator grid includes an ablative material configured to sacrificially ablate when impinged with exhaust gases. 18. The rocket motor of claim 15, wherein the grid support plate has a plate tensile modulus greater than both of a fitting tensile modulus of the nozzle fittings and an insulator tensile modulus of the insulator grid. 19. The rocket multi-nozzle grid assembly of claim 15, wherein the plurality of nozzles includes a convergent nozzle portion having the tapered inlet surface tapering toward a nozzle throat. 20. The rocket motor of claim 19, wherein the tapered inlet surface includes a continuous radial taper extending between the insulator grid and one or more of the plurality of refractory nozzle fittings. 21. The rocket motor of claim 15, wherein a portion of the insulator grid extends over the plurality of refractory nozzle fittings.
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