IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0864619
(2007-09-28)
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등록번호 |
US-8714491
(2014-05-06)
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발명자
/ 주소 |
- Simon, Xavier D.
- Robinson, Michael J.
- Andrews, Thomas L.
|
출원인 / 주소 |
|
대리인 / 주소 |
Smith Moore Leatherwood LLP
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인용정보 |
피인용 횟수 :
1 인용 특허 :
12 |
초록
▼
The thermal protection system disclosed herein is suitable for use with a spacecraft such as a reentry module or vehicle, where the spacecraft has a convex surface to be protected. An embodiment of the thermal protection system includes a plurality of heat resistant panels, each having an outer surf
The thermal protection system disclosed herein is suitable for use with a spacecraft such as a reentry module or vehicle, where the spacecraft has a convex surface to be protected. An embodiment of the thermal protection system includes a plurality of heat resistant panels, each having an outer surface configured for exposure to atmosphere, an inner surface opposite the outer surface and configured for attachment to the convex surface of the spacecraft, and a joint edge defined between the outer surface and the inner surface. The joint edges of adjacent ones of the heat resistant panels are configured to mate with each other to form staggered joints that run between the peak of the convex surface and the base section of the convex surface.
대표청구항
▼
1. A thermal protection system comprising: a first heat resistant panel having a first panel outer surface that can withstand exposure to atmospheric ballistic reentry temperatures, a first panel inner surface opposite the first panel outer surface and configured for attachment to a surface to be pr
1. A thermal protection system comprising: a first heat resistant panel having a first panel outer surface that can withstand exposure to atmospheric ballistic reentry temperatures, a first panel inner surface opposite the first panel outer surface and configured for attachment to a surface to be protected, and a first panel joint edge defined between the first panel outer surface and the first panel inner surface; anda second heat resistant panel having a second panel outer surface that can withstand exposure to atmospheric ballistic reentry temperatures, a second panel inner surface opposite the second panel outer surface and configured for attachment to the surface to be protected, and a second panel joint edge defined between the second panel outer surface and the second panel inner surface; whereinthe first panel inner surface and second panel inner surface are configured for attachment to the surface to be protected such that the first panel joint edge and the second panel joint edge are normal to the surface to be protected; whereinthe first panel joint edge and the second panel joint edge are configured to mate with each other to form a staggered joint between the first heat resistant panel and the second heat resistant panel; and whereinthe staggered joint comprises at least one non-straight segment having a periodic shape extending parallel to the first and second panel outer surfaces for at least one cycle of the periodic shape. 2. The thermal protection system of claim 1, wherein the at least one non-straight segment is not in alignment with ballistic airflow over the first and second heat resistant panels. 3. The thermal protection system of claim 1, the first panel joint edge and the second panel joint edge being configured to reduce a length of a gap for which airflow is aligned with the gap. 4. The thermal protection system of claim 1, further comprising a heat resistant filler material between the first panel joint edge and the second panel joint edge, the heat resistant filler material defining the staggered joint. 5. The thermal protection system of claim 1, the at least one non-straight segment having a periodic sinusoidal shape. 6. The thermal protection system of claim 1, wherein: the surface to be protected is a convex surface of a spacecraft, the convex surface having a peak and a base section;the first heat resistant panel and second heat resistant panel are of a plurality of heat resistant panels configured for attachment to the convex surface, the plurality of heat resistant panels having respective outer surfaces configured for exposure to atmosphere; andthe staggered joint being of a plurality of staggered joints that run between the peak and base section of the convex surface when the plurality of heat resistant panels are attached to the convex surface. 7. The thermal protection system of claim 1, the at least one non-straight segment having a periodic sawtoothed or zigzagged shape 8. A spacecraft comprising: a protected surface; anda thermal protection system coupled to the protected surface, the thermal protection system comprising: a first heat resistant panel having a first panel outer surface that can withstand exposure to atmospheric ballistic reentry temperatures, a first panel inner surface opposite the first panel outer surface and configured for attachment to the protected surface, and a first panel joint edge defined between the first panel outer surface and the first panel inner surface; anda second heat resistant panel having a second panel outer surface that can withstand exposure to atmospheric ballistic reentry temperatures, a second panel inner surface opposite the second panel outer surface and configured for attachment to the protected surface, and a second panel joint edge defined between the second panel outer surface and the second panel inner surface; whereinthe first panel inner surface and second panel inner surface are configured for attachment to the protected surface such that the first panel joint edge and the second panel joint edge are normal to the protected surface; whereinthe first panel joint edge and the second panel joint edge are configured to mate with each other to form a staggered joint between the first heat resistant panel and the second heat resistant panel; and whereinthe staggered joint comprises at least one non-straight segment having a periodic shape and extending parallel to the first and second panel outer surfaces for at least one cycle of the periodic shape. 9. The spacecraft of claim 8, wherein: the protected surface is a convex surface having a peak and a base section;the first heat resistant panel and second heat resistant panel are of a plurality of heat resistant panels coupled to the convex surface, the plurality of heat resistant panels having respective outer surfaces configured for exposure to atmosphere; andthe staggered joint is of a plurality of staggered joints that run between the peak and base section of the convex surface. 10. The spacecraft of claim 9, each of the plurality of staggered joints comprising at least one non-straight segment. 11. The spacecraft of claim 9, the plurality of staggered joints being configured to reduce a length of a gap for which airflow is aligned with the gap from the peak of the convex surface to the base section of the convex surface. 12. The spacecraft of claim 9, wherein: the plurality of heat resistant panels have a respective plurality of joint edges, the joint edges of adjacent ones of the plurality of heat resistant panels being configured to mate with each other to form the plurality of staggered joints; andthe spacecraft further comprises a heat resistant filler material between joint edges of the plurality of joint edges, the heat resistant filler material defining the plurality of staggered joints. 13. The spacecraft of claim 9, wherein: the convex surface of the spacecraft is configured to accommodate airflow from the peak to the base section; andthe plurality of staggered joints are overall aligned with paths of airflow. 14. The spacecraft of claim 9, wherein; the spacecraft is a reentry capsule; andthe heat resistant panels cooperate to form a heat shield for the convex surface of the reentry capsule. 15. The spacecraft of claim 9, the heat resistant panels being formed from an ablative heat resistant material. 16. The spacecraft of claim 8, the at least one non-straight segment having a periodic sinusoidal shape. 17. The spacecraft of claim 8, the at least one non-straight segment having a periodic sawtoothed or zigzagged shape. 18. A method of installing a thermal protection system, the method comprising: attaching a first heat resistant panel to a surface to be protected, the first heat resistant panel having a first panel outer surface that can withstand exposure to atmospheric ballistic reentry temperatures, a first panel inner surface opposite the first panel outer surface and configured for attachment to the surface to be protected, and a first panel joint edge defined between the first panel outer surface and the first panel inner surface; andattaching a second heat resistant panel to the surface to be protected, the second heat resistant panel having a second panel outer surface that can withstand exposure to atmospheric ballistic reentry temperatures, a second panel inner surface opposite the second panel outer surface and configured for attachment to the surface to be protected, and a second panel joint edge defined between the second panel outer surface and the second panel inner surface; whereinthe first heat resistant panel and second heat resistant panel are attached to the surface to be protected such that the first panel joint edge and the second panel joint edge are normal to the surface to be protected; whereinthe first panel joint edge and the second panel joint edge are configured to mate with each other to form a staggered joint between the first heat resistant panel and the second heat resistant panel; and whereinthe staggered joint comprises at least one non-straight segment having a periodic shape and extending parallel to the first and second panel outer surfaces for at least one cycle of the periodic shape. 19. The method of claim 18, wherein: the second heat resistant panel is attached to the surface to be protected in a manner that creates a gap between the first panel joint edge and the second panel joint edge; andthe method further comprises filling the gap with a heat resistant filler material to define the staggered joint between the first heat resistant panel and the second heat resistant panel. 20. The method of claim 18, wherein: the surface to be protected is a convex surface of a spacecraft, the convex surface having a peak and a base section;attaching the first heat resistant panel comprises attaching the first heat resistant panel such that the first panel joint edge runs between the peak and the base section; andattaching the second heat resistant panel comprises attaching the second heat resistant panel such that the second panel joint edge runs between the peak and the base section. 21. The method of claim 18, the first panel joint edge and the second panel joint edge being configured to minimize a length of a gap for which airflow is aligned with the gap. 22. The method of claim 18, the at least one non-straight segment having a periodic sinusoidal shape. 23. The method of claim 18, the at least one non-straight segment having a periodic sawtoothed or zigzagged shape.
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