IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0302668
(2011-11-22)
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등록번호 |
US-8376282
(2013-02-19)
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발명자
/ 주소 |
- Keller, Philip N.
- Taylor, Robert
- Richardson, Doug
- Gray, Adam G.
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출원인 / 주소 |
- Composite Technology Development, Inc.
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인용정보 |
피인용 횟수 :
14 인용 특허 :
37 |
초록
▼
Collapsible solar array structures are disclosed that include a collapsible structure and detachable solar array. The solar array can be detached stowed separately from the collapsible structure. The collapsible structure can include a plurality of longerons and/or support structures. Longerons can
Collapsible solar array structures are disclosed that include a collapsible structure and detachable solar array. The solar array can be detached stowed separately from the collapsible structure. The collapsible structure can include a plurality of longerons and/or support structures. Longerons can have a slit along a longitudinal length of the longeron.
대표청구항
▼
1. A collapsible solar array structure comprising: a collapsible structure comprising: a first longeron having a slit along a longitudinal length of the longeron; anda second longeron having a slit along a longitudinal length of the longeron; anda solar array detachably coupled with the deployable s
1. A collapsible solar array structure comprising: a collapsible structure comprising: a first longeron having a slit along a longitudinal length of the longeron; anda second longeron having a slit along a longitudinal length of the longeron; anda solar array detachably coupled with the deployable structure,wherein the deployable solar array structure includes a stowed and a deployed configuration,wherein in the stowed configuration the collapsible structure is rolled along a longitudinal length of one of the plurality of longerons,wherein the solar array is detached from the collapsible structure in the stowed configuration, andwherein in the deployed configuration the longerons are extended longitudinally and the solar array is coupled with the deployable structure. 2. The deployable solar array structure according to claim 1, wherein the solar array comprises a plurality of attachment mechanism configured to couple with the deployable structure. 3. The deployable solar array structure according to claim 2, wherein the attachment mechanisms comprise attachment mechanisms selected from the group consisting of: Velcro, clips, snaps, buttons, grommets, carabineers, clips, buckles, pins, clevis pins, cotter pins, linchpins, R-clips, and spring clips. 4. The deployable solar array structure according to claim 1, wherein the collapsible structure comprises a plurality of attachment mechanism configured to couple with the solar array. 5. The deployable solar array structure according to claim 2, wherein the attachment mechanisms comprise attachment mechanisms selected from the group consisting of: Velcro, clips, snaps, buttons, grommets, carabineers, clips, buckles, pins, clevis pins, cotter pins, linchpins, R-clips, and spring clips. 6. The deployable solar array structure according to claim 1, wherein in the stowed configuration the solar array is stowed separately from the deployable structure. 7. The deployable solar array structure according to claim 1, wherein the solar array comprises a plurality of photo voltaic cells. 8. The deployable solar array structure according to claim 1, wherein in the stowed configuration the solar array is folded. 9. The deployable solar array structure according to claim 1, wherein the collapsible structure further comprises a first plurality of support elements coupled with both the first longeron and the second longeron. 10. The deployable solar array structure according to claim 9, wherein each of the first plurality of support elements comprise elongated members having two ends, wherein the support elements are couple with first longeron at one of the two ends and couple with the second longeron at the other of the two ends. 11. A method for deploying a solar array structure comprising: unrolling a collapsible structure from the deployable structure's stowed configuration into an unrolled configuration, wherein the collapsible structure comprises a plurality of longerons having a slit along a longitudinal length of the longeron,wherein in the stowed configuration the collapsible structure is rolled along a longitudinal length of one of the plurality of longerons,wherein in the unrolled configuration the longerons are extended longitudinally; andcoupling a solar array with the collapsible structure when the collapsible structure is in the unrolled configuration. 12. The deployable solar array structure according to claim 1, further comprising an additional longeron coupled with the first plurality of support elements between the first longeron and the second longeron. 13. The deployable solar array structure according to claim 1, wherein in the stowed configuration the first longeron and the second longeron are flattened. 14. The deployable solar array structure according to claim 1, further comprises: a third longeron having a slit along a longitudinal length of the longeron; anda second plurality of support elements coupled with the third longeron and the second longeron. 15. The method according to claim 11, further comprising unfolding the solar array separately from unrolling the deployable structure. 16. The method according to claim 11, further comprising deploying the collapsible structure into a deployed configuration. 17. The method according to claim 16, wherein in the deployed configuration the deployed structure comprise an A-frame shape. 18. The method according to claim 16, wherein in the deployed configuration at least one of the plurality of longerons is positioned above another of the plurality of longerons. 19. The method according to claim 11, wherein the coupling of the solar array with the collapsible structure comprises detachably coupling the solar array with the deployable structure. 20. A collapsible structure comprising: a plurality of longerons having a slit along a longitudinal length of each longeron;a plurality of support elements, wherein each of the plurality of support elements are coupled with at least two of the plurality of longerons; andattachment means for coupling a solar array with the deployable structure, wherein the attachment means are coupled with either or both of one or more longerons and one or more support elements,wherein the collapsible structure includes a stowed configuration,wherein in the stowed configuration the collapsible structure is rolled along a longitudinal length of the plurality of longerons,wherein the collapsible structure includes a deployed configuration, andwherein in the deployed configuration the plurality of longerons are extended longitudinally. 21. The collapsible structure according to claim 20, wherein at least a subset of the plurality of support elements comprise a composite material. 22. The collapsible structure according to claim 20, wherein at least a subset of the plurality of longerons comprise a composite material. 23. The collapsible structure according to claim 20, wherein the attachment means comprise Velcro, clips, snaps, buttons, grommets, carabineers, clips, buckles, pins, clevis pins, cotter pins, linchpins, R-clips, and spring clips. 24. The collapsible structure according to claim 20, further comprising a solar array comprising second attachment means that are configured to couple with the attachment means. 25. A collapsible structure comprising: a plurality of longerons having a slit along a longitudinal length of each longeron; anda solar array comprising attachment means for detachably coupling the solar array with either or both of one or more longerons and one or more support elements,wherein the collapsible structure includes a stowed configuration,wherein in the stowed configuration the collapsible structure is rolled along a longitudinal length of the plurality of longerons and the solar array is not coupled with either or both of one or more longerons and one or more support elements,wherein the collapsible structure includes a deployed configuration, andwherein in the deployed configuration the plurality of longerons are extended longitudinally and the solar array is coupled with either or both of one or more longerons and one or more support elements. 26. The collapsible structure according to claim 25, further comprising a plurality of support elements, wherein each of the plurality of support elements are coupled with at least two of the plurality of longerons. 27. The collapsible structure according to claim 26, wherein at least a subset of the plurality of support elements comprise a longeron having a slit along a longitudinal length of each longeron. 28. The collapsible structure according to claim 26, wherein at least a subset of the plurality of support elements comprise a composite material. 29. The collapsible structure according to claim 25, wherein at least a subset of the plurality of longerons comprise a composite material. 30. The collapsible structure according to claim 25, wherein the attachment means comprise Velcro, clips, snaps, buttons, grommets, carabineers, clips, buckles, pins, clevis pins, cotter pins, linchpins, R-clips, and spring clips. 31. The collapsible structure according to claim 25, further comprising a solar array comprising second attachment means that are configured to couple with the attachment means.
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