Dual spacecraft design and deployment system and method of use thereof
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-037/02
B64D-005/00
B64G-001/00
B64G-001/64
출원번호
US-0620044
(2015-02-11)
등록번호
US-9663249
(2017-05-30)
발명자
/ 주소
Lively, Carey
Thorstenson, Eric
출원인 / 주소
Lively, Carey
대리인 / 주소
Arent Fox LLP
인용정보
피인용 횟수 :
0인용 특허 :
9
초록▼
The Dual Spacecraft Deployment System (DSDS) is a concept developed for deploying Dual Satellites into independent orbits from a single launch vehicle. The Deployment Concept, Deployment System and Spacecraft Design with Representative Instruments are presented herein. The design employs an innovati
The Dual Spacecraft Deployment System (DSDS) is a concept developed for deploying Dual Satellites into independent orbits from a single launch vehicle. The Deployment Concept, Deployment System and Spacecraft Design with Representative Instruments are presented herein. The design employs an innovative half-hex design for the spacecraft buses which allows the spacecraft to be accommodated in a parallel mounted configuration on the launch vehicle. The Spacecraft are arranged on the launch vehicle with a central deployment structure with a deployment mechanism which allows independent lateral deployment of two spacecraft. The Spacecraft Design can have a large volume, e.g., sized to accommodate Spacecraft Sub-systems and Instrument Systems. This concept allows the launch vehicle to accommodate two large Spacecraft deployed to different orbits with a single launch doubling the efficiency of the launch vehicle.
대표청구항▼
1. A Dual Spacecraft Deployment System (DSDS) for use with a launch vehicle comprising: two spacecraft;a common deployment support structure configured to releasably attach to the two spacecraft; anda release system provided on the common deployment support structure, the release mechanism configure
1. A Dual Spacecraft Deployment System (DSDS) for use with a launch vehicle comprising: two spacecraft;a common deployment support structure configured to releasably attach to the two spacecraft; anda release system provided on the common deployment support structure, the release mechanism configured to release the two spacecraft in a direction generally lateral to a flight path of the launch vehicle, wherein the release system comprises: a latch configured to latch to a latching element on the spacecraft;an actuator configured to open and close the latch by rotating the latch around the latching element to release the latching element; anda compression source biased against a surface of the spacecraft when in a latched position. 2. The DSDS according to claim 1, wherein the release system includes a mechanical release system that is configured to independently release each of the two spacecraft. 3. The DSDS according to claim 1, wherein the common deployment interface comprises: a vertical structure with a horizontal hexagonal shaped base for releasably attaching to two spacecraft. 4. The DSDS of claim 1, wherein the release system comprises a plurality of actuators and a release sequencing configured to tailor a tip-off release of each of the two spacecraft. 5. The DSDS according to claim 1, wherein the latch comprises a hooked extension having an open portion, wherein the latch is configured to hold a rod shaped latching element on the spacecraft in a first position, and wherein the actuator is configured to open the latch by rotating the hooked extension around the rod shaped latching element to a second position where the open portion of the hooked extension releases the rod shaped latching element. 6. The DSDS according to claim 5, wherein the compression source comprises a spring configured to press the spacecraft away from the common deployment support structure when the open portion of the hooked extension releases the rod shaped latching element. 7. A common deployment support structure for releasing two spacecraft from a launch vehicle, comprising: a base for releasably attaching to two spacecraft; anda release system provided on the common deployment support structure, the release system being configured to release the two spacecraft in a direction lateral to a flight path of the launch vehicle, wherein the release system comprises:a latch configured to latch to a latching element on a spacecraft;an actuator configured to open and close the latch by rotating the latch around the latching element to release the latching element; anda compression source biased against a surface of the spacecraft when in a latched position. 8. The common deployment support structure according to claim 7, wherein the release system is a mechanical release system configured to independently release the two spacecraft. 9. The common deployment support structure according to claim 7, wherein the release system further comprises: a cone configured to interoperate with a cup provided at an interface to the spacecraft when the spacecraft is in a latched position. 10. The common deployment support structure according to claim 7, wherein the common deployment interface comprises a center panel extending from the base between the two spacecraft. 11. The common deployment support structure according to claim 7, wherein the base comprises a hexagon shape. 12. The common deployment support structure according to claim 7, wherein at least one of the attachment points is provided at an outer circumference of the base. 13. The common deployment support structure according to claim 7, wherein the latch comprises a hooked extension having an open portion, wherein the latch is configured to hold a rod shaped latching element on the spacecraft in a first position, and wherein the actuator is configured to open the latch by rotating the hooked extension around the rod shaped latching element to a second position where the open portion of the hooked extension releases the rod shaped latching element. 14. The common deployment support structure according to claim 7, wherein the source of compression comprises a biasing element. 15. The common deployment support structure according to claim 14, wherein the energy source and biasing element is a spring. 16. A spacecraft and common deployment support structure for releasing the spacecraft from the common deployment support structure, the spacecraft comprising: an outer housing comprising a half hexagon cross-sectional shape, wherein the spacecraft is configured to be received in the common deployment support adjacent to a portion of the common deployment support structure configured to accept at least one additional payload spacecraft; anda rod shaped latching element configured to be held to the common deployment support structure by a hooked extension that rotates around the rod shaped latching element to release the rod shaped latching element. 17. The spacecraft and common deployment support structure according to claim 16, wherein the spacecraft is configured to be released from the common deployment support structure in a direction lateral to a flight path of launch vehicle in which the common deployment support structure is comprised. 18. The spacecraft and common deployment support structure of claim 16, wherein a primary launch vehicle axial load is carried directly through the base of the spacecraft into a launch vehicle interface. 19. A deployment mechanism for releasably latching a spacecraft to a common deployment support structure, the deployment mechanism comprising: a latch configured to latch the spacecraft to a common deployment support structure;an actuator operably coupled to the latch for mechanically engaging and releasing the latch by rotating the latch around a latching element at the spacecraft to release the latching element; anda compression source biased between the common deployment support structure and the spacecraft when latched. 20. The deployment mechanism of claim 19, further comprising; a cup coupled to the spacecraft;a cone coupled to the common deployment support structure and configured to abut the cup when the spacecraft is latched; anda timing wheel configured to control the timing of a release of the latch. 21. A method of deploying two spacecraft from a dual spacecraft deployment structure comprised in a launch vehicle, the method comprising: releasably coupling a first spacecraft and a second spacecraft to a common deployment support structure,releasing the first spacecraft in a direction substantially parallel to the launch vehicle flight path by rotating a first latch around a first latching element at the first spacecraft to release the first latching element; andreleasing the second spacecraft in a direction substantially parallel to the launch vehicle flight path by rotating a second latch around a second latching element at the second spacecraft to release the second latching element. 22. The method of claim 21, wherein a portion of a housing of the first spacecraft couples to a first portion of a base of the common deployment support structure and a portion of a housing of the second spacecraft couples to a second portion of the base of the central deployment structure. 23. The method of claim 21, wherein at least one of the first spacecraft and the second spacecraft are placed into orbit using a propulsion capability of the corresponding spacecraft. 24. The method of claim 21, further comprising staggering a rotation of a plurality of latches to tailor a tip off release of each of the first spacecraft and the second spacecraft. 25. The method of claim 22, wherein the second spacecraft is placed into an alternate orbit with the use of an additional quantity of propellant carried with the second spacecraft and by releasing the second spacecraft at a different time that the first spacecraft. 26. The method of claim 25, further comprising: moving the dual spacecraft deployment structure to a second position after releasing the first spacecraft and before releasing the second spacecraft.
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이 특허에 인용된 특허 (9)
Chamness Darrell S. ; Vincent Thomas Raymond, Cantilever, bi-level platform satellite dispenser.
Byrne Allan B. (Los Angeles CA) Otis Richard G. (Whittier CA) Robinson Stephen A. (Sepulveda CA), Satellite deployment system with remotely controlled relocking capability.
Quan Gary (Fountain Valley CA) Carlson John A. (Huntington Beach CA) Wilkins Alan H. (Irvine CA) Rosadiuk Leo (Torrance CA) Carter Sam (Orange CA) Budris George (Westminster CA), Space vehicle dispenser.
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