Propulsion system with four modules for satellite orbit control and attitude control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64G-001/26
B64G-001/40
B64G-001/24
B64G-001/10
출원번호
US-0298689
(2014-06-06)
등록번호
US-9387942
(2016-07-12)
우선권정보
FR-13 01303 (2013-06-07)
발명자
/ 주소
Celerier, Bruno
출원인 / 주소
Thales
대리인 / 주소
Baker Hostetler LLP
인용정보
피인용 횟수 :
2인용 특허 :
8
초록▼
A propulsion system for the orbital control of a satellite with terrestrial orbit travelling with a speed of displacement along an axis V tangential to the orbit comprises two propulsion assemblies, fixed to the satellite facing one another with respect to the plane of the orbit, each of the propuls
A propulsion system for the orbital control of a satellite with terrestrial orbit travelling with a speed of displacement along an axis V tangential to the orbit comprises two propulsion assemblies, fixed to the satellite facing one another with respect to the plane of the orbit, each of the propulsion assemblies comprising two propulsion modules; each of the propulsion modules successively comprising: a motorized link for rotation about an axis parallel to the axis V, an offset arm, and a platen supporting a propulsion unit able to deliver a thrust oriented along an axis perpendicular to the axis V; the two propulsion modules of each propulsion assembly being linked to the satellite on either side and substantially at equal distances from a plane perpendicular to the axis V passing through a centre of mass of the satellite.
대표청구항▼
1. A propulsion system for the orbital control of a satellite with terrestrial orbit travelling with a speed of displacement along an axis V tangential to the orbit, comprising two propulsion assemblies, fixed to the satellite, and facing one another with respect to the plane of the orbit, each of t
1. A propulsion system for the orbital control of a satellite with terrestrial orbit travelling with a speed of displacement along an axis V tangential to the orbit, comprising two propulsion assemblies, fixed to the satellite, and facing one another with respect to the plane of the orbit, each of the propulsion assemblies comprising two propulsion modules; each of the propulsion modules successively including: a first motorized link for rotation about an axis parallel to the axis V,an offset arm, anda platen supporting a propulsion unit able to deliver a thrust oriented along an axis perpendicular to the axis V,the two propulsion modules of each propulsion assembly being linked to the satellite on either side and substantially at equal distances from a plane P perpendicular to the axis V passing through a centre of mass CM of the satellite,wherein at least one first motorized link provides an only motorized link of a respective propulsion module. 2. The propulsion system according to claim 1, in which each of the two propulsion modules of each of the two propulsion assemblies, comprises a redundancy propulsion unit disposed on the platen in proximity to the said propulsion unit, and in such a way that its axis of thrust is parallel to that of the said propulsion unit. 3. The propulsion system according to claim 1, in which the first motorized link of each of the two propulsion modules of each of the two propulsion assemblies allows the rotation of the platen between: a storage position, suitable for the launching of the satellite; the offset arm of the said propulsion module being maintained against the satellite, andan operational position, suitable for the orbital control of the satellite, configured in such a way that the plane parallel to the axis V containing the axis of thrust of the propulsion unit of the said propulsion module, passes in proximity to the centre of mass CM of the satellite. 4. The propulsion system according to claim 1, in which at least one of the two propulsion modules of at least one of the two propulsion assemblies, comprises a second motorized link for rotation about an axis T perpendicular both to the axis V and to the axis of thrust of the propulsion unit of the said propulsion module. 5. The propulsion system according to claim 4, in which the second motorized link links the first motorized link with the offset arm of the said propulsion module. 6. The propulsion system according to claim 4, in which the second motorized link links the offset arm and the platen of the said propulsion module. 7. The propulsion system according to claim 6, in which the second motorized link is linked to the platen by way of a second offset arm of the said propulsion module. 8. The propulsion system according to claim 4, in which each second motorized link links a respective first motorized link with the satellite. 9. A satellite with terrestrial orbit furnished with a propulsion system according to claim 1. 10. A method of inclination control for a satellite in geostationary orbit comprising a propulsion system according to claim 1, comprising: displacing each of the two propulsion modules of a first propulsion assembly, by means of respective first motorized links, in such a way that the plane parallel to the axis V containing the axis of thrust of their propulsion unit, passes in proximity to the centre of mass CM of the satellite,simultaneously activating the propulsion units of each of the two propulsion modules of the said first propulsion assembly in proximity to a first orbital node,displacing each of the two propulsion modules of the second propulsion assembly, by means of respective first motorized links, in such a way that the plane parallel to the axis V containing the axis of thrust of their propulsion unit, passes in proximity to the centre of mass CM of the satellite,simultaneously activating the propulsion units of each of the two propulsion modules of the said second propulsion assembly in proximity to a second orbital node, opposite to the first orbital node. 11. A method of orbit transfer for a satellite comprising a propulsion system according to claim 1, comprising: for each of the two propulsion modules of each of the two propulsion assemblies, orienting the propulsion unit by means of a respective first motorized link, in such a way that its axis of thrust is parallel to the plane of the orbit,simultaneously activating the propulsion units of the two propulsion modules of the two propulsion assemblies. 12. A method of angular momentum control of a satellite comprising an angular momentum accumulation device and a propulsion system according to claim 1, comprising: orienting the propulsion units of the two propulsion modules of at least one propulsion assembly by means of respective first motorized links in one and the same angular position,simultaneously activating the propulsion units of the two propulsion modules, so as to generate on the satellite a torque about the axis V. 13. A method of angular momentum control of a satellite comprising an angular momentum accumulation device and a propulsion system according to claim 1, comprising: orienting the propulsion units of the two propulsion modules of at least one propulsion assembly by means of respective first motorized links in one and the same angular position,activating the propulsion units of the two propulsion modules in a differential manner, in terms of intensity or duration, so as to generate on the satellite a torque about an axis T perpendicular both to the axis V and to the two axes of thrust of the two propulsion units. 14. A method of control of the motion in the plane of the orbit for a satellite in geostationary orbit comprising a propulsion system according to claim 1, comprising: orienting at least one of the two propulsion modules of at least one of the two propulsion assemblies which includes a second motorized link,activating the propulsion unit of the at least one of the two propulsion modules including the second motorized link, so as to generate on the satellite a force exhibiting a non-zero component along the axis V. 15. A method of angular momentum control of a satellite comprising an angular momentum accumulation device and a propulsion system according to claim 1, comprising: orienting each of the propulsion units of the two propulsion modules of at least one propulsion assembly in a respective substantially distinct angular position by means of a respective first motorized link,activating the propulsion units of the two propulsion modules so as to generate on the satellite a torque about an axis substantially parallel to each of the axes of thrust of the propulsion units of the two propulsion modules. 16. The propulsion system according to claim 1, wherein only a single propulsion module of the propulsion system includes a second motorized link for rotation about an axis T perpendicular to both the axis V and to a respective axis of thrust of the single propulsion unit. 17. The propulsion system according to claim 1, wherein one propulsion module of each of the two propulsion assemblies includes a second motorized link for rotation bout an axis T perpendicular to the axis V and each respective axis of thrust of each one propulsion module. 18. The propulsion system according to claim 1, wherein each of the propulsion modules has only a single motorized link that is provided by a respective first motorized link for rotation about a respective axis parallel to the axis V.
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이 특허에 인용된 특허 (8)
Keith Reckdahl ; Birgit Sauer, Closed-loop spacecraft orbit control.
Tilley Scott W. (Belmont CA) Liu Tung Y. (Union City CA) Higham John S. (Mountain View CA), Spacecraft attitude control and momentum unloading using gimballed and throttled thrusters.
Doubrere, Patrick, Satellite comprising electrical propulsion means, method for placing such a satellite in a station and method for keeping said satellite in its station.
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