Layout method for 10 N thrusters of high orbit satellite platform

A thruster layout and satellite platform technology, which is applied in the direction of artificial satellites, aerospace vehicle propulsion system devices, etc., can solve the problems of too large difference between floor and back-floor thruster arms, low thruster working efficiency, large interference torque, etc. , to improve attitude control and orbit control performance, save propellant, and eliminate inter-axis coupling

Active Publication Date: 2012-02-22
BEIJING INST OF CONTROL ENG
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Problems solved by technology

[0004] The thruster layout of this high-orbit platform satellite adopts the method of designing different installation angles of the thrusters on the floor and the back floor to reduce the interference moment when the position is maintained. When the height of the bearing cylinder is changed from 3800mm to 4400mm, The ability to carry the user's pay

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  • Layout method for 10 N thrusters of high orbit satellite platform
  • Layout method for 10 N thrusters of high orbit satellite platform
  • Layout method for 10 N thrusters of high orbit satellite platform

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Embodiment Construction

[0017] In order to improve the ability to carry user payloads, it is necessary to improve the existing high-orbit satellite platform. The main changes are as follows: the height of the communication cabin is increased by 600mm, and the height of the service cabin remains unchanged. The height of the cylinder is increased to 4.40m. If the range of the center of mass from the beginning of life to the end of life is 1.96 to 1.84m, the distance between the docking surface of the star rocket and the geometric center is 2.20m, and the distance between the center of mass and the geometric center is 0.24 to 0.36m. The maximum difference in the distance from the back floor to the center of mass is 0.72m. After the height of the communication cabin increases, the installation positions of the north and south solar fins increase accordingly. In view of the need to install feeds and reflectors related to the east and west antennas in the upper middle of the east and west boards and the ad...

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Abstract

The invention relates to a layout method for 10 N thrusters of a high orbit satellite platform. The assembly positions of the thrusters are not limited to facing and backing a floor and are symmetrically laid out by taking service life middle-period centroid positions as references. The layout of the 10 N thrusters is limited according to demands of users, solar wings, antennas, sensors, actuating mechanisms and the like. In the method, the requirements in all the aspects of reducing plume influence of the thrusters, avoiding structural interference, improving operation efficiency of the thrusters, saving propellants and the like are reasonably considered. The phenomenon that two 10 N thrusters are combined and matched to control pitching or yawing is prevented; the problem that large interaxial coupling exists in the daily attitude control due to thruster asymmetry is solved; when paired thrusters maintain eastward/westward positions or southward/northward positions, the maximum disturbance moment is reduced; the capability of handling faults of ignition and orbital transfer of 490 N engines is greatly improved; the operation efficiency of the thrusters is improved; and the propellants are saved.

Description

technical field [0001] The invention relates to a layout method of a satellite thruster. Background technique [0002] In order to meet the stiffness requirements of satellite-rocket docking for high-orbit satellites, the position of the center of mass is usually lower than the geometric center. The coordinates of the thruster layout position are the coordinates of the center of the thruster nozzle in the satellite mechanical coordinate system OXYZ, which is fixed. The origin of the satellite mechanical coordinate system is the center of the docking surface of the satellite and the arrow. The center of mass in the mass characteristics is relative to the satellite mechanical coordinate system. The positive direction of the X-axis points to the positive normal of the east panel of the satellite, and the positive direction of the Y-axis points to the positive normal of the south panel of the satellite. The positive direction of the Z-axis points to the positive normal direction...

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Application Information

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IPC IPC(8): B64G1/40B64G1/10
Inventor 孙宝祥弓建军崔振江郭廷荣高益军王大轶李艳华黄颖周中泽赵宏李宝绶
Owner BEIJING INST OF CONTROL ENG
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