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Spacecraft thruster coplanar dual backup layout design method

A layout design and thruster technology, which is applied to the layout of coplanar dual backup 16 thrusters, the layout design of spacecraft attitude control and orbit control functions, can solve problems such as layout space constraints, and achieve simple layout design and large layout space. , the effect of taking up less space

Active Publication Date: 2017-05-10
SHANGHAI SATELLITE ENG INST
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Problems solved by technology

Ideally, the layout of the thrusters can satisfy three-axis attitude and orbit control by arranging pairs of thrusters that do not pass through the center of mass on different axes and in different planes. , sensors and other layout constraints, while avoiding the influence of plumes, the layout space is limited

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  • Spacecraft thruster coplanar dual backup layout design method
  • Spacecraft thruster coplanar dual backup layout design method
  • Spacecraft thruster coplanar dual backup layout design method

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Embodiment Construction

[0015] The present invention will be described in detail below in conjunction with specific embodiments. The following examples will help those skilled in the art to further understand the present invention, but do not limit the present invention in any form. It should be noted that those skilled in the art can make several modifications and improvements without departing from the concept of the present invention. These all belong to the protection scope of the present invention.

[0016] like Figure 1-Figure 2 As shown, the embodiment of the present invention provides a layout design method for coplanar dual backup of spacecraft thrusters, all 16 thrusters are evenly installed in one plane, and every two thrusters are modules, a total of 8 modules, The thrusters of each module are bent pipes or straight pipes. The angle between the nozzle axis of the bent pipe thruster and the normal line of the installation surface is 65°. The layout is at the four vertices of the instal...

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Abstract

The invention provides a spacecraft thruster coplanar dual backup layout design method. The spacecraft thruster coplanar dual backup layout design method comprises the steps that eight bent spray pipe thruster A groups and eight straight spray pipe thruster B groups are uniformly installed on one installation plane; and the thruster A groups are arranged at the four vertexes of the installation plane, spray nozzles of the thruster A groups face towards the outer edge of the plane, the thruster B groups are arranged at the centers of the four side lengths of the installation plane and are close to the outer edge of the plane, any bent pipe and straight pipe thruster combined modules are not adjacent and are uniformly distributed in the plane, and each set of modules are spaced by 45 degrees. According to the spacecraft thruster coplanar dual backup layout design method, the problem that thruster layout is limited is solved, too much resource space does not need to be occupied, and the three-axis thrust and the torque which are required by a spacecraft can be provided; three-axis attitude control can be completed; track elevation control is achieved; track lowering and inclination angle adjusting can be conducted through the straight spray pipe thruster B groups after yaw pitching maneuvering; and by means of the bent pipe and straight pipe coplanar edge layout design idea, the influence of jet plume flow is avoided, and a larger available layout space is provided for the spacecraft.

Description

technical field [0001] The invention relates to the field of aerospace vehicle attitude and orbit control, more specifically, a coplanar double backup 16 thruster layout, and a layout design method for realizing spacecraft attitude control and orbit control functions. Background technique [0002] The propulsion subsystem is the main actuator of the spacecraft attitude and orbit control system. Its main task is to provide torque for attitude control; provide thrust for initial orbit adjustment and orbit maintenance; and provide torque for flywheel unloading when necessary. It is an important actuator of the spacecraft. Ideally, the layout of the thrusters can satisfy three-axis attitude and orbit control by arranging pairs of thrusters on different axes and in different planes that do not pass through the center of mass. , sensors and other layout constraints, but also to avoid the influence of the plume, the layout space is limited. Contents of the invention [0003] Aim...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B64G1/26
CPCB64G1/26
Inventor 许海玉程卫强蒋光伟程静张大伟杨珺沈海军周海燕
Owner SHANGHAI SATELLITE ENG INST
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