High-rigidity and high-damping satellite platform configuration

Abstract

The invention discloses a high-rigidity and high-damping satellite platform configuration, which belongs to the field of overall design of spacecrafts and comprises a satellite-rocket butt joint ring used for being in butt joint with a rocket adapter; a mounting plate, wherein one side of the mounting plate is fixedly connected with the satellite-rocket butt joint ring, the other side of the mounting plate is fixedly connected with an optical load plate, and the optical load plate bears an optical load; damping layers which are laid on the outer surface of the optical loading plate and the outer wall of the satellite-rocket butt joint ring; a restraint layer which is laid on the outer surface of the damping layer; the mounting plate comprises a butt joint plate, a partition plate, an outer plate and an optical load plate; the partition plate is of a #-shaped structure, the outer plate is arranged on the periphery of the partition plate, the butt joint plate, the partition plate, the outer plate and the optical load plate are all aluminum honeycomb sandwich plates, and embedded parts are embedded in the single-machine equipment installation position and the rigidity reinforcing position of the aluminum honeycomb sandwich plates. The high-rigidity and high-damping satellite platform configuration has advantages of convenient single equipment configuration and installation, and high space utilization ratio. On the premise that the system is high in rigidity and small in additional mass, structural damping is effectively increased so as to attenuate vibration response of all components of the system.

Description

technical field [0001] The invention relates to the technical field of overall design of spacecraft, in particular to a high-rigidity and high-damping satellite platform configuration. Background technique [0002] Satellites are subject to mechanical environments such as vibration, shock, noise, acceleration, and microgravity during the stages of manufacturing assembly, ground transportation, reflection into orbit, on-orbit operation, and active return. This mechanical environment not only reduces the precision of electronic instruments and equipment on the satellite Accuracy and reliability, but also greatly reduce the fatigue life and service time of structural parts; [0003] At present, the traditional vibration reduction methods mainly include decoupling, vibration isolation and structural rigidity, etc., all of which have defects; [0004] 1) The decoupling method needs to be adjusted between different structural frequencies, which is complicated and needs to be incr...

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Problems solved by technology

[0004] 1) The decoupling method needs to be adjusted between different structural frequencies, which is complicated and needs to be increased at the cost of additional mass, and is not suitable for large and complex structures with dense modes;

[0005] 2) Vibration isolation technology mainly uses vibration isolators to isolate sensitive equipment that needs vibration reduction. Its disadvantage is that it is easy to intro

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