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Fixed-point recovery system and method for ballistic reentry satellite reentry capsule

A recovery system and return cabin technology, which is applied to the system of the spacecraft returning to the earth's atmosphere, the landing device of the spacecraft, etc., can solve the problems of deformation of the main structure of the return cabin, inability to reuse, and high residual horizontal speed, so as to avoid ejection. Effects of out-of-sync, fast-search, fast-shipping

Active Publication Date: 2021-07-30
BEIJING RES INST OF SPATIAL MECHANICAL & ELECTRICAL TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem solved by the present invention is: to overcome the deficiencies in the prior art, to provide a fixed-point recovery system and method for a ballistic re-entry satellite return cabin, to solve the problem that although the return cabin of a traditional ballistic re-entry satellite can use a parafoil To achieve landing point control, there is a problem that the remaining horizontal speed is too high, which may easily cause deformation of the main structure of the return capsule, making it impossible to reuse

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Embodiment

[0070] The invention provides a fixed-point recovery system and method for ballistic reentry and return satellites, which is a recovery system combining parafoils, conventional parachutes and buffer airbags, through a given working procedure and system layout scheme.

[0071] Hereinafter, unless otherwise specified, the top refers to the end close to the leeward side, that is, the end with a larger diameter of the return cabin, the bottom end refers to the end close to the windward side, that is, the blunt end of the return cabin, and the main structure of the return cabin refers to the return cabin. It is used to carry and provide the structure of various equipment mechanical interfaces.

[0072] figure 1 In the shown device, the fixed-point recovery system of ballistic reentry and return satellite provided by a specific embodiment of the present invention includes a guide parachute, a drogue parachute, a load-bearing support 6, a controllable parafoil, a parachute stabilizer...

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Abstract

The invention relates to a fixed-point recovery system and method for a ballistic reentry satellite reentry capsule. The system comprises a controllable parafoil and a stable landing parachute. The controllable parafoil enables the horizontal movement direction of the reentry capsule to be controllable in the recovery process, so that the reentry capsule can fly towards a preset target landing point, the controllable parafoil can be separated from the reentry capsule, when the height of the reentry capsule is lower than a preset stable landing height, the controllable parafoil is separated from the reentry capsule, meanwhile, the stable landing parachute is pulled out, the stable landing parachute enables the horizontal speed of the reentry capsule to be braked, and the return capsule is driven to be converted into a vertical falling motion state and vertically falls to a preset area with the target falling point as the center. According to the method, the reentry capsule lands in a direction perpendicular to the ground, the reentry capsule can fall in the preset area, rapid searching and rapid loading and transportation can be achieved, and the problems that a reentry landing point is uncontrollable and the distribution area is large are solved.

Description

technical field [0001] The invention relates to a fixed-point recovery system and method for a ballistic reentry satellite return capsule, which can realize the landing point control and non-destructive recovery of a ballistic reentry satellite, and belongs to the field of aerospace aerodynamic deceleration. Background technique [0002] At present, returnable satellites are mainly used as carrying platforms for some scientific experiments such as microgravity and orbital environment. The return capsule of existing returnable satellites has a high landing speed and uncontrollable landing point, which is a one-time use, resulting in high costs for orbital tests. In addition However, due to the uncontrollable landing point, the search work after the satellite lands requires the mobilization of large-scale professional equipment such as helicopters, which also poses obstacles to the application of this type of test platform. [0003] Although the precise control of the landing ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B64G1/62
CPCB64G1/62
Inventor 刘涛许望晶李博黄明星唐明章滕海山卢齐跃龙龙张丽梅
Owner BEIJING RES INST OF SPATIAL MECHANICAL & ELECTRICAL TECH
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