Space mechanical arm suspension microgravity simulation method

A space manipulator, microgravity simulation technology, applied in the field of simulation experiments, can solve problems such as the influence of spacecraft attitude, the degree of freedom of the manipulator, the range limit, the moment deviation at the joints, etc.

Active Publication Date: 2021-03-19
TIANJIN AEROSPACE ELECTROMECHANICAL EQUIP RES INST
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

During the test, the degree of freedom and range of the manipulator's movement are greatly limited
Moreover, since there is no need to consider the influence of the force and moment of the mechanical arm on the fixed installation, gravity unloading is mostly carried out for the main arm of the mechanical arm. The overall use of double or single lifting points, although the overall gravity of the mechanical There is a large deviation in the torque at
[0005] When carrying out tests

Method used

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  • Space mechanical arm suspension microgravity simulation method
  • Space mechanical arm suspension microgravity simulation method
  • Space mechanical arm suspension microgravity simulation method

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specific Embodiment

[0130] Specific embodiments: the space manipulator that needs to unload gravity is simplified as Figure 8 The joint and arm structure with uniform mass shown in the figure, given that the weight of the root joint, elbow joint, and wrist deflection joint is 6kg, the weight of the forearm end deflection joint and end execution joint is 3kg, and the weight of the upper arm and forearm is 10kg . The distance between the root and the elbow is 1060mm, the distance between the elbow and the wrist deflection joint is 1060mm, and the distance between the wrist and the end execution joint is 180mm. The lifting point force at the root of the boom is F1, which is located at a distance of 100mm from the root joint; the force at the hanging point at the elbow is F2; ​​the force at the end of the forearm is F3, which is located at a distance of 725mm from the elbow joint; the force at the hanging point at the wrist is F4; The lifting point force of the terminal execution joint is F5. The ...

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Abstract

The invention provides a space mechanical arm suspension microgravity simulation method, and belongs to the field of simulation experiments, wherein the method comprises the steps: S1, installing a space machine, and controlling a six-degree-of-freedom table to move to a test starting position on an air floatation platform; S2, adjusting the alignment position according to the target point of thesix-degree-of-freedom table; S3, controlling a mechanical swing arm to move, and connecting a suspension assembly with a suspension point; S4, controlling an omnidirectional mobile platform to move along with the six-degree-of-freedom platform; S5, controlling a space mechanical arm to be unfolded; S6, after the space mechanical arm completes the test, controlling the space mechanical arm to moveto an original folded state; S7, after the six-degree-of-freedom table moves to the parking position, closing an air source, and supporting and fixing the six-degree-of-freedom table; and S8, ending the test of disassembling a suspension assembly. The action of the gravity of the mechanical arm on the posture of a spacecraft when the mechanical arm is unfolded is eliminated, meanwhile, more motionfreedom degrees and motion ranges of the mechanical arm are reserved, and the unfolding range of the space mechanical arm is adapted to in a large range.

Description

technical field [0001] The invention belongs to the field of simulation experiments and relates to a microgravity simulation method for space manipulator suspension. Background technique [0002] It is a commonly used method in the field of aerospace to simulate and simulate the special working environment of the spacecraft to carry out test experiments to verify the structural performance of the spacecraft on the ground, and it is also a strategy that takes into account both economy and timeliness in the development process. [0003] In recent years, space manipulators or space robots have taken on more and more important tasks in space exploration and development, and can replace astronauts in the harsh space environment to complete various tasks such as target capture, fault maintenance, garbage cleaning, and star surface sampling. Task. The space manipulators developed based on the low-gravity environment and application background in space mostly have the characteristi...

Claims

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Application Information

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IPC IPC(8): B64G7/00
CPCB64G7/00
Inventor 齐放吴跃民李博朱朝晖
Owner TIANJIN AEROSPACE ELECTROMECHANICAL EQUIP RES INST
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