Soft-contact joint based on cross-axis structure

A cross-axis and soft-touch technology, applied in the field of space robot research and engineering, can solve problems such as energy impact, and achieve the effect of low energy consumption and simple structure

Active Publication Date: 2016-09-21
BEIJING UNIV OF POSTS & TELECOMM +1
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The present invention aims at the problem of energy impact during the contact operation of the existing space robot and the stepwise transfer of energy between the two spacecraft under various complex space conditions, and provides a soft contact joint based on the cross-axis structure, which not only realizes the rigidity of the existing space robot The motion planning function of the joints can also realize smooth soft contact during the contact process of the spacecraft, reduce various risks caused by the hard contact of the current space operation, and expand the applicability of the space robot operation

Method used

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  • Soft-contact joint based on cross-axis structure
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  • Soft-contact joint based on cross-axis structure

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Embodiment Construction

[0025] Attached below Figure 1~4 The present invention is described in further detail:

[0026] The invention section includes three parts: a driving transmission mechanism, a damping assembly and a sensing component.

[0027] The drive transmission mechanism mainly includes a motor drive unit one (203), a motor drive unit two (313), a clutch one (202), a clutch two (314), a gear set, a cross shaft (107), a controller (219 ), a housing, a bracket one (103), a bracket two (108), a bracket three (105), a bracket four (303) and a motor base (220); the damping assembly includes a linear magneto-rheological damping device (307), spring mechanism (309), slide rail one (207), slide rail two (212), slide rail three (213), slide rail four (312), electromagnetic brake slider one (208), electromagnetic brake A straight line consisting of brake slider two (211), electromagnetic brake slider three (210), electromagnetic brake slider four (311), sliding inner shell (206), sliding outer s...

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Abstract

The invention relates to the field of space robot researching and engineering, in particular to a soft touch joint based on a joint cross structure. The soft touch joint based on the joint cross structure comprises a driving transmission mechanism, a damping assembly and a sensing component. The driving transmission mechanism comprises motor driving units, controllers, inner shells, outer shells, sliding blocks, sliding rails and the like. The damping assembly comprises linear type magnetorheological dampers, clutches, rotary type magnetorheological dampers, spring mechanisms, torsion spring mechanisms and the like. The sensing component comprises encoders, linear displacement sensors and the like. The mechanical arm joint mainly utilizes the clutches and the magnetorheological dampers in the damping assembly to control the total flexibility of the soft touch joint, mutual conversion between a pitching and yawing two-freedom-degree rigidity driving function and space six-dimensional momentum unloading can be achieved according to operation tasks, and therefore soft touch of space operations is achieved.

Description

technical field [0001] The invention relates to the field of space robot research and engineering, in particular to a soft contact joint based on a cross-axis structure. Background technique [0002] With the development of space science and technology, the development and utilization of space energy has become a trend in the future. A consensus has been formed on the expansion of new space equipment based on space interactive docking technology. Space docking technology and its operating mechanism have become an important research in space technology. The field is the key technology for space on-orbit services, and it is also an important component of the construction of space stations in the future. To realize the space rendezvous and docking technology, the collision problem of the docking mechanisms of the two spacecraft must first be considered. In the process of space rendezvous and docking, the two spacecraft often collide with each other, and the momentum transfer i...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B25J17/00
Inventor 褚明董正宏孟庆川张宜弛鞠小龙贾庆轩胡健温玉芹孙汉旭
Owner BEIJING UNIV OF POSTS & TELECOMM
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