Cable drive robot device for simulating zero-gravity and low-gravity environment

A low-gravity environment, zero-gravity technology, applied in the simulation device of space navigation conditions, transportation and packaging, space navigation equipment, etc., to achieve the effect of high motion control accuracy, high dynamic characteristics, and large working space

Active Publication Date: 2015-03-25
TSINGHUA UNIV +1
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0008] In order to overcome the above-mentioned shortcoming of the prior art, the object of the present invention is to provide a kind of cable-driven robot device of simulating zero-gravity and low-gravity environment, overcome above-mentioned zero-gravity and low-gravity simulation technology can not be used for simulating aircraft in space 6 degrees of freedom Insufficient motion state and plume disturbance, the position and orientation of the simulated load platform and the tension of each cabl

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  • Cable drive robot device for simulating zero-gravity and low-gravity environment
  • Cable drive robot device for simulating zero-gravity and low-gravity environment
  • Cable drive robot device for simulating zero-gravity and low-gravity environment

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Embodiment Construction

[0024] The implementation of the present invention will be described in detail below in conjunction with the drawings and examples.

[0025] The invention relates to a cable-driven robot device for simulating zero-gravity and low-gravity environments, such as figure 1 As shown, its specific implementation is as follows: the cable-driven robotic device for simulating zero-gravity and low-gravity environments consists of a basic frame, a rope 200, a rope drive unit, a rope guide, a simulated load platform 300, sensors and a control system, wherein the basic Four columns 101 are installed on the platform 100, and a set of rope guides are respectively installed on the top and bottom of the four columns 101. The rope guides are composed of bogie bracket 211, bogie 212 and pulley 213, and there are eight groups in total; There are eight groups of units, all of which are composed of a mounting base 201, a mounting bracket 202, a roller 203, a motor 205 and related connectors; one end...

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Abstract

The invention provides a cable drive robot device for simulating the zero-gravity or low-gravity environment. The cable drive robot device comprises a basic frame, cables, cable drive units, cable guide devices, a simulation loading platform, sensors and a control system. The eight cables are arranged in a spatially-symmetric mode, wherein four cables are arranged at the upper portion and the other four cables are arranged at the lower portion. The cables are lengthened or shortened through the drive units driven by motors according to instructions of the control system. The control system conducts closed-loop or semi-closed-loop control over the length and the force of the cables according to force and displacement data given by the sensors, so that movement of the simulation loading platform in the zero-gravity or low-gravity environment is simulated. Meanwhile, one or more cables can be selected and used for being overlapped to apply external interference force. According to the experiment device, the defect that work space is limited or dynamism is insufficient in a traditional simulation method is overcome and six-freedom-degree movement control and stress simulation of the simulation loading platform in the zero-gravity or low-gravity environment can be achieved.

Description

technical field [0001] The invention belongs to the field of zero-gravity and low-gravity environment simulation equipment, in particular to a cable-driven robot device for simulating zero-gravity and low-gravity environments. Background technique [0002] The zero-gravity and low-gravity environment simulation test equipment can make the tested object in a weightless or low-gravity state on the earth. It has a wide demand in the aerospace field. It is mainly used to assist the design of aerospace vehicles and test the various performance adaptability of aerospace vehicles during tests. , pilot training, etc. The currently used zero-gravity and low-gravity simulation methods and equipment mainly include the following: (1) parabolic flight weightlessness simulation; (2) buoyancy balance gravity method; (3) rigid parallel mechanism simulation; (4) cable mechanism simulation equipment. [0003] The parabolic flight weightlessness simulation method is to use an airplane or a sm...

Claims

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Application Information

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IPC IPC(8): B64G7/00
Inventor 唐晓强邵珠峰王伟方汪劲松曹凌王长伟田斯慧李煜琦张欢
Owner TSINGHUA UNIV
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