Pneumatic-muscle-based multi-degree-of-freedom humanoid pole-climbing robot and control system thereof

A pneumatic muscle and control system technology, applied in the field of bionic robots, can solve the problems of easy burning, high rigidity and unsuitable use of the motor, and achieve the effect of high power/mass ratio, light weight and compact structure

Inactive Publication Date: 2018-01-09
JIAXING UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Frequent positive and negative rotation of the motor is easy to burn, high rigidity, not suitable for use in flammable and explosive areas, hydraulic cylinders and cylinders also have the disadvantage of too rigid
[0006] Chinese patent 201710485829.9 is the first to propose a flexible pole-climbing robot based on aerodynamic muscles, but it can only be applied to high-altitude pole-shaped urban buildings with regular surface shapes

Method used

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  • Pneumatic-muscle-based multi-degree-of-freedom humanoid pole-climbing robot and control system thereof
  • Pneumatic-muscle-based multi-degree-of-freedom humanoid pole-climbing robot and control system thereof
  • Pneumatic-muscle-based multi-degree-of-freedom humanoid pole-climbing robot and control system thereof

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Embodiment Construction

[0035] like Figure 1-5 As shown, the present invention is based on the pneumatic muscle multi-degree-of-freedom humanoid pole climbing robot system comprising: upper end Y direction clamping system 1, clamping pneumatic muscle one 2, upper end X direction clamping system 3, peristaltic pneumatic muscle one 4, peristaltic pneumatic muscle Muscle 2 5, outrigger 4 6, outrigger 1 upper half 7, outrigger 1 8, peristaltic pneumatic muscle 3 9, peristaltic pneumatic muscle 4 10, lower half of outrigger 11, lower end clamping system 12, clamping pneumatic Muscle two 13, climbing pole 14, climbing system 15, outrigger three 16, outrigger two 17, pneumatic muscle support plate one 18, clamping joint two 19, clamping plate one 20, clamping joint one 21, Clamping mounting plate 1 22, clamping mounting plate 2 23, belt connector 1 24, belt 25, pulley 26, leg fixing plate 27, pneumatic muscle mounting plate 28, leg support plate 29, belt connector 2 30, Pneumatic muscle support plate 2 31...

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Abstract

The invention discloses a pneumatic-muscle-based multi-degree-of-freedom humanoid pole-climbing robot and a control system thereof. The pneumatic-muscle-based multi-degree-of-freedom humanoid pole-climbing robot drives joints to move through pneumatic muscles and has the multi-degree-of-freedom humanoid pole-climbing function. The multi-degree-of-freedom humanoid pole-climbing robot is mainly composed of an upper end Y-direction clamping system, an upper end X-direction clamping system, a climbing system, a climbing pole and a lower end clamping system. The upper end Y-direction clamping system, the upper end X-direction clamping system and the lower end clamping system are used for firmly grasping the climbing pole. The climbing system is composed of two pairs of support legs used for realizing vertical crawling in the X-direction and the Y-direction. The pneumatic-muscle-based multi-degree-of-freedom humanoid pole-climbing robot conducts driving through the pneumatic muscles, has thecharacteristics of being compact in structure, clean and good in explosion-proof performance and can be used for paint spraying, cleaning and maintaining of high-rise irregular rod-like urban buildings.

Description

technical field [0001] The invention belongs to the technical field of bionic robots, and relates to a multi-degree-of-freedom humanoid pole-climbing robot based on pneumatic muscles and a control system thereof. Background technique [0002] With the development of the city, there are more and more high-altitude pole-shaped urban buildings such as utility poles, natural gas pipelines, street light poles, bridge cables, etc. The painting, cleaning and maintenance of these buildings mainly rely on manual "Spiderman" and large-scale equipment. , for the workers, not only the work efficiency is low, the labor intensity is high, and the danger is high, but also the chemicals used for cleaning have a certain degree of harm to the workers' bodies. Large-scale equipment is limited by the scope of the work site and funds. The shape of the surface is irregular, so a multi-degree-of-freedom robot capable of crawling irregular rods is needed. [0003] Chinese patents 201220172033.0, 2...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B25J9/08B25J9/14B25J19/00B62D57/024
Inventor 姜飞龙
Owner JIAXING UNIV
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