Analysis of modular biped wall climbing robot with high mobility and effective transit mechanism

2017 International Conference on Computer, Communication and Signal Processing (ICCCSP) Pub Date : 1900-01-01 DOI:10.1109/ICCCSP.2017.7944060

S. Kamalakannan, R. Ambigai

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引用次数: 1

Abstract

Model and analysis of a wall climbing robot based on the link and suction mechanism. Many wall climbing robots are designed and shaped for few decades, but still, the underlying problems for the wall climbing are faced by the designers. Wall-climbing robots consist of a two mechanism, one is link and other is suction mechanism. In link mechanism there are two joints I-joint and T-joint, Where I-joint can rotate about its axis, T-joint can rotate about 180, Both the joints give the ability to rotate in clockwise and anticlockwise direction, which helps the robot to have a good transient mechanism between the horizontal wall to vertical wall. Based on these link mechanisms static and dynamic analysis were carried out to find the stress and strain developed in the joint during the motion. To achieve the suction mechanism, suction cups are placed on the suction base in a triangle shape and three suction cups are employed. Based on the weight of the robot load distribution is calculated. Both the static and dynamic analysis is performed using the software Ansys R15 and Inventry15.

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具有高效移动机构的模块化双足爬壁机器人分析

基于连杆和吸力机构的爬壁机器人模型与分析。许多爬墙机器人经过几十年的设计和成型，但爬墙机器人的潜在问题仍然困扰着设计者。爬壁机器人主要由连杆机构和吸力机构两部分组成。连杆机构中有i型关节和t型关节两个关节，其中i型关节可绕其轴线旋转，t型关节可旋转180度左右，这两个关节都具有顺时针和逆时针方向的旋转能力，使机器人具有良好的水平壁面到垂直壁面之间的瞬态机构。基于这些连杆机构，进行了静力和动力分析，找出了关节在运动过程中产生的应力和应变。为实现吸力机构，将吸盘呈三角形放置在吸力底座上，并采用三个吸盘。根据机器人的自重计算负载分布。采用Ansys R15和Inventry15软件进行静态和动态分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 International Conference on Computer, Communication and Signal Processing (ICCCSP)

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