Design of a Piping Inspection Robot by Optimization Approach

Volume 10: 44th Mechanisms and Robotics Conference (MR) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22021

Swaminath Venkateswaran, D. Chablat, P. Hamon

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Abstract

This article presents an optimization approach for the design of an inspection robot that can move inside variable diameter pipelines having bends and junctions. The inspection robot uses a mechanical design that mimics the locomotion of a caterpillar. The existing prototype developed at LS2N, France is a rigid model that makes it feasible for working only inside straight pipelines. By the addition of a tensegrity mechanism between motor units, the robot is made reconfigurable. However, the motor units used in the prototype are oversized to pass through pipe bends or junctions. An optimization approach is employed to determine the dimensions of motors and their associated leg mechanisms that can overcome such bends. Two optimization problems are defined and solved in this article. The first problem deals with the determination of motor sizing without leg mechanisms. The second problem deals with the determination of sizing of the leg mechanism with respect to the dimensions of motor units obtained from the first problem. A 3D model of the optimized robot design is then realized using CAD software.

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基于优化方法的管道检测机器人设计

本文提出了一种能够在具有弯道和连接处的变径管道内运动的检测机器人的优化设计方法。这种检查机器人采用了模仿毛虫运动的机械设计。法国LS2N公司开发的现有原型机是一种刚性模型，只能在直管道内工作。通过在运动单元之间增加张拉整体机构，使机器人具有可重构性。然而，在原型中使用的电机单元过大，无法通过管道弯曲或连接。采用一种优化方法来确定能够克服这种弯曲的电机及其相关腿机构的尺寸。本文定义并解决了两个优化问题。第一个问题是在没有腿机构的情况下确定电机的尺寸。第二个问题是根据从第一个问题得到的运动单元的尺寸来确定腿部机构的尺寸。然后利用CAD软件实现了机器人优化设计的三维模型。

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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Volume 10: 44th Mechanisms and Robotics Conference (MR)

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