Design and Motion Planning of a Wheeled Type Pipeline Inspection Robot

Journal of Robotics and Control (JRC) Pub Date : 2022-07-01 DOI:10.18196/jrc.v3i4.14742

R. Sugin Elankavi, D. Dinakaran, Arockia Selvakumar Arockia Doss, Kuppan Chetty RAMANATHAN, M. M. Ramya

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引用次数: 3

Abstract

The most popular method for transporting fluids, and gases is through pipelines. For them to work correctly, regular inspection is necessary. Humans must enter potentially dangerous environments to inspect pipelines. As a result, pipeline robots came into existence. These robots aid in pipeline inspection, protecting numerous people from harm. Despite numerous improvements, pipeline robots still have several limitations. This paper presents the design and motion planning of a wheeled type pipeline inspection robot that can inspect pipelines having an inner diameter between 250 mm to 350 mm. The traditional wheeled robot design has three wheels fixed symmetrically at a 120° angle apart from each other. When maneuvering through a curved pipeline, this robot encounters motion singularity. The proposed robot fixes the wheels at different angles to address this issue, allowing the robot to stay in constant contact with the pipe's surface. Motion analysis is done for the proposed and existing robot design to study their behavior inside the pipeline. The result shows that the proposed robot avoids motion singularity and improves mobility inside pipelines. 3d printing technology aids in the development of the proposed robot. The experimental tests on the developed robot inside a 300 mm-diameter straight and curved pipeline show that the robot avoids motion singularity.

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轮式管道检测机器人的设计与运动规划

输送流体和气体最常用的方法是通过管道。为了使它们正常工作，定期检查是必要的。人类必须进入潜在的危险环境来检查管道。于是，管道机器人应运而生。这些机器人有助于管道检查，保护无数人免受伤害。尽管有许多改进，管道机器人仍然有一些局限性。本文介绍了一种轮式管道检测机器人的设计和运动规划，该机器人可以检测内径在250 ~ 350 mm之间的管道。传统的轮式机器人设计有三个轮子以120°的角度对称固定在一起。该机器人在弯曲管道中机动时遇到运动奇点。该机器人将轮子固定在不同的角度来解决这个问题，使机器人与管道表面保持恒定的接触。对所设计的机器人和现有的机器人进行了运动分析，研究了机器人在管道中的行为。结果表明，该机器人避免了运动奇异性，提高了管道内的机动性。3d打印技术有助于机器人的开发。在直径为300 mm的直线和弯曲管道内进行的实验测试表明，该机器人避免了运动奇异性。

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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来源期刊

Journal of Robotics and Control (JRC)

CiteScore

6.30

自引率

0.00%

发文量