Electroadhesive robots—wall climbing robots enabled by a novel, robust, and electrically controllable adhesion technology

2008 IEEE International Conference on Robotics and Automation Pub Date : 2008-05-19 DOI:10.1109/ROBOT.2008.4543670

H. Prahlad, R. Pelrine, S. Stanford, J. Marlow, R. Kornbluh

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引用次数: 275

Abstract

This paper describes a novel clamping technology called compliant electroadhesion, as well as the first application of this technology to wall climbing robots. As the name implies, electroadhesion is an electrically controllable adhesion technology. It involves inducing electrostatic charges on a wall substrate using a power supply connected to compliant pads situated on the moving robot. High clamping forces (0.2-1.4 Newton supported by 1 square centimeter of clamp area, depending on substrate) have been demonstrated on a wide variety of common building substrates, both rough and smooth as well as both electrically conductive and insulating. Unlike conventional adhesives or dry adhesives, the electroadhesion can be modulated or turned off for mobility or cleaning. The technology uses a very small amount of power (on the order of 20 microwatts/Newton weight held) and shows the ability to repeatably clamp to wall substrates that are heavily covered in dust or other debris. Using this technology, SRI International has demonstrated a variety of wall climbing robots including tracked and legged robots.

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电黏附机器人——一种新型的、强大的、可控的黏附技术使爬壁机器人成为可能

本文介绍了一种新型夹紧技术——柔性电粘附，以及该技术在爬壁机器人上的首次应用。顾名思义，电粘附是一种电控的粘附技术。它涉及使用连接到位于移动机器人上的柔性垫的电源在墙壁基板上诱导静电荷。高夹紧力(0.2-1.4牛顿由1平方厘米的夹紧面积支持，取决于基材)已经在各种常见的建筑基材上得到了证明，既有粗糙的，也有光滑的，既有导电的，也有绝缘的。不像传统的粘合剂或干粘合剂，电粘合可以调节或关闭移动或清洁。该技术使用非常少的功率(大约20微瓦/牛顿重量)，并且能够重复地夹紧被灰尘或其他碎片严重覆盖的墙壁基板。利用这项技术，SRI国际公司展示了各种爬墙机器人，包括履带式和有腿式机器人。

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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2008 IEEE International Conference on Robotics and Automation

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