Development of a wall-climbing drone with a rotary arm for climbing various-shaped surfaces

2018 15th International Conference on Ubiquitous Robots (UR) Pub Date : 2018-06-01 DOI:10.1109/URAI.2018.8441807

W. Myeong, Seungwon Song, H. Myung

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引用次数: 10

Abstract

In this paper, a novel wall-climbing drone installed with a rotary arm is proposed for climb operation on various shaped walls. Robots that can climb the wall are applicable to many operations such as structural health monitoring of high-rise buildings, bridges, nuclear power plants; maintenance of solar panels and glass walls; and visual inspection of the aircraft and vessels. Traditional wall-climbing robots use magnetic, vacuum, or bioinspired methods mimicking gecko foot for those purposes. However, those methods cannot be applied to various-shaped walls like inclined, and an obstacle existing walls such as window frames. To solve this problem, unmanned aerial vehicle (UAV)-type wall-climbing robots have recently been developed, but those types have disadvantages in terms of energy efficiency and impact in attaching and detaching processes. Therefore, in this paper, a wall-climbing drone with a rotary arm is proposed. The angle of the rotary arm is controlled depending on the slope angle of the wall to achieve energy efficiency. The drone was prototyped and tested in indoor environment to verify the feasibility of the mechanism.

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具有旋转臂的爬壁无人机的研制，用于爬各种形状的表面

本文提出了一种安装有旋转臂的新型爬壁无人机，可在各种形状的壁面上进行爬壁作业。能爬墙的机器人适用于高层建筑、桥梁、核电站的结构健康监测等诸多作业;太阳能电池板和玻璃墙的维护;对飞机和船只进行目视检查。传统的爬墙机器人使用磁性、真空或仿生方法来模仿壁虎的脚。然而，这些方法不能应用于各种形状的墙壁，如斜面墙，以及有障碍物的现有墙壁，如窗框。为了解决这一问题，近年来研制出了无人机型爬壁机器人，但这种类型的机器人在能量效率和附着和分离过程中的影响方面存在缺点。因此，本文提出了一种带有旋转臂的爬壁无人机。旋转臂的角度是根据墙体的倾斜角度来控制的，以达到节能的目的。该无人机原型机在室内环境中进行了测试，以验证该机构的可行性。

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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2018 15th International Conference on Ubiquitous Robots (UR)

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