Developing a bioinspired pole climbing robot

2016 International Conference on Robotics: Current Trends and Future Challenges (RCTFC) Pub Date : 1900-01-01 DOI:10.1109/RCTFC.2016.7893400

Moloy Das, A. Agrawal, Abhinav Sonone, Rishabh Gupta, Deepak Upadhyay, Y. Rao, A. Javed

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引用次数: 2

Abstract

This paper proposes a pole climbing robot that has an ability to climb pipes. The novelty of this design is that it uses no motors to climb on the pole. Till now many robots have been fabricated with the ability to climb pipes but most of them solely depend on DC motors. The use of DC motor induces the risk of loosening the grip of the robot in case of power failure that may lead to disastrous situations if robot is working on high altitudes. This could be easily avoidable by the use of electro-pneumatics and by using self-locking circuits. We used two pairs of pneumatic cylinders as linear actuators for gripping the pole i.e. one pair for one claw. Besides this two more cylinders are used for climbing purpose. Unlike other mechanisms, installation is extremely easy. It is like controlling a radio controlled car. This mechanism can be easily modified for different payload capacities by simply using the appropriate diameter of the pneumatic cylinders. The robot can be controlled in tele-operated mode as well as autonomous mode which is a closed loop system. It has a high accuracy with 4mm error per cycle that has a cycle time period of 5 seconds. This robot can be very useful in oil industries for inspection of pipes and power poles in electric industries. It can serve of great help in cases of emergency situation caused during fire accidents.

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开发一种仿生爬杆机器人

本文提出了一种具有攀爬管道能力的爬杆机器人。这种设计的新颖之处在于它不用马达就能爬上杆子。到目前为止，已经制造出许多具有爬管道能力的机器人，但大多数机器人仅依靠直流电机。使用直流电动机会导致机器人在停电的情况下失去抓地力，从而导致机器人在高海拔地区工作时发生灾难性的情况。这可以很容易地通过使用电气动和使用自锁电路来避免。我们使用两对气缸作为线性执行器来夹持杆，即一对气缸对应一个爪。除此之外，还有两个圆筒用于攀登。与其他机制不同，安装非常容易。这就像控制一辆无线电控制的汽车。该机构可以很容易地修改不同的有效载荷能力，只需使用适当直径的气缸。该机器人具有遥控和自主两种控制方式，是一个闭环系统。精度高，每周期误差4mm，周期为5秒。这个机器人在石油工业中非常有用，可以用来检查电力工业中的管道和电线杆。在发生火灾事故的紧急情况下，它可以提供很大的帮助。

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

2016 International Conference on Robotics: Current Trends and Future Challenges (RCTFC)

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