A Concept for a robot arm with adjustable series clutch actuators and passive gravity compensation for enhanced safety

2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) Pub Date : 2015-07-07 DOI:10.1109/AIM.2015.7222722

A. Schmitz, Soumya Bhavaraju, S. Somlor, Gonzalo Aguirre Dominguez, Mitsuhiro Kamezaki, Wei Wang, S. Sugano

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引用次数: 11

Abstract

Passive compliance is useful for robotic arms to ensure their safety. Often springs are used, but they are problematic because they reduce the achievable accelerations and can lead to underdamped oscillations. Torque limiters enhance the safety, but usually the torque limit cannot be adjusted to a desired torque. Electronically adjustable torque limiters, also known as series clutch actuators, have several benefits, especially for robotic arms, but they also have severe limitations. This paper suggests incorporating series clutch actuators into a gravity compensated arm. Consequently, gravity should not limit the isotropically achievable force anymore and in the case of power outage the arm keeps its position. The benefits and limitations of a series clutch actuator in a gravity compensated arm are discussed, and a prototype of such an arm is presented. Commercially available magnetic friction clutches are used. Preliminary experiments demonstrate that the safety can be increased.

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一种具有可调系列离合器致动器和被动重力补偿以增强安全性的机器人手臂的概念

被动顺应是保证机械臂安全的有效手段。通常使用弹簧，但它们是有问题的，因为它们降低了可实现的加速度，并可能导致欠阻尼振荡。扭矩限制器提高了安全性，但通常扭矩限制不能调整到所需的扭矩。电子可调扭矩限制器，也被称为系列离合器执行器，有几个好处，特别是对于机械臂，但它们也有严重的局限性。本文建议在重力补偿臂中加入串联离合器执行器。因此，重力不应该再限制各向同性的可实现力，在停电的情况下，手臂保持其位置。讨论了在重力补偿臂中采用串联离合器作动器的优点和局限性，并给出了该臂的样机。使用市售的磁性摩擦离合器。初步实验表明，该方法可以提高安全性。

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

2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)

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