Application of stretchable strain sensor for pneumatic artificial muscle

2014 IEEE Symposium on Robotic Intelligence in Informationally Structured Space (RiiSS) Pub Date : 2014-12-01 DOI:10.1109/RIISS.2014.7009179

Hiroyuki Nakamoto, Soushi Oida, Hideo Ootaka, M. Tada, I. Hirata, F. Kobayashi, F. Kojima

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引用次数: 8

Abstract

Pneumatic artificial muscles have advantages of lightweight, strong force, and electrical power saving for applications to power-assist systems or care support systems. These applications require precise control of artificial muscles. The artificial muscles have non-linear characteristics because they are mainly composed of elastic materials. The characteristics make the precise control difficult. In this paper, we propose a stretchable strain sensor for an application to pneumatic artificial muscles. This strain sensor has the characteristics of stretchability, length measurement, and lightweight, and can directly measure the contraction of the artificial muscle by attaching the sensor on the muscle. We describe the structure of the sensor and the principle, and show the fundamental characteristics. In addition, we confirm the next two characteristics. The sensor stops the contraction of the muscle at an error of 2.1 mm, and has no hysteresis in a loop of contraction and stretch.

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可拉伸应变传感器在气动人工肌肉中的应用

气动人造肌肉具有重量轻、力大、省电等优点，适用于动力辅助系统或护理支持系统。这些应用需要精确控制人造肌肉。人造肌肉主要由弹性材料构成，具有非线性特性。这些特性使精确控制变得困难。本文提出一种适用于气动人造肌肉的可拉伸应变传感器。该应变传感器具有可拉伸性、可测长度、重量轻等特点，通过将传感器附着在人工肌肉上，可以直接测量人工肌肉的收缩。介绍了传感器的结构和工作原理，并给出了传感器的基本特性。此外，我们确认了下面两个特征。传感器停止肌肉收缩的误差为2.1 mm，在收缩和拉伸的循环中没有迟滞。

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

2014 IEEE Symposium on Robotic Intelligence in Informationally Structured Space (RiiSS)

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