Low-cost wearable rehabilitation devices using flexible pneumatic cylinder with built-in pneumatic driving system

2016 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) Pub Date : 2016-07-12 DOI:10.1109/AIM.2016.7576748

T. Akagi, S. Dohta, Y. Matsui, Hiroaki Tamaki, Naoki Kato

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引用次数: 2

Abstract

Recently, the rehabilitation device using a soft pneumatic actuator for the disabled are actively researched and developed because of the insufficient number of physical therapists. In the previous study, the wrist rehabilitation device using flexible robot arm that consisted of three flexible pneumatic cylinders was proposed and tested. The portable rehabilitation device using a flexible spherical actuator that consists of two flexible pneumatic cylinders was also proposed and tested. The driving system that consists of controllers and valves in both devices had to set on outside. It requires relatively larger space and disturbs the portability for user. In this study, to improve their portability and safety, the portable and wearable rehabilitation devices with built-in pneumatic driving system controlled by embedded controller are proposed and tested. The attitude controls of both devices are also carried out. As a result, it is confirmed that they are lightweight and can operate by only giving pneumatic and electric power supply.

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采用内置气动驱动系统的柔性气缸的低成本可穿戴式康复装置

近年来，由于物理治疗师的数量不足，使用软气动执行器的残疾人康复装置正在积极研究和开发。在之前的研究中，我们提出并测试了由三个柔性气缸组成的柔性机械臂腕部康复装置。提出并测试了一种由两个柔性气缸组成的柔性球形驱动器的便携式康复装置。由控制器和阀门组成的驱动系统必须在外部开启。占用空间较大，影响了用户的便携性。为了提高其便携性和安全性，本研究提出并测试了一种嵌入式控制器控制的内置气动驱动系统的便携式可穿戴康复设备。对两种装置进行了姿态控制。结果证实，它们重量轻，只需提供气动和电力供电即可运行。

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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2016 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)

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