Development of Ankle-Joint Rehabilitation Device for Bedridden Patient Using Fan-Shaped Pneumatic Soft Actuator Driven at Low Pressure

J. Robotics Mechatronics Pub Date : 2023-06-20 DOI:10.20965/jrm.2023.p0565

S. Shimooka, Rui Suzuki, T. Uehara, Takahiro Hirayama, A. Gofuku

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Abstract

Recently, the number of older people and the reduction in infant birth rates in Japan have increased. Elderly against the younger increased to more than 28.9% in 2020. According to the Japanese aging society, a welfare pneumatic device to rehabilitate the temporally injured elderly and the disabled has been actively researched and developed. However, the developed rehabilitation device is almost always used for a patient who is not bedridden. Therefore, the joint of a bedridden patient is given only a passive exercise, by a physical therapist (PT). In this study, in order to reduce the burden of PTs, we aim to develop a rehabilitation device that can be used by anyone assisting the bedridden patient. The target joint was decided to be an ankle-joint because it is difficult for patients with contractions to walk. Therefore, a fan-shaped pneumatic soft actuator (FPSA) using a no-stretch hose with weaved bellows and silicone rubber string was proposed and tested. In addition, the characteristics of FPSA with different pitches and lengths are measured. To predict the bending angle of FPSA, a simplified shape analytical model of it is proposed. It can be confirmed that a calculated bending angle of FPSA using the model generally agrees with the experimental result. The proposed analytical model is a first-stage model that does not include the influence of external forces on FPSA. The ankle-joint rehabilitation device using FPSAs is proposed and tested, where an ankle-joint is changed from a plantarflexion to a dorsiflexion motion by pressurizing both FPSAs on the tested device. And it can be confirmed that a range of motion (“ROM” for short) is satisfied in an inversion and eversion driven by operating one or another FPSA on the device.

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低压驱动扇形气动软执行器用于卧床病人踝关节康复装置的研制

最近，日本的老年人数量和婴儿出生率的下降有所增加。到2020年，老年人与年轻人的比例增加到28.9%以上。根据日本老龄化社会的要求，积极研发一种用于暂时受伤的老年人和残疾人康复的福利气动装置。然而，开发的康复设备几乎总是用于不卧床不起的患者。因此，卧床病人的关节只能由物理治疗师(PT)进行被动锻炼。在本研究中，为了减轻PTs的负担，我们的目标是开发一种任何人都可以使用的康复装置来帮助卧床病人。目标关节被确定为踝关节，因为有收缩的患者行走困难。为此，提出并测试了一种采用无伸缩软管编织波纹管和硅橡胶管柱的扇形气动软执行器(FPSA)。此外，还测量了不同节距和不同长度下的FPSA的特性。为了预测柔性柔性结构的弯曲角度，提出了柔性柔性结构的简化形状分析模型。可以证实，用该模型计算的FPSA弯曲角与实验结果基本吻合。所提出的分析模型是第一阶段模型，不包括外力对FPSA的影响。提出并测试了使用fpsa的踝关节康复装置，其中通过对测试装置上的两个fpsa加压，将踝关节从跖屈运动变为背屈运动。通过在器件上操作一个或另一个FPSA，可以确认在反转和反转中满足运动范围(简称“ROM”)。

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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J. Robotics Mechatronics

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