Development of an ankle joint assist suit with hardware-based safety devices (Design using quality function deployment)

Mitsuyoshi Yabe, Souhei Noguchi, Masahito Sugiyama, Keisuke Ikeda, Tsubasa Kaneda, Yoshihiro Kai, M. Tomizuka
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Abstract

When developing rehabilitation assist suits, safety consideration for patients is one of the most important issues. In this paper, we propose an ankle joint assist suit with a velocity-based safety device and a commercial torque limiter. The velocity-based safety device switches off the assist suit’s motor if it detects an unexpected high joint angular velocity. The torque limiter cuts off the torque transmission if it detects an unexpected high joint torque. These devices work even when the assist suit’s computer breaks down, because they consist of only passive mechanical components without actuators, controllers, or batteries. First, we describe the design requirements for this assist suit. Next, we clarify the relationship between the design requirements and the assist suit parts by using Kato’s multispace-quality function deployment (M-QFD). Finally, we present the assist suit design incorporating this relationship.
基于硬件安全装置的踝关节辅助服的开发(使用质量功能部署进行设计)
在开发康复辅助服时,对患者的安全考虑是最重要的问题之一。在本文中,我们提出了一种踝关节辅助服,具有基于速度的安全装置和商用扭矩限制器。如果检测到意外的高关节角速度,基于速度的安全装置会关闭辅助服的电机。如果检测到意外的高关节扭矩,扭矩限制器将切断扭矩传输。这些装置即使在辅助服的计算机故障时也能工作,因为它们只由被动机械部件组成,没有执行器、控制器或电池。首先,我们描述了这种辅助服的设计要求。接下来,我们利用加藤的多空间质量功能部署(M-QFD)来澄清设计需求与辅助服部件之间的关系。最后,我们提出了结合这种关系的辅助服设计。
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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