Development of an ankle rehabilitation robot for ankle training

2015 IEEE International Conference on Information and Automation Pub Date : 2015-10-01 DOI:10.1109/ICINFA.2015.7279265

Chunbao Wang, Lin Wang, J. Qin, Zhengzhi Wu, L. Duan, Zhongqiu Li, Meiqun Cao, Weiguang Li, Zhijiang Lu, Mengjie Li, Yulong Wang, J. Long, Meiling Huang, Yinghong Li, Qiuhong Wang

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引用次数: 14

Abstract

Making use of rehabilitation robot to replace traditional therapist rehabilitation on hemiplegic rehabilitation has been a fashion trend. There are many ankle rehabilitation robots are proposed. However all of them are only focusing on providing a passive training to the patient. In this paper, we will present the frame work on designing a novel ankle robot which combines the active training with passive training together. To get the design basis, an experiment to detect the ankle physiology data is established. Additionally, an ankle rehabilitation robot with three degrees is proposed. This robot embeds force sensors and position sensors to detect the dynamic movements of the ankle. The detail design of the mechanism is introduced. The mechanical structure includes pedal parts, thigh fixing parts, base, driving unit and sensing unit. Comparing with the other ankle rehabilitation robots, this robot uses three blushless motors to direct three rotation motions directly, and the whole structure is simple and reliable. Control system is also introduced in this paper. In order to test the performance of control system, two experiments are established to test the velocity respond and positioning accuracy. Results show that the system has a nice rapidity, stability and accuracy.

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用于踝关节训练的踝关节康复机器人研制

利用康复机器人代替传统的治疗师进行偏瘫康复治疗已成为一种流行趋势。有许多踝关节康复机器人被提出。然而，他们都只专注于为患者提供被动的训练。本文提出了一种将主动训练与被动训练相结合的新型踝关节机器人的设计框架。为获得设计依据，建立了踝关节生理数据检测实验。此外，提出了一种三度踝关节康复机器人。这个机器人嵌入了力传感器和位置传感器来检测脚踝的动态运动。介绍了机构的详细设计。机械结构包括踏板部件、大腿固定部件、底座、驱动单元和传感单元。与其他踝关节康复机器人相比，该机器人采用三个无刷电机直接指导三个旋转运动，整体结构简单可靠。本文还对控制系统进行了介绍。为了测试控制系统的性能，建立了两个实验来测试速度响应和定位精度。结果表明，该系统具有良好的快速性、稳定性和准确性。

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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2015 IEEE International Conference on Information and Automation

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