[1]韩坤峰,刘艳红,毛晓波,等.弯曲气动肌肉驱动手腕康复装置的设计与研究[J].郑州大学学报(工学版),2022,43(01):62-68.[doi:10.13705/j.issn.1671-6833.2022.01.003]
 HAN Kunfeng,LIU Yanhong,MAO Xiaobo,et al.Design and Research of Wrist Rehabilitation Device Driven by Bending Pneumatic Muscle[J].Journal of Zhengzhou University (Engineering Science),2022,43(01):62-68.[doi:10.13705/j.issn.1671-6833.2022.01.003]
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弯曲气动肌肉驱动手腕康复装置的设计与研究()
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《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]

卷:
43
期数:
2022年01期
页码:
62-68
栏目:
出版日期:
2022-01-09

文章信息/Info

Title:
Design and Research of Wrist Rehabilitation Device Driven by Bending Pneumatic Muscle
作者:
韩坤峰刘艳红毛晓波张季东王葳逯鹏
郑州大学电气工程学院;机器人感知与控制河南省工程实验室;中医药智能科学与工程技术研究中心;

Author(s):
HAN Kunfeng12 LIU Yanhong12 MAO Xiaobo13 ZHANG Jidong12 WANG Wei12 LU Peng123
1.School of Electrical Engineering, Zhengzhou University, Zhengzhou 450001, China; 
2.Robot Perception and Control Henan Engineering Laboratory, Zhengzhou 450001, China; 3.Chinese Medicine Intelligent Science and Engineering Technology Research Center, Zhengzhou 450001, China
关键词:
Keywords:
wrist rehabilitation exoskeleton device pneumatic artificial muscle modeling
分类号:
TP391.7
DOI:
10.13705/j.issn.1671-6833.2022.01.003
文献标志码:
A
摘要:
针对传统手腕康复训练装置采用电机驱动,柔性不足的问题,设计手腕康复外骨骼装置,辅助患者完成腕关节屈曲/背伸运动和腕关节内收/外展运动康复训练。手腕康复装置包括外骨骼康复手套、控制系统、感知系统和交互系统。外骨骼康复手套采用弯曲型气动人工肌肉作为执行机构;控制系统包括嵌入式微控制器和小型气路控制系统;感知系统通过角度传感器实时采集腕关节运动方向和角度信息;交互系统实现上位机交互和语音交互。测试结果表明,手腕康复装置能有效地驱动手腕做运动康复训练,满足系统设计要求。
Abstract:
A wrist rehabilitation device driven by bending pneumatic muscles was designed and implemented to assist patients in completing wrist extension/flexion and adduction/abduction rehabilitation training. The design and modeling of the flexible drive, the design of the exoskeleton rehabilitation glove, the design of the control system and the safety design have been completed. The structure and main production process of the bending and contracting pneumatic artificial muscle were elaborated, and its kinematics characteristics and output force characteristics were tested. The kinematics model of the bending and contracting pneumatic artificial muscle was established by analytical methods, laying the foundation for the precise control of the bending and contracting pneumatic artificial muscle. The wrist rehabilitation device was designed and implemented, and simulated rehabilitation training was carried out. The results showed that the angle error was within 10%, and the wrist could be effectively driven by the device for rehabilitation training.

参考文献/References:

[1] 黄磊,孙中圣,刘源峰.基于气动柔性驱动器的手腕 运动康 复 装 置[J]. 机械制造与自动化,2016,45 ( 6) : 216-219.

 [2] LAMBELET C,LYU M X,WOOLLEY D,et al. The eWrist: a wearable wrist exoskeleton with sEMG-based force control for stroke rehabilitation[C]/ /2017 International Conference on Rehabilitation Robotics ( ICORR) .Piscataway: IEEE,2017: 726-733.
 [3] MARTINEZ J A,NG P,LU S,et al. Design of Wrist Gimbal: a forearm and wrist exoskeleton for stroke rehabilitation[C]/ /2013 IEEE 13th International Conference on Rehabilitation Robotics ( ICORR) . Piscataway: IEEE,2013: 1-6.
[4] BIGGAR S,YAO W. Design and evaluation of a soft and wearable robotic glove for hand rehabilitation[J]. IEEE transactions on neural systems and rehabilitation engineering,2016,24( 10) : 1071-1080.
 [5] 姚建涛,李海利,曹开彬,等.柔性可穿戴腕部动力 手套的 设 计 与 分 析[J]. 机 械 工 程 学 报,2018,54 ( 19) : 1-9. 
[6] ANDRIKOPOULOS G, NIKOLAKOPOULOS G, MANESIS S. Motion control of a novel robotic wrist exoskeleton via pneumatic muscle actuators[C]/ /2015 IEEE 20th Conference on Emerging Technologies & Factory Automation ( ETFA ) . Piscataway: IEEE, 2015: 1-8. 
[7] AL-FAHAAM H,DAVIS S,NEFTI-MEZIANI S. Wrist rehabilitation exoskeleton robot based on pneumatic soft actuators[C]/ /2016 International Conference for Students on Applied Engineering ( ICSAE ) . Piscataway: IEEE,2016: 491-496. 
[8] 管清华,孙健,刘彦菊,等.气动软体机器人发展现 状与趋势[J].中国科学: 技术科学,2020,50( 7) : 897-934.
 [9] 杨钢,李宝仁,刘军.一种新型气动执行元件: 气动 人工肌肉[J].中国机械工程,2003,14( 15) : 1347 -1349.
 [10] AL-FAHAAM H,DAVIS S,NEFTI-MEZIANI S. The design and mathematical modelling of novel extensor bending pneumatic artificial muscles ( EBPAMs) for soft exoskeletons [J]. Robotics and autonomous systems,2018,99: 63-74. 
[11] 封凯迪,杨岩.基于 SMA 的手部康复训练装置的设 计[J].机械传动,2020,44( 2) : 144-149.

更新日期/Last Update: 2022-01-09