Development of a New Type of Rehabilitation Mechanism for Bilateral Wrist Joint Training

Han Lisheng; Liu Zhifei; Li Lina; Huang Jiahai

doi:10.16578/j.issn.1004.2539.2023.08.022

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Development of a New Type of Rehabilitation Mechanism for Bilateral Wrist Joint Training

Development·Application | 更新时间：2023-08-22

- Development of a New Type of Rehabilitation Mechanism for Bilateral Wrist Joint Training
- Journal of Mechanical Transmission Vol. 47, Issue 8, Pages: 154-160(2023)
- 作者机构：
  
  太原理工大学机械与运载工程学院，山西太原 030024
- 作者简介：
- 基金信息：
- DOI：10.16578/j.issn.1004.2539.2023.08.022
  CLC：
- Published：15 August 2023，
  
  Received：16 June 2022，
  
  Revised：26 July 2022，
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韩礼生,刘智飞,李利娜等.一种新型双侧腕关节训练康复机构的研制[J].机械传动,2023,47(08):154-160.

Han Lisheng,Liu Zhifei,Li Lina,et al.Development of a New Type of Rehabilitation Mechanism for Bilateral Wrist Joint Training[J].Journal of Mechanical Transmission,2023,47(08):154-160.
韩礼生,刘智飞,李利娜等.一种新型双侧腕关节训练康复机构的研制[J].机械传动,2023,47(08):154-160. DOI： 10.16578/j.issn.1004.2539.2023.08.022.

Han Lisheng,Liu Zhifei,Li Lina,et al.Development of a New Type of Rehabilitation Mechanism for Bilateral Wrist Joint Training[J].Journal of Mechanical Transmission,2023,47(08):154-160. DOI： 10.16578/j.issn.1004.2539.2023.08.022.

摘要

设计双侧腕关节训练康复机构以满足双侧被动训练比单侧主动训练效果好的需求。康复机构采用两个空间反向双曲柄并联子机构，根据子机构采用绳索拉伸驱动的特性，研制出一款通过绳索不同的配置以实现左右侧平台成镜像对称的机构；采用球坐标系分析机构的正运动学，得到双侧平台的运动关系式；研制试验样机，对双侧平台横滚、俯仰和虚拟偏航运动的欧拉角进行测量，测量了在3种运动方式下前肌群和后肌群在静息态、单侧被动训练和双侧主动训练的肌电信号。实验数据表明，当机构做横滚运动时，双侧平台角位移大小相等、方向相反；当机构做俯仰运动时，双侧平台角位移大小和方向均相同。双侧主动训练测量的前肌群和后肌群肌电信号（EMG）最大平均值比静息态分别大319.65 mV和352.2 mV，比单侧被动训练分别大155.9 mV和184 mV。上述结果表明，所研制的双侧机构成镜像对称，能够对腕关节起到训练的效果，并且训练效果优于单侧训练。

Abstract

A bilateral wrist joint training and rehabilitation mechanism is designed to meet the requirements of bilateral passive training better than unilateral active training. The rehabilitation mechanism adopts two spatial reverse double crank parallel sub mechanisms. The forward kinematics of the mechanism is analyzed in the spherical coordinate system

and the motion relationship of the two platforms is obtained. The Euler angles of the rolling

pitching and virtual yaw motions of the two platforms are measured

and the front and back muscles are measured simultaneously in the three motion modes. The experimental data shows that when the mechanism is rolling

the angular displacements of both platforms are equal in magnitude and opposite in direction

while the mechanism is pitching

the angular displacements of both platforms are the same in magnitude and direction. The maximum and average electromyography （EMG） values of anterior and posterior muscles measured during the bilateral active training are 319.65 mV and 352.2 mV higher than those measured during the resting state

and 155.9 mV and 184 mV higher than those measured during the unilateral passive training

respectively. The above results show that the developed bilateral training machine has mirror symmetry

can play a training effect on the wrist joint

and the training effect is better than that of the unilateral training.

关键词

中风双侧训练腕关节康复镜像对称

Keywords

StrokeBilateral trainingWrist rehabilitationMirror symmetry

references

CAURAUGH J H，SUMMERS J J.Neural plasticity and bilateral movements：a rehabilitation approach for chronic stroke［J］.Prog Neurobiol，2005，75（5）：309-320.

JONES T A，ALLRED R P，ADKINS D L，et al.Remodeling the brain with behavioral experience after stroke［J］.Stroke，2009，40（3 Suppl）：136-138.

郑洁皎，杨颖华，杨寅，等.上海市社区康复医疗资源现状调研［J］.中华物理医学与康复杂志，2016，38（10）：781-783.

ZHENG Jiejiao，YANG Yinghua，YANG Yin，et al.Investigation on the status quo of community rehabilitation medical resources in Shanghai［J］.Chinese Journal of Physical Medicine and Rehabilitation，2016，38（10）：781-783.

SHENG B，ZHANG Y，MENG W，et al.Bilateral robots for upper-limb stroke rehabilitation：state of the art and future prospects［J］.Medical Engineering & Physics，2016：587-606.

KADIVAR Z，SULLIVAN J L，ENG D P，et al.Rice wrist robotic device for upper limb training：feasibility study and case report of two traplegic persons with spinal cord injury［J］.International Journal of Biological Engineering，2012，2（4）：27-38.

MARTINEZ J A，NG P，LU S，et al.Design of wrist gimbal：a forearm and wrist exoskeleton for stroke rehabilitation［J］.IEEE International Conference on Rehabilitation Robotics（ICORR），2013：6650459.

GOSSELIN C，ANGELES J.The optimum kinematic design of a spherical three-degree-of-freedom parallel manipulator［J］.Journal of Mechanisms Transmissions and Automation in Design，1989，111（2）：202-207.

CLEMENT M G，ERIC S P.Development and experimentation of a fast 3-DOF camera-orienting device［J］.International Journal of Robotics Research.1997，16（5）：619-630.

WALLER S M，WHITALL J.Bilateral arm training：why and who benefits？［J］.Neuro Rehabilitation，2008，23（1）：29-41.

PARKER F，TZOURIO N，BLOND S，et al.Evidence for a common network of brain structures involved in parkinsonian tremor and voluntary repetitive movement［J］.Brain Research，1992，584（1/2）：11-17.

LEE M J，LEE J H，KOO H M，et al.Effectiveness of bilateral arm training for improving extremity function and activities of daily living performance in hemiplegic patients［J］.Journal of Stroke and Cerebrovascular Diseases，2016，26（5）：1020-1025.

PARK D Y，CHANG J S，CHENG H J，et al.Development and evaluation of a novel passive wrist bilateral rehabilitation device paired with virtual reality：a feasibility study［J］.IEEE International Conference on Rehabilitation Robotics，2019：282-287.

OKADA M，NAKAMURA Y.Development of a cybernetic shoulder a 3-DOF mechanism that imitates biological shoulder motion［J］.Journal of the Robotics Society of Japan，2000，18（5）：690-698.

KIM Y J，KIM J I，JANG W S.Quaternion joint：dexterous 3-DOF joint representing quaternion motion for high-speed safe interaction［C］//2018 IEEE/RSJ International Conference on Intelligent Robots and Systems（IROS）.Madrid，Spain：IEEE，2018：935-942.

LIU F，HUANG H L，LI B，et al.Design and analysis of a cable-driven rigid-flexible coupling parallel mechanism with variable stiffness［J］.Mechanism and Machine Theory，2020，153：104030.

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