Mechanical Design and Research of Wearable Exoskeleton Assisted Robot for Upper Limb Rehabilitation.
10.3969/j.issn.1671-7104.2022.01.009
- Author:
Zongbao WANG
1
;
Zongbing WANG
2
;
Yonghui YANG
1
;
Congzhen WANG
1
;
Guang YANG
1
;
Yefu LI
1
Author Information
1. The Third Affiliated Hospital of Anhui University of Chinese Medicine, Hefei, 230031.
2. Anhui Zhangxun Automation Science and Technology Co. Ltd., Hefei, 230093.
- Publication Type:Journal Article
- Keywords:
exoskeleton robot;
structural design;
upper limb rehabilitation
- MeSH:
Biomechanical Phenomena;
Exoskeleton Device;
Humans;
Robotics;
Stroke Rehabilitation;
Torque;
Upper Extremity;
Wearable Electronic Devices
- From:
Chinese Journal of Medical Instrumentation
2022;46(1):42-46
- CountryChina
- Language:Chinese
-
Abstract:
Based on the biomechanical mechanism of human upper limb, the disadvantages of traditional rehabilitation training and the current status of upper limb rehabilitation robot, a six degree of freedom, flexible adjustment, wearable upper limb rehabilitation exoskeleton design scheme is proposed. Firstly, the mechanics of each joint of the upper limb is analyzed, and the virtual prototype design of the whole mechanical structure of the upper limb rehabilitation wearable exoskeleton is carried out by using CATIA three-dimensional software. The tooth transmission of the forearm and the upper arm single row four point contact ball bearing with internal/external rotation and the shoulder flexible passive adjustment mechanism (viscoelastic damper) are innovatively designed. Then, the joints of the upper limb rehabilitation exoskeleton are analyzed, theoretical analysis and calculation of the driving torque, the selection of the motor and gearbox of each driving joint are carried out. Finally, the whole finite element analysis of the upper limb exoskeleton is carried out. The research and experimental results showed that the design scheme of the upper limb exoskeleton assist structure is highly feasible, which can help the patients with upper limb paralysis and motor dysfunction self-rehabilitation.