Design and biomechanical analysis of a self-force source power-assisted knee orthotics actuated by liquid spring.
10.7507/1001-5515.202206021
- Author:
Xuan ZHANG
1
;
Shuo FENG
1
;
Zhenxian CHEN
1
;
Jing ZHANG
1
;
Zhongmin JIN
2
Author Information
1. School of Construction Machinery, Chang'an University, Xi'an 710064, P.R. China.
2. School of Mechanical Engineering, Southwest Jiaotong University, Chengdu 610031, P.R. China.
- Publication Type:Journal Article
- Keywords:
Biomechanics;
Knee joint;
Liquid spring;
Osteoarthritis;
Power-assisted knee orthosis
- MeSH:
Biomechanical Phenomena;
Knee Joint;
Femur;
Ligaments;
Orthotic Devices
- From:
Journal of Biomedical Engineering
2022;39(6):1199-1208
- CountryChina
- Language:Chinese
-
Abstract:
A micro silicone oil liquid spring was designed and manufactured in this article. The performance of the liquid spring was studied by simulation analysis and mechanical test. A self-force source power-assisted knee orthosis was designed based on the liquid spring. This power-assisted knee orthosis can convert the kinetic energy of knee flexion into the elastic potential energy of liquid spring for storage, and release elastic potential energy to generate assisted torque which drives the knee joint for extension. The results showed that the average maximum reset force of the liquid spring was 1 240 N, and the average maximum assisted torque for the knee joint was 29.8 N·m. A musculoskeletal multibody dynamic model was used to analyze the biomechanical effect of the knee orthosis on the joint during knee bending (90°knee flexion). The results showed that the power-assisted knee orthosis could effectively reduce the biomechanical load of the knee joint for the user with a body weight of 80 kg. The maximum forces of the femoral-tibial joint force, patellar-femoral joint force, and quadriceps-ligament force were reduced by 24.5%, 23.8%, and 21.2%, respectively. The power-assisted knee orthosis designed in this article provides sufficient assisted torque for the knee joint. It lays a foundation for the subsequent commercial application due to its small size and lightweight.
