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- Title
Design of a novel knee joint for an exoskeleton with good energy efficiency for load-carrying augmentation.
- Authors
Kim, Hyo-gon; Park, Sangdeok; Han, Changsoo
- Abstract
When a linear actuator is used for rotation motion by a knee joint of an exoskeleton, the specifications of the joint range of motion (ROM) and joint torque change according to how the linear actuator are attached. Moreover, while the linear actuator generates a constant amount of force, the joint torque generated by the actuator changes according to the joint angle, which causes the torque contraction. This makes it difficult to meet the required torque and ROM for walk and stand-to-sit and sit-to-stand (STS) motions while carrying a load. To solve these problems we propose a novel knee joint for an exoskeleton with good energy efficiency during walk and STS motions while carrying a load. The mechanism is composed of a four-bar linkage and an elastic element. Based on an analysis of human motion, the design variables of the joint were optimized and the feasibility of the optimized variables was verified through the simulation. The findings from the simulation results suggest that combining a four-bar linkage with a linear actuator allows a large ROM and good torque performance of the knee joint for walk and STS motions. Moreover, the energy efficiency can be improved because the spring mounted parallel to the actuator can store the energy dissipated as negative work and recycle the energy as positive work.
- Subjects
ROBOTIC exoskeletons; ACTUATORS; ASSISTIVE technology; FOUR-bar linkage; HUMAN mechanics; MATLAB (Computer software)
- Publication
Journal of Mechanical Science & Technology, 2014, Vol 28, Issue 11, p4361
- ISSN
1738-494X
- Publication type
Article
- DOI
10.1007/s12206-014-1003-8