Abstract
Recently, there has been an increase in research into the McKibben type artificial muscle, because it is small, light, and high power. In this study, not only the contraction artificial muscle, but also the stiffness change artificial muscle and the extending artificial muscle have been developed. By nonlinear finite element method analysis the best sleeve knitting angle has been derived to achieve the stiffness change and the extension and contraction motions. From the results, three kinds of artificial muscles realizing contraction and extension motion, and the stiffness change have been fabricated. To apply high hydraulic pressure into the muscle, these are composed of the three layer tube and the reverse tapered plug. We confirmed that three muscles generate stiffness change, contraction, and extension motions successfully respectively. In addition, the novel bending actuator has been developed by combining contractional and extensional artificial muscles. It has been realized bending motion with high stiffness.
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More From: The Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec)
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