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Design and analysis of a novel variable stiffness actuator based on parallel-assembled-folded serial leaf springs

Shusheng Bi, C. Liu, Huaizhong Zhao, Y. L. Wang

发表年份
2017
引用次数
13

摘要

Variable stiffness actuator (VSA) can significantly improve the dynamic performance of robots and ensure safety in human robot interaction. In this paper, a novel structure-controlled VSA which achieves a lower minimal stiffness while the size and load capacity remain unchanged is introduced. Stiffness variation is implemented by changing the effective length of parallel-assembled-folded serial leaf springs presented in this paper, which makes the adjustment of stiffness easier and driven by an independent motor. A modified analytical model of joint stiffness is built, which takes the gap between leaf springs and rollers into consideration. Experiments prove that the modified model is more accurate comparing with the ideal model which ignores the gap. Further analyses show that the gap can even make serious impacts on leaf spring-based structure-controlled VSA in other performances such as deformability and energy capacity.

关键词

StiffnessLeaf springActuatorRobotSpring (device)Joint stiffnessControl theory (sociology)Serial manipulatorVariable (mathematics)Structural engineering

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