• Title of article

    FULL COMPLIANT CONTINUUM ROBOTIC FINGER AND ITS KINEMATIC MODEL

  • Author/Authors

    BAO, G. J. Zhejiang University of Technology - Key Laboratory of E M, China , MA, X. L. Zhejiang University of Technology - Key Laboratory of E M, China , LUO, X. Y. Zhejiang University of Technology - Key Laboratory of E M, China , SHAO, T. F. China Jiliang University, China , ZHANG, L. B. Zhejiang University of Technology - Key Laboratory of E M, China , YANG, Q. H. Zhejiang University of Technology - Key Laboratory of E M, China

  • From page
    389
  • To page
    402
  • Abstract
    Different from the traditional rigid robots made by hard material such as metal, continuum robots are bionic mechanisms which feature high compliance and continuous shapechanging ability. A full compliant continuum robotic finger is proposed, which is driven by the compressed air inside its silicon rubber chamber and has a certain degree of grasping rigidity. By the moment equilibrium analysis, the mathematical model for the inside compressed air pressure and the bending angle of the finger is established. The kinematic Cartesian coordinates for the proposed continuum robotic finger are constructed based on the D-H method. Then the kinematic model is derived. Simulation and experimental results showed that the proposed full compliant continuum robotic finger has abilities of continuous compliant shape-changing and movement, and the established kinematic model can describe the finger’s movement process and its characteristics.
  • Keywords
    Continuum robot , soft robot , robotic dexterous hand , pneumatic muscle actuator
  • Journal title
    Iranian Journal of Science and Technology Transactions of Mechanical Engineering
  • Journal title
    Iranian Journal of Science and Technology Transactions of Mechanical Engineering
  • Record number

    2596482