STIFFNESS AND ELASTIC DEFORMATION OF A 3-LEG 5-DOF PARALLEL MANIPULATOR WITH ONE COMPOSITE LEG

Yi Lu, Jingjing Yu, Chen Liwei, Bo Hu, Xuili Zhang, Jianda Han, and Chunping Sui

References

  1. [1] J.P. Merlet, Parallel robots (The Netherlands: Springer, 2006).
  2. [2] Z. Huang, L.F. Kong, and Y.F. Fang, Theory on parallel robotics and control (Beijing, China: Machinery Industry Press, 1997).
  3. [3] Y. Lu and B. Hu, Unification and simplification of velocity/acceleration of limited-DoF parallel manipulators with linear active legs, Mechanism and Machine Theory, 43(9), 2008, 1112–1128.
  4. [4] Y. Lu and B. Hu, Analysis of kinematics and statics of a 2SPS + PRRPR parallel manipulator, Mechanism and Machine Theory, 43(9), 2008, 1099–1111.
  5. [5] C.M. Gosselin and D. Zhang, Stiffness analysis of parallel mechanisms using a lumped model, International Journal of Robotics and Automation, 17(1), 2002, 17–27.
  6. [6] D. Zhang and S.Y.T. Lang, Stiffness modeling for a class of reconfigurable PKMs with three to five degrees of freedom, Journal of Manufacturing Systems, 23(4), 2004, 316–327.
  7. [7] X. Zhang, J.K. Mills, and W.L. Cleghorn, Coupling characteristics of rigid body motion and elastic deformation of a 3-PRR parallel manipulator with flexible links, Multibody System Dynamics, 21(2), 2009, 167–192.
  8. [8] Y.M. Li and Q. Xu, Stiffness analysis for a 3-PUU parallel kinematic machine, Mechanism and Machine Theory, 43(2), 2008, 186–200.
  9. [9] M. Ceccarelli and G. Carbone, A stiffness analysis for CaPaMan (Cassino Parallel Manipulator), Mechanism and Machine Theory, 37(5), 2002, 427–439.
  10. [10] G. Carbone and M. Ceccarelli, A stiffness analysis for a hybrid parallel-serial manipulator,Robotica, 22(5), 2004, 567–576.
  11. [11] J. Enferadi and A.A. Tootoonchi, Accuracy and stiffness analysis of a 3-RRP spherical parallel manipulator, Robotica 29(2), 2011, 193–209.
  12. [12] A. Pashkevich, A. Klimchik, and D. Chablat, Enhanced stiffness modeling of manipulators with passive joints, Mechanism and Machine Theory, 46(5), 2011, 662–679.
  13. [13] A. Pashkevich, D. Chablat, and P. Wenger, Stiffness analysis of overconstrained parallel manipulators, Mechanism and Machine Theory, 44(5), 2009, 966–982.
  14. [14] W. Rong, L. Wang Lefeng, and L. Sun, Static stiffness analysis of 3-PPSR parallel micromanipulator, Chinese Journal of Mechanical Engineering, 44(1), 2008, 13–18+24.
  15. [15] H.-H. Pham and I.M. Chen, Stiffness modeling of flexure parallel mechanism, Precision Engineering, 29(4), 2005, 467–478.
  16. [16] B. Hu, Y. Lu, Q. Tan, J. Yu, and J.D. Han, Analysis of stiffness and elastic deformation of a 2(SP+SPR+SPU) serial–parallel manipulator, Robotics and Computer-Integrated Manufacturing, 27(2), 2011, 418–425.
  17. [17] S.L. Canfield, L. Nicolae, E.J. O’Malley, compliant manipulator, International Journal of Robotics and Automation, 17(1), 2002, 63–71.
  18. [18] X.J. Liu, J.S. Wang, and G. Pritschow, On the optimal kinematic design of the PRRRP 2-DoF parallel mechanism, Mechanism and Machine Theory, 41(9), 2006, 1111–1130.
  19. [19] Y.G. Li, H.T. Liu, X.M. Zhao, T. Huang, and G. Chetwynd Derek, Design of a 3-DOF PKM module for large structural component machining, Mechanism and Machine Theory, 45(6), 2010, 941–954.
  20. [20] D. Roylance, Mechanics of material (New York, NY: John Wiley & Sons Inc., 1996).
  21. [21] C. Ru, Course of 3 dimension design and application of solidworks, 2009, 2nd ed. (Beijing: China Machine Press, 2010).

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