Extending the method coined virtual-center-based (VCB) for synthesizing a group of deployable platonic mechanisms with radially reciprocating motion by implanting dual-plane-symmetric 8-bar linkages into the platonic polyhedron bases, this paper proposes for the first time a more general single-plane-symmetric 8-bar linkage and applies it together with the dual-plane-symmetric 8-bar linkage to the synthesis of a family of one-degree of freedom (DOF) highly overconstrained deployable polyhedral mechanisms (DPMs) with radially reciprocating motion. The two 8-bar linkages are compared, and geometry and kinematics of the single-plane-symmetric 8-bar linkage are investigated providing geometric constraints for synthesizing the DPMs. Based on synthesis of the regular DPMs, synthesis of semiregular and Johnson DPMs is implemented, which is illustrated by the synthesis and construction of a deployable rectangular prismatic mechanism and a truncated icosahedral (C60) mechanism. Geometric parameters and number synthesis of typical semiregular and Johnson DPMs based on the Archimedean polyhedrons, prisms and Johnson polyhedrons are presented. Further, movability of the mechanisms is evaluated using symmetry-extended rule, and mobility of the mechanisms is verified with screw-loop equation method; in addition, degree of overconstraint of the mechanisms is investigated by combining the Euler's formula for polyhedrons and the Grübler–Kutzbach formula for mobility analysis of linkages. Ultimately, singular configurations of the mechanisms are revealed and multifurcation of the DPMs is identified. The paper hence presents an intuitive and efficient approach for synthesizing PDMs that have great potential applications in the fields of architecture, manufacturing, robotics, space exploration, and molecule research.
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September 2014
Research-Article
Synthesis, Mobility, and Multifurcation of Deployable Polyhedral Mechanisms With Radially Reciprocating Motion
Guowu Wei,
Guowu Wei
Centre for Robotics Research,
School of Natural and Mathematical Sciences,
King's College London,
e-mail: guowu.wei@kcl.ac.uk
School of Natural and Mathematical Sciences,
King's College London,
University of London
,London WC2R 2LS
, UK
e-mail: guowu.wei@kcl.ac.uk
Search for other works by this author on:
Yao Chen,
Yao Chen
Lecturer
National Prestress Engineering Research Center,
School of Civil Engineering,
e-mail: chenyao_seu@hotmail.com
National Prestress Engineering Research Center,
School of Civil Engineering,
Southeast University
,Nanjing 210096
, China
e-mail: chenyao_seu@hotmail.com
Search for other works by this author on:
Jian S. Dai
Jian S. Dai
Chair in Mechanisms and Robotics
International Centre for
Mechanisms and Robotics,
MoE Key Laboratory for Mechanism Theory
and Equipment Design,
International Centre for
Mechanisms and Robotics,
MoE Key Laboratory for Mechanism Theory
and Equipment Design,
Tianjin University
,Tianjin 300072
, China
;Centre for Robotics Research,
School of Natural and Mathematical Sciences,
King's College London,
University of London,
London WC2R 2LS, UK
e-mail: jian.dai@kcl.ac.uk
School of Natural and Mathematical Sciences,
King's College London,
University of London,
London WC2R 2LS, UK
e-mail: jian.dai@kcl.ac.uk
Search for other works by this author on:
Guowu Wei
Centre for Robotics Research,
School of Natural and Mathematical Sciences,
King's College London,
e-mail: guowu.wei@kcl.ac.uk
School of Natural and Mathematical Sciences,
King's College London,
University of London
,London WC2R 2LS
, UK
e-mail: guowu.wei@kcl.ac.uk
Yao Chen
Lecturer
National Prestress Engineering Research Center,
School of Civil Engineering,
e-mail: chenyao_seu@hotmail.com
National Prestress Engineering Research Center,
School of Civil Engineering,
Southeast University
,Nanjing 210096
, China
e-mail: chenyao_seu@hotmail.com
Jian S. Dai
Chair in Mechanisms and Robotics
International Centre for
Mechanisms and Robotics,
MoE Key Laboratory for Mechanism Theory
and Equipment Design,
International Centre for
Mechanisms and Robotics,
MoE Key Laboratory for Mechanism Theory
and Equipment Design,
Tianjin University
,Tianjin 300072
, China
;Centre for Robotics Research,
School of Natural and Mathematical Sciences,
King's College London,
University of London,
London WC2R 2LS, UK
e-mail: jian.dai@kcl.ac.uk
School of Natural and Mathematical Sciences,
King's College London,
University of London,
London WC2R 2LS, UK
e-mail: jian.dai@kcl.ac.uk
Contributed by the Mechanisms and Robotics Committee of ASME for publication in the JOURNAL OF MECHANICAL DESIGN. Manuscript received November 4, 2013; final manuscript received April 28, 2014; published online June 11, 2014. Assoc. Editor: Oscar Altuzarra.
J. Mech. Des. Sep 2014, 136(9): 091003 (12 pages)
Published Online: June 11, 2014
Article history
Received:
November 4, 2013
Revision Received:
April 28, 2014
Citation
Wei, G., Chen, Y., and Dai, J. S. (June 11, 2014). "Synthesis, Mobility, and Multifurcation of Deployable Polyhedral Mechanisms With Radially Reciprocating Motion." ASME. J. Mech. Des. September 2014; 136(9): 091003. https://doi.org/10.1115/1.4027638
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