Tensegrity configuration method for connecting tensegrity units along their axes

Abstract Tensegrity structure is a kind of truss structures which are composed of bars under axial compression and strings under axial tension. It has become a hot spot in the field of sculpture, architecture, aviation and other fields in recent years. A method for building tensegrity structures through connecting tensegrity units is presented and researched systematically here. At first, through analysis for forces of the 3-bar tensegrity structure, the method for adding the components to keep the 3-bar tensegrity unit in equilibrium when changing its rotating angles in the units is researched. The principle for connecting tensegrity units axially follows to be presented. Then the node matrix and connectivity matrix are applied to set up common mathematic models of the tensegrity structures. With the axially-connecting principle and the mathematic models, tensegrity structures with common space shape are set up. Axially-connecting methods for same and different tensegrity units are analyzed. Besides, simulation and physical models are applied to prove that configurations of the obtained tensegrity structures are stable and the axially-connecting method is available. Through research in the paper, a method for configuring the tensegrity structure is summarized systematically, which provides theoretical support for the configuration of more complex structures.

[1]  Sergio Pellegrino,et al.  Cable-Stiffened Pantographic Deployable Structures Part 2: Mesh Reflector , 1997 .

[2]  Jian Feng,et al.  Form-finding of tensegrity structures using an optimization method , 2015 .

[3]  Kenji Nagase,et al.  Double-Helix Tensegrity Structures , 2015 .

[4]  Hans-Joachim Bungartz,et al.  Numerical form-finding of tensegrity structures , 2006 .

[5]  Fernando Fraternali,et al.  Experimental investigation of the softening-stiffening response of tensegrity prisms under compressive loading , 2014, 1406.1104.

[6]  Gunnar Tibert,et al.  On an innovative deployment concept for large space structures , 2012 .

[7]  Fernando Fraternali,et al.  Experimental response of additively manufactured metallic pentamode materials confined between stiffening plates , 2016 .

[8]  M. Pagitz,et al.  Finite element based form-finding algorithm for tensegrity structures , 2009 .

[9]  Sergio Pellegrino,et al.  Deployable Tensegrity Reflectors for Small Satellites , 2002 .

[10]  R. E. Skelton,et al.  On the additive manufacturing, post-tensioning and testing of bi-material tensegrity structures , 2015, 1504.01122.

[11]  K. Koohestani Form-finding of tensegrity structures via genetic algorithm , 2012 .

[12]  Shinichi Hirai,et al.  Dynamic simulation of six-strut tensegrity robot rolling , 2012, 2012 IEEE International Conference on Robotics and Biomimetics (ROBIO).

[13]  Ken Caluwaerts,et al.  Energy conserving constant shape optimization of tensegrity structures , 2015 .

[14]  Just L. Herder,et al.  Design of a Statically Balanced Tensegrity Mechanism , 2006 .

[15]  Fernando Fraternali,et al.  On the mechanical modeling of the extreme softening/stiffening response of axially loaded tensegrity prisms , 2014, 1406.1913.

[16]  Jian Feng,et al.  Prismatic tensegrity structures with additional cables: Integral symmetric states of self-stress and cable-controlled reconfiguration procedure , 2014 .

[17]  Shinichi Hirai,et al.  Rolling tensegrity driven by pneumatic soft actuators , 2012, 2012 IEEE International Conference on Robotics and Automation.

[18]  Nasseradeen Ashwear,et al.  Optimization of modular tensegrity structures for high stiffness and frequency separation requirements , 2016 .

[19]  Martin Corless,et al.  Tensegrity Flight Simulator , 2000 .

[20]  Jingyao Zhang,et al.  Nonlinear programming approach to form-finding and folding analysis of tensegrity structures using fictitious material properties , 2015 .

[21]  Jingyao Zhang,et al.  Node-based genetic form-finding of irregular tensegrity structures , 2015 .

[22]  Bin Li,et al.  Dynamic simulation for 6-strut tensegrity robots , 2014, 2014 IEEE International Conference on Information and Automation (ICIA).