In this work, a new compliant bistable mechanism design is introduced. The combined use of pseudo-rigid-body model (PRBM) and the Elastica buckling theory is presented for the first time to analyze the new design. This mechanism consists of the large deflecting straight beams, buckling beams, and a slider. The kinematic analysis of this new mechanism is studied, using nonlinear Elastica buckling beam theory, the PRBM of a large deflecting cantilever beam, the vector loop closure equations, and numerically solving nonlinear algebraic equations. A design method of the bistable mechanism in microdimensions is investigated by changing the relative stiffness of the flexible beams. The actuation force versus displacement characteristics of several cases is explored and the full simulation results of one of the cases are presented. This paper demonstrates the united application of the PRBM and the buckling Elastica solution for an original compliant mechanism kinematic analysis. New compliant mechanism designs are presented to highlight where such combined kinematic analysis is required.

Issue Section:
Mechanisms and Robotics
Keywords:
algebra, beams (structures), buckling, cantilevers, elasticity, shear modulus, compliant mechanisms, bistable micromechanisms, pseudo-rigid-body model, large-deflection analysis, Elastica theory, buckling beam theory
Topics:
Buckling, Deflection, Design, Compliant mechanisms, Stress, Cantilever beams, Euler-Bernoulli beam theory, Displacement
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