Litcius/Paper detail

Static Balancing of Four-Bar Compliant Mechanisms With Torsion Springs by Exerting Negative Stiffness Using Linear Spring At the Instant Center of Rotation

Jorge A. Franco, Juan Álvaro Gallego, Just L. Herder

2021Journal of Mechanisms and Robotics22 citationsDOI

Abstract

Abstract A design approach for the quasi-static balancing of four-bar linkages with torsion springs is proposed. Such an approach is useful in the design of quasi-statically balanced fully compliant mechanisms by tuning the stiffness of the pseudo-rigid-body-model. Here, the positive stiffness exhibited by torsion springs at the R-joints is compensated by a negative stiffness function. The negative stiffness is created by a non-zero-free-length linear spring connected between the coupler link and the ground, and where both connecting points trace a line directed to the coupler link’s instant center of rotation. A full example of the static balancing of two compliant linkages for approximate straight path generation is developed, where actuation energy of the compliant designs is reduced in 66% and 54%, respectively.

Topics & Concepts

Torsion springTorsion (gastropod)StiffnessStructural engineeringSpring (device)Four-bar linkageCompliant mechanismControl theory (sociology)EngineeringComputer scienceHingeFinite element methodArtificial intelligenceMedicineSurgeryControl (management)Piezoelectric Actuators and ControlAdvanced Materials and MechanicsRobotic Mechanisms and Dynamics