Mobility of Multichain Platform Mechanisms Under Differential Displacement

Author:

Milenkovic Paul1

Affiliation:

1. Department of Electrical and Computer Engineering, University of Wisconsin-Madison, Madison, WI 53706

Abstract

For a platform connected to its base through two chains forming a single loop, the instantaneous mobility may be expressed by a set of motion screws that is in the intersection of the sets of motion screws for each of the two chains. A recent work shows that the platform remains mobile after differential displacement along all mobile paths if the Lie closures of the screw sets of the two chains are each within the span of the union of screw sets of those chains. If this union span is one dimension short of containing the Lie closures of the two chains, a quadratic form determines whether the reference pose is at a constraint singularity and resolves the mobile paths at that singularity. Those results are now extended to a platform manipulator with more than two chains, using a recursive procedure for updating velocity, acceleration, and higher-order descriptions of platform mobility after adding successive chains. The new analytical technique characterizes the bifurcation of the mobility at constraint singularity of 3RSR, 3RER, and 3UPU platform mechanisms proposed for use in constant-velocity couplings, robotic wrists, and translational manipulators.

Publisher

ASME International

Subject

Mechanical Engineering

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1. Solution of the Forward Dynamics of a Single-loop Linkage Using Power Series;Journal of Dynamic Systems, Measurement, and Control;2011-09-09

2. Series Solution for Finite Displacement of Planar Four-Bar Linkages;Journal of Mechanisms and Robotics;2010-11-23

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