Dynamic Modeling and Simulation of a Hybrid Robot

Author:

Shen Nanyan1,Yuan Hengming1,Li Jing1,Wang Zirui1,Lu Ninghe1,Lu Yushun1

Affiliation:

1. Shanghai Key Laboratory of Intelligent Manufacturing and Robotics; School of Mechatronic Engineering and Automation, Shanghai University, No. 99, Shangda Road, Baoshan District, Shanghai 20444, China

Abstract

Abstract The unique structure of hybrid robot makes its dynamic characteristic different from that of the traditional machine tools. Therefore, the dynamic model is crucial to both designing and application of hybrid robot. In this paper, a new type of five-degrees-of-freedom (5DoF) hybrid robot is introduced, and its dynamic model is established. First, the kinematic formulas are derived for all the component, and then, the inertia forces or moments are calculated. Second, the active forces or moments in the joints are assumed as variables and the number of variables is reduced by analyzing joint types. Then, an equation set of 36 equilibrium equations with 38 variables is obtained using D'Alembert's principle. Based on the spatial deformation compatibility analysis of two branches, two supplementary equations are derived to determine the solution of dynamic model of the hybrid robot with redundant constraints in its parallel mechanism. Several cases are studied by comparing with ADAMS simulation. The result shows the good accuracy of the proposed dynamic model, which provides a practical method to calculate the reaction force or moment in any joint at any instant for the hybrid robot and thus facilitates dimensional synthesis, trajectory optimization, and smoothing control.

Publisher

ASME International

Subject

Mechanical Engineering

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