DocumentCode
855084
Title
Optimal Design of Gear Ratios and Offset for Energy Conservation of an Articulated Manipulator
Author
Izumi, Teruyuki ; Zhou, Hai ; Li, Zuowei
Author_Institution
Electron. & Control Syst. Eng., Shimane Univ., Matsue, Japan
Volume
6
Issue
3
fYear
2009
fDate
7/1/2009 12:00:00 AM
Firstpage
551
Lastpage
557
Abstract
It is important to minimize the energy dissipated by the reduction gears and motors in a three-jointed vertically articulated manipulator. This paper proposes an optimal design method for simultaneously determining eight design variables, which are three motor masses, three reduction gear ratios, a counterbalancer mass for the third link and an offset between the first and the second links. Using these design variables, the equation of motion and the dissipated energy can be expressed as functions of the moment of inertia and the Coulomb friction torque of the joints and the inertia matrix of the manipulator. Optimal design variables can be determined by minimizing the dissipated energy under the constraint conditions for the motors and the offset. The numbers of stages for the reduction gear trains are determined from the optimal gear ratios. Simulations show that the proposed design method can reduce the dissipated energy more effectively than the inertia matching method.
Keywords
friction; gears; manipulator dynamics; power transmission (mechanical); Coulomb friction torque; energy conservation; gear ratio optimal design; inertia matching method; manipulator inertia matrix; motion equation; optimal design method; reduction gear ratios; reduction gear trains; three-jointed Manipulator; vertically Articulated Manipulator; Energy conservation; offset; optimal design; reduction ratio; vertically articulated manipulator;
fLanguage
English
Journal_Title
Automation Science and Engineering, IEEE Transactions on
Publisher
ieee
ISSN
1545-5955
Type
jour
DOI
10.1109/TASE.2008.2010880
Filename
4914753
Link To Document