Title of article
Mobile platform center shift in spherical parallel manipulators with flexible limbs
Author/Authors
Guanglei Wu، نويسنده , , Shaoping Bai، نويسنده , , J?rgen Kepler، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
15
From page
12
To page
26
Abstract
Spherical parallel manipulators (SPMs) with revolute joints work under the condition that all joint axes intersect at the manipulator center, where the mobile platform (MP) center is coincident with the center of the base platform. The center of each platform is the point of concurrence of the axes of the three revolute joints attached to the platform. When limb flexibility is considered, however, the MP center will shift away from the base platform center, which consequently influences the manipulator performance, e.g., its orientation accuracy. In this work, the stiffness of SPMs is analyzed, with focus on the MP center shift. The stiffness is modeled by adopting the virtual-spring method. Castiglianoʹs theorem is used to calculate the limb deflection. The model is validated via FE analysis. Examples are included to show the center shift of SPMs with different designs.
Keywords
Spherical parallel manipulator , Cartesian stiffness matrix , Virtual-spring method , MP center shift
Journal title
Mechanism and Machine Theory
Serial Year
2014
Journal title
Mechanism and Machine Theory
Record number
1164845
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