TY - JOUR
AU - Li, Qinchuan
AB - Abstract The elastostatic stiffness performance of a 2PUR-PSR (S: spherical joint; U: universal joint; R: revolute joint; P: prismatic pair) overconstrained parallel mechanism with two rotational and one translational (2R1T) degrees of freedom was studied based on screw theory and strain energy. First, the actuator and constraint wrenches of the mechanism were obtained based on screw theory. Second, by considering the space composite elastic deformation of the rod (including axial tension, and shear, torsional and bending deformation), compact limb stiffness matrixes were obtained in terms of strain energy and Castigliano’s second theorem. Finally, analytic expressions for the overall stiffness matrix of the mechanism and the amplitudes of the actuator and constrained wrenches were obtained based on the virtual-work principle and the balance equation for a moving platform. The relative error between results from the analytical model and the Workbench finite element model is approximately 1.3%, which validates the effectiveness of the proposed elastostatic stiffness model. Unlike traditional stiffness evaluation index, a regional stiffness index was proposed to measure the mechanism’s stiffness performance at various working heights. Using the index, it is possible to determine the optimum stiffness region of a moving platform with known external wrenches.
TI - Elastostatic Stiffness Analysis of a 2 P UR- P SR Overconstrained Parallel Mechanism
JF - "International Journal of Precision Engineering and Manufacturing"
DO - 10.1007/s12541-019-00077-1
DA - 2019-04-01
UR - https://www.deepdyve.com/lp/springer-journals/elastostatic-stiffness-analysis-of-a-2-p-ur-p-sr-overconstrained-ZciL9LVSt9
SP - 569
EP - 581
VL - 20
IS - 4
DP - DeepDyve
ER -