Affiliation:
1. Parallel Robot and Mechatronic System Laboratory of Hebei Province Yanshan University Qinhuangdao China
2. Key Laboratory of Advanced Forging and Stamping Technology and Science of Ministry of National Education Yanshan University Qinhuangdao China
3. Hebei Provincial National Defense Key Discipline Laboratory of General Technology on Military Basic Electromechanical Products Yanshan University Qinhuangdao China
4. Department of Aerospace Engineering Toronto Metropolitan University Toronto Canada
Abstract
AbstractIn this paper, two new parallel mechanisms (PMs) with fewer active inputs than the degrees of freedom (DOFs)are proposed: (i) an nSPS (n = 7, 8, 9) six‐DOF PM with n‐6 active inputs and six lockable joints. and (ii) a 3RPS‐SPS 3‐DOF PM with one active input and three lockable joints. Compared with the traditional PMs, the difference is that the proposed PMs can achieve the same mobility by using a minimal number of active joints. Moreover, the load‐carrying capacity is also improved compared with the original standard mechanisms, since the new PMs become statically redundant when all the branches are locked. For this purpose, a sequential motion control principle is introduced that requires both inverse and forward kinematics of PMs. Kinematic modeling, dimensional optimization, and structural design are carried out for the 7SPS and 3RPS‐SPS mechanisms, and the two prototypes are constructed for experimental validation. Both simulation and experiment results have shown that the proposed hybrid PM can achieve the original mobility while significantly reducing the number of actuators.
Funder
National Natural Science Foundation of China
Cited by
1 articles.
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1. Scale Optimization of the 7SPS Parallel Mechanism with Fewer Active Inputs than the DOFs;2024 6th International Conference on Reconfigurable Mechanisms and Robots (ReMAR);2024-06-23