Modeling and Optimal Design of Planar Linkage Mechanism of Coupled Joint Clearances for Manufacturing
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Abstract:
The uncertainty of the mechanism motion error is mostly caused by the manufacturing process, so the motion error cannot be effectively predicted at the design phase. The problems of manufacturing complexity and the relationship between design and manufacturing are analyzed, and the influence of dimensional tolerance and fit tolerance on the motion accuracy of the system is considered in the design process. Then based on the Monte Carlo simulation, an optimal design model of planar linkage mechanism is set up. A typical offset slider-crank mechanism is used as an illustrative example to carry out the optimal design. Compared with the result of typical robustness design, the similar variation characteristics of the mean value and the standard deviation can be found, so the proposed method is effective. The method is furthermore applied in the optimization of the schemes with different fit tolerances and the prediction of motion errors in the design phase is achieved. A set of quantitative evaluation system for mechanism optimal design is provided. Finally, a basic strategy is presented to balance the motion precision and manufacturing cost.
Yang Bo, Wang Xingdong, Kong Jianyi, Zhang Hua. Modeling and Optimal Design of Planar Linkage Mechanism of Coupled Joint Clearances for Manufacturing[J]. Transactions of Nanjing University of Aeronautics & Astronautics,2018,35(4):719-728