Dynamics Optimization Research and Dynamics Accuracy and Reliability Analysis of a Multi-Link Mechanism with Clearances

With the development of high-speed and lightweight mechanisms, and the continuous improvement of manufacturing accuracy requirements in industrial production, clearance joints have increasingly become one of the key factors affecting dynamics performance. Poor clearance will seriously compromise sta...

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Bibliographic Details
Published inMachines (Basel) Vol. 10; no. 8; p. 698
Main Authors Jiang, Shuai, Lin, Yuanpeng, Liu, Jianan, Xiao, Linjing, Zhang, Shuaishuai
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.08.2022
Subjects
Acceleration
Accuracy
Algorithms
Clearances
Continuous improvement
Degrees of freedom
Design parameters
Dynamic stability
dynamics accuracy reliability
dynamics optimization
dynamics response
Genetic algorithms
Influence
Kinematics
Mathematical models
Methods
Modelling
nonlinear characteristics
Optimization algorithms
Phase diagrams
Poincare maps
Reliability analysis
Sensitivity analysis
Trajectory optimization
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Summary:With the development of high-speed and lightweight mechanisms, and the continuous improvement of manufacturing accuracy requirements in industrial production, clearance joints have increasingly become one of the key factors affecting dynamics performance. Poor clearance will seriously compromise stability, accuracy, and dynamics performance. Based on a genetic algorithm, an efficient modeling methodology for the dynamics optimization of a planar complex multi-link mechanism containing multiple clearance joints is put forward. The model comprises a 2-degree of freedom (DOF) nine-bar mechanism that can be used as the main transmission mechanism of a hybrid drive multi-link press, which is taken as the research object. The optimization objective is to minimize the maximum acceleration of the slider and minimize the difference between the actual central trajectory and the ideal trajectory. By optimizing the quality parameters of key components, an optimal solution for the design parameters is obtained, and the effects of the different optimizations of the objective functions on dynamics response are compared and analyzed. At the same time, a new modeling and calculation methodology of the dynamics accuracy and reliability of a complex multi-link mechanism in terms of multiple clearances is proposed, and the effect of optimization on dynamics accuracy and the reliability of the mechanism is analyzed. Based on the optimization results obtained by taking the minimum difference between the actual center trajectory and the ideal trajectory as an optimization objective, the nonlinear characteristics before and after optimization are analyzed through a phase diagram and Poincaré map. A test platform was built to study the dynamics of the mechanism with clearances. Research not only provides a basis for the dynamics optimization of a multi-link mechanism containing clearances but also provides reference significance for the reliability analysis of a multi-link mechanism containing clearances.
ISSN:2075-1702
2075-1702
DOI:10.3390/machines10080698