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Simulation of solenoid valve response characteristics via orthogonal experiment method
Published:2022-10-20 author:WANG Hong-bo, HUANG Zhi-peng, WANG Na-na, et al. Browse: 1236 Check PDF documents
Simulation of solenoid valve response characteristics 
via orthogonal experiment method


WANG Hong-bo1, HUANG Zhi-peng2, WANG Na-na1, 
REN Wang2, YU Bin2, KONG Xiang-dong2

(1.AVIC Qing-an Group Co.,Ltd., Xi'an 710077, China; 
2.School of Mechanical Engineering, Yanshan University, Qinhuangdao 066004, China)


Abstract:  Aiming at the problem that the response characteristics of solenoid valve for a system need to be optimized, the optimal combination of parameters affecting the response characteristics of solenoid valve was studied. Firstly, the working principle of the solenoid valve was introduced and the mathematical model of the solenoid valve was established. Then, the electric, magnetic and mechanical-hydraulic simulation model based on Simulink was established, and the orthogonal experiment method was used to optimize the response time. Four main influencing factors, including coil turns, spring stiffness, working stroke and dynamic mass, were selected for combined analysis. Finally, the optimal parameter group scheme of the main factors affecting the response characteristics of the solenoid valve was determined and analyzed and verified. The results show that the order of the factors affecting the opening characteristics is dynamic mass, spring stiffness, turns and working stroke. The primary and secondary order of factors affecting release characteristics is spring stiffness, working stroke, dynamic mass, and turns; the response characteristics under the optimal combination scheme are significantly improved compared with those before optimization. Accurate simulation results of solenoid valve response characteristics are obtained, which provides a theoretical basis for improving the design quality and efficiency of switch solenoid valve.

Key words:  hydraulic control valve; switch solenoid valve; response time; opening and releasing characteristics; spring stiffness; working stroke; dynamic mass
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