Simulation and Experiment of Electromagnet for High-Speed On-off Valve for Vehicle Shifting System
DOI:
https://doi.org/10.13052/ijfp1439-9776.2412Keywords:
Clutch shifting system, high-speed on-off valve, electromagnet, responding speed, eddy current lossAbstract
The high-speed on-off valve is the core component for adjusting the oil pressure of the pressure reducing valve in the clutch shifting system of engineering vehicles, and its response speed is one of the important indicators to measure its performance. In order to improve the dynamic performance of high-speed on-off valve, the electromagnet with solid magnetic isolation structure was designed and simulated by considering the eddy current loss factor. A high-speed on-off valve electromagnetic actuator with high response speed was obtained. Firstly, the theoretical calculation and verification of the theory were carried out by using the electromagnet design theory, and the theoretical model of the electromagnet was built. Secondly, the electromagnet parameter model was brought into the finite element simulation software ANSYS Electronics to simulate and optimize the static magnetic field and the transient magnetic field respectively. The different structural parameters (guide bush thickness, outer magnetic pole thickness, magnetic isolation structure, armature length) were analyzed. And the effect of the coil parameters (number of strands) on the steady-state electromagnetic force and the dynamic displacement of the armature was analyzed. The values of the structural parameters of the electromagnet were subsequently determined. Finally, the static and dynamic characteristics experiment of the magnetically separated solid electromagnet is designed and processed. The experiment and simulation results are in good agreement. The feasibility of the high-resistance electromagnet structure design and the correctness of the simulation are verified. Reasonable optimization of structural parameters and coil parameters has obvious significance for improving the dynamic characteristics of high-speed on-off valve electromagnets.
Downloads
References
Wang Guanhai, Research on Transmission Control System of Automatic Transmission Mechanism Used in High-power vehicles[D]. Harbin Institute of Technology. 2010.
Sun Chengtong, Ren Haoling. Design and Performance Simulation of Normally Open High Speed Switch Valve Electromagnet[J]. Mechanical Design, 2009, 26(6):10–13.
Wang Huiyi, GAO Bo. Experimental Study on Action Response of Solenoid Valve in Hydraulic Anti-lock Braking System[J]. Hydraulic & Pneumatics, 2001(9):2–4.
Zhao Xinxin. Modeling and shift control of automatic transmission for engineering vehicles [D]. University of Science and Technology Beijing, 2015.
Zhao Keli, Ma Le, Liu Jiyuan. Simulation of Intelligent Shift Schedule of Engineering Vehicles[J]. China Journal of Highway and Transport, 2006, 19(5): 123–126.
Seillyah. Colenoid actuators-further developments in extremely fast acting solenoids[J]. SAE Preprints, 1981 (810462): 1–12.
Seillyah. Helenoid actuators-a new concept in extremely fast acting solenoids[J]. SAE Preprints, 1979(790119):1–10.
Schechtermm. Fast response multipole solenoids[J]. SAE, 1983(820203): 846–857.
Mutaih, Yamasawak. Fundamental operations of a multipolar dis k-solenoid[J]. IEEE T ran sactions on Magnetics, 1995, 31(4):2445–2449.
Shigeikue, Moriyasug, Kojit. Electromagnetic device with stator dis placement regulation: US, 5939811 [P]. 1999-08-17.
Takeuchik, Shimizum, Okazakik, et al. Fast actuator modeling by finite element method[J]. IEEE Transactions on Magnetics, 1994, 30(6):4284–4286.
Zhao Jinsong, Zhang Chuanbi, Zhao Zining, Wang Zhipeng, Yao Jing. Static and Dynamic Characteristics of High Speed Switch Digital Valves[J]. China Mechanical Engineering, 2018, 29(02): 145–150+
Li Paixia, Zhang Xiaojun, Liu Keming. Research on Characteristics of High Speed On-Off Valve Based on Double Voltage Drive[J]. Hydraulic & Pneumatic, 2018(07):59–64.
Liu Xiangyang, Nie Songlin, Li Guanghui. Dynamic Characteristics of Hydraulic Direct Drive High Speed Switch Valve[J]. Journal of Beijing Polytechnic University, 2017, 43(07):1051–1059.
Zhang Guansheng, Lu Yiguo Tong. Electromagnets and Automatic Electromagnetic Elements [M]. Mechanical Industry Press, 1982.
Huang Weigang, Wang Xuyong, Wang Xianzheng, Zhong Tingxiu. Study on the Mechanism of Switching Characteristics of High Speed Solenoid Switch Valve[J]. Journal of Shanghai Jiaotong University, 1998(12):40–43.