期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

双离合器控制电磁阀特性研究 被引量:4

Research on Characteristics of Control Solenoid Valve for DCT
下载PDF
导出
摘要 比例电磁阀作为离合器液压缸油压控制的关键元件,对DCT性能的影响深刻。以DCT离合器控制的比例电磁阀为研究对象,在分析其结构与工作原理的基础上建立电磁阀电场、磁场、液压和机械4个物理场耦合模型,并以ANSYS/Maxwell对电磁铁系统进行动态特性分析。进一步结合电磁力特性数据建立电磁阀控制离合器AMESim模型。台架试验结果与仿真结果有较高吻合度,验证了数学模型的正确性及仿真方法的可靠性,为进一步优化电磁阀结构及其压力控制方法提供了理论支撑。 Proportional solenoid valve is the key element of oil pressure control of clutch hydraulic cylinder,which has a profound impact on the performance of DCT.Taking the proportional solenoid valve controlled by DCT clutch as the research object,four physical field coupling models,such as electric field,magnetic field,hydraulic and mechanical of solenoid valve,were established by analyzing the structure and working principle of the valve,and the dynamic characteristics of the electromagnet system were analyzed by ANSYS/Maxwell.The AMESim model of solenoid valve control clutch was established based on the characteristic data of the electromagnetic force.The result of bench test is in good agreement with the simulation result,which verifies the correctness of the mathematical model and the reliability of the simulation method.This research provides theoretical support for further optimization of the solenoid valve structure and pressure control method.
作者 张银涛 丁问司 ZHANG Yintao;DING Wensi(School of Mechanical and Automotive Engineering,South China University of Technology,Guangzhou Guangdong 510641,China)
机构地区 华南理工大学机械与汽车工程学院
出处 《机床与液压》 北大核心 2020年第7期25-28,67,共5页 Machine Tool & Hydraulics
基金 广东省科技计划项目(2017B010136113) 广州市科技计划项目(201803030011)。
关键词 比例电磁阀 多物理场 电磁力 油压 Proportional solenoid valve Multiphysics Electromagnetic force Oil pressure
分类号 TH137 [机械工程—机械制造及自动化]
  • 相关文献

参考文献3

二级参考文献23

  • 1林峰,刘影,陈漫.电液比例阀在车辆换档离合器缓冲控制中的应用[J].兵工学报,2006,27(5):784-787. 被引量:14
  • 2LI Ke,Mannan M A.Electro-hydraulic proportional control of twin-cylinder hydraulic elevators[J].Control Engineering Practice,2001,(9):367-373.
  • 3ERYILMAZ B, WILSON B H. Unified modeling and analysis of a proportional valve[J]. Journal of the Franklin Institute, 2006, 343(I): 48-68.
  • 4TAGHIZADEH M, GHAFFARI A, NAJAFI E Modeling and identification of a solenoid valve for PWM control applications[J]. Comptes Rendus Mecanique, 2009, 337(3): 131-140.
  • 5DASGUPTA K, WATTON J. Dynamic analysis of proportional solenoid controlled piloted relief valve by bondgraph[J]; Simulation Modelling Practice and Theory, 2005, 13(1): 21-38.
  • 6JEONG G Y, JANG S P, LEE H Y, et al. Magnetic- thermal-fluidic analysis for cooling performance of magnetic nano fluids comparing with transformer oil and air by using fully coupled finite element method[J]. IEEE Transactions on Magnetics, 2013, 49(5): 1865-1868.
  • 7BAYAT F, TEHRANIAF, DANESH M. Finite element analysis of proportional solenoid characteristics in hydraulic valves[J]. International Journal of Automotive Technology, 2012, 13(1): 809-816.
  • 8WANG Y, MEGLI T, HAGHGOOIE M, et al. Modelling and control of electromechanical valve Actuator[J]. SAE Transactions, 2002, 111(3): 1780-1789.
  • 9LEE G S, SUNG H J, KIM H C. Multiphysics analysis of a linear control solenoid valve[J]. Journal of Fluids Engineering, 2013, 135(1): 011104.
  • 10TAO Gang, CHEN Huiyan, HE Zhongbo. Optimal design of magnetic field of a high-speed response solenoid valve[J]. Material Processing Technology, 2002, 129: 555-558.

共引文献35

同被引文献45

引证文献4

二级引证文献3

机床与液压
2020年 第7期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部