高速电磁阀电磁力全工况关键参数相关性分析  被引量：19

作　　者：范立云[1] 许德[1] 费红姿[1] 冯力东 刘鹏[1] 周伟[1] 

机构地区：[1]哈尔滨工程大学动力与能源工程学院,哈尔滨150001 [2]陕柴重工西安电站工程分公司,西安710077

出　　处：《农业工程学报》2015年第6期89-96,共8页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家自然科学基金资助项目(51379041;51279037);教育部科学技术研究资助项目(113060A)

摘　　要：为揭示各参数对高速电磁阀电磁力影响机理及交互作用规律,更有效地进行高速电磁阀参数设计及匹配,首先建立了高速电磁阀有限元数值仿真模型,并通过试验进行了验证。然后结合试验设计与相关性分析思想,基于中心复合试验设计构造了相关性分析的样本点,并利用有限元数值仿真模型得出全工况平面内其响应值,进而获得了相关系数,揭示了全工况平面内电磁阀关键参数本身形成的6个一次因素及其交互作用形成的21个二次因素与电磁力的相关性变化规律。通过相关性分析得出对高速电磁阀电磁力影响显著的一次因素为线圈匝数和衔铁厚度;而二次因素对高速电磁阀电磁力的影响随各工况点的变化复杂,最后研究了线圈匝数与衔铁厚度、衔铁厚度与阻尼孔位置、阻尼孔位置与半径三组显著因素的交互作用原理,为高速电磁阀设计及其电磁力预测提供了理论指导。Electronic unit pump（EUP） is a timing controlled fuel injection system used in diesel engines to meet the increasingly strict exhaust emission regulation and improve the economy of the fuel injection. As the key actuator of EUP, high-speed solenoid valve（HSV） determines the fuel injection timing and quantity in EUP. The electromagnetic force of HSV has a significant influence on the response speed and the stability of EUP, which depends greatly on the structure parameters of HSV. However, it is still not comprehensive in the parameter analysis of HSV for most experiments and simulations on the influence rules of single parameter on electromagnetic force or the parameters＇ influence rules for only one operating condition of HSV. In order to improve effectiveness of HSV＇s parameters＇ design and matching, six parameters＇ influence rules and the parameters＇ interaction principles on electromagnetic force under overall operating conditions were revealed by correlation analysis. Coils, armature and iron core were the most important parts for generating the electromagnetic force of HSV, and the 3D numerical simulation model of HSV was established in Ansoft Maxwell according to the three parts＇ actual structures, moreover the accuracy of the model was verified at different working air gaps and driving currents by experiment. Pole length, coil turns, coil location, armature thickness, damping hole location and damping hole radius were selected as the six key parameters of HSV and every parameter＇s three levels were determined based on their actual values. Due to HSV＇s working characteristics, the overall operating condition of HSV was dispersed into nine operating condition points to approximate HSV＇s entire working process. Based on the three levels of each of the six parameters, 47 sample points of the parameters combinations were obtained effectively and accurately by the method of design of experiments（DOE）, in which the electromagnetic force was determined as a response variable and the

关 键 词：阀 有限元法 模型 高速电磁阀 电磁力 相关性 交互作用 

分 类 号：TK421.4[动力工程及工程热物理—动力机械及工程]