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无凸轮电液可变气门机构动态特性试验

Experimental Study on Operating Characteristics of a Camless Electric-Hydraulic Variable Valve Actuator
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摘要 设计开发了一种无凸轮电液可变气门机构(EHVVA),建立了该可变气门机构动态特性试验平台,通过试验探索了EHVVA在4种发动机转速(2500、2000、1500和1000 r/min)下的动态运行特性.与凸轮驱动气门机构不同,EHVVA运行特性受发动机转速影响较小,丰满系数高于传统凸轮驱动气门机构;高速工况下EHVVA加速度峰值低因而具有更小的往复惯性力.EHVVA的柱塞腔内油压在单循环内的变化可分为油压建立阶段、油压保持阶段和油压卸荷阶段.随着发动机转速的提高,需提高驱动油压以实现气门快速开启,同时随着信号脉宽变短,气门运动逐渐由充分响应转换为非充分响应状态.探索了EHVVA的循环变动特性,结果表明:柱塞腔最大油压、最大升程及时面值的循环变动率均小于4%. A camless electric-hydraulic variable valve actuator(EHVVA)test system was designed and developed.Operating characteristics of the EHVVA were investigated experimentally under four different engine speeds of 2500,2000,1500 and 1000 r/min,respectively.Unlike the cam derived valve mechanism,the EHVVA characteristic is less influenced by the engine speed while possesses relatively higher fullness coefficient.Moreover,the peak acceleration for the EHVVA is lower than that for the cam derived cases under high engine speed conditions,indicating a smaller reciprocating force of inertia.Evolution of oil pressure within the plunger cavity can be divided into three distinct stages,i.e.,the oil pressure set up stage,the oil pressure hold stage and the oil pressure unload stage.As the engine speed increases,increasingly higher driven oil pressure is needed to achieve better valve opening responsiveness.In the meantime,the reduced control signal pulse width finally results in the operating condition transition from full response state transform into insufficient response state.The research result of the cycle-tocycle variation characteristics show that the variation coefficients for the maximum oil pressure,the maximum valve lift and the time-area value of the valve opening are all less than 4%.
作者 杜强 章振宇 赵长禄 张体恩 吴瑶 Du Qiang;Zhang Zhenyu;Zhao Changlu;Zhang Tien;Wu Yao(School of Mechanical Engineering,Beijing Institute of Technology,Beijing 100081,China;Beijing System Design Institute of Electro-Mechanic Engineering,Beijing 100081,China;Military Representative Office of Rocket Force Equipment Department in Chongqing,Chongqing 400000,China)
机构地区 北京理工大学机械与车辆学院 北京机电工程总体设计部 中国人民解放军火箭军装备部驻重庆地区军事代表室
出处 《内燃机学报》 EI CAS CSCD 北大核心 2023年第3期271-279,共9页 Transactions of Csice
基金 国家自然科学基金资助项目(51806013) 中国基础性科研院所稳定支持科研资助项目(WDZC-2019-JGKK-02) 中国工业和信息化部资助项目(JCKY2019602D018).
关键词 无凸轮 液压 柔性可变 气门机构 动态特性 camless hydraulic flexible variable valve mechanism dynamic characteristics
分类号 TK427 [动力工程及工程热物理—动力机械及工程]
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内燃机学报
2023年 第3期

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