摘要
根据对置式液压自由活塞发动机的需求,开发了大流量快速响应电磁阀,并对其动态响应影响因素进行了研究和分析。利用Ansoft Maxwell建立了电磁阀的三维有限元仿真模型,搭建了电磁阀响应速度实验测量装置,通过仿真数据与实验数据的对比得出开启时间最大偏差为0.38 ms,关闭时间最大偏差为0.67 ms,验证了该模型的准确性。仿真结果表明:隔磁垫、铁磁材料、弹簧预紧力是低压电磁阀动态响应的主要影响因素,自由升程对开启响应影响较大,而与关闭响应无关联,运动件质量的影响最小。
In accordance with the requirement of opposed-piston hydraulic free piston engine (OPHFPE), we designed a new form of solenoid valve with large flow and quick response, and the factors affecting the dynamic response of the valve are emphatically researched and analyzed. A finite element model of the solenoid valve, providing the basis for analysis, is established by Ansoft Maxwell. Meanwhile the experimental facility has also been set up. The accuracy of the valve model can be testified by comparing simulation data and experimental data. The results show that the maximum deviation is 0.67 ms in closing process and 0.38 ms in opening process. It indicates that the primary influence factors include shielding magnetism cushion, magnetic material and spring pre-tightening force, the secondary influence factor is the free lift owing to its influence center on open response, and the tertiary one is the mass of the moving parts.
出处
《机械科学与技术》
CSCD
北大核心
2014年第7期1040-1044,共5页
Mechanical Science and Technology for Aerospace Engineering
基金
天津大学内燃机自主创新项目资助
关键词
对置式
液压自由活塞发动机
电磁阀
动态响应
calculations
computer simulation
design
dynamic response
engine pistons
experiments
finite element method
hydraulic free piston engine
magnetic materials
magnetic shielding
mathematical models
opposed-piston
schematic diagrams
solenoid valves
three dimensional
