Multi-domain modeling and simulation of proportional solenoid valve

A multi-domain nonlinear dynamic model of a proportional solenoid valve was presented.The electro-magnetic,mechanical and fluid subsystems of the valve were investigated,including their interactions.Governing equations of the valve were derived in the form of nonlinear state equations.By comparing the simulated and measured data,the simulation model is validated with a deviation less than 15%,which can be used for the structural design and control algorithm optimization of proportional solenoid valves.

Research on the Response Characteristics of Solenoid Valve of the Air-jet Loom by Simulation

Solenoid valve is one of the executive parts of weft insertion control system. According to the response characteristics of the solenoid valve, an improved design becomes a necessity. Firstly, the numerical model was established after analyzing the solenoid valve during its start-up and shut-down. Comparing the simulation data with the practical data, it is verified that the numerical simulation model has a high feasibility. Secondly, excitation voltage and spring pre-compression were adjusted respectively, and the response rules after adjusting were investigated. The research of the study shows: the response time tends to be inverse proportional to the excitation voltage during start-up, and it becomes a constant value with the increase of the excitation voltage; the response time is proportional to the spring pre-compression when the solenoid valve starts up, it is inverse proportional to spring pre-compression when the solenoid valve shuts down. And the total response time is a constant value with the increase of the spring pre-compression. Therefore, the value of the excitation voltage and the spring pre-compression should be selected when the curve is becoming flatten. The results of the research can provide the reference to the further development of the solenoid valve.

两种直动式高速电磁阀数值模拟与动态响应对比分析

针对直动式高速电磁阀动铁芯与阀芯加工、装配工艺要求高,一致性较差的问题,提出了一种动铁芯与阀芯可分离的结构,基于AMESim平台建立此款电磁阀电–磁–机–气多物理场耦合模型,考虑了动铁芯与阀芯撞击与分离的情况,并在试验台上进行了验证。然后与另一种动铁芯与阀芯“绑定”的结构形式进行比较分析。结果表明:两种电磁阀在动态响应与影响动态响应的关键参数存在差别。在同等条件下,第一种结构形式的电磁阀动态响应整体略差,但是其对动铁芯–阀芯加工、装配工艺的要求较低。

汽车发动机电控燃油系统电磁阀特性仿真

为了定量分析电磁阀参数对其动态响应特性的影响,基于电磁理论建立了电磁阀的数学模型,并使用仿真模型开展了仿真研究。模拟了电磁阀在恒电压驱动下的动态响应过程,研究了驱动电压、初始气隙、弹簧预紧力和线圈匝数四个参数对电磁阀动态特性的影响,给出了电磁阀在不同参数下的位移变化曲线,从理论上确定了电磁阀的动态响应特性与其结构参数和控制参数之间的关系,为电磁阀的参数匹配及电控燃油系统的优化设计提供了依据。

基于AMESim的电磁换向阀高温可靠性试验台故障分析与诊断

针对客机系统电磁换向阀的故障情况,使用AMESim仿真软件搭建了电磁换向阀高温可靠性试验台的仿真模型。通过设置能表示元件失效的参数如电磁铁烧毁、弹簧折断、推杆磨损、内泄漏、迟滞等以模拟电磁换向阀的部分故障情况。同时对高温时内泄漏量的变化以及高温时推杆磨损对流量的影响进行了仿真。仿真结果表明:随着温度的升高,引起换向阀的流量变化所对应的推杆磨损量逐渐增大。此外,油液泄漏量受温度影响较大,应注意阀的加工精度、配合精度以避免较大的泄漏。仿真结果为试验台的调试以及实际使用过程中的故障诊断提供了参考。

Effect of Cone Angle on the Hydraulic Characteristics of Globe Control Valve

Globe control valve is widely used in chemical, petroleum and hydraulic industries, and its throttling feature is achieved by the adopting of valve plug. However, very limited information is available in literature regarding the influence of valve plug on the internal and external features in globe control valves. Thus the effect of valve plug is studied by CFD and experiment in this paper. It is obtained from external features that the pressure drop between upstream and downstream pressure-sampling position increases exponentially with flow rate. And for small valve opening, the increment of pressure drop decreases with the increase of cone angle（β）. However, with the increase of valve opening, the effect of cone angle diminishes significantly. It is also found that the cone angle has little effect on flow coefficient（Cv） when the valve opening is larger than 70%. But for the cases less than 70%, Cv curve varies from an arc to a straight line. The variation of valve performance is caused by the change of internal flow. The results of internal flow show that cone angle has negligible effect on flow properties for the cases of valve opening larger than 70%. However, when valve opening is smaller than 70%, the pressure drop of orifice decreases with the increase of β, making the reduction in value and scope of the high speed zone around the conical surface of valve plug, and then results in a decreasing intensity of adjacent downstream vortex. Meanwhile, it is concluded from the results that the increase of cone angle will be beneficial for the anti-cavitation and anti-erosion of globe control valve. This paper focuses on the internal and external features of globe control valve that caused by the variation of cone angle, arriving at some results beneficial for the design and usage of globe control valve.

数字式配流摆线液压马达特性研究

传统摆线液压马达由于采用机械配流,造成机械损失和容积损失高,同时马达结构尺寸大,加工难度较高。基于此,研究一种采用高速电磁开关阀组实现数字式配流与调速一体化的摆线液压马达。分析数字式配流摆线液压马达运行机制与结构特点;在对摆线马达和电磁阀流量特性理论分析的基础上,建立阀-马达动力学模型,针对所提出的模型进行仿真;在此基础上研究摆线马达的配流与转向切换的特性,通过改变PWM占空比,摆线马达可以较好实现双向调速。相比于机械配流式摆线马达,数字式配流摆线马达结构复杂度大大降低,配流与调速的灵活性得到增强。

SP08-20先导式螺纹插装比例方向阀静态特性仿真与试验

SP08-20是一种用于方向控制的先导式螺纹插装比例方向阀,断电时,用作单向阀,通电时,用作节流阀,通过控制先导阀芯及主阀芯位置变化实现对阀的流量控制。此阀流道形状较为复杂,控制腔压力分布规律难以确定,且传统的液动力与流量经验公式本身准确性较差,导致在通过由经验公式构成的数学模型求解阀的静态特性时,模型计算结果与试验结果有较大的差异。故采用Fluent软件对SP08-20进行流场仿真得到其阀芯受力规律,利用曲线拟合的方式得到阀芯受力拟合式,据此求解静态数学模型,得到此阀的静态特性。试验结果表明,利用流场仿真的方式求解所得静态特性曲线与试验曲线具有较高的吻合度。

气压弹道式冲击波治疗手柄的控制设计

针对气压弹道式冲击波治疗仪手柄控制精度低、使用寿命短、可靠性差等问题,提出一种基于PWM信号控制策略。结合STM32F103主控制器、H桥式驱动电路、比例电磁阀等硬件组成的气动手柄控制装置的设计方案,建立比例电磁阀动态特性理论模型,通过仿真测试分析方案可行性。该装置响应更快,可减少线圈发热,降低电磁阀功耗,延长使用寿命。应用于气压弹道式冲击波治疗仪上,提高了手柄工作的稳定性,从而提升治疗效果。

基于AMESim的电磁阀多次吸合现象的仿真分析

某型氢氧发动机先导式电磁阀进行吸合电流检查试验时,电流曲线出现多次异常吸合现象。针对此现象,结合电磁阀结构特点,采用AMESim仿真软件研究了入口压力、电磁阀吸合时间、衔铁处顶杆孔径、流体介质、产品安装角度、排气孔等效面积及气垫腔容积对衔铁运动的影响。结果表明:顶杆孔径减小、测试产品安装反向、气垫腔容积增大容易引起衔铁的振动,进而引起电磁阀电流曲线的抖动;将仿真分析结果与试验实测曲线进行对比,结合试验时产品测试情况,顶杆小孔孔径减小是引起电磁阀异常吸合现象的原因,并提出了对电磁阀结构的改进优化方案,对今后电磁阀结构设计给予一定的启示。

两种调节阀流通能力仿真与试验分析研究

随着中国工业的快速发展,调节阀作为控制阀的一个重要元件,市场需求量不断增加,迎来了新的挑战,对调节阀流通能力的要求也在不断提高。基于此,通过从调节阀的流道结构出发,采用仿真和试验分析市面上两种主流调节阀的内流特性^([1]),得出两种调节阀的流量系数Cv,G1系列调节阀的流通能力相比G2系列调节阀有了较大提升,约提高了21.4%。通过对调节阀流通能力的研究,发现了影响其流通性能的关键因素,这对调节阀的优化改进具有重要的指导意义。

基于SimulationX的电控卸荷阀仿真与分析

以某泵站电控卸荷阀为例,在分析其结构特点与工作原理的基础上,建立卸荷系统数学模型,确定影响卸荷阀性能的关键参数.运用SimulationX软件搭建仿真模型,分析主阀芯控制腔体积、电磁先导阀流量特性与频响3个关键参数对卸荷阀特性的具体影响.通过该项研究可为该电控卸荷阀的优化设计提供一定参考作用.

Development of an ε-type actuator for enhancing high-speed electro-pneumatic ejector valve performance

A novel ε-type solenoid actuator is proposed to improve the dynamic response of electro-pneumatic ejector valves by reducing moving mass weight. A finite element analysis (FEA) model has been developed to describe the static and dynamic operations of the valves. Compared with a conventional E-type actuator, the proposed ε-type actuator reduced the moving mass weight by almost 65% without significant loss of solenoid force, and reduced the response time (RT) typically by 20%. Prototype valves were designed and fabricated based on the proposed ε-type actuator model. An experimental setup was also established to investigate the dynamic characteristics of valves. The experimental results of the dynamics of valves agreed well with simulations, indicating the validity of the FEA model.

基于有限元仿真的圆纬机选线电磁阀结构优化

根据电磁场理论基础,建立电磁阀二维轴对称有限元模型。利用仿真软件中参数化设计,对电磁阀安匝数、气隙、铁芯直径、导磁架长度、导磁架厚度等相关参数进行仿真试验。得到在行程中各参数与动铁芯所受电磁力关系,结果表明:在所选各参数中,安匝数、铁芯直径、导磁架厚度对电磁力影响较大。依据仿真结果,结合电磁阀结构及不同参数对电磁阀响应时间影响,选择静铁芯直径4.4 mm,动铁芯直径4.2 mm,导磁架长度12.3 mm,导磁架厚度1.6 mm进行瞬态分析,结果表明电磁阀响应时间明显缩短。

船用三通调节阀不同压力下流量特性修正研究

以PN50 DN250三通调节阀为研究对象,针对三通调节阀主旁通回路高压实际工况流量系数缺乏数值模拟研究及试验条件的问题,提出一种修正低压试验工况流量系数得到高压实际工况流量系数的方法。利用CFD计算流体力学方法模拟研究低压工况与高压工况下三通调节阀在10%~100%共10组典型开度下主控制回路和旁通回路流动特性,计算对应流量系数Kv,根据提出的高低压工况流量系数修正转化关系,对低压试验工况下的试验流量系数进行修正,得到高压实际工况流量系数,并通过试验加以验证。结果表明,修正后的高压工况流量系数曲线与试验流量系数曲线趋势一致,且修正后的流量系数与试验平均误差在2.35%以内,证明了该修正方法具有良好的精度,可用于高压实际工况下流量系数的预测。

拖拉机电液比例提升阀静态特性仿真与试验

电液比例提升阀由定差溢流阀和二位三通比例节流阀组成。定差溢流阀使节流阀两端压差稳定,从而稳定提升阀的输出流量。在对比例提升阀建立静态仿真模型时,由于定差溢流阀与节流阀的阀芯节流口形状和流动状态较复杂,使用传统的液动力公式难以准确计算阀芯所受的稳态液动力,从而影响阀的静态性能计算精度。为了准确地通过计算获得比例提升阀的静态特性,采用Fluent软件进行流场仿真计算节流阀与定差溢流阀在不同阀口开度和压差下的稳态液动力数值,并对其进行插值处理得到阀口稳态液动力与阀口开度、压差之间的插值模型,再代入仿真模型中解得比例提升阀的静态性能。试验结果表明,稳态液动力采用流场仿真插值法所获得的静态性能仿真结果与试验结果具有很高的吻合度。

船用柴油机起动电磁阀性能仿真试验研究

在船用发动机或核电应急柴油机起动系统中,起动电磁阀作为通、断压缩空气的关键部件。虽在其寿命周期内无需频繁启闭,但一旦工作就必须圆满完成任务,其性能直接影响到柴油机的起动性能,进而危及到整个船舶动力系统的安全。本文以某V16型的柴油机起动电磁阀为研究对象,分析其结构和工作原理、阐述其电磁学和动力学模型的构建方法;建立Ansys Maxwell有限元仿真模型,并试验验证该模型的合理性和计算精度,开启和关闭响应时间的误差分别是2.3%和2.8%。通过起动电磁阀静态性能仿真试验,分析不同工作气隙和驱动电压对电磁力的影响规律。通过动态性能仿真试验,探讨起动电磁阀开启过程中的电流、电感、电磁力以及阀芯位移等响应时间有关的参数变化过程,研究了不同驱动电压、动阀芯行程对开启响应时间的影响,可指导起动电磁阀优化设计。

热工实验设备调节阀门选型研究

以TJL-1型空气绝热节流实验台为研究对象,通过实验和Fluent数值模拟,分析总结了闸阀的调节特性,发现当闸阀开度在0~5%之间变化时,筏板两侧的压差会急剧变化且筏板下游的涡流区面积较其它开度下面积更大,而在其它开度下则基本不具备调节能力,严重影响了使用者对实验数据的采集和分析,也表明了闸阀不适合用作调节阀。对其它热工实验设备进行进一步研究后,发现阀门选型不合理的问题广泛存在,因此结合工业领域阀门选型的成熟经验,提出了热工教学实验设备阀门选型流程,并在线性导热实验台上进行了测试,使用针形流量调节阀代替了原有的球阀,显著改善了调节特性。此流程引入了“阀门调节率”参数,并综合考虑了设备的功能、实用性和可能的改进,为热工实验设备的设计提供了一定的参考。

挖掘机二通插装阀控激振系统换向频率特性研究

为了提高挖掘机液压激振系统运行稳定性,开发了一种同时包含先导阀与二通插装阀的插装型激振阀,有效克服了传统滑阀式电液伺服激振阀存在低频宽的缺陷。通过设置不同系统压力与节流孔径来获得相应激振频率,使激振系统成本显著下降。研究结果表明:换向阀的阀芯位移呈现正弦特征,换向行程为7.12 mm,换向频率282 Hz。设定节流孔直径为6 mm时,换向频率达到312 Hz,换向行程增大至8 mm最高值。换向频率与面积比间呈正相关特征。提高系统压力后,换向阀达到了更大换向频率。仿真与实验结果显示:变化规律基本一致,相对于仿真曲线,实验得到的激振频率更小,验证了本设计系统的正确性。该研究结构易于实现,具有较好的推广价值。

先导式大通径气动电磁阀动态特性仿真分析

从先导式大通径气动电磁阀的工作原理可知主阀复位弹簧刚度、预紧力和先导阀阻尼孔尺寸等结构参数对电磁阀动态特性产生影响。利用AMESim仿真软件建立先导式大通径气动电磁阀的仿真模型,通过仿真对比分析不同结构参数与主阀芯运动速度、位移等运动参数的影响关系,为产品的优化设计提供依据。