基于响应面法的电磁阀响应时间优化  被引量：9

作　　者：蒋焕煜[1] 张利君[1] 周鸣川[1] 施玮囡 

机构地区：[1]浙江大学生物系统工程与食品科学学院,杭州310058

出　　处：《农业工程学报》2016年第9期67-73,共7页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家高技术研究发展计划(863计划)(2012AA10A504);农业部引进国际先进农业科学技术(2011-G32);浙江省"新世纪151人才工程"

摘　　要：为了缩短喷雾植保用电磁阀的响应时间,提高变量喷雾的精准性,该文引入响应面法优化改进型脉冲宽度调制(pulse width modulation,PWM)控制参数。试验采用Box-Behnken设计方法,选取电磁阀驱动电压(10、12和14 V)、PWM延迟时间(15、40和65 ms)及PWM占空比(5%,15%和25%)作为考察因素,以电磁阀开启响应时间、电磁阀闭合响应时间和电磁阀响应时间为响应值,获取了关于3个响应值的二次多项回归模型,并对其进行了验证。经响应面法分析得出,在参数优化区间内,使电磁阀响应时间最短的参数条件为电磁阀驱动电压12 V、PWM延迟时间15 ms以及PWM占空比5%,与试验测量结果差异极小。与普通PWM控制方式相比,使用改进型PWM控制信号并优化控制参数可有效缩短电磁阀响应时间。该研究为合理选择PWM控制参数提供了参考。Solenoid valve driven by PWM（pulse width modulation） control signal is used as interface between electronic control and fluid flow in precision spraying, the response time of which has huge impact on the performance of precise spray system. Longer response time would reduce the accuracy of spraying and increase the overuse of chemical. A modified PWM technology（with much higher frequency for controlling the holding current） was applied and 3 parameters of PWM control signal containing driving voltage, delayed time and duty cycle were optimized by RSM（response surface methodology） to shorten the response time, which was composed of opening response time and closing response time. The optimization of parameters was carried out through the BBD（Box-Behnken design） with 3 factors and 3 levels. The critical factors（and their values） selected for the research were driving voltage（10, 12 and 14 V）, delayed time（15, 40 and 65 ms） and duty cycle（5%, 15% and 25%）. In order to better explore the influence of factors on each response phase of solenoid valve, the opening response time, closing response time and response time were discussed separately. The experiment was performed on an optimization experiment platform which consisted of human-machine control module, pressure supply module and PWM module. On the platform, the wave data that could reflect the relation between voltage of PWM control signal and instantaneous spray pressure near the nozzle were acquired through digital oscilloscope and then processed by Kalman filter. By analyzing the wave data, the opening and closing response time of solenoid valve with different parameters were calculated. After 15 runs of experiments under different parameter conditions, the mathematical regression models for the opening response time, closing response time and response time were built, respectively. Then the models were tested by the analysis of variance and statistical parameters of the model for response. The test indicated that the relations

关 键 词：阀 优化 模型 响应面法 喷雾植保 响应时间 电磁阀 

分 类 号：TP211[自动化与计算机技术—检测技术与自动化装置]