摘要
为优化单腔双振子压电泵的结构,提高输出性能,设计了一种新型结构的单腔双振子压电泵。将新设计结构同前期设计结构进行了比较,并对两种结构的试验样机进行了输出流量测试。试验显示,新结构的输出流量是前期结构输出流量的2倍,最大流量可达800mL/min。将新结构加工了不同腔体初始容积样机,得到了压缩比对泵输出性能的影响。试验发现,当腔体高度为1.2mm,工作时的压缩比为1/46,此时单腔双振子压电泵整体输出效果最好。分析了单腔双振子压电输送液体和气体时工作特点,得到泵输送液体介质时最佳工作频率点远远低于输送气体介质。
In order to optimize the structure of single-chambered piezoelectric pump with double actuators to improve the outputperformance, and design a new structure of it. The structure of the new design with pre-designed structure compared to experimental prototype output flow-rate test of the two structures. The trials have shown that the new structure of the output flow rate is 2 times the pre-structure the output flow rate, maximum flow rate of up to 800mL/min. The new structure pump of different initial chamber volume were designed and manufactured , Compression ratio on pump output performance was obtained. The study found that when the chamber height is 1.2mm, compression ratio of 1/46, then the overall output effect of pump is best. The working characteristics of single-chambered piezoelectric pump with double actuators conveying the liquid and the gas were analyzed, it shows that when pumping the liquid medium the best working frequency is much lower than the gas medium.
出处
《流体机械》
CSCD
北大核心
2013年第4期12-15,共4页
Fluid Machinery
基金
国家"863"高技术研究发展计划基金资助项目(2007AA04Z336)
吉林省教育厅"十二五"科学技术研究项目(2012286)
吉林市科技发展计划资助项目(201112208)
关键词
压电泵
单腔
双振子
压缩比
piezoelectric pump
single-chambered
double-actuaor
compression ratio