文献类型：期刊文献

中文题名：仿尾鳍式变截面摆动振子无阀压电叠堆泵的结构设计

英文题名：Structure design of caudal-fin-type piezoelectric-stack pump with variable cross-section oscillating vibrator

作者：胡笑奇[1];张建辉[1];黄毅[1];夏齐霄[2];黄卫清[1]

第一作者：胡笑奇

通讯作者：Hu, X.-Q.

机构：[1]南京航空航天大学精密驱动研究所;[2]北京联合大学机电工程学院

第一机构：南京航空航天大学精密驱动研究所,江苏南京210016

年份：2011

卷号：19

期号：6

起止页码：1334-1343

中文期刊名：光学精密工程

外文期刊名：Optics and Precision Engineering

收录：CSTPCD;;EI(收录号：20112814144021);Scopus(收录号：2-s2.0-79960139722);北大核心:【北大核心2008】；CSCD:【CSCD2011_2012】；

基金：国家自然科学基金面上资助项目(No.50775109);国家自然科学基金重点资助项目(No.50735002);数字制造装备与技术国家重点实验室开放基金资助项目(No.DMETKF2009002)

语种：中文

中文关键词：无阀压电泵;仿尾鳍式;变截面摆动振子;压电叠堆

外文关键词：valve-less piezoelectric pump； caudal-fin-type； variable cross-section oscillating vibrator； piezoelectric-stack；

摘要：受具有高速巡游速度的金枪鱼的启发,提出了一种微脉动、大流量、仿尾鳍变截面振子无阀压电泵。以压电叠堆为激励源,设计了仿尾鳍变截面振子,实验验证了振子的二阶弯振和金枪鱼高速巡游的摆动模式一致。利用有限元分析软件ANSYS分析了振子的模态振型,提出了模态分离更好的Y型振子。为避免压电叠堆受力不均匀而受到损坏,采用钢球和隔离块作为压电叠堆传递力和振动的媒介,实现了压电叠堆和泵腔内液体的干湿分离。设计了二级杠杆/柔铰机构,放大了振子端部柔性叶片摆动幅度。最后,研制了样机,并进行了不同驱动频率下的仿尾鳍式变截面摆动振子无阀压电叠堆泵的流量测量,结果表明,在80V正弦电压的激励下,激励频率为1 350Hz时泵的流量达到峰值(400ml/min)。本设计方案能够有效地提高泵的性能,满足工程实践中对大流量无阀压电泵的需求。
Based on a variable cross-section oscillating vibrator,a caudal-fin-type piezoelectric-stack pump with a high flow rate was proposed.Firstly,the caudal-fin-type variable cross-section oscillating vibrator,whose second order bending modal agrees with tuna’s high cruise swing mode was designed by using the piezoelectric-stack as an excitation source.Then,FEM software ANSYS was used to analyze the modal shape of the vibrator and a better Y vibrator was presented.To prevent the uneven distribution of loading applied to the piezoelectric-stack and to avoid the damage of piezoelectric-stack,a steel ball and an isolation block were used as the media of forces and vibration to separate the piezoelectric-stack from the water in a chamber.Furthermore,the mechanism of two-stage level/flexure-hinge was designed to amplify the tip amplitude of the vibrator.Finally,a prototype was designed and fabricated,and the experiments on measuring the flow rate varying with frequencies were performed.The experiment shows that the flow rate of the pump reaches 400 ml/min driven by AC voltage of 80 V under the frequency of 1 350 Hz.It concludes that the design can enhance the performance of the pump effectively,and meets the demand of the high flow rate valve-less pump in engineering practices.