CN203248325U - Piezoelectric micropump based on synthetic jet - Google Patents

Abstract

The invention discloses a piezoelectric micropump based on synthetic jet, comprising a pump inlet, a pump outlet, an upper pump body, an upper cavity body, a spout, a lower pump body, a lower cavity body, a vibrating diaphragm and a piezoelectric actuator, wherein the pump inlet and the pump outlet are located in the uppermost end of the pump; the lower part of the upper pump body is the upper cavity body; the pump inlet and the pump outlet are communicated with the spout through the upper cavity body; the lower pump body is located below the upper cavity body; the spout makes the upper cavity body and the lower cavity body communicating with each other; the vibrating diaphragm is bonded on the lower surface of the lower pump body; and the piezoelectric actuator is bonded at the center of the lower surface of the vibrating diaphragm through a bonder (conductive epoxy resin). Since a synthetic jet technique is successfully applied in the field of the micropump, a piezoelectric micropump with large capacity and capability of realizing continuous outflow is obtained. The micropump is simple in structure, convenient for operation, free from electromagnetic interference and low in energy consumption. Due to the piezoelectric type of the synthetic jet actuator, a higher spout speed can be obtained. In addition, the cost is low, and the range of vibration frequency is wide.

Description

Piezoelectric micropump based on synthesizing jet-flow

Technical field

The utility model belongs to microfluid transmission and control, micro mechanical technology field, refers in particular to based on piezoelectricity type synthesizing jet-flow Micropump.

Background technique

Microfluidic system has huge market in life science and chemical analysis field, has been widely used in dna sequencing, pathological gene analysis, drug response analysis based on gene chip and the Biological Chip of microflow control technique.In microfluidic system, Micropump is that driving fluid overcomes the performer that the resistance generation is flowed, be prerequisite and the basis of realizing microfluidic system, the performance of Micropump will directly have influence on the overall performance of In Microfluidic Analytical Systems, also be the key factor that determines the microflow control technique development level; The kind of Micropump is a lot, according to the difference of working principle, it can be divided into mechanical type and on-mechanical formula, and the mechanical type Micropump utilizes movable part to control transporting of fluid, mainly comprises rotary, diaphragm oscillatory type, creeping type and fishtail type; On-mechanical declines does not have movable part in the pump, but utilize heat, chemistry, sound, magnetic, electric power etc. realize the driving of convection cell, mainly comprise electric hydraulic-driven, curved surface fluctuation drive-type, the magnetic hydraulic-driven, continuous infiltration type, bubble drive-type and other novel driving mode, the pump pressure that pump produces because on-mechanical declines is very little, complex structure, need to compare exacting terms during work, therefore this class pump also has larger distance from using at present, in the mechanical type Micropump, control for realization flow direction when forming effective pumping, generally need valve, the appearance of valve is so that the speed of response of pump is slack-off, working efficiency reduces, the fatigue of while movable valve sheet material, inefficacy and unstable properties all can affect the life-span of Micropump, in addition, great majority have the valve Micropump to still have segment fluid flow to reflux pumping stroke, and pump discharge is reduced.

E. Stemme and G. Stemme have proposed a kind of novel valveless mechanical type Micropump, and it utilizes diffusion/collapsible tube to realize the rectification of convection cell, finishes unidirectional transporting, scholar has afterwards also carried out a large amount of research to it, but this Micropump can not the continuous wave output fluid, and flow is little, and pulsation is large; Sieve dogface of Tsing-Hua University etc. has proposed a kind of novel synthesizing jet-flow valve free pump, this Micropump utilizes synthesizing jet-flow to form principle and realizes flow direction control, frequency of okperation is high, but its model is too simple, influence factor considers to make result and Real Flow Field situation gap larger not comprehensively in the numerical simulation, be in theory preliminary proof the feasibility of this pump; The people such as the Luo Zhen soldier of the National University of Defense technology have designed a kind of synthesizing jet-flow base valve free pump with filter screen, can realize flow regulating function by changing actuator diaphragm vibration amplitude and corresponding adjusting flow distribution plate position, but its complex structure, processing difficulties, physical dimension is larger, is a kind of miniature pump on the practical significance.

On the performance of summing up different Micropumps and the basis that compares, take into account simultaneously and consider that Micropump needs a kind of fast response time, reliability driving mode high, simple in structure, this patent combines the synthesizing jet-flow technology with Piezoelectric Driving, designed model utility a kind of simple in structure, cost is low, flow is high and can go out continuously stream, the micro-pump structure of stable performance.

Combining jet device can adopt the driving mode such as piezoelectricity, static or electromagnetism to make its flexible sheet produce up-down vibration, cause the cavity volume cyclically-varying, thereby extraneous fluid is constantly sucked and discharges pump chamber by spout, need not extra mass injection and just can form the synthetic type jet, and can realize synthesizing effective control of jet flow field by changing the driving electrical quantity.Chinese scholars has been carried out a large amount of research for aspects such as its mechanism, implementation and applications, and its structure has also obtained very large optimization; The document patent No. is for describing a kind of processing method of synthetic jet actuator in detail in " 200710018045.1 piezoelectric combining jet devices and preparation method thereof "; The utility model has been applied to the piezoelectric micropump field with this nowed forming of synthesizing jet-flow, fully studying on the basis of its Field Characteristics, has found the correlation between key parameter, by reasonable placement pump inlet and pump discharge, has reached the effect of uninterrupted pumping.

Summary of the invention

The purpose of this utility model provides a kind of based on piezoelectricity type synthesizing jet-flow Micropump, compares with existing piezoelectricity type Micropump, the utlity model has simple in structure, the plurality of advantages such as low cost of manufacture can be continuously go out stream, and flow is higher and easy to control, and energy consumption is low.

For achieving the above object, the technical solution adopted in the utility model is: based on the piezoelectric micropump of synthesizing jet-flow, comprise upper pump casing, upper cavity, spout, lower pump body, lower chamber, vibrating diaphragm and piezoelectric actuator, process pump inlet and pump discharge at upper pump casing, upper pump casing and lower pump body are bonded together from top to bottom, the upper pump casing below is upper cavity, the lower pump body below is lower chamber, pump inlet and pump discharge are connected with spout by upper cavity, spout is with upper, lower chamber is connected, vibrating diaphragm is bonded in the lower pump body lower surface, and piezoelectric actuator is bonded in vibrating diaphragm lower surface central authorities by Bond.

With the field of micropumps that is applied to of synthesizing jet-flow technology success, model utility goes out simple in structure, and processing cost is low, and flow is large, is easy to realize microminiaturized piezoelectric micropump, and has solved the difficult problem that conventional Valveless piezoelectric pump is difficult for going out continuously stream; The sectional shape of described pump inlet, pump discharge, upper pump casing, upper cavity, lower chamber, lower pump body, spout, vibrating diaphragm and piezoelectric actuator is circle.

Distance of center circle between pump inlet and pump discharge is 3/4 of upper pump casing radius, like this, not only can effectively avoid importing and exporting influencing each other but also can realize output flow maximization, the center line in the vertical direction conllinear of pump discharge, upper pump casing, spout, lower pump body, piezoelectric actuator, vibrating diaphragm between flowing.

This Micropump the key technical indexes is: nozzle diameter

Be 0.1mm-2mm, the diameter ratio scope of the height of upper cavity and spout 6 is:

, the diameter ratio of the diameter of lower chamber 8 and spout 6

50, spout depth and nozzle diameter ratio 2

6, remaining part size routinely technological means is chosen; In this technical order scope, this Micropump can realize going out continuously stream, and pump discharge is larger.

The beneficial effects of the utility model are: gone out a kind of simple in structurely in conjunction with the synthesizing jet-flow technical application is novel, low cost of manufacture can go out stream continuously, and flow is higher and easy to control, and energy consumption is low, the piezoelectric micropump structure of stable performance; Be 100Hz in driver frequency, driving voltage is 100

The time, flow can reach approximately 24ml/min, compares discovery with the divergent-convergent duct Valveless Piezoelectric Micropump, and the flow of this pump probably be with the latter under the condition more than 100 times of yardstick; Simultaneously, compare with other piezoelectricity type Micropumps, the formed whirlpool of synthesizing jet-flow acts on entrainmenting of convection cell so that this structure Micropump required energy consumption when obtaining equal performance index significantly descends.

Description of drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the plan view of Fig. 1;

Fig. 3 is this model utility suction process fundamental diagram;

Fig. 4 is this model utility discharge process fundamental diagram;

Among the figure: 1-pump inlet, 2-pump discharge, 3-upper pump casing, 4-upper cavity, 5-lower pump body, 6-spout, 7-piezoelectric actuator, 8-lower chamber, 9-vibrating diaphragm.

Embodiment

With reference to Fig. 1, shown in Figure 2, the utility model comprises pump inlet 1, pump discharge 2, upper pump casing 3, upper cavity 4, spout 6, lower pump body 5, lower chamber 8, vibrating diaphragm 9 and piezoelectric actuator 7, pump inlet 1 and pump discharge 2 are positioned at the top of pump, upper pump casing 3 bottoms are upper cavities 4, pump inlet 1 and pump discharge 2 are connected with spout 6 by upper cavity 4, lower pump body 5 is positioned at the below of upper cavity 4, spout 6 is communicated with upper cavity 4 and lower chamber 8, vibrating diaphragm 9 is bonded in the lower surface of lower pump body 5, and piezoelectric actuator 7 is bonded in the lower surface central authorities of vibrating diaphragm 9 by Bond (conductive epoxy resin).

Upper cavity 4, lower chamber 8, pump inlet 1, pump discharge 2 can be processed by dark reaction and plasma etching technics, upper pump casing 3 and lower pump body 5 are by the bonding technology combination, vibrating diaphragm 9 is brass (or other elastic materials), can with lower pump body 5 bondings or gummed, piezoelectric actuator 7 is driving elements, adopts sinusoidal voltage, and vibrational mode adopts the radial expansion vibration, used piezoelectric material is the PZT piezoelectric constant, can use sol-gel technology and be deposited on the vibrating diaphragm.

The sectional shape of pump inlet 1, pump discharge 2, upper pump casing 3, upper cavity 4, lower chamber 8, lower pump body 5, spout 6, vibrating diaphragm 9 and piezoelectric actuator 7 is circle, the distance of center circle that pump inlet 1 and pump discharge are 2 is 3/4 of upper pump casing radius, the center line in the vertical direction conllinear of pump discharge 2, upper pump casing 3, spout 6, lower pump body 5, piezoelectric actuator 7, vibrating diaphragm 9.

This Micropump the key technical indexes is: spout 6 diameters

Be 0.1mm-2mm, the diameter ratio scope of the height of upper cavity 4 and spout 6 is:

, the diameter ratio of the diameter of lower chamber 8 and spout 6

50, spout depth and nozzle diameter ratio 2

6.

With reference to Fig. 3, shown in Figure 4, during the utility model work, inverse piezoelectric effect occurs in piezoelectric ceramic under periodically variable voltage signal effect, and cavity bottom surface vibrating diaphragm 9 produces periodically up-down vibration thereupon; During discharge process, upwards vibration of vibrating diaphragm 9, in spout 6 upper edge, fluid is subject to strong shear action, and then produce flow separation and form whirlpool pair, consequent whirlpool moves to pump discharge 2 a large amount of fluids around entrainmenting, and has simultaneously a large amount of fluids and is inhaled in the upper cavity 4 by pump inlet 1; In suction process, vibrating diaphragm 9 vibrates downwards, and the whirlpool of this moment is not on being subjected to the impact of its suction process away from spout 6, and the whirlpool that discharge process produces flows out waltzing through pump discharge 2, and pump inlet 1 has fluid to flow under right the entrainmenting of whirlpool always; According to the principle of synthesizing jet-flow, fluid forms row to the whirlpool of pump discharge 2 migrations pair in the process that this suction and discharge hocket, and whirlpool is once formation, will be with self-induction speed to pump discharge 2 migrations, thus form continuous output.

Claims (4)

1. based on the piezoelectric micropump of synthesizing jet-flow, comprise upper pump casing, upper cavity, spout, lower pump body, lower chamber, vibrating diaphragm and piezoelectric actuator, process pump inlet and pump discharge at upper pump casing, upper pump casing and lower pump body are bonded together from top to bottom, the upper pump casing below is upper cavity, the lower pump body below is lower chamber, pump inlet and pump discharge are connected with spout by upper cavity, spout is with upper, lower chamber is connected, vibrating diaphragm is bonded in the lower pump body lower surface, piezoelectric actuator is bonded in vibrating diaphragm lower surface central authorities by Bond, it is characterized in that: nozzle diameter

Be 0.1mm-2mm, the diameter ratio scope of the height of upper cavity and spout is: , the diameter of lower chamber and the diameter ratio of spout

50, spout depth and nozzle diameter ratio 2

6.

2. the piezoelectric micropump based on synthesizing jet-flow as claimed in claim 1, it is characterized in that: the distance of center circle between pump inlet and pump discharge is 3/4 of upper pump casing radius.

3. the piezoelectric micropump based on synthesizing jet-flow as claimed in claim 1, it is characterized in that: the sectional shape of described pump inlet, pump discharge, upper pump casing, upper cavity, lower chamber, lower pump body, spout, vibrating diaphragm and piezoelectric actuator is circle.

4. the piezoelectric micropump based on synthesizing jet-flow as claimed in claim 1 is characterized in that: the center line in the vertical direction conllinear of pump discharge, upper pump casing, spout, lower pump body, piezoelectric actuator, vibrating diaphragm.

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