KR20220106533A - Discharge variable type pneumatic liquid dispenser - Google Patents

Abstract

The present invention relates to a discharge amount variable type pneumatic liquid dispenser, which can vary the discharge amount frequently in real time, and can be improved to prevent the liquid forming phenomenon at the front end of a needle. To this end, the present invention comprises: a discharge amount control unit which is provided to control the discharge amount of discharged liquid; and a discharge unit which is separably coupled to the front end portion of the discharge amount control unit to discharge the liquid to the outside. The discharge amount control unit comprises: a hollow shaft motor; and a linear movement device which is installed at the front end portion of the hollow shaft motor to perform a linear movement by means of the hollow shaft motor. The discharge unit comprises: a plunger which is coupled to the front end portion of the linear movement device to be transported frontwards and backwards; a piston which is installed on the outer circumferential surface of the plunger to be transported frontwards and backwards along with the plunger; a liquid injection housing which is coupled to the front end portion of the plunger, and is provided such that the liquid may be injected; a liquid discharge housing which is coupled to the front end portion of the liquid injection housing, and has a distribution tip installed at the front end such that liquid may be divided and discharged, so that the injected liquid may be discharged by the forward transporting of the plunger; a first cylinder which is coupled to the rear end portion of the liquid injection housing such that the piston may be transported; and a second cylinder which is coupled to the rear end portion of the first cylinder, such that the rear end portion of the plunger and the front end portion of the linear movement device may be transported.

Description

Discharge Variable Pneumatic Liquid Dispenser

The present invention relates to a variable discharge amount pneumatic liquid dispenser, and more particularly, to a variable discharge amount pneumatic liquid dispenser that is improved so as to be able to change the discharge amount in real time and from time to time and to prevent liquid formation at the tip of a needle.

A variety of pneumatic fluid dispensers are known for dispensing a liquid having a constant viscosity, such as an adhesive, an encapsulant, a lubricant, or the like.

In addition, a manual dispenser or a pneumatic fluid dispenser is widely used because it is lightweight, easy to operate, and has low manufacturing and operating costs.

In particular, with the development of pneumatic technology, a pneumatic fluid dispenser has been widely used due to its relatively excellent performance.

In addition, fluid dispensing applications require that fluids be dispensed in precise amounts and locations, and many fluids may experience changes in viscosity during the dispensing process.

The requirements for these applications are driving the performance of pneumatic fluid dispensers.

And pneumatic fluid dispensers usually apply a pressurized fluid, such as compressed air.

In response to a manually initiated or automatically generated instruction signal, the compressed air is applied against and pushes the piston in a syringe or barrel reservoir holding the fluid.

Said compressed air is applied at a fixed pressure with an adjustable and variable duration. Thus, the amount of fluid dispensed is proportional to the time the compressed air is applied to the piston.

Also, in many applications, the fluid dispensed has a relatively constant viscosity, and the amount dispensed with each dispense operation is also fixed.

In this application, the pneumatic dispenser can be operated to accurately and reliably dispense a given amount of fluid.

Meanwhile, after the Industrial Revolution, standard products were mass-produced and profits were created through economies of scale. Recently, with the development of information and communication technology (ICT), it has evolved into an era of mass production-based personalization and customization.

For example, in order to cope with customized cosmetics for me, a dispenser capable of rapidly filling a wide variety of liquids based on precise and individual conditions at any time or in real time and changing the discharge amount has become necessary.

And the conventional variable capacity plunger pump applied to the dispenser is provided with a discharge amount adjusting unit using a manually operated knob and a discharge unit to which a pneumatic cylinder is applied.

Such a conventional variable displacement plunger pump dispenses the same discharge amount, and is applied to mass production.

However, in the conventional variable capacity plunger pump, since the discharge amount control is manually operated and changed, the discharge amount verification is required.

In addition, in the case of a dispenser that is composed of a rotary motor and a linear motion mechanism and the discharge amount can be adjusted, the discharge amount can be adjusted. There was a problem in that the number of revolutions and torque had to be increased.

In addition, it was difficult to control the fine discharge amount according to the increase in the lead, even if the lead of the screw part was increased and the number of rotations and the torque of the rotary motor were increased.

In order to solve the above problems, the control of the rotary motor is complicated and the cost is increased.

In addition, in order to increase the torque of the rotary motor, the size of the pump has to be increased, so there is a limit to downsizing the pump.

On the other hand, as a prior document related to the present invention to be described later, Korean Patent Publication No. 10-2007-0036711 (April 03, 2007, published) discloses a pneumatic fluid dispenser and an operating method thereof.

Even the pneumatic fluid dispenser of the above-mentioned prior literature is known to have the above-mentioned problems in its structure.

The present invention was created to solve the above problems, and the capacity variable discharge at high speed is possible at any time and in real time, prevents the liquid from forming on the tip of the needle after liquid discharge, and the discharge amount adjusting unit and the discharge unit are distinguished It is configured, and an object of the present invention is to provide a pneumatic liquid dispenser with a variable discharge amount that enables a compact configuration.

Discharge amount variable pneumatic liquid dispenser of the present invention for achieving the above object,

a discharge amount adjusting unit provided to adjust the discharge amount of the discharged liquid;

A discharging unit detachably coupled to the distal end of the discharging amount control unit to discharge the liquid to the outside; including,

The discharge amount control unit,

a hollow shaft motor;

and a linear motion mechanism installed at the tip of the hollow shaft motor so as to be capable of linear motion by the hollow shaft motor.

The discharge unit,

a plunger coupled to the front end of the linear motion mechanism and transferred forward and backward;

a piston installed on the outer circumferential surface of the plunger and transferred forward and backward together with the plunger;

a liquid injection housing coupled to the front end of the plunger and provided to inject the liquid;

a liquid discharging housing coupled to the distal end of the liquid dispensing housing and provided with a dispensing tip for dispensing and discharging the liquid at the distal end so that the injected liquid is discharged by forward transfer of the plunger;

a first cylinder coupled to the rear end of the liquid injection housing to transfer the piston;

A second cylinder coupled to the rear end of the first cylinder so that the rear end of the plunger and the front end of the linear motion mechanism are transferred;

At one side of the first cylinder, a first air port to which pneumatic pressure is applied so that the plunger and the piston are transported backward is formed;

A second air port to which pneumatic pressure is applied so that the plunger and the piston are forwardly transferred is formed in the first cylinder as a rear end of the first air port.

In the present invention, the linear motion mechanism includes: a screw shaft rotatably installed in the hollow shaft motor; a linear guide rod provided integrally with the screw shaft at the front end of the screw shaft for forward and backward transport; a support housing coupled to the front end of the hollow shaft motor to support the screw shaft and the linear guide rod; and a rotation preventing guide coupled to the front end of the support housing, supporting the linear guide rod and preventing rotation of the linear guide rod.

In the present invention, it is installed in contact with the rear end of the screw shaft, further comprising a position sensor for detecting the operation of the screw shaft.

In the present invention, a liquid inlet check valve is installed in the liquid injection housing so that the liquid is injected and the injected liquid does not flow back, and the liquid is discharged in the liquid discharge housing, and the liquid is discharged. A liquid discharge check valve is installed to prevent backflow of the liquid.

In the present invention, a detachable protrusion is formed at the rear end of the piston to be detachably coupled to the second cylinder, and a detachable groove is formed at the front end of the second cylinder so that the detachable protrusion is detachably inserted.

In the present invention, a first support bushing for supporting the transfer of the front end of the plunger is coupled to the inside of the liquid injection housing, and, further, in the second cylinder, a second support for supporting the transfer of the rear end of the plunger The bushing is joined.

According to an embodiment of the present invention, variable capacity discharging at high speed in the liquid discharging process is possible at any time and in real time.

In addition, a sufficient discharge speed can be given to the liquid at the time of discharging, so that after discharging the liquid, it is possible to prevent the liquid from forming on the tip of the needle, and non-contact discharging of a small amount of liquid to a pouch or a certain container is possible.

In addition, the discharge amount adjusting unit and the discharge portion are configured separately, and the discharge amount adjusting unit can change the precise and various discharge amounts in real time and at any time by installing a linear motion mechanism in the hollow shaft motor, and the discharge portion is discharged at high speed by applying a pneumatic cylinder It is possible to provide a speed, so that it is possible to prevent the liquid from forming on the tip of the needle after the liquid is discharged.

And by installing the linear motion mechanism built-in in the hollow shaft motor by the discharge amount adjusting unit, a compact configuration is possible.

1 is a cross-sectional view showing the overall configuration of the discharge amount variable pneumatic liquid dispenser according to the present invention.
FIG. 2 is an exploded cross-sectional view illustrating a state in which a discharge amount adjusting unit and a discharge unit of FIG. 1 are disassembled;
3A is a detailed cross-sectional view of the discharge amount adjusting unit of FIG. 2 ;
Figure 3b is a detailed cross-sectional view of the discharge unit of Figure 2;
4 to 7 are cross-sectional views showing the operation of the discharge amount variable pneumatic liquid dispenser according to the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the overall configuration of the discharge amount variable pneumatic liquid dispenser according to the present invention.

In addition, FIG. 2 is an exploded cross-sectional view showing the discharge amount adjusting unit and the discharging unit of FIG. 1 in a disassembled state.

In addition, a detailed cross-sectional view of the discharge amount adjusting unit of FIG. 2 is shown in FIG. 3A , and a detailed cross-sectional view of the discharge unit of FIG. 2 is shown in FIG. 3B .

And Figure 4 to Figure 7 is an operation cross-sectional view shown to explain the operation of the discharge amount variable pneumatic liquid dispenser according to the present invention is shown.

1 to 7, the discharge amount variable pneumatic liquid dispenser 1 according to the present invention, as shown in FIGS. 2 to 3B, the discharge amount adjusting unit 100 provided to adjust the discharge amount of the liquid to be discharged ) and the discharging unit 200 detachably coupled to the front end of the discharging amount adjusting unit 100 to discharge the liquid to the outside.

To explain this in more detail, the discharge amount adjusting unit 100 is installed in the hollow shaft motor 150 and the hollow shaft motor 150 to be capable of linear motion by the hollow shaft motor 150 . It consists of a linear motion mechanism.

In addition, the discharge unit 200 includes a plunger 230 coupled to the front end of the linear motion mechanism and transported forward and backward, and is installed on the outer peripheral surface of the plunger 230 and transported forward and backward together with the plunger 230 . a piston 240 to be used, a liquid injection housing 203 coupled to the front end of the plunger 230 to inject liquid, and a liquid injection housing 203 coupled to the front end of the liquid injection housing 203 so that the liquid is distributed and discharged at the tip The dispensing tip 270 is installed and configured to include a liquid discharge housing 207 provided to discharge the injected liquid by forward transfer of the plunger 230 .

And the discharge part 200 is coupled to the rear end of the liquid injection housing 203 and a first cylinder 201 to which the piston 240 is transferred, and the first cylinder 201 is coupled to the rear end of the first cylinder 201 . It is configured to include a second cylinder 205 for transferring the rear end of the plunger 230 and the front end of the linear motion mechanism.

And a first air port 220 to which pneumatic pressure is applied so that the plunger 230 and the piston 240 are transported backward is formed on one side of the first cylinder 201, and the first air port 220 ) to the rear end of the first cylinder 201 is formed with a second air port 210 to which pneumatic pressure is applied so that the plunger 230 and the piston 240 are transferred forward.

In addition, the linear motion mechanism is provided integrally with the screw shaft 140 rotatably installed in the hollow part of the hollow shaft motor 150 and the screw shaft 140 at the distal end of the screw shaft 140, the screw shaft A linear guide rod 160 that moves forward and backward as 140 rotates forward and backward, and a screw shaft 140 and a linear guide rod coupled to the front end of the hollow shaft motor 150 ( A support housing 103 for supporting 160 and a rotation preventing guide 170 coupled to the front end of the support housing 103 to support the linear guide rod 160 and to block the rotation of the linear guide rod 160. consists of including.

In addition, a nut member 140a is installed at the front end of the screw shaft 140 to support the screw shaft 140 so that accurate rotation is achieved.

On the other hand, the hollow shaft motor 150 is a motor having a perforated shaft, and its center is completely open, and as shown in FIGS. 1 to 7 , the screw shaft 140 of the linear motion mechanism passes through. and can be installed to be inserted and rotated.

The hollow shaft motor 150 is configured in a mechanically different form while maintaining the advantages of the existing solid shaft servomotor, so that the screw shaft 140 and the linear guide rod 160 are properly installed.

In addition, the outer diameter shape of the linear guide rod 160, as shown in FIG. 2, is not cylindrical so that rotation is prevented by the rotation preventing guide 170, but is generally rectangular and has a chamfered edge. The polygonal shape 160a or the left and right sides are linear, and the mixed shape 160b is formed in a circular shape.

And the discharge amount variable pneumatic liquid dispenser (1) according to the present invention is installed in contact with the rear end of the screw shaft 140, the position sensor 130 for detecting the operation of the screw shaft 140 is provided.

In addition, a liquid inlet check valve 310 is installed in the liquid injection housing 203 so that the liquid is injected and the injected liquid does not flow back.

The liquid inlet check valve 310 is coupled to one side of the liquid inlet housing 203 and is installed in the valve housing 301 accommodating the liquid inlet check valve 310 .

In addition, a liquid discharge check valve 260 is installed in the liquid discharge housing 207 to discharge the liquid and prevent the liquid from flowing backward.

In particular, a bushing member 260a is installed outside the liquid discharge check valve 260 to support the liquid discharge check valve 260 and maintain oil tightness.

In addition, as shown in more detail in FIG. 3B , a detachable protrusion 240a is formed at the rear end of the piston 240 so as to be detachably coupled to the second cylinder 205 , and the front end of the second cylinder 205 . A detachable groove (205a) is formed so that the detachable protrusion is detachably inserted.

In addition, a first support bushing 250 for supporting the transfer of the tip of the plunger 230 is coupled and installed inside the liquid injection housing 203 .

In particular, the first support bushing 250 is used for rotation and is suitable for high speed, high temperature, high pressure, and chemical resistance, has a very low coefficient of friction, and can be applied in a very small space, making it possible to compact the device ( lip seal) 250a is installed.

In addition, a second support bushing (205b) for supporting the transfer of the rear end of the plunger (230) is coupled to the inside of the second cylinder (205).

On the other hand, in FIGS. 1 to 7, reference numeral 105 shows a sensor housing, and reference numeral 101 is coupled to the sensor housing 105 and a motor driving module for driving the hollow shaft motor 150 therein ( 120) is installed and shows the connection housing in which the electrical connector 110 is installed at the rear end.

Also, in particular, reference numerals 201a and 205a in the drawings indicate sliding inner peripheral surfaces of the first and second cylinders 201 and 205 .

The operation of the discharge amount variable pneumatic liquid dispenser according to the present invention having the configuration as described above will be described as follows.

Referring back to FIGS. 1 to 7 , the discharge amount variable pneumatic liquid dispenser 1 according to the present invention is a type of a plunger pump, and as shown in FIGS. The provided discharge amount control unit 100 and the discharge unit 200 is detachably coupled to the front end of the discharge amount control unit 100 to discharge the liquid to the outside.

That is, the discharge amount variable pneumatic liquid dispenser 1 according to the present invention is configured such that the discharge amount control unit 100 and the discharge unit 200 are structurally and functionally separated from the central portion thereof.

Therefore, the discharge amount variable pneumatic liquid dispenser (1) according to the present invention can be easily and quickly dealt with when a problem occurs in the dispenser (1) due to easy disassembly.

In addition, the discharging amount variable pneumatic liquid dispenser 1 according to the present invention has a simple configuration and low manufacturing cost.

And when power is supplied to the hollow shaft motor 150 by connecting the electrical connector 110, the screw shaft 140 of the linear motion mechanism rotates, and with this, the linear guide rod 160 moves forward or backward. do.

At this time, the position sensor 130 is installed in contact with the end of the screw shaft 140 of the linear motion mechanism to sense the operation of the screw shaft 140 .

And as shown in FIG. 4 , when pneumatic pressure is applied to the second air port 210 provided in the discharge unit 200 , the piston 240 and the plunger 230 are transferred forward, as shown in FIG. 5 . Likewise, after the maximum amount of liquid to be dispensed is discharged, it stops at the discharge end position, and at this time, when the piston 240 advances, it advances to the limit of contact with the inside of the cylinder.

Subsequently, as shown in FIG. 5 , when pneumatic pressure is applied to the first air port 220 , the piston 240 and the plunger 230 move backward, and as shown in FIG. 6 , the linear guide rod The rear end of the plunger 230 is in contact with the front end of the 160 .

Then, as the liquid inlet check valve 310 is opened, the plunger 230 moves backward to introduce a liquid into the chamber corresponding to the volume.

In this case, it is the case of the maximum discharge amount.

In addition, as shown in FIG. 7 , when pneumatic pressure is applied to the second air port 210 , the piston 240 and the plunger 230 move forward at a high speed in the discharge direction.

And the liquid inlet check valve 310 is closed (close), the liquid discharge check valve 260 is opened.

Then, the liquid is discharged through a needle (not shown) coupled to the dispensing tip 270 .

At this time, after the discharge is terminated by the high-speed advance to the plunger 230, the formation of liquid at the tip of the needle is prevented.

In addition, when it is necessary to vary the discharge capacity of the liquid, it can be easily carried out by changing the position of the linear guide rod 160 integrated with the screw shaft 140 through the rotation of the hollow shaft motor 150 . .

To this end, first, as described above, after applying pneumatic pressure to the first air port 220 to make the piston 240 and the plunger 230 move backward, the front end of the adjusted linear guide rod 160 and the plunger ( 230) is in contact with the rear end.

Then, while the liquid inlet check valve 310 is opened, the liquid is introduced into the liquid chamber at a controlled discharge amount corresponding to the reverse of the plunger 230 .

Subsequently, when pneumatic pressure is applied to the second air port 210 , the piston 240 and the plunger 230 move forward in the discharge direction at high speed, the liquid inlet check valve 310 is closed, and the liquid is discharged The check valve 260 is opened.

Then, the liquid is discharged through a needle (not shown) coupled to the dispensing tip 270 , and even at this time, after the discharge is terminated by high-speed advance to the plunger 230 , the liquid formation phenomenon is prevented at the tip of the needle do.

In addition, if it is necessary to continuously change the discharge amount of the liquid, the above-described operation may be performed.

As described above, the variable discharge amount pneumatic liquid dispenser 1 according to the present invention enables variable capacity discharge at high speed and in real time and at any time during the discharge process, and provides a sufficient discharge speed to the liquid during discharge.

Therefore, it is possible to prevent the liquid from forming on the tip of the needle after liquid discharge, and non-contact discharge of a small amount of liquid into a pouch or a certain container is possible.

In addition, in the discharge amount variable pneumatic liquid dispenser 1 according to the present invention, the discharge amount control unit 100 and the discharge unit 200 are configured to be distinguished, and in particular, the discharge amount control unit 100 is a hollow shaft motor 150 . By installing a built-in linear motion mechanism, it is possible to change the precise and various discharge amount in real time and at any time.

And the discharge unit 200 can provide a high-speed discharge speed by applying a pneumatic cylinder, thereby preventing the liquid from forming on the tip of the needle after the liquid is discharged.

In addition, by installing a linear motion mechanism built-in in the hollow shaft motor 150 by the discharge amount adjusting unit 100, a compact configuration of the discharge amount variable pneumatic liquid dispenser 1 according to the present invention is possible.

As described above, the present invention has been described with reference to one embodiment shown in the drawings, but this is merely exemplary, and various modifications and equivalent embodiments are possible therefrom by those skilled in the art. will understand

Accordingly, the true protection scope of the present invention should be defined only by the appended claims.

100. Discharge volume control unit
103. Support housing
130. Position sensor
140. screw shaft
150. Hollow Shaft Motor
160. Linear guide rod
170. Rotation Prevention Guide
200. Discharge part
201. First Cylinder
203. Liquid injection housing
205. Second Cylinder
207. Liquid discharge housing
210. Second Airport
220. First Airport
230. Plunger
240. Piston
260. Liquid discharge check valve
301. Valve housing
310. Liquid inlet check valve

Claims (6)

a discharge amount adjusting unit provided to adjust the discharge amount of the discharged liquid;
A discharging unit detachably coupled to the distal end of the discharging amount adjusting unit to discharge the liquid to the outside;
The discharge amount control unit,
a hollow shaft motor;
and a linear motion mechanism installed at the tip of the hollow shaft motor so as to be capable of linear motion by the hollow shaft motor.
The discharge unit,
a plunger coupled to the front end of the linear motion mechanism and transferred forward and backward;
a piston installed on the outer circumferential surface of the plunger and transferred forward and backward together with the plunger;
a liquid injection housing coupled to the front end of the plunger and provided to inject the liquid;
a liquid discharging housing coupled to the distal end of the liquid dispensing housing and provided with a dispensing tip for dispensing and discharging the liquid at the distal end so that the injected liquid is discharged by forward transfer of the plunger;
a first cylinder coupled to the rear end of the liquid injection housing to transfer the piston;
A second cylinder coupled to the rear end of the first cylinder so that the rear end of the plunger and the front end of the linear motion mechanism are transferred;
At one side of the first cylinder, a first air port to which pneumatic pressure is applied so that the plunger and the piston are transported backward is formed;
A variable discharge amount pneumatic liquid dispenser, characterized in that a second air port to which pneumatic pressure is applied so that the plunger and the piston are forwardly transferred is formed in the first cylinder as a rear end of the first air port. According to claim 1,
The linear motion mechanism is
a screw shaft rotatably installed on the hollow shaft motor;
a linear guide rod provided integrally with the screw shaft at the front end of the screw shaft for forward and backward transport;
a support housing coupled to the front end of the hollow shaft motor to support the screw shaft and the linear guide rod;
and a rotation preventing guide coupled to the front end of the support housing to support the linear guide rod and prevent rotation of the linear guide rod. 3. The method of claim 2,
Discharge variable pneumatic liquid dispenser, which is installed in contact with the rear end of the screw shaft, and further comprises a position sensor for detecting the operation of the screw shaft. According to claim 1,
A liquid inlet check valve is installed in the liquid injection housing so that the liquid is injected and the injected liquid does not flow back;
In addition, the discharge amount variable pneumatic liquid dispenser, characterized in that the liquid discharge housing, to discharge the liquid and prevent the liquid from flowing backward, a liquid discharge check valve is installed. According to claim 1,
A detachable protrusion is formed at the rear end of the piston so as to be detachably coupled to the second cylinder,
The discharging amount variable pneumatic liquid dispenser, characterized in that a detachable groove is formed at the distal end of the second cylinder so that the detachable protrusion is detachably inserted. According to claim 1,
A first support bushing for supporting the transfer of the tip of the plunger is coupled to the inside of the liquid injection housing,
In addition, a second support bushing for supporting the transfer of the rear end of the plunger is coupled to the inside of the second cylinder.

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