KR101597410B1 - Dispenser having sealing member improved efficiency - Google Patents

Abstract

Disclosed is a sealing member for preventing leakage of a dispensing operation dispenser liquid to a outside. The sealing member is formed in a new shape to greatly improve the spraying quality by blocking the leakage, A coupling unit 20 mounted on the bottom of the driving unit 10; a nozzle unit 30 installed below the coupling unit 20; And a tappet 11 vibrating in the lower end of the driving unit 10 is exposed through the sealing member 50 so that the inflow hole 20 of the coupling unit 20 is exposed through the sealing member 50. [ And the tappet 11 is inserted into the body 21 of the body 51. The sealing member 50 includes a body 51 having a ring shape, And the tappet (11) Characterized in that the oil, including East 52.

Description

Technical Field [0001] The present invention relates to a dispenser having a sealing member with improved efficiency,

The present invention relates to a dispenser for high precision dispensing, and more particularly, to a dispenser having a novel sealing member for preventing the dispensing operation dispenser from leaking out, And at the same time, to a dispenser having an improved sealing member which greatly increases the life of the product.

A dispenser as commonly known is a device that injects a predetermined amount of dispenser liquid through a nozzle and applies the dispenser precisely and a predetermined amount to a corresponding position of a target object. It is used for joining processing.

The structure of a conventional dispenser will be described with reference to the accompanying drawings.

1 to 3, the dispenser includes a driving unit 10, a coupling unit 20 mounted on the bottom of the driving unit 10, a nozzle unit (not shown) provided below the coupling unit 20, And a syringe unit 40 mounted on a side surface of the coupling unit 20 and filled with a dispenser liquid.

A tappet 11 which vibrates (moves forward and backward) is exposed to the lower end of the driving unit 10 and is connected to the inflow hole 21 of the coupling unit 20 through a centering piece 12 and a sealing member 13. And the tappet 11 is inserted and mounted on the tappet.

The coupling portion 20 includes an inlet hole 21 into which the tappet 11 of the driving portion 10 is inserted, a coupling portion 22 formed on the bottom surface to which the nozzle portion 30 is mounted and coupled, And a mounting hole (23) in which the syringe (40) and the connector (41) are mounted.

In addition, the coupling portion 20 has an internal structure in which the dispenser liquid supplied through the syringe portion 40 flows into the inflow hole 21.

The nozzle unit 30 includes a guiding 31 inserted into the coupling part 22 of the coupling unit 20 through an O-ring 34, a nozzle 32 inserted and mounted on the bottom surface of the guidance unit 31, And a lid part 33 which covers the guidance part 31 and the nozzle 32 and is fastened and fixed to the fastening part 22 of the fastening part 20.

The nozzle 32 has a funnel shape and discharges the dispenser liquid through a spray hole 32a formed at the center.

The syringe unit 40 is fixed to the mounting hole 23 of the coupling unit 20 through the coupling hole 41 so that the dispenser fluid filled in the syringe unit 40 is injected into the inlet hole 21 of the coupling unit 20. [ I will.

A driving operation of the dispenser having such a structure will be described.

First, when the syringe section 40 filled with the dispenser liquid is attached to the mounting hole 23 of the engaging section 20, the dispenser liquid flows into the inlet hole 21 of the engaging section 20, 50 are filled in the upper end portion of the nozzle 32 through the inner space of the guiding 31 through which they pass.

In this state, when a predetermined power source (pulse waveform having a frequency) is supplied from the power source line 15 of the driving unit 10 for nozzle injection driving, the driving unit 14 in the driving unit 10 operates The tappet 11 connected thereto starts the forward and backward reciprocating motion, that is, the fine vibration operation.

The tappet 11 is moved downward by this driving so that the tip of the tappet 11 discharges the dispenser liquid accumulated on the upper portion of the nozzle 32 through the spray hole 32a.

When the tappet 11 is retracted upward, the injection is stopped, and the dispenser liquid is discharged by repeating the vibration operation.

3, a sealing member 13 is provided at the upper end of the inflow hole 21 to allow the dispenser fluid filled in the inside of the inflow hole 21 to leak to the outside through the tappet 11 during the injection operation .

The sealing member 13 has a through hole 13a through which the tappet 11 passes and is formed at the center of the body. The lower end of the sealing member 13 has an inlet hole 21, (13b) coinciding with the inner diameter of the connecting portion (20) is formed, and a circular space portion (13c) is formed inside the binding portion (13b).

A twisted ring-shaped elastic member 13d is inserted into the space 13c so that the coupling portion 20 and the tappet 11b are opened by the elasticity of the elastic member 13d, ) To seal completely.

However, when the sealing member 13 is also used for a long time, the inner peripheral surface of the through hole 13a is gradually shaved off due to the frictional force of the vibration of the tappet 11.

The gap between the tappet 11 and the inner circumferential surface of the through hole 13a of the sealing member 13 is widened so that the dispenser fluid filled in the tappet 11 leaks to the outside through the space between the driving portion 10 and the engaging portion 20 A phenomenon has occurred.

Further, in the case of a dispenser liquid filled with a relatively large particle filler depending on the type of the dispenser liquid, the filler particles are sandwiched between the tappet 11 and the through-hole 13a of the sealing member 13, There was a problem.

Such leakage of the dispenser liquid causes contamination due to the leakage of the dispenser liquid, and the injection pressure inside the inflow hole 21 drops, resulting in a problem that the jetting quality is greatly deteriorated.

In addition, frequent replacement of the sealing member has resulted in an increase in the maintenance cost of the product.

Patent Registration No. 10-1165555, Patent Publication No. 10-2008-93859, Patent Registration No. 10-1200186, Registered Utility Model No. 20-353114

It is an object of the present invention to provide a sealing member for preventing leakage of a dispensing operation dispenser liquid to a new form, thereby achieving a remarkable improvement in injection quality due to a perfect leakage prevention, And a sealing member having an improved efficiency.

According to an aspect of the present invention, there is provided a driving unit including a driving unit, a coupling unit mounted on a bottom surface of the driving unit, a nozzle unit provided below the coupling unit, and a syringe mounted on a side surface of the coupling unit, And the tappet is inserted into the inflow hole of the coupling portion through a sealing member. The sealing member includes a ring-shaped body, a ring-shaped body, And a flow portion extending and fixing the tappet to extend through the tappet.

According to another aspect of the present invention, there is provided a method of manufacturing a medical device, comprising the steps of: forming a flow portion extending from an inner end of the body, the flow portion being formed to be flowable from the body; a through hole formed to penetrate the tappet inwardly of the wrinkle portion; And a tight contact portion formed on the inner side to tightly fix the tappet passing therethrough.

Further, according to the present invention, the sealing member is formed of a flexible rubber material.

As described above, according to the present invention, a sealing member for preventing leakage of the dispensing operation dispenser liquid to the outside is formed as a new type, and the injection quality is greatly improved by perfect leakage prevention, and the life of the product is greatly increased.

1 is an exploded perspective view of a main portion of a conventional dispenser apparatus,
Fig. 2 is a side sectional view of Fig. 1,
3 is an enlarged cross-sectional view of the main part of FIG. 2,
4 is an exploded perspective view of a main part of a dispenser apparatus according to the present invention,
Fig. 5 is a cross-sectional view of the main part of Fig. 4 and an enlarged view of the sealing member,
6 is a cross-sectional view of a sealing member according to the present invention,
7A to 7C are operational state diagrams of the sealing member according to the present invention.

In the drawings, the same reference numerals as possible denote the same elements in the drawings, although they are shown in different drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 4 is an exploded perspective view of a main part of the dispenser apparatus according to the present invention, FIG. 5 is a cross-sectional view of the main part of FIG. 4, and FIG. 6 is a sectional view of a sealing member according to the present invention.

The dispenser for large capacity dispensing according to the present invention includes a driving unit 10, a coupling unit 20 mounted on the bottom of the driving unit 10, a nozzle unit 30 installed below the coupling unit 20, And a sill part 40 mounted on the side of the coupling part 20. The vibrating tappet 11 is installed at the lower end of the driving part 10 and is exposed through a sealing member 50 The dispenser according to any one of claims 1 to 3, wherein the tappet (11) is inserted into the inlet hole (21) of the coupling part (20). The sealing member (50) And a moving part 52 which is extended and formed so as to be able to flow inward from the tappet 11 through which the tappet 11 penetrates.

The body 51 is formed in a circular ring shape having a predetermined thickness and is configured to be closely attached to the step portion 21a formed on the inner peripheral surface of the coupling hole 21 of the coupling portion 20. [

The moving part 52 includes a wrinkle part 52a extended from one end of the body 51 and configured to be able to flow from the body 51 and a tappet 11a inside the wrinkle part 52a, The through hole 52b is formed so as to penetrate through the through hole 52b and a tight contact portion 52c for tightly fixing the tappet 11 penetrating through the through hole 52b.

The sealing member 50 is preferably made of a rubber material, but is not limited thereto.

7A, when the tappet 11 is inserted into the through hole 52b of the moving part 52, the tappet 11 is forced into the tight contact part 52c, State.

This is possible because the fluid portion 52 is made of a flexible rubber material.

Hereinafter, the operation of the dispenser of the present invention will be described.

First, the sealing member 50 is inserted into the inflow hole 21 of the engaging part 20 to be engaged with the lower end of the driving part 10.

At this time, the body 51 of the sealing member 50 is engaged with the step portion 21a formed on the inner peripheral surface of the inflow hole 21.

In this state, the tappet 11 protruding from the driving unit 10 is inserted into the through hole 52b of the sealing member 50 through the centering piece 11 and the coupling unit 20 is inserted into the driving unit 10, .

The guiding 31 and the nozzle 32 having the O-ring 34 mounted on the lower side of the coupling portion 20 are fastened and fixed to the coupling portion 22 of the coupling portion 20 through the lid portion 33 A connection port 41 is fastened to the mounting hole 23 of the coupling section 20 and a syringe section 40 filled with a predetermined dispenser solution is mounted on the connection port 41. [

5 and 7A, when the tappet 11 penetrates through the through hole 52b of the moving part 52, the sealing member 50 is forcedly inserted into the close contact part 52c, State.

Here, the sealed state means that the tappet 11 and the close contact portion 52c of the through-hole 52b are completely brought into close contact with each other by elasticity, so that the air does not flow.

The dispenser fluid filled in the syringe portion 40 flows into the inflow hole 21 of the engaging portion 20 and the space between the tappet 11 and the guidance 31 To the upper end of the nozzle 32. [

At this time, the dispenser liquid is not discharged to the outside through the spray hole 32a of the nozzle 32. [ This is because not only the diameter of the spray hole is very small, but also the dispenser liquid has a certain viscoelasticity, so that it is not discharged to the outside due to gravity.

In this state, when the driving unit 10 is operated for the dispensing operation, that is, when a predetermined power source (pulse waveform having a frequency) is applied from the power supply line 15 to the driving unit 10, the tappet 11 is vibrated.

Accordingly, when the tappet 11 moves downward, the moving part 52 of the sealing member 50 also moves downward with the wrinkle part 52a as the center, as shown in FIG. 7b.

At the same time, the tip of the tappet 124 comes into contact with the upper surface of the nozzle 32, and the dispenser liquid accumulated therein is sprayed to the outside through the spray hole 32a.

Subsequently, when the tappet 11 is retreated upward, the moving part 52 of the sealing member 50 also moves upward with the wrinkle part 52a as the center, as shown in FIG. 7C.

At this time, dispensing of the dispenser liquid is stopped. Such a vibration operation is repeated to discharge the dispenser liquid.

Here, the sealing member 50 of the present invention operates in conjunction with the vertical vibration of the tappet 11, so that the same frictional as the conventional sealing member does not occur, thereby performing a complete sealing function without widening the gap, The fencing quality is greatly improved.

10: driving part 11: tappet
20: engaging portion 21: inflow hole
21a: step portion 30: nozzle portion
40: syringe part 50: sealing member
51: body portion 52:
52a: Crease portion 52b: Through hole
52c:

Claims (3)

A coupling part 20 mounted on the bottom of the driving part 10; a nozzle part 30 provided below the coupling part 20; And a vibrating tappet 11 is provided on the lower end of the driving unit 10 so as to be exposed to the inflow hole 21 of the coupling unit 20 through the sealing member 50. [ In the dispenser configured to insert and mount the tappet (11)
The sealing member 50 includes a ring-shaped body 51 and a moving part 52 for tightly fixing the tappet 11 extending and extending through the one end of the body 51 so as to flow inwardly ;
The moving part 52 includes a wrinkle part 52a extended from one end of the body 51 and configured to be able to flow from the body 51 and a tappet 11a inside the wrinkle part 52a, And a tight contact portion (52c) for tightly fixing the tappet (11) formed on the inner side of the through hole (52b) so as to closely contact the tappet (11) Dispenser with a member.
delete The method according to claim 1,
Characterized in that the sealing member (50) is made of a flexible rubber material.

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