KR101619196B1 - A nozzle-cleaner - Google Patents

Abstract

The present invention relates to a nozzle cleaning device and, more specifically, to a nozzle cleaning device which has a nozzle cleaning room to improve a mounting structure of a nozzle holder so as to minimize a coupling tolerance when the nozzle holder is coupled to the cleaning device. To this end, provided is the nozzle cleaning device which comprises: a nozzle cleaning room (10) for inserting a nozzle holder (15) into a frame (1) having a housing structure; a water supply unit (20); an air supply unit (30); a decompression discharge unit (40); and a control unit (50). Moreover, the nozzle cleaning device more comprises: a door (60) enabling the nozzle holder (15) to be inserted into the nozzle cleaning room (10); and a control panel (70).

Description

A NOZZLE-CLEANER < RTI ID = 0.0 >

The present invention relates to a nozzle cleaning apparatus, and more particularly, to a nozzle cleaning apparatus having a nozzle clinking chamber that improves a mounting structure of a nozzle holder for minimizing a coupling tolerance when a nozzle holder is coupled to a cleaning apparatus.

A conventional nozzle cleaning apparatus is an apparatus for cleaning a plurality of suction nozzles used when a PCB substrate and an element applied to electronic products are applied by using a vacuum adsorption method during the transfer between processes.

Since most of the adsorption nozzles apply a vacuum adsorption method, foreign substances such as dust adhere to the tip portion of the nozzle, thereby deteriorating the adsorption force. In order to remove the adsorption nozzle, a cleaning liquid or the like is sprayed on the tip portion of the nozzle The cleaning operation is performed.

Accordingly, various cleaning apparatuses have been proposed, but most of them have proposed only a structure for a high-pressure cleaning liquid injection method, and no technology has been proposed to precisely spray the nozzle tip.

The applicant of the present invention has also proposed a technique for preventing tip (TIP) of a plurality of nozzles from being broken during a nozzle cleaning operation. However, regardless of the skill of the operator, the tip of the nozzle can be precisely cleaned A nozzle cleaning apparatus that is capable of cleaning the nozzle surface is required.

In addition, when discharging the used water after supplying the high-pressure water at the time of nozzle cleaning, most of the water is discharged by the direct water system, so that the water is discharged to the outside of the apparatus, .

Accordingly, there is a need to develop a nozzle cleaning apparatus that overcomes the above problems.

Korean Registered Patent No. 10-1391251 (Nozzle holder for nozzle cleaning device, registered on Apr. 24, 2014) Korean Registered Patent No. 10-1159497 (Adsorption nozzle cleaning device for device mounting, registered on June 18, 2012) Korean Registered Patent No. 10-0975216 (Adsorption Nozzle Cleaning Device for Electronic Component Mounting, registered on Aug. 04, 2010)

When a nozzle holder capable of mounting a plurality of nozzles is applied to a nozzle cleaning apparatus, a nozzle for minimizing a coupling tolerance by allowing a tip of the nozzle to precisely correspond to a cleaning liquid injector of a cleaning apparatus, And a cleaning room.

In order to achieve the object of the present invention, there is provided a nozzle cleaning apparatus for mounting a plurality of nozzles and performing a cleaning operation, the nozzle cleaning apparatus comprising: a plurality of nozzles disposed in front of an inner lower end of a frame (1) A nozzle cleaning chamber 10 into which a nozzle holder 15 is inserted and a water supply unit 20 provided at a lower end of the nozzle cleaning chamber 10 for supplying a cleaning liquid to the nozzle holder 15, (30) for supplying cold air or hot air for drying the nozzle after cleaning to the nozzle holder (15), and an air supply part (30) located on the inner lower back side of the frame (1) Pressure discharge unit 40 for decompressing and discharging the high-pressure air and the washing water discharged from the room 10 to the outside, the amount of the washing water supplied to the nozzle cleaning room 10, the supply time, the temperature And cold air or hot air Of the nozzle is provided Cleveland function device being configured as a control portion 50 for controlling the supply time.

The nozzle holder 15 is formed in a plate shape in which a plurality of nozzle mounting holes 151 capable of mounting nozzles are formed and a guide groove 152 is formed concavely in the longitudinal direction of both sides of the bottom surface portion, The nozzle cleaning chamber 10 for drawing the holder 15 is formed inside the receiving portion for receiving the nozzle holder 15 inside and has an opening 111 on one side for inserting the nozzle holder 15, An upper washer fluid ejection opening 114 corresponding to the nozzle mounting hole 151 is disposed in the inner upper portion and a lower washing liquid ejection opening 116 corresponding to the nozzle mounting hole 151 is disposed in the lower end portion, A support jaw 112 is formed to support the nozzle holder 15 and one side of the support jaw 112 corresponds to the guide groove 152. A nozzle mounting hole 151 is formed in the upper cleaning liquid ejection opening 114 and the lower side A ball flange 113 for guiding the precise positioning of the cleaning liquid jetting port 116 ).

In this case, the guide groove 152 corresponds to the ball flange 113, and when the nozzle holder 15 is inserted into the nozzle cleaning room 10, the ball flange 113 is inserted so that the position of the nozzle holder 15 The guide groove 152 is formed to extend forward from the rear of the nozzle holder 15 and is formed to be smaller than the longitudinal length of the nozzle holder 15 The ball flange 113 prevents the nozzle flange 113 from being inserted more deeply than the outer surface of the nozzle cleaning chamber 10 when the nozzle holder 15 is inserted into the nozzle cleaning chamber 10, And is supported by the elastic body 113a so that the nozzle holder 10 can be pushed into the nozzle cleaning room 10. [

The water supply unit 20 further includes a heater and a water supply pump to supply the cleaning liquid to the nozzle holder 15 at a high pressure. The air supply unit 30 includes an air enclosure A heater 32 inserted into the air enclosure 31 and an air inlet 33 provided on a side surface of the enclosure 31 and an air outlet 35 formed on the opposite side of the air inlet 33, .

At this time, a temperature sensor 34 is provided at one side of the rear side of the air enclosure 31, and the inner space of the air enclosure 31 is partitioned into two sections by the partition plate 36 The outer air introduced into the air enclosure 31 through the air inlet 33 is heated by the heater 32 and then discharged to the air outlet 35. The partition plate 36 is disposed on the inner upper side of the air enclosure 31, And a part of the lower end portion is opened so that the air introduced into the inside is convected by the partition plate to be heated more easily.

The lower portion of the front portion is formed with an inlet 41 through which the cleaning liquid and the high-pressure air are introduced, and the lower portion of the front portion is formed with an inlet And a discharge port (42) for discharging the cleaning liquid and the air are formed in the nozzle cleaning device.

By providing the present invention, when a nozzle holder capable of mounting a plurality of nozzles is applied to a nozzle cleaning apparatus, irrespective of skill of a worker, tips of nozzles can be precisely matched to a cleaning liquid spraying apparatus of a cleaning apparatus, The tolerance can be minimized, and the working efficiency can be maximized.

1 is a perspective view of a nozzle cleaning apparatus according to the present invention.
2 is a perspective view showing the internal structure of the present invention.
3 is a side view showing the internal structure of the present invention.
4 is a rear perspective view showing the internal structure of the present invention.
5 is an exploded perspective view of the nozzle cleaning chamber 10 according to the present invention.
6 is a front view of the nozzle cleaning chamber 10 according to the present invention.
7 is a bottom view of the nozzle holder 15 according to the present invention.
8 is a rear view of the nozzle holder 15 according to the present invention.
9 is a rear perspective view of the air supply unit 30 according to the present invention.
10 is a perspective view showing the internal structure of the air supply unit 30 according to the present invention.
11 is a cross-sectional view illustrating the internal structure of the air supply unit 30 according to the present invention.
12 is a perspective view of the reduced-pressure outlet 40 according to the present invention.
13 is a sectional view showing the internal structure of the reduced-pressure discharge port 40 according to the present invention.

The nozzle cleaning apparatus of the present invention is a device for cleaning a plurality of suction nozzles to be used when a PCB substrate and an element applied to an electronic product are applied by using a vacuum adsorption method during transfer between processes.

Hereinafter, the nozzle cleaning apparatus of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention.

1 is a perspective view of a nozzle cleaning apparatus according to the present invention, FIG. 2 is a perspective view showing an internal structure of the present invention, FIG. 3 is a side view showing an internal structure of the present invention, And FIG.

1 to 4, the nozzle cleaning apparatus includes a nozzle cleaning room 10 for inserting a nozzle holder 15 inside a frame 1 of an enclosure structure, a water supply part 20, A door 60 and a control panel 70 which are composed of a supply unit 30, a decompression discharge unit 40 and a control unit 50 and allow the nozzle holder 15 to be introduced into the nozzle cleaning room 10 Respectively.

The nozzle cleaning chamber 10 is positioned in front of the lower end of the frame 1 and a nozzle holder 15 capable of mounting a plurality of nozzles therein is inserted to supply a cleaning liquid and air to the nozzles, And the like are washed and dried.

The water supply unit 20 provided at the lower end of the nozzle cleaning chamber 10 for supplying the cleaning liquid includes a heating device (not shown) to supply the hot water by heating the washing water or the like, will be.

At this time, the washing water supplied from the water supply unit 20 supplies the washing solution to the nozzles through the washing solution supply holder 115 formed on one side of the nozzle cleaning room 10.

The water supply unit 20 includes a heater and a water supply pump (not shown) to supply the cleaning liquid to the nozzle holder at a high pressure.

An air supply unit 30 located at an inner upper portion of the frame 1 for supplying cold air or hot air to the nozzle holder 15 to be inserted into the nozzle cleaning room 10 to dry the nozzle after cleaning, The amount of cleaning water supplied to the nozzle cleaning chamber 10, the supply time, the temperature and the temperature of the cleaning water supplied to the nozzle cleaning chamber 10 when the high-pressure air and the cleaning water discharged from the room 10 are discharged to the outside, A door 60 is provided at the lower end of the front surface of the frame 1 to allow the nozzle holder 15 to be inserted into the nozzle cleaning chamber 10, And a control panel 70 is further provided on the upper side.

6 is a front view of the nozzle cleaning chamber 10 according to the present invention. FIG. 7 is a bottom view of the nozzle holder 15 according to the present invention. FIG. 6 is a front view of the nozzle cleaning chamber 10 according to the present invention. And Fig. 8 is a rear view of the nozzle holder 15 according to the present invention.

5 to 8, the nozzle cleaning chamber 10 includes a nozzle holder 15 capable of mounting a plurality of nozzles and a receiving portion for receiving the nozzle holder 15 inwardly And the nozzle holder 15 is formed in a plate shape in which a plurality of nozzle mounting holes 151 are disposed so as to be mounted by inserting nozzles on one side.

Guide grooves 152 are formed in the longitudinal direction on both sides of the bottom surface of the nozzle holder 15 and a flange groove 152a corresponding to the ball flange is formed on one side of the guide groove 152.

The guide groove 152 is formed to be smaller than the length of the side surface of the nozzle holder 15 when the guide groove 152 is formed in the longitudinal direction on both sides of the bottom surface of the nozzle holder 15.

More specifically, the nozzle holder 15 is recessed toward the front side on the rear side of the bottom surface.

The front side of the guide groove 152 is formed to be spaced apart from the front side by a predetermined distance so that the length of the guide groove 152 is smaller than the length of the nozzle holder 15.

This is to prevent the nozzle holder 15 from being inserted to a certain depth or more, that is, to be inserted more deeply than the outer surface of the nozzle cleaning chamber 10, when the nozzle holder 15 is inserted into the nozzle cleaning chamber 10.

The nozzle cleaning chamber 10 to which the nozzle holder 15 is inserted and inserted is formed with an opening 111 at one side for interpolating the nozzle holder 15 and corresponds to the nozzle mounting hole 151 at the inside upper portion And a supporting protrusion 112 for supporting the nozzle holder 15 is formed on both sides of the lower end of the nozzle.

At this time, a ball flange 113 corresponding to the guide groove 152 and the flange groove 152a is further provided at one side of the support jaw 112. [

When the nozzle holder 15 is inserted into the nozzle cleaning chamber 10, the ball flange 113 is partly inserted into the inside of the support jaw 112 and is supported by the elastic body 113a. And is formed to correspond to the guide groove 152.

 A plurality of the ball flanges 113 are provided on the support jaws 112 to correspond to the guide grooves 152.

Further, on the side surface of the nozzle cleaning room 10, a cleaning liquid supply holder 115 for supplying a cleaning liquid to an inside of the cleaning liquid jetting port is formed.

At this time, the cleaning liquid supply holder 115 is arranged to correspond to the nozzle mounting hole 151 of the nozzle holder 15.

As described above, the ball flange 113 is provided to support the nozzle holder 15 when mounting the nozzle holder 15, which can mount and clean the conventional nozzle, on the nozzle cleaning apparatus, The upper cleaning liquid injection opening 114, and the like.

When the nozzle holder 15 is inserted into the nozzle cleaning chamber 10 by the ball flange 113 configured to support and rotate the nozzle holder 15 when the nozzle holder 15 is mounted in the nozzle cleaning chamber 10, And the ball flange 113 is inserted into the flange groove 152a formed in the guide groove 152 so that the position of the nozzle holder 15 can be fixed.

The guide groove 152 of the nozzle holder 15 is recessed inwardly in a circular shape corresponding to the ball of the ball flange 113 and has a flange groove 152a formed at one side of the guide groove 152, The ball flange 113 is recessed inwardly in a semispherical shape so as to correspond to a shape protruding outward from the support step 112. [

The upper cleaning liquid injection openings 114 disposed at the inner upper end of the nozzle cleaning chamber 10 are arranged in three rows according to the arrangement of the nozzle mounting holes 151 of the nozzle holder 15.

Further, a side clearing jetting port 117 is further provided so as to be adjacent to the upper cleaning liquid jetting port 114 to clear the side surface of the nozzle holder 15.

The lower cleaning liquid injection opening 116 corresponding to the nozzle mounting hole 151 of the nozzle holder 15 is further formed on the inner lower end surface of the nozzle cleaning chamber 10.

The lower washing liquid ejection opening 116 supplies the washing liquid supplied from the water supply unit 20 to the lower end of the nozzle mounted on the nozzle holder 15.

The upper washing liquid injecting opening 114 and the lower washing liquid injecting opening 116 are formed not only by the water for washing liquid supplied through the water supplying unit 20 but also by the air for drying the nozzle after supplying water through the air supplying unit 30 .

10 is a perspective view illustrating the internal structure of the air supply unit 30 according to the present invention. FIG. 11 is a perspective view of the air supply unit 30 according to the present invention. Sectional view for illustrating the internal structure of the semiconductor device of FIG.

9 to 11, the air supply unit 30 according to the present invention includes a space formed inside thereof to supply the introduced external air to the upper cleaning liquid of the nozzle cleaning chamber 10 And supplies it to the injection port 114 and the lower cleaning liquid ejection port 116.

The air supply unit 30 includes an air enclosure 31 forming a space inside the air supply unit 30, a heater 32 interposed between the air enclosure 31 and the air inlet 33 provided on the side surface of the enclosure 31, An exhaust port (35) is formed on the opposite side of the side surface on which the suction port (33) is formed.

A temperature sensor 34 is provided at one side of the rear surface of the air enclosure 31 to sense temperature.

The inner space of the air enclosure 31 is partitioned into two sections by the partition plate 36 so that outside air introduced into the air enclosure 31 through the air inlet 33 is heated through the heater 32, And is discharged to the exhaust port 35.

Here, the partition plate 36 is formed to extend from the inner upper end of the air enclosure 31 in the lower end direction, and a part of the lower end thereof is opened, so that the air introduced into the inside is convected by the partition plate to be heated more will be.

A conventional electric heater is used as the heater 32. In the present invention, the 'U' shape is shown as an example. However, the present invention is not limited thereto and any heating means capable of supplying heat can be used.

Further, the temperature sensor 34 is used to control the temperature of the heated air.

The heated high temperature air is supplied to the lower cleaning liquid jetting port 116 and the unheated external air is supplied to the upper cleaning liquid jetting port 114 positioned above to dry the cleaning liquid jetted to the nozzle .

FIG. 12 is a perspective view of the reduced pressure discharge unit 40 according to the present invention, and FIG. 13 is a sectional view showing the internal structure of the reduced pressure discharge unit 40 according to the present invention.

12 and 13, the decompression discharge unit 40 discharges the high-temperature and high-pressure cleaning liquid and air to the outside of the frame 1 after cleaning and drying the nozzle in the nozzle holder 15 An inlet 41 is formed at the lower end of the front portion and an outlet 42 is formed at the upper end of the rear portion.

The decompression discharge unit 40 reduces the pressure of the high-temperature and high-pressure cleaning liquid and the air introduced through the inlet 41 into the inner space and discharges it to the discharge port 42.

In more detail, the pressure of the cleaning liquid and the air flowing through the inlet 41 at high temperature and high pressure is reduced in the widened internal space.

Further, the inlet 41 is further provided with an inlet pipe 41a which is coupled to the nozzle cleaning chamber 10 at one side thereof to discharge the cleaning liquid and air.

The decompression discharge unit 40 discharges water including air at the initial stage of discharge and discharges only the air after a certain period of time. The air discharged at the initial stage includes a cleaning liquid for cleaning the nozzle, After that, air for drying is supplied, so that only air containing no water such as a cleaning liquid is discharged.

When only air is discharged after a predetermined period of time as described above, the water of the initial air discharged together with water remains in the interior of the reduced pressure discharge unit 40 and is vaporized by the high temperature air discharged thereafter, So that the phenomenon of splashing water to the outside can be prevented.

The present invention can be completed by providing a nozzle cleaning apparatus having the above-described structure.

1: Frame 10: Nozzle Cleaning Room
15: nozzle holder 20: water supply part
30: air supply unit 31: air enclosure
32: heater 33: intake port
34: temperature sensor 35: exhaust port
36: partition plate 40: decompression discharge unit
41: inlet 41a: inlet tube
42: outlet 50:
60: Door 70: Control panel
111: opening 112: supporting jaw
113: ball flange 114: upper cleaning liquid nozzle
115: Cleaning liquid supply holder 116: Lower cleaning liquid nozzle
117: jet opening for side clearance 151: nozzle mounting hole
152: Guide groove 152a: Flange groove

Claims (11)

1. A nozzle cleaning apparatus for mounting a plurality of nozzles and performing a cleaning operation,
A nozzle cleaning room 10 into which a nozzle holder 15 capable of mounting a plurality of nozzles is drawn in;
A water supply unit 20 for supplying a cleaning liquid to the nozzle holder 15 of the nozzle cleaning chamber 10;
An air supply unit 30 for supplying cold air or hot air for drying the nozzle after washing to the nozzle holder 15;
And a pressure reducing space is formed inside the nozzle cleaning chamber 10 to discharge the high pressure air and the washing water discharged from the nozzle cleaning chamber 10 to the outside. And a discharge port (42) for discharging the cleaning liquid and the air to the outside is formed at the upper end of the back surface portion. And
And a controller (50) for controlling the amount of cleaning water supplied to the nozzle cleaning chamber (10), the supply time, the temperature, and the supply time of the cold air or the hot air.
The method according to claim 1,
The nozzle holder 15 is formed in a plate shape in which a plurality of nozzle mounting holes 151 capable of mounting nozzles are formed and guide grooves 152 are formed concavely in the longitudinal direction of both sides of the bottom surface portion
The nozzle cleaning chamber 10 for drawing the nozzle holder 15 is formed inside the receiving portion for drawing the nozzle holder 15 inwardly and has an opening for receiving the nozzle holder 15 And an upper cleaning liquid ejection opening 114 corresponding to the nozzle mounting hole 151 is disposed in an inner upper portion and a lower cleaning liquid ejection opening 116 corresponding to the nozzle mounting hole 151 is disposed in a lower end portion, And a supporting jaw 112 is formed on both sides to support the nozzle holder 15. One side of the supporting jaw 112 corresponds to the guide groove 152 and a nozzle mounting hole 151 is formed in the upper washing liquid ejection opening 114, And a ball flange (113) guiding the nozzle to precisely position the nozzle in the lower cleaning liquid ejection opening (116).
3. The method of claim 2,
The guide groove 152 corresponds to the ball flange 113 and the ball flange 113 is inserted when the nozzle holder 15 is inserted into the nozzle cleaning chamber 10 to fix the position of the nozzle holder 15 And a flange groove (152a) is formed to allow the nozzle to be cleaned.
3. The method of claim 2,
The guide groove 152 is formed to extend forward from the rear of the nozzle holder 15 and is formed to be smaller than the length of the nozzle holder 15 so that the nozzle holder 15 is inserted into the nozzle cleaning chamber 10 Wherein the nozzle cleaning unit is configured to prevent the nozzles from being inserted into the nozzle cleaning room at a depth greater than the outer surface of the nozzle cleaning chamber.
3. The method of claim 2,
The ball flange 113 is partly inserted into the inside of the support jaw 112 and is supported by the elastic body 113a so that the nozzle holder 10 can be pushed into the nozzle cleaning chamber 10 .
The method according to claim 1,
Wherein the water supply unit (20) further comprises a heating device and a water supply pump to supply the hot water cleaning liquid to the nozzle holder (15) at a high pressure so as to enhance the nozzle cleaning effect.
The method according to claim 1,
The air supply unit 30 includes an air enclosure 31 forming an inner space and a heater 32 interposed between the air enclosure 31 and the air inlet 33 provided on the side surface of the enclosure 31, And an exhaust port (35) is formed on the opposite side of the side surface on which the nozzle (33) is formed, so that the nozzle after the cleaning can be dried more easily.
8. The method of claim 7,
Wherein a temperature sensor (34) capable of sensing a temperature is further provided at one side of the rear surface of the air enclosure (31).
8. The method of claim 7,
The inner space of the air enclosure 31 is partitioned into two sections by a partition plate 36 so that the outside air introduced into the air enclosure 31 through the intake port 33 is heated by the heater 32, 35, the partition plate 36 is formed to extend in the lower end direction from the inner upper end of the air enclosure 31, and a part of the lower end portion thereof is opened so that the air introduced into the inside is convected inward by the partition plate So as to be heated more easily.
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