KR100693780B1 - Apparatus for coating material - Google Patents

Abstract

Disclosed is a liquid coating apparatus which improves the structure of an alignment unit for aligning a coated object to which liquid is applied. The liquid coating apparatus is mounted on the mounting plate to be coated with the liquid, and moved in contact with the guide member while being moved by the movement of the mounting plate is aligned. Therefore, the alignment of all the workpieces is possible regardless of the shape of the workpiece.

Description

Liquid Coating Device {Apparatus for coating material}

1 is a front view of a liquid coating device according to an embodiment of the present invention.

2 is a side view of FIG. 1;

Figure 3 is an enlarged view of the coating unit shown in FIG.

4A, 4B and 4C are a plan view, a front view and a side view showing that the alignment unit of the liquid coating device according to an embodiment of the present invention is located in the original position.

5a and 5b are a plan view and a front view showing a state in which the alignment unit of the liquid coating device according to an embodiment of the present invention moved to the left.

6a and 6b are a plan view and a side view showing a state in which the alignment unit of the liquid coating apparatus according to an embodiment of the reverse state.

7 is a perspective view of the extraction jig used in the present invention.

Explanation of symbols on the main parts of the drawings

110: base 130: cylinder block

200: alignment unit 210: forward and backward movement plate

220: mounting plate 231,235: first and second cylinder

240: guide member 300: coating unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid coating apparatus for applying a liquid to a coated object, and more particularly, to an alignment unit of a liquid coating apparatus having an improved structure of an alignment unit of a coated object.

Chip on glass (COG) is mounted on the gate and data drive regions of the LCD panel including the upper panel and the lower panel and liquid crystals injected therebetween. In addition, the COG is combined with a flexible printed circuit (FPC) for applying power and a control signal to form an LCD module.

Ultraviolet curable silicone, which is a liquid for protecting the LCD module against external shock, is applied to the gate and data drive areas except for the COG and FPC combinations of the LCD module.

The UV curable silicone is applied by applying UV curable silicone temporarily stored in the applicator to the LCD module through a nozzle, and usually an automated coating apparatus is used.

However, the conventional silicone coating device is applied in such a manner that the coating is completed on one LCD module and applied on the next LCD module. However, this method has a problem in that the application rate is low and the productivity is lowered.

Even if this improves the moving speed of the nozzle, this is limited because the amount of silicon injected through the nozzle is limited.

In order to improve this, it is possible to simultaneously apply a liquid to a plurality of coated objects such as an LCD module and the like, and a liquid coating apparatus and an application method which reduce the application time by increasing the injection amount are disclosed in Korean Patent Application No. 2003 -18212. However, the coating device as described above is a method of aligning the coated object by pushing a coated object such as an LCD module, etc., and thus there is a disadvantage in that the coated object cannot be aligned according to the shape of the coated object.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to provide a liquid coating apparatus that can align the object to be coated without being limited in the shape of the object to be coated.

Liquid coating apparatus according to the present invention for achieving the above object is a base; A plurality of coated objects to which a liquid is applied are mounted, and an alignment unit which moves and aligns the mounted objects by their movement; And a coating unit which is installed on the alignment unit so as to be movable on the upper side of the alignment unit, each having the applicator corresponding to the plurality of coated objects, and simultaneously applying liquid to a predetermined portion of the coated object.

Hereinafter, with reference to the accompanying drawings will be described in detail a liquid coating apparatus according to an embodiment of the present invention. For convenience of description, the object to be coated takes an LCD module as an example, and the liquid to be applied will be described using UV curable silicone as an example.

1 is a front view of a liquid coating device according to an embodiment of the present invention, Figure 2 is a side view of Figure 1, it will be described.

As shown in the drawing, a base 110 having a button 111 for transmitting a control signal to the controller is provided on the upper surface of the main body 100 in which the controller is embedded.

On the upper surface of the base 110, there is provided an alignment unit 200 in which an LCD module 50 (see FIG. 4A), which is a coated object coated with UV curable silicone, is mounted and aligned. At least one alignment unit 200 is preferably installed for continuity of work. That is, while the coating operation is performed on the LCD module 50 aligned to any one of the alignment units 200, the other alignment unit 200 is supplied with the LCD module 50, and the operation is continuously performed. do.

Support posts 120 are vertically installed at both sides of the base 110, and support bars 125 are horizontally installed at the support posts 120. The cylinder bar 130 is installed on the support bar 125 so as to be movable in a horizontal direction, that is, in a horizontal direction, and the coating unit 300 is installed in the cylinder block 130 so as to be movable in an arbitrary direction.

The coating unit 300 is installed on the upper side of the alignment unit 200, as shown in Figure 3, the support bracket 310 and the plurality of applicator 320 coupled at a set interval on the support bracket 310 Have Each applicator 310 is connected to a line (not shown) for supplying UV curable silicone and air, respectively.

In addition, a nozzle 322 is coupled to each applicator 320, and the nozzle 322 preferably uses a hopper type nozzle having a needle portion of a hopper shape.

The alignment unit 200 of the liquid coating apparatus according to the present embodiment may accurately align the LCD module 50 regardless of the shape of the LCD module 50, which will be described with reference to FIGS. 4A to 4C. 4A, 4B and 4C are a plan view, a front view and a side view showing that the alignment unit of the liquid coating device according to an embodiment of the present invention is located in the original position.

As shown, the alignment unit 200 is a mounting plate 220, the first cylinder 231, the second cylinder is mounted on the front and rear movement plate 210, a plurality of LCD modules 50 coated with UV curable silicone 235 and a plurality of guide members 240.

The front and rear movement plate 210 is slidably installed back and forth on the base 110 or the fixed plate 250 fixed to the base 110. To this end, a first male rail 261a is installed in the front-rear direction on an upper surface of the base 110 or the fixed plate 250, and a first male rail 261a is provided on the bottom of the front-rear movement plate 210. A first magnetic rail 261b which is slidably inserted is provided. In addition, the upper surface of the base 110 or the fixing plate 250 is formed with an internal path 255 into which the first male rail 261a is inserted.

The mounting plate 220 is installed on the upper surface of the front and rear movement plate 210 to be slid left and right, and is moved back and forth by the front and rear movement plate 210. A second male rail 265a is installed in the left and right directions on the upper surface of the front and rear movement plate 210, and a second jail rail 265b is slidably inserted into the second male rail 265a in the bottom surface of the mounting plate 220. ) Is installed, so that the mounting plate 220 smoothly slides from side to side on the top surface of the front and rear movement plate 210. In addition, the upper surface of the front and rear movement plate 210 is formed with a tooth path 225 in which the second male rail 265a is inserted.

The first cylinder 231 is fixed to the upper surface of the front and rear movement plate 210 to move the mounting plate 220 to the left and right. Then, the second cylinder 235 is fixed to the base 110 or the fixed plate 250 to move the front and rear movement plate 210 back and forth. Since the front and rear movement plate 210 is moved back and forth by the second cylinder 235, the mounting plate 220 is also moved back and forth. Therefore, the LCD module 50 mounted on the mounting plate 220 is moved left and right and back and forth by the mounting plate 220.

The guide member 240 is fixed to the base 110 or the fixed plate 250 to be positioned above the mounting plate 220. The guide member 240 may be fixed to the fixing bracket 245 fixed to the base 110 or the fixing plate 250. The guide member 240 contacts the LCD module 50 which is mounted and moved on the mounting plate 220 to guide the LCD module 50 to be aligned on the upper surface of the mounting plate 220.

In detail, the guide member 240 is formed in an approximately ┎ shape having a vertical bar 241 and a horizontal bar 242, and the bottom surface of the guide member 240 is almost in contact with the top surface of the mounting plate 220. Is located close. Thus, when the mounting plate 220 moves to the left side by the first cylinder 231, one side of the plurality of LCD modules 50 mounted on the mounting plate 220 may be vertical bars 241 of the guide member 240. And the rear plate of the plurality of LCD modules 50 mounted on the mounting plate 220 when the mounting plate 220 is moved to the rear side by the front and rear movement plate 210 which is in contact with each other and moved by the second cylinder 235. Are in contact with the horizontal bar 242 of the guide member 240, respectively. In this way, the plurality of LCD modules 50 are aligned, respectively.

The LCD module 50 mounted on the mounting plate 220 should be adsorbed on the upper surface of the mounting plate 220 so that the LCD module 50 can be easily aligned. As a result, an adsorption hole 221 is formed on the upper surface of the mounting plate 220 to communicate with the vacuum pump (not shown) to adsorb the LCD module 50.

The operation of the liquid ejecting apparatus according to the present embodiment will be described with reference to FIGS. 4A to 6B.

Assume that the state shown in Figs. 4A to 4C is an initial state. In the initial state, the LCD module 50 to apply UV curable silicon is absorbed by the extraction jig 400 illustrated in FIG. 7, and the LCD module 50 is mounted on the upper surface of the mounting plate 220. At this time, by adjusting the interval between the suction plate 410 and the guide member 240 so that the interval between the suction plate 410 of the extraction jig 400 and the guide member 240, the extraction jig 400 Each LCD module 50 adsorbed on the suction plate 410 is mounted in a space formed by each guide member 240. After mounting the LCD module 50 on the mounting plate 220, the above-described vacuum pump is operated so that the LCD module 50 does not flow to suck the LCD module 50 on the upper surface of the mounting plate 220.

Thereafter, air pressure is applied to one side of the first cylinder 231, and as shown in FIGS. 5A and 5B, when the piston 231a of the first cylinder 231 is moved to the left side, the mounting plate 220 moves to the left side. Is moved. Then, the left surface of the LCD module 50 mounted on the mounting plate 220 is in contact with the vertical bar 241 of the guide member 240 by moving the mounting plate 220 so that the LCD module 50 is vertically moved. Aligned.

Thereafter, the air pressure is applied to one side of the second cylinder 235, and as shown in FIGS. 6A and 6B, when the piston 235a of the second cylinder 235 is moved to the rear side, the mounting plate 220 moves to the rear side. do. Then, the rear surface of the LCD module 50 mounted on the mounting plate 220 is in contact with the horizontal bar 242 of the guide member 240 by moving the mounting plate 220 to align the LCD module 50 horizontally. do.

When the alignment of the LCD module 50 is completed as described above, the coating unit 300 (see FIG. 1) is moved to apply the UV curable silicone to the LCD module 50. While the UV curable silicone is applied to the LCD module 50 aligned to any one alignment unit 200, the LCD module 50 may be aligned to the other alignment unit 200. Then, when the application to the LCD module 50 aligned with any one of the alignment unit 200 is completed, the coating unit 300 may be moved to the other alignment unit 200 side to apply.

As described above, the liquid coating apparatus according to the present invention is mounted on the mounting plate to be coated with the liquid, is aligned by contacting the guide member while being moved by the movement of the mounting plate. Therefore, the alignment of all the workpieces is possible regardless of the shape of the workpiece.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those skilled in the art to which the present invention pertains have been changed and modified without departing from the spirit of the present invention. Of course.

Claims (3)

A base and a plurality of coated objects to which the liquid is applied are mounted, an alignment unit which moves and aligns the mounted workpiece by its movement, and a coating corresponding to the plurality of coated objects, respectively. A liquid coating apparatus having a coating unit which is installed to be movable above the alignment unit with a group and simultaneously applies a liquid to a predetermined portion of the object to be coated; The alignment unit, A front and rear moving plate installed on the base so as to slide back and forth; A mounting plate mounted on the front and rear movement plates to mount the plurality of workpieces and to move left and right and to move back and forth by the front and rear movement plates; A first cylinder fixed to the front and rear moving plate to move the mounting plate from side to side; A second cylinder fixed to the base to move the front and rear movement plates back and forth; A plurality of guide members fixed to the base so as to be positioned above the mounting plate and in contact with the plurality of workpieces moved by the mounting plate to guide the plurality of workpieces to be aligned on the mounting plate, respectively. Liquid coating apparatus comprising a. The method of claim 1, On the upper surface of the base and the upper surface of the front and rear movable plate, the first male rail and the second male rail are respectively installed in the front-rear direction and the left-right direction, The first magnetic rail and the second magnetic rail, which are inserted into the first male rail and the second male rail and slide in the bottom of the front and rear movable plates and the bottom of the mounting plate, are respectively fixed. Liquid carrier device characterized in that the upper surface of the base and the upper surface of the front and rear movement plate is formed with an inner passage each of which the first male rail and the second male rail is inserted. delete

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