KR101835812B1 - Dispencer of manufacturing display panel - Google Patents

Abstract

The present invention relates to a dispenser for manufacturing a display panel with a simple structure capable of improving work efficiency by performing continuous work by easily removing a coating liquid remained on a nozzle in real time. The dispenser for manufacturing the display panel comprises: the nozzle (112); an air spray removing unit (116); a sliding unit (118); a suction motor (120); and a dust collecting unit (122). The nozzle (112) is installed on one side of an injecting unit (110) and coats the coating liquid at edges of the display panel (108). The air spray removing unit (116) is separated from the nozzle (112) at a predetermined interval; is slantly installed on the one side of the injecting unit (110); is connected to an air supplying unit (114); sprays air transferred from the air supplying unit (114); and transfers the coating liquid attached to the outside of the nozzle (112) to the dust collecting unit. The sliding unit (118) is separated from the air spray removing unit (116) at the predetermined interval; is slid on the one side of the injecting unit (110); and is forwardly and backwardly moved. The suction motor (120) is separated from the air supplying unit (114) at the predetermined interval; is installed inside a main body (102); and sucks the air. The dust collecting unit (122) is connected to the suction motor (120); is installed in a lower part of the sliding unit (118); sucks the coating liquid remained in the lower part of the nozzle (112) by using the suction motor (120) when the sliding unit (118) is forwardly moved; and collects the coating liquid which is transferred by spraying the air spray removing unit (116).

Description

Dispenser for manufacturing display panel [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dispenser for manufacturing a display panel (for example, LCD, OLED, etc.), and more particularly to a dispenser for manufacturing a display panel The present invention relates to a dispenser for manufacturing a display panel, which improves work efficiency.

In general, an LCD includes an LCD panel in which a lower substrate on which pixels are arranged in a Medix image, and an upper substrate on which a color filter is formed are attached with a liquid crystal therebetween. And a drive IC for applying a voltage to each pixel array on the matrix and supplying a signal for driving the liquid crystal.

The drive IC and the LCD panel are connected and connected. Here, the drive IC, the control circuit for controlling the LCD panel and the drive IC, and the bus line or the backlight are integrated to form a device.

A method of joining an LCD panel and a drive IC for forming the device will be briefly described. First, a TFT (thin film transistor), a lower substrate, an upper substrate, and an LCD panel in which a lower substrate and an upper substrate are bonded with a liquid crystal interposed therebetween are prepared.

At this time, drive pins for driving the gate lines and the data lines formed on the lower substrate are exposed at the edge portions of the lower substrate. And a print circuit board and a data substrate for applying electrical signals to the gate lines and the data lines are provided apart from the LCD panel.

The printed circuit board and the data substrate are connected to driving pins of the lower substrate by TAB (tape automated boning). At this time, a drive IC is mounted on the TAB, a plurality of leads are provided on both sides of the TAB, one of the pins is bonded to the drive pin of the LCD panel, and the other pin is bonded to the printed circuit board and the data substrate. At this time, in order to prevent the occurrence of a short in the subsequent process at the contact portion between the drive pin of the LCD panel and the TAB, and to prevent the deterioration of contact characteristics between the TAB lead and the drive pin, Thereby forming dispensing on the contacted portion. This dispensing is performed by discharging a certain amount of the dispenser through a needle of an injection device containing a liquid coating liquid and curing.

However, when a needle or a nozzle of the injection device is used, there is a problem that the coating liquid remains on the inner end portion and the outer surface of the nozzle and curing occurs.

As a result, the outlet portion of the coating liquid of the nozzle is narrowed, so that continuous application of the coating can not be performed, resulting in a problem that the work efficiency is lowered.

In order to solve the above-mentioned problems, Japanese Patent Application No. 10-2001-0054779 filed on Sep. 6, 2001 (entitled " Cleaning Device for Dispensing Needle ") was filed with the Korean Intellectual Property Office, And an annular first guide groove and a second guide groove are formed on the radially outward side of the exhaust hole of the first housing portion. The first guide groove and the second guide groove are formed on the upper surface, A first block having a plurality of cleaning holes and a plurality of air holes and a cleaning guide hole and an air guide hole communicating with the cleaning hole and the air hole, And a second bolt hole corresponding to the first bolt hole is formed on an upper surface of the second bolt hole, and a second bolt hole corresponding to the first bolt hole is formed on an upper surface of the bolt hole. A second block having a plurality of third guide grooves formed radially in the second annular groove and formed with a washing spray hole communicating with the cleaning hole and the air hole and a plurality of third guide grooves pierced with the air injection hole, A first cover formed with a first through hole corresponding to the two bolt hole on the inner side of the outer circumferential surface, a silicon plate placed on the third hole and having a cut-out portion communicating with the first through hole, And a cover having a second through-hole communicating with the first through-hole at a central portion thereof and having a fourth bolt hole corresponding to the third bolt hole so as to fix the silicon plate to the first cover. A cleaning device for a dispensing needle ".

However, the cleaning device for the dispensing needle (or nozzle) has a complicated structure and can not easily remove the coating liquid remaining on the nozzle mounted on the dispenser in real time.

As a result, the outlet portion of the coating liquid of the nozzle is narrowed, so that continuous application of the coating can not be performed, resulting in a problem that the work efficiency is lowered.

Accordingly, it is an object of the present invention to provide an ink jet recording head capable of easily performing a continuous operation by removing a coating liquid remained on a nozzle in a simple and real time manner, in order to solve all of the above- And to provide a dispenser for manufacturing a display panel that improves work efficiency.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a dispenser for manufacturing a display panel,

A nozzle 112 installed at one side of the injection means 110 to apply the coating liquid to the edge of the display panel 108;

The air supplied from the air supply unit 114 is injected into the nozzle 112 to be supplied to the nozzle 112. The air supplied from the nozzle 112 is supplied to the nozzle 112, ) To the dust collecting means (114);

A sliding portion 118 which is slidably installed at one side of the injection means 110 at a predetermined distance from the air injection dispenser 116 and which is advanced or retracted;

A suction motor 120 installed at one side of the main body 102 at a predetermined interval from the air supply unit 114 and sucking air;

The suction unit 120 is connected to the suction motor 120 and is disposed at a lower end of the sliding unit 118 so as to be positioned below the nozzle 112 when the sliding unit 118 is advanced. And a dust collecting means 122 for sucking the coating liquid remaining in the lower end portion and for collecting the coating liquid sent by the jetting of the air jetting remover 116.

As described above, the dispenser for manufacturing a display panel according to the present invention has a simple structure and low cost.

Particularly, the present invention has the effect of completely removing the coating liquid remaining on the nozzle by including the air jet removing unit and the dust collecting unit.

Therefore, the present invention is capable of performing continuous work, thereby improving work efficiency.

1 is a schematic view of a dispenser for manufacturing a display panel according to the present invention,
FIGS. 2A and 2B are schematic enlarged views of the internal recess of the display panel manufacturing dispenser of FIG. 1,
Fig. 3 is a sectional view of Figs. 2A to 2B,
FIG. 4 is a schematic view of the configuration of the dispenser for manufacturing a display panel of FIG. 1,
Fig. 5 is an enlarged view of the air jet eliminator and dust collecting means of Fig. 3;

Hereinafter, a preferred embodiment of a dispenser for manufacturing a display panel according to the present invention will be described.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a schematic view of a dispenser for manufacturing a display panel according to the present invention, FIGS. 2 (a) to 2 (b) are schematic enlarged views of the internal recess of the dispenser for manufacturing a display panel of FIG. 1, Fig. 4 is a view schematically showing the construction of the dispenser for producing a display panel of Fig. 1, and Fig. 5 is an enlarged view of the air jet removing and collecting means of Fig.

1 to 4, a dispenser 100 for manufacturing a display panel according to the present invention includes:

A body 102;

A support leg 104 provided at a predetermined interval on the bottom surface of the main body 102 to support the main body 102;

A controller 106 installed at one side of the outer surface of the main body 102 to control operation of the dispenser for manufacturing a display panel;

When the display panel 108, which is formed on one side of the inside of the main body 102 and is electrically connected to the control unit 106 and is multi-ply according to a control signal of the control unit 106, is installed inside the main body 102 Injection means 110 for injecting the coating liquid into the nozzle;

A nozzle 112 vertically installed on one side of the injection unit 110 to apply a coating liquid to an edge of the display panel 108;

An air supply unit 110 installed at one side of the interior of the main body 102 at a predetermined interval from the injection unit 110 and electrically connected to the control unit 106 to supply air to the air injection removal unit in accordance with a control signal of the control unit 106, A supply part 114;

The air supplied from the air supply unit 114 is injected into the nozzle 112 to be supplied to the nozzle 112. The air supplied from the nozzle 112 is supplied to the nozzle 112, (116) for removing the coating liquid adhering to the outer surface of the nozzle (110) and sending it to the dust collecting means;

And a control unit 106 which is slidably installed at one side of the injection unit 110 at a predetermined interval from the air injection dispenser 116 and is electrically connected to the control unit 106, A portion 118;

A suction motor 120 installed at one side of the main body 102 at a predetermined interval from the air supply unit 114 and electrically connected to the control unit 106 to suck air according to a control signal of the control unit 106, ;

The suction unit 120 is connected to the suction motor 120 and is disposed at a lower end of the sliding unit 118 so as to be positioned below the nozzle 112 when the sliding unit 118 is advanced. And a dust collecting means 122 for sucking the coating liquid remaining in the lower end portion and for collecting the coating liquid sent by the jetting of the air jetting remover 116.

Here, the intensity of the flow rate of air sucked by the suction motor 120 is larger than the flow rate of the air jetted by the air jet eliminator 116.

As shown in FIG. 5, the dust collecting means 122 includes:

A dust collecting box 124 installed at a lower end of the sliding part 118 and having a through hole (not shown) formed forward and rearward in accordance with the forward or backward movement of the sliding part 118;

The suction port 124 is connected to the front through hole of the dust box 124 and sucks the coating liquid remaining on the lower side of the nozzle 112 positioned below the nozzle 112 when the dust box 124 is advanced. A dust collecting pipe 126 for sucking the coating liquid sent by the air of the air jet removing part 116 and sending it to the dust collecting box 124;

And a transfer pipe 128 which is installed at a rear through hole of the dust collecting box 124 and connected to one side of the suction motor 120 to send the application liquid collected in the dust collecting box 124 to the suction motor 120 do.

It is preferable that the end portion of the dust collecting pipe 126 located below the nozzle 112 has a long structure, that is, a slope as it goes from the upper end to the lower end.

This is because when the lower end of the end of the dust collecting tube 126 is longer than the upper end of the dust collecting tube 126, the dust collecting tube 126 can not only approach the nozzle 112 but also the coating liquid remaining in the lower end of the nozzle 112 It is easy to suck in and it is easy to suck the coating liquid sent by the air of the air jet remover 116.

The assembling process of the dispenser for manufacturing a display panel according to the present invention will be briefly described and the operation will be described as follows.

Here, the assembling process of the dispenser for manufacturing a display panel according to the present invention can be changed as much as possible depending on the assembler.

First, after the main body 102 is positioned, a support leg 104, which is installed on the bottom surface of the main body 102 at a predetermined interval and supports the main body 102, is installed.

A control unit 106 for controlling the operation of the dispenser for producing a display panel is installed on one side of the outer surface of the main body 102.

When the display panel 108 having a plurality of layers is mounted at a predetermined interval from the control unit 106, the injection unit 110 for injecting the coating liquid into the nozzle is installed.

The injection unit 110 is electrically connected to the control unit 106.

A nozzle 112 for applying a coating liquid to the edge of the display panel 108 is installed on one side of the injection means 110.

An air supply unit 114 is installed at one side of the main body 102 at a predetermined interval from the injection unit 110.

The air supply unit 114 is electrically connected to the control unit 106.

An air jet removing part 116 for removing a coating liquid adhering to the outer surface of the nozzle 112 is installed at one side of the injection unit 110 at a predetermined interval from the nozzle 112, 114 to the air jet removing part 116.

The sliding portion 118 is slidably installed at one side of the injection means 110 at a predetermined interval from the air injection dispenser 116.

The sliding portion 118 is electrically connected to the controller 106.

The suction motor 120 is installed at a predetermined interval from the air supply unit 114.

Then, the suction motor 120 is electrically connected to the control unit 106.

Between the suction motor 120 and the sliding portion 118, a coating liquid is positioned below the nozzle 112 and remains at the lower end of the nozzle 112 by the suction motor 120, A dust collecting box 124 for collecting the coating liquid sent by the jetting remover 116 and a dust collecting means 122 including the dust collecting tube 126 and the transfer tube 128 are provided.

Here, the intensity of the flow rate of air sucked by the suction motor 120 is larger than the flow rate of the air jetted by the air jet eliminator 116.

The end portion of the dust collecting pipe 126 located below the nozzle 112 may have an inclined structure with a longer length from the upper end to the lower end.

After the dispenser 100 for manufacturing a display panel according to the present invention is assembled as described above,

The control unit 106 sends a control signal to the injection means 110 when the display panel 108 is mounted on one side of the main body 102.

The injection unit 110 injects a coating liquid (for example, a silicon liquid) into the nozzle 112 in accordance with a control signal from the control unit 106.

The nozzle 112 applies the coating liquid to the corners of the display panel 108 having a plurality of layers. When the nozzle 112 is coated, the coating liquid remains on the inner lower end of the nozzle 112, and the coating liquid adheres to the outer surface of the nozzle 112.

When the application of the nozzle 112 is completed, the control unit 106 sends a control signal to the sliding unit 118, the air supply unit 114, and the suction motor 120.

The sliding portion 118 advances according to the control signal of the controller 106. [

The dust collection box 124 to which the dust collecting pipe 126 is connected advances toward the nozzle 112 as the sliding portion 118 advances. At this time, the dust collecting pipe 126 is positioned below the nozzle 112.

The air supply unit 114 supplies air from the air jet remover 116 in accordance with a control signal from the control unit 106. [

The air jet removing part 116 is installed on one side of the injection unit 110 such that the air jet removing part 116 attaches the air sent from the air supplying part 114 to the outer surface of the nozzle 112 And then sprayed with the coating liquid. At this time, the coating liquid removed from the outer surface of the nozzle 112 drops to the collection tube 126.

The suction motor 120 is driven by a control signal from the control unit 106 to discharge the coating liquid remaining on the inner lower end of the nozzle 112 through the transfer tube 128, the dust collecting box 124, And at the same time sucks the coating liquid sent by the jetting of the air jet remover 116.

Here, the dust collecting pipe 126 sucks the coating liquid remaining in the lower end portion of the nozzle 112, sucks the coating liquid sent by the jetting of the air jetting remover 116, The liquid is sent to the dust collecting box (124).

The dust collecting box 124 sends the collected coating liquid to the transfer pipe 128.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Dispenser for manufacturing display panel
102: main body 104: support leg
106: control unit 108: display panel
110: injection means 112: nozzle
114: air supply unit 116: air jet removing unit
118: sliding portion 120: suction motor
122: dust collecting means 124: dust collecting box
126: Collecting tube 128: Transfer tube

Claims (4)

A nozzle 112 installed at one side of the injection means 110 to apply the coating liquid to the edge of the display panel 108;
The air supplied from the air supply unit 114 is injected into the nozzle 112 to be supplied to the nozzle 112. The air supplied from the nozzle 112 is supplied to the nozzle 112, ) To the dust collecting means (114);
A sliding portion 118 which is slidably installed at one side of the injection means 110 at a predetermined distance from the air injection dispenser 116 and which is advanced or retracted;
A suction motor 120 installed at one side of the main body 102 at a predetermined interval from the air supply unit 114 and sucking air;
The suction unit 120 is connected to the suction motor 120 and is disposed at a lower end of the sliding unit 118 so as to be positioned below the nozzle 112 when the sliding unit 118 is advanced. And a dust collecting means (122) for sucking the coating liquid remaining on the lower end portion and collecting the coating liquid sent by the jetting of the air jet removing portion (116)
The dust collecting means (122)
A dust collection box 124 installed at a lower end of the sliding portion 118 and forward or backward as the sliding portion 118 advances or retracts, the dust collection box 124 having front and rear through holes;
The suction port 124 is connected to the front through hole of the dust box 124 and sucks the coating liquid remaining on the lower side of the nozzle 112 positioned below the nozzle 112 when the dust box 124 is advanced. A dust collecting pipe 126 for sucking the coating liquid sent by the air of the air jet removing part 116 and sending it to the dust collecting box 124;
And a transfer pipe 128 which is installed at the rear through hole of the dust box 124 and connected to one side of the suction motor 120 to send the application liquid collected in the dust box 124 to the suction motor 120 Wherein the dispenser is a dispenser for manufacturing a display panel.




delete delete delete

Images