KR100492302B1 - Liquid crystal display panel vacuum absorption apparatus - Google Patents

Abstract

In the liquid crystal panel vacuum adsorption apparatus of the present invention, an elongated groove 12 is formed on one side thereof, and a vacuum suction hole 15 is formed on the other side of the liquid crystal panel vacuum adsorption apparatus 12, and the elongated groove 12 is formed. A block 10 in which the space portion 14 is formed in a sealed form between one side surface formed and the other side surface where the vacuum suction hole 15 is formed, and a vacuum pad body portion in the space portion 14 of the block 10. (21) is located, the upper portion of the body portion 21 is exposed from the elongated groove 12 of the block 10 to form a seating portion 22 to support the liquid crystal panel 2, The side portion of the body portion 21 adjacent to the seating portion 22 is formed with a flange portion 28 so as to be caught by the elongated groove 12 when the seating portion 22 is exposed, the seating portion 22 The lower portion of the body portion 21 that is located against the insertion portion 29 is formed, the mounting portion 22 and the insertion portion 29 with both ends through the body portion 21 through the vacuum suction pipe (26) The vacuum pad 20 and the insertion portion 19 of the vacuum pad 20, which is formed, one side is in close contact with the insertion portion 29 side of the vacuum suction pipe 26 and the other side is the space It is composed of an elastic pad 30 installed in close contact with the bottom surface 16 of the portion (14).

According to the present invention, after the transferred liquid crystal panel is supported on the seating portion of the vacuum pad, as the vacuum pad and the divided elastic pad are deformed, the liquid crystal panel is gradually lowered and seated on the upper surface of the block, thereby preventing defects during vacuum adsorption. It has an effect that can be prevented.

Description

Liquid crystal panel vacuum adsorption device {LIQUID CRYSTAL DISPLAY PANEL VACUUM ABSORPTION APPARATUS}

The present invention relates to a vacuum adsorption device, and more particularly, in an automatic probe unit which is a lighting inspection device for a liquid crystal panel, a detachable pad accommodated in a block of a work table for fixing the liquid crystal panel is deformed during vacuum adsorption. The present invention relates to a liquid crystal panel vacuum adsorption device which can prevent a defect in vacuum adsorption while being completely adhered to a block.

As is well known, glass substrates used in the manufacture of flat panel displays such as TFT-LCD (Thin Film Transistor-Liquid Crystal Display), PDP (Plasma, Display Panel) and EL (Electro Luminesent) are 1100mm long and horizontal. 1250mm, 0.5-1mm thickness is gradually being enlarged and thinned, and the liquid crystal panel made of such glass substrate is a lighting test is performed at the final stage of the manufacturing line, the lighting test of the liquid crystal panel using an automatic probe unit The disconnection inspection and color inspection of each data line and gate line of a panel are performed, and visual inspection using a microscope etc. is performed in addition to this.

The loading of the liquid crystal panel to the automatic probe unit is performed by a separate loading equipment, and the loading equipment supplies the liquid crystal panel to the work table of the automatic probe unit which normally fixes the liquid crystal panel by using a vacuum adsorption method.

In such an automatic probe unit, it is very important to accurately fix the liquid crystal panel to the work table because it has a significant effect on the contact process of applying an electrical signal to inspect the liquid crystal panel in a later process.

In addition, as the size of the liquid crystal panel is gradually increased, the accuracy of the worktable for fixing the liquid crystal panel is also increasing, and accordingly, the worktable is manufactured according to the size of the desired liquid crystal panel. Difficulties in processing due to the increase in size and the problem of not being able to guarantee the accuracy of the work table itself, which may cause problems in fixing and contacting the liquid crystal panel, thereby manufacturing blocks suitable for the size of the liquid crystal panel, A large liquid crystal panel was fixed by combining a vacuum unit capable of fixing the liquid crystal panel to this block.

In the conventional vacuum adsorption method, when the transferred liquid crystal panel is seated on the work table, the liquid crystal panel is aligned by an alignment device, and then vacuum is generated on the work table to fix the liquid crystal panel.

However, in the related art, as shown in FIG. 1, a plurality of vacuum suction units 6 are provided at the edges of the work table 4, and after the liquid crystal panel 2 is seated on the work table 4, the naked eye When the liquid crystal panel is vacuum-adsorbed through the vacuum adsorption unit 6 for inspection, as the liquid crystal panel is enlarged in size, the liquid crystal panel is deflected due to its deflection due to its own weight. As shown in FIG. 2, a gap may occur between the liquid crystal panel 2 and the vacuum suction part 6 of the work table, and in this case, the vacuum pressure of the whole work table falls, resulting in a vacuum error. There was a problem that can not be carried out due to the visual inspection of the liquid crystal panel.

Accordingly, the present invention has been made in accordance with the present invention, the purpose of the automatic probe unit is a lighting inspection equipment of the liquid crystal panel, the separated pads contained in the block of the work table for fixing the liquid crystal panel is deformed during vacuum adsorption to form a liquid crystal panel The present invention provides a liquid crystal panel vacuum adsorption device that can be in close contact with a block, thereby preventing failure of vacuum adsorption.

As a means for achieving the above object, in the liquid crystal panel vacuum adsorption apparatus of the present invention, an elongated groove is formed on one side, and a vacuum suction hole is formed on the other side to face the elongated groove, and one side surface on which the elongated groove is formed. A block having a space formed in a sealed form between the other side surfaces of the vacuum suction hole, and a vacuum pad body portion positioned in the space portion of the block, and the upper portion of the vacuum pad body portion is exposed from the elongated groove of the block to form the liquid crystal panel. A seating portion is formed to support the seat, and the vacuum pad side portion adjacent to the seating portion has a flange portion formed to be caught by the elongated groove when the seating portion is exposed, and the vacuum pad body portion positioned to face the seating portion. A lower part is formed with an insertion part, and the suction part and the insertion part have both ends, and vacuum suction is carried out through the vacuum pad body part. It is formed, characterized in that as soon the one side positioned on the vacuum pad and the insertion portion of the vacuum pad in close contact with the insertion portion side in which the vacuum suction pipes as well as the other surface made of a resilient pad installed to come into close contact with the bottom surface of the space portion.

According to the present invention, after the seating portion of the vacuum pad is exposed on the elongated groove to support the liquid crystal panel, the liquid crystal panel is sucked by the negative pressure generated in the seating portion of the vacuum pad, and the vacuum pad is gradually stored in the elongated groove according to the deformation of the elastic pad. Therefore, it has an effect of preventing a defect during vacuum adsorption.

Hereinafter, a vacuum adsorption apparatus of a liquid crystal panel according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 and 4 illustrate a vacuum adsorption device of a liquid crystal panel according to an exemplary embodiment of the present invention, and shows a state in which the liquid crystal panel is seated in the vacuum adsorption device. As shown, the vacuum suction device of the present invention comprises a block for vacuum suction of the seated liquid crystal panel and a vacuum suction means mounted in the block.

Block 10 has an elongated groove 12 is formed on one side, the vacuum suction hole 15 is formed on the other side to face the elongated groove 12, the one side and the vacuum formed in the elongated groove 12 The space portion 14 is formed in a sealed form between the other side surfaces on which the suction hole 15 is formed. Reference numeral 16 is a bottom surface of the space portion 14.

On the other hand, the present invention is a vacuum suction means for the natural rubber, synthetic rubber material itself, such as a vacuum pad 20 and the elastic pad 30 made of silicone material which always elastically biases the vacuum pad 20 upwards. It is composed.

The vacuum pad 20 may be exposed to the vacuum pad body 21 and the elongated groove 12 of the block 10 so as to support the liquid crystal panel 2 and the seating part 22 formed on the body 21. And a flange portion 28 formed on the side surface of the body portion 21 adjacent to the seating portion 22 so that the seating portion 22 is caught by the elongated groove 12 when the seating portion 22 is exposed to the elongated groove 12. Opposite to the 22, the insertion portion 29 formed in the lower portion of the body portion 21, the seating portion 22 and the insertion portion 29, the vacuum suction pipe formed through the vacuum pad body portion 21 with both ends ( 26).

In addition, the elastic pad 30 is located in the insertion portion 29 of the vacuum pad 20, one side is in close contact with the insertion portion 29 side of the vacuum suction tube 26 of the vacuum pad 20, The other side is installed to be in close contact with the bottom surface 16 of the space portion 14 of the block 10 having the vacuum suction hole 15.

The elastic pad 30 penetrates the elastic pad body part 31, the body part 31, and the vacuum suction hole 26 of the vacuum suction pipe 26 and the block 10 of the vacuum pad 20. The communication hole 38 formed to correspond to the cross section, and the skirt portion 36 which is thinned while being radially opened near the edges of the upper and lower surfaces of the body portion 31 are formed, respectively, so that the vacuum pad 20 is always elastically biased upward. do.

As another embodiment of the present invention, instead of the elastic pad 30 of the silicon material, as shown in Figure 6, it is located in the insertion portion 29 of the vacuum pad 20, one side of the vacuum pad 20 ) Is in close contact with the insertion part 29 side with the vacuum suction pipe 26, and the other side is in close contact with the bottom surface 16 of the space part 14 of the block 10 having the vacuum suction hole 15. Use the elastic pad 40 installed to be. The elastic pad 40 also penetrates the inner portion of the elastic pad body 41 and the outer circumferential surface is corrugated, and the vacuum suction pipe 26 and the block 10 of the vacuum pad 20. Since the communication hole 48 is formed to correspond to the vacuum suction hole 15, the vacuum pad 20 is always elastically biased upward.

The vacuum adsorption device of the liquid crystal panel of the present invention configured as described above operates as follows.

When the large liquid crystal panel 2 is transferred to the block 10 of the work table, first, as shown in FIG. 4, the vacuum pad 20 protruding from the elongated groove 12 of the block 10 is exposed. The liquid crystal panel 2 is supported by the seating portion 22. At this time, the supported liquid crystal panel 2 has its center weight deflected downward by its own weight and its edge is bent upward, causing a gap, but the elastic pad 30 and the vacuum pad 20 are As the liquid crystal panel 2 is deformed in the space 14 of the block 10, the liquid crystal panel 2 is closely attached to the seating portion 22 without any gap. Subsequently, when a vacuum source (not shown) is operated to suck air through the communication hole 38 of the elastic pad 30 and the vacuum suction tube 26 of the vacuum pad 20, negative pressure is generated in the seating part 22. Thus, the liquid crystal panel 2 supported on the seating portion 22 is vacuum-adsorbed, and thus, the upper surface and the insertion portion 29 of the elastic pad 30 inserted into the insertion portion 29 of the vacuum pad 20. As the negative pressure is generated between the gap and between the bottom surface 16 and the bottom surface 16 of the elastic pad 30, the skirt portion 36 is formed to be thinner while being radially opened near the top and bottom edges of the elastic pad 30. As it opens, as shown in FIG. 5, the elastic pad 30 is gradually deformed and lowered, and the seating portion 22 of the vacuum pad 20 is gradually received in the elongated groove 12 of the block 10. Finally, the liquid crystal panel 2 is vacuum adsorbed on the upper surface of the block 10.

When the operation of the vacuum source stops, the elastic pad 30 is returned to the original image by its elasticity, and thus the vacuum pad 20 is raised upward to return to the state of FIG. 4.

6, the liquid crystal panel 2 is supported when the liquid crystal panel 2 is supported by the seating part 22 of the vacuum pad 20 that protrudes and is exposed from the elongated groove 12 of the block 10. In (2), due to its own weight, the core of the panel sags downward and its edge is bent upward, causing a gap. However, the elastic pad 40 and the vacuum pad 20 are spaces in the block 10. The liquid crystal panel 2 is closely attached to the seating portion 22 while being deformed in the portion 14. Subsequently, when a vacuum source (not shown) is operated to suck air through the communication hole 48 of the elastic pad 40 and the vacuum suction tube 26 of the vacuum pad 20, negative pressure is generated in the seating part 22. The liquid crystal panel 2 supported on the seating portion 22 by vacuum suction, and thus the outer surface of the elastic pad 40 is formed to be corrugated, so that the elastic pad 40 is gradually deformed and lowered, and the vacuum is reduced. The seating part 22 of the pad 20 is gradually accommodated in the elongated groove 12 of the block 10, and finally the liquid crystal panel 2 is vacuum-adsorbed on the upper surface of the block 10.

As described above, in the liquid crystal panel vacuum adsorption apparatus of the present invention, since the vacuum pad and the elastic pad are configured to be deformable in the space portion of the block, the vacuum of the large liquid crystal panel supported as the center of the large liquid crystal panel sags downward due to its own weight When the pad and elastic pad are deformed and the liquid crystal panel is closely adhered to the seating portion without any gap, and then air is sucked in, the seating portion of the vacuum pad is gradually accommodated in the elongated groove of the block, and the liquid crystal panel is vacuum-adsorbed on the upper surface of the block. Therefore, it has an effect which can prevent the defect at the time of vacuum suction.

The vacuum adsorption apparatus of the present invention as described above has been described as an example of the liquid crystal panel, but this is only one embodiment, the present invention is not limited to the above embodiment, for example, such as glass plate, iron plate Large-sized panels, as claimed in the following claims, can be changed or modified by anyone having ordinary skill in the art without departing from the gist of the present invention. It should be regarded as included in the technical spirit of the invention.

1 is a schematic perspective view showing a conventional liquid crystal panel vacuum adsorption device,

2 is a front cross-sectional view of FIG.

Figure 3 is a plan view of any one of the vacuum adsorption device of the liquid crystal panel according to an embodiment of the present invention,

Figure 4 is a side cross-sectional view of Figure 3, a schematic diagram showing a state in which the liquid crystal panel is mounted on the vacuum adsorption device,

5 is a schematic view showing a state of vacuum adsorption,

Figure 6 is a side cross-sectional view of any one of the vacuum suction device of the liquid crystal panel according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

2: liquid crystal panel 10: block

12: Sejang Home 14: Space

15: vacuum suction hole 16: bottom surface

20: vacuum pad 21: vacuum pad body

22: seating part 26: vacuum suction tube

28: flange portion 29: insertion portion

30: elastic pad 31: elastic pad body

36: skirt portion 38: communication hole

Claims (3)

In the liquid crystal panel vacuum adsorption device, An elongated groove is formed on one side, and a vacuum suction hole is formed on the other side to face the elongated groove, and the block is formed in a hermetically sealed space between one side on which the elongated groove is formed and the other side on which the vacuum suction hole is formed. , The vacuum pad body part is located in the space portion of the block, and an upper portion of the vacuum pad body part is formed in a seating part to be exposed from the elongated groove of the block to support the liquid crystal panel, and the vacuum pad body adjacent to the seating part. The side portion of the part is flanged to be caught by the elongated groove inside the block when the seating portion is exposed, the lower portion of the vacuum pad body portion located opposite the seating portion is formed with an insertion portion, the seating portion and the insertion portion A vacuum pad having a vacuum suction pipe formed at both ends through the vacuum pad body, The liquid crystal is characterized in that it is located in the insertion portion of the vacuum pad and the one side is in close contact with the insertion part side with the vacuum suction tube and the other side is made of an elastic pad installed to be in close contact with the bottom surface of the block space with the vacuum suction hole. Panel vacuum adsorption system. The method of claim 1, wherein the elastic pad is an elastic pad body portion, a communication hole formed to penetrate the inside of the elastic pad body portion and to correspond to the vacuum suction pipe of the vacuum pad and the vacuum suction hole of the block, and the elastic pad A vacuum adsorption device for a liquid crystal panel, characterized in that a skirt portion which is thinned radially while being formed near the corners of an upper surface and a lower surface of a body part is formed. The method of claim 1, wherein the elastic pad has an elastic pad body portion having an outer circumferential surface is corrugated, and a communication hole corresponding to the vacuum suction tube of the vacuum pad and the vacuum suction hole of the block while penetrating the inside of the elastic pad body portion. Vacuum adsorption device of the liquid crystal panel, characterized in that formed.