KR102041155B1 - Removal apparatus for inhaling fume gas of occurrence cuting polarized light film display - Google Patents

Abstract

The present invention relates to a fume gas suction removal device generated when cutting a display polarizing film which sucks and discharges a fume gas generated by laser heat when irradiating a laser to cut a polarizing film attached to a display panel. An air ejection unit formed outside the laser irradiation unit for cutting the polarizing film of the display panel to inject air in a downward direction; A fume gas generated when the polarizing film is cut by the laser irradiated through the laser irradiator is introduced through an inlet formed around the laser irradiator and discharged to an external storage unit, and air is discharged through the discharge unit. Inhalation is characterized in that it comprises a suction to force the fume gas is discharged to the storage side along the discharge.

Description

Removal apparatus for inhaling fume gas of occurrence cuting polarized light film display}

The present invention relates to a fume gas suction removal device generated when cutting a display polarizing film, and more particularly, the present invention relates to a fume generated by heat of a laser when irradiating a laser to cut a polarizing film attached to a display panel. fume) Since it sucks and discharges gas, it relates to a fume gas inhalation removal device generated when cutting a display polarizing film does not affect the display panel.

In general, the laser is irradiated through a laser irradiation device to cut, engraving or partial removal of the object.

When such a laser is used to cut or partially remove the polarizing film attached to the display panel surface among various objects, the surface of the object to which the laser is irradiated burns the polarizing film due to the heat of the laser, thereby generating dust and gas.

As a result, the conventional laser irradiation apparatus seals the processing chamber in which the object is accommodated, and forms a suction duct on one side of the chamber to apply negative pressure from the outside to remove dust and gas generated in the processing chamber by suction. It is done forever.

Such a conventional dust and gas removal device has a problem that prevents accurate processing by obstructing the field of view of the camera to check the cutting position due to the gas or dust generated by the heat of the laser irradiated from the laser cutting device for cutting, Due to the interruption of the cutting process after a separate removal process is processed again, there is a problem that the efficiency of the process is reduced and the processing time takes a lot.

In addition, there is a problem that a safety accident may occur because the gas and dust generated when being cut by the laser irradiated by the existing laser irradiation device to the outside.

The prior patent has an air nozzle installed on one side of the focusing head which is moved according to the engraving position to prevent dust and gas generated by laser irradiation on the workpiece fixed to the vise and to improve the quality of the engraving. In the present invention, a dust and gas removal device of a laser engraver is described which injects compressed air to the engraving surface to push the dust and gas and at the same time the suction port installed at the other side to suck the dust and gas by suction.

However, since the prior patent 1 injects air through an air nozzle in one direction, when the injection pressure is high, dust and gas may not be sucked into the intake port, and as a result, dust and gas may be leaked to the outside, which may cause a safety accident. There is a problem.

Prior Patent 2 provides a plurality of laser beam irradiator using a spectroscope and an optical system to greatly improve the cutting speed, and can be discharged after fixing and cutting the film by using a vacuum adsorption conveyor on a work table, and evacuating the vacuum beam. A conveyor-attached display film laser cutting device is disclosed which can install a pad to discharge combustion gas generated during film cutting.

However, since the prior patent 2 is installed in a clean room including the entire cutting device, the gas is spread throughout the clean room so that the gas component may adhere to the display panel, which may cause a defect of the display panel. .

Prior Patent 1: Korea Utility Model Publication No. 20-0262793 (January 18, 2002) Prior Patent 2: Korean Patent Publication No. 10-2010-0095673 (September 01, 2010)

The present invention sucks and discharges a fume gas generated by the heat of the laser when irradiating the laser to cut the polarizing film attached to the display panel, so that the display panel does not affect the display panel. The object is to provide a fume gas suction removal device.

In order to achieve the above object, a fume gas suction removing device generated when cutting a display polarizing film according to the present invention includes: an air injection unit which is formed outside the laser irradiation part for cutting a polarizing film of a display panel to inject air in a downward direction; A fume gas generated when the polarizing film is cut by the laser irradiated through the laser irradiator is introduced through an inlet formed around the laser irradiator and discharged to an external storage unit, and air is discharged through the discharge unit. Inhalation is characterized in that it comprises a suction to force the fume gas is discharged to the storage side along the discharge.

The air injection unit is characterized in that the injection hole for injecting air is formed in a vertical direction or an inner diagonal direction to block the block around the laser irradiator and inject air to prevent the fume gas from flowing out.

The injection unit is characterized in that the injection hole for injecting air is formed of a plurality of holes in the vertical downward direction or the inner downward diagonal direction to block the block around the laser irradiation unit and inject air so that the fume gas does not flow to the outside.

The discharge unit, an inlet formed around the irradiation lens of the laser irradiation unit; Stagnant phenomenon occurs when the fume gas is discharged through the inlet by being formed in the discharge space formed by opening only one side and the open side of the discharge space so that the fume gas flowing through the inlet is discharged to one side of the opening. It characterized in that it comprises a partition to be discharged by splitting the fume gas so as not to.

According to the present invention, since the fume gas generated by cutting the polarizing film of the display panel to fit the display panel is sucked out and discharged, the fume gas is easy to check the cutting part, and the cutting error due to the fume gas can be prevented. It works.

In addition, there is an effect that does not affect the display panel by trapping the fume gas generated when cutting the display panel to prevent leakage to the outside.

1 is a view showing the overall configuration of the fume gas suction removal device generated when cutting the display polarizing film according to an embodiment of the present invention.
Figure 2 is a view showing the lower side of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention.
Figure 3 is a view showing the separation of the injection portion of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention.
Figure 4 is a cross-sectional view of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention.
Figure 5 is a view showing the discharge portion of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention.

Hereinafter, specific embodiments for the implementation of the present invention will be described with reference to the drawings. The embodiments of the present invention are intended to describe one of the inventions, and the scope of the present invention is not limited to the illustrated embodiments, and the illustrated drawings are only limited to the drawings because only the essential details are enlarged and additionally omitted for clarity of the design. It is not to be interpreted.

1 is a view showing the overall configuration of the fume gas suction removal device generated when cutting the display polarizing film according to an embodiment of the present invention, is formed on the lower side of the laser irradiation unit 1 for cutting the polarizing film of the display panel Air injection unit 10 for injecting air in the downward direction, the fume (fume) gas generated when the polarizing film is cut by the laser is discharged through the inlet port 21 formed around the laser irradiation unit 1 and stored outside Suction unit 20, the discharge portion 20 to suck the air through the discharge portion 20, the discharge portion 20 to be discharged to the storage unit forcibly discharged along the discharge portion 20 to the storage side. It includes a storage for storing the fume gas discharged through.

Figure 2 is a view showing the lower side of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention, Figure 3 is separated from the injection portion of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention. It is a figure which showed one thing.

2 and 3, the injection unit 10 cuts the polarizing film by irradiating a laser when cutting the polarizing film of the display panel to fit the display panel, and at this time, due to the temperature of the laser The cut is heated to generate a fume gas.

The fume gas is to check the cutting position set when the laser is irradiated from the laser irradiation unit (1) with a camera, etc. This can be difficult to confirm because the fume gas is covered.

The injection unit 10 is formed on the outside of the laser irradiation unit 1 to inject air to block the periphery of the laser irradiation unit 1, the injection unit 10 so that the generated fume gas is not leaked to the outside It is trapped inside the block formed by the air injected from.

The air injected from the injection unit 10 surrounds the periphery of the laser irradiator 1 and is injected at an inner diagonal angle so that the air is formed in a block while the air is collected inward so that the fume gas may be discharged upwards without being leaked to the outside. To help.

To this end, the injection holes 11 of the injection unit 10 are formed diagonally in the inner direction to inject air into the inverted parallelogram shape on the front in the diagonal direction.

The injection holes 11 may be formed as one long hole to inject air, and a plurality of injection holes 11 may be arranged in a straight line to inject air.

Figure 4 is a cross-sectional view of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention.

Referring to FIG. 4, the injection unit 10 is formed by the injection hole 11 of a straight through hole having a long length on the outside of the laser irradiation unit 1 to inject air from the four outer directions of the laser irradiation unit 1. It is possible, the supply for supplying air is connected to the injection unit 10, the compressed air using a compressor or air using a pump is supplied is injected.

The injection unit 10 may be formed in a circular or polygonal shape on the outside of the laser irradiation unit 1 to inject air downward.

When the fume gas is confined to the block through the air injected from the injection unit 10, the storage unit connected to the outside through the discharge unit 20 by sucking the fume gas through the inlet 21 of the discharge unit 20. Will be stored in.

Figure 5 is a view showing the discharge portion of the fume gas suction removal device generated when cutting the display polarizing film according to the present invention.

3 to 5, the discharge part 20 has a discharge hole formed inside the injection hole 11 of the injection part 10 to suck the fume gas into the discharge part 20, and discharge the inside of the suction hole. A discharge space 22 is formed in which the upper side, the other side, the front side, and the other side are closed except the one side on which the lower side is opened and the discharge hole 24 through which the fume gas is discharged is formed. The fume gas sucked through is discharged to one side and discharged to the outside.

The discharge space 22 may be formed in a planar quadrangle, a circle, or a polygonal shape. When the discharged fume gas is discharged to one side of the discharge port 24, the discharged fume gas collides with each other, causing accumulation and impeding discharge. The partition body 23 is formed so as to prevent it from becoming.

The partition 23 is gradually widened toward one side where the outlet 24 is formed and is formed in a triangular or spiral shape.

The fume gas, which is divided through the partition 23 and discharged through the discharge port 24 on one side, is not discharged in a natural state, and thus, through the suction unit 30 formed at the front end of the discharge port 24. The fume gas is forcibly sucked and discharged.

The suction unit 30 may be formed of a vacuum pump or a suction pump, or other apparatuses having similar effects may be used.

The fume gas discharged through the suction unit 30 may be stored in a storage unit connected to the discharge port 24 of the discharge unit 20 and discharged separately or discharged to the outside through a purification facility.

The present invention configured as described above sucks and discharges the fume gas generated when the polarizing film of the display panel is cut to fit the display panel and discharges it, so that the fume gas is easy to check the cutting part and prevents the cutting error due to the fume gas. It can work.

In addition, there is an effect that does not affect the display panel by trapping the fume gas generated when cutting the display panel to prevent leakage to the outside.

The fume gas suction removal device generated when the display polarizing film is cut is not limited to the configuration and operation of the embodiments described above. The above embodiments may be configured such that various modifications may be made by selectively combining all or part of the embodiments.

1: laser irradiation unit
10: injection part 11: injection hole
20: outlet 21: inlet
22: discharge space 23: partition
24: outlet
30: suction part

Claims (4)

An air injection unit 10 formed outside the laser irradiation unit 1 for cutting the polarizing film of the display panel to inject air in a downward direction;
A fume gas generated when the polarizing film is cut by the laser irradiated through the laser irradiator 1 is introduced through an inlet 21 formed around the laser irradiator 1 to be discharged to an external storage unit. Discharge section 20 and
A suction part 30 for sucking air through the discharge part 20 so that the fume gas is forcibly discharged along the discharge part 20 toward the storage part;
The air jetting unit 10 has a jetting port 11 for injecting air is formed in a straight shape, or formed with a plurality of holes, the injection port 11 is formed in a vertical direction or an inner diagonal direction to the laser irradiation unit (1) Block and block the surroundings and inject air to prevent the fume gas from leaking outside.
The discharge unit 20,
An inlet 21 formed around the irradiation lens of the laser irradiation part 1;
A discharge space 22 formed with only one side open so that the fume gas introduced through the inlet 21 is discharged to one side open;
It is formed on one open side of the discharge space 22 to split the fume gas so that the stagnant phenomenon does not occur when the fume gas is discharged through the suction unit 30 to the discharge port 24 side to be discharged to the discharge port 24 side. The fume gas suction removal device generated when cutting the display polarizing film, characterized in that it comprises a partition 23 is gradually widened toward one side and formed in a triangular or spiral shape. delete delete delete

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