KR20090041541A - Polarizing film inspection system - Google Patents

Abstract

A polarized film inspection device is provided to perform badness test to a polarized film being transferred between gas pads by forming an exposing unit on the gas pad in which the polarized film is transferred. A polarized film inspection device comprise: a gas aligning unit(20) in which a pair of gas pads(21a,21b) in which gas is emitted are vertically faced; and a film inspection unit(40) equipped in order to inspect a polarized film(1) passing through the gas aligning unit and being transferred. An exposing unit(30) is formed in one of the gas pads. The exposing unit exposes the polarized film to the film inspection unit. The polarized film is transferred between the gas pads.

Description

Polarizing Film Inspection System {POLARIZING FILM INSPECTION SYSTEM}

The present invention relates to a polarizing film inspection apparatus, and more particularly, when inspecting whether a polarizing film is defective, a gas pad may be applied to a conveying system to maintain the flatness of the polarizing film, and thus the high speed feeding and inspection may be performed. A polarizing film inspection device and a polarizing film inspection method.

Generally, a polarizing film is used as part of an LCD panel by adhering to one or both sides of a liquid crystal cell. LCD (Liquid Crystal Display) is a display device developed to replace the Cathode Ray Tube (CRT) used in monitors such as TVs and computers. It is easy to design lightweight and thin, and has high quality and low power consumption. Because of its advantages, it is widely used in the industry.

The configuration of the polarizing film used in the LCD panel as described above is different depending on the use, but is usually composed of a laminated structure attached to the protective film on both sides of the polarizing film. One side of the polarizing film is formed with an adhesive layer for attaching to the LCD panel.

Such a polarizing film needs to be inspected before attaching to an LCD panel because the presence of defective elements such as bubbles in the lamination interface between the inside or the protective film may cause deterioration of image quality.

As a method of inspecting a polarizing film, a reflection method of irradiating light obliquely to one surface of the polarizing film and inspecting the reflected light, and a transmission method of irradiating light perpendicularly to one surface of the polarizing film and inspecting the transmitted light from the opposite side Known.

Typically, the polarizing film is in a flexible state and is supplied in a roll wound on a roll to be produced through a predetermined process such as a cutting process, and the center portion of the polarizing film is bent during inspection of the produced polarizing film. As the front and rear ends are bent and curled, there is a problem that the accuracy of the inspection is significantly reduced.

Therefore, in the related art, various methods have been attempted to include a separate clamping means for keeping the polarizing film flat and clamped to inspect the edge of the polarizing film, or to maintain flatness by contacting the conveyed conveyor with static electricity.

However, in the method of aligning the polarizing film using a separate clamping means, scratches may occur on the surface of the polarizing film, and the edges of the polarizing film cannot be inspected, and the polarizing film is clamped by the clamping means. There was a disadvantage that it takes a lot of time because the process to proceed separately.

In addition, the method of adhering the polarizing film to the conveyor using static electricity always has a concern that the polarizing film may be damaged due to the supply of static electricity, and there is a problem of precisely adjusting the static electricity strength and the flatness of the polarizing film may not be maintained when the strength adjustment fails. There was a downside.

The present invention has been made to solve the above problems, the present invention is to easily and safely transport and maintain the flatness of the polarizing film using a gas pad for evenly injecting gas, the polarizing film is passed through the gas pad The purpose of the present invention is to provide a polarizing film inspection apparatus that can proceed quickly.

Polarizing film inspection apparatus according to the present invention for achieving the above object is a pair of gas pads for gas injection is arranged up and down facing the gas alignment unit for transferring the polarizing film therebetween; And a film inspection unit provided to inspect the polarizing film transferred through the gas alignment unit, and at least one of the pair of gas pads is formed with an exposed part exposing the polarizing film to the film inspection unit.

In this case, the exposed portion is formed through the gas pad.

The exposed portion may be formed of a plurality of slots spaced apart from each other in a direction crossing the transfer direction of the polarizing film, and the exposed portion may be formed in at least two rows.

At this time, the exposed portion and the first exposure portion disposed in the direction intersecting the conveying direction of the polarizing film; A second exposure portion spaced apart from the first exposure portion and disposed in parallel, and a slot forming the first exposure portion and a slot forming the second exposure portion are alternately arranged with each other, and a slot forming the second exposure portion. The width of is greater than or equal to the interval between the slots forming the first exposure portion.

In addition, the exposed portion is formed in a direction crossing the direction of the polarizing film is characterized in that the slot having a length longer than or equal to the width of the polarizing film.

The exposed portions are formed on the pair of gas pads, respectively, and the forming positions thereof are provided at positions facing each other.

In addition, the pair of gas pads are provided with a plurality of gas injection holes formed on surfaces facing each other, and the gas supplied from the outside is uniformly injected through the gas injection holes.

The film inspection unit is disposed to be adjacent to at least one gas pad of the pair of gas pads, and irradiates light obliquely to at least one of an upper surface or a lower surface of the polarizing film exposed by the exposed portion of the gas pad. It is characterized in that it comprises a camera for detecting the light and the light irradiated and reflected from the illumination.

In addition, the exposed portion is a slot penetrating through the gas pad, and the inside of the slot is characterized in that the inclined surface having an angle equal to or less than the irradiation angle of the illumination and the detection angle of the camera.

According to the present invention, as the gas passes through the polarizing film between the gas pads which are constantly sprayed, there is an effect of not having to perform a separate polarizing film alignment and flatness maintaining process.

In addition, since the exposed portion is formed on the gas pad to which the polarizing film is conveyed, and the polarizing film is exposed through the exposed part while the polarizing film is transported between the gas pads, the defective inspection is performed, so that continuous and high speed defect inspection can be performed. Therefore, it is possible to maximize the operational efficiency of the equipment by reducing the inspection time.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in more detail.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention, and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you.

1 is a configuration diagram schematically showing a polarizing film inspection apparatus according to the present invention, the polarizing film inspection apparatus according to the present invention as shown in the drawing is a first transfer unit 10 is continuously supplied with a polarizing film (1) Wow; A pair of gas pads 21a and 21b disposed adjacent to the first transfer part 10 and disposed to face up and down are received to receive the polarizing film 1 supplied from the first transfer part 10. A gas alignment unit 20 through which the polarizing film 1 is transferred between the pair of gas pads 21a and 21b; A film inspection unit 40 provided to inspect the polarizing film 1 transferred from the gas alignment unit 20; And a second transfer part 50 that receives and discharges the polarizing film 1 that is disposed adjacent to the gas alignment part 20 and inspected.

The first transfer unit 10 and the second transfer unit 50 are continuously introduced into the gas alignment unit 20 in a state where the polarizing film 1 is seated on the upper surface, and the polarization extracted from the gas alignment unit 20. It is a means for receiving and conveying the film (1). The first transfer unit 10 and the second transfer unit 50 may be any method as long as it can transfer the polarizing film 1. For example, in the present invention, a roll type conveying conveyor is adopted. Hereinafter, the first transfer unit 10 will be described as a first transfer conveyor, and the second transfer unit 50 will be described as a second transfer conveyor.

At this time, the first conveying conveyor 10 and the second conveying conveyor 50 are rotated in close contact with the upper surface of the polarizing film 1 on the upper side of the position adjacent to the gas alignment unit 20, respectively. ), Feeding rollers 11 and 51 are respectively installed. Preferably, the transfer rollers 11 and 51 may be moved in close contact with the polarizing film 1 passing therebetween as a pair is disposed up and down and rotated in opposite directions.

The gas alignment unit 20 is disposed between the first conveying conveyor 10 and the second conveying conveyor 50, and a pair of gas pads 21a and 21b are disposed upside down to face the polarizing film 1. ) Is the means of transport.

In the gas pads 21a and 21b described in the present invention, a plurality of gas injection holes 23 are formed on one surface thereof, and a gas supplied from a separate gas supply means (not shown) is uniform to the gas injection holes 23. Is sprayed. Therefore, the flatness of the polarizing film 1 is maintained by the force of the gas supplied. The gas pads 21a and 21b may have any shape as long as the flatness of the polarizing film 1 passing through the spot by uniformly injecting the gas into a predetermined area may be maintained flat. It is preferable that the surface on which the injection holes 23 are formed has a width that is at least wider than the width of the polarizing film 1.

As the gas supplied to the gas pads 21a and 21b, various gases that do not affect the polarizing film 1, including air, may be used. In the present invention, air is used, but not limited thereto.

2 is an explanatory view showing the principle of the polarizing film inspection apparatus according to the present invention.

As shown in the figure, in the present invention, the pair of gas pads 21a and 21b are disposed up and down, the surfaces on which the gas is injected are disposed to face each other, and the gas having the same pressure is applied to the upper and lower gas pads 21a and 21b. By supplying and spraying, the gas is uniformly sprayed on the upper and lower surfaces of the polarizing film passing between the pair of gas pads 21a and 21b, and the flexible polarizing film 1 is maintained at a high speed in a flat state. There is an advantage to move.

In addition, any one or both of the pair of gas pads 21a and 21b is provided with an exposed part 30 exposing the polarizing film 1 to the film inspecting part 40. As shown in the drawing, the exposed portion 30 formed in the pair of gas pads 21a and 21b may be formed through the gas pads 21a and 21b.

3 is a perspective view illustrating a polarizing film inspecting apparatus according to the present invention, and FIG. 4 is a plan view showing a gas pad of the polarizing film inspecting apparatus according to the present invention, as shown in FIGS. 3 and 4. ) Is formed of a plurality of slots 31a and 33a penetrating through the gas pads 21a and 21b. In this case, the plurality of slots 31a and 33a are spaced apart from each other in a direction crossing the transfer direction of the polarizing film. At this time, the exposed portion 30, that is, the plurality of slots 31a and 33a are spaced apart from each other, and a row (first exposed portion and second exposed portion described later) formed of at least two slots 31a and 33a disposed in parallel with each other. It is preferable that heat abnormality is formed.

Referring to FIG. 4, the exposure part 30 includes a first exposure part 31 in which a plurality of slots 31a are spaced apart from each other in a direction crossing the transfer direction of the polarizing film 1; A plurality of slots 33a includes a second exposure portion 33 which is horizontally spaced apart from the first exposure portion 31. In this case, the plurality of slots 31a forming the first exposure part 31 and the plurality of slots 33a forming the second exposure part 33 are preferably arranged to be staggered from each other. In addition, the maximum distance d1 between the width of the first exposure part 31, that is, the slot 31a disposed at the outermost part of the first exposure part 31 is wider than the width D of the polarizing film 1. It is preferred to be arranged. In addition, the position of the slot 33a forming the second exposed portion 33, that is, the width d3 of the slot 33a constituting the second exposed portion 30, constitutes the first exposed portion 31. It is preferably formed to be greater than or equal to the interval d2 between the slots 31a.

Of course, the exposed portion 30 is not limited to the present embodiment, and any shape and arrangement may be made if the polarizing film can be exposed to the film inspection portion at least once through the exposed portion while the flatness is maintained while passing through the gas pad. You may have it.

FIG. 5 is a plan view showing another embodiment of the gas pad, wherein the exposed portion 30 formed on the gas pads 21a and 21b crosses the conveying direction of the polarizing film 1 as shown in FIG. 5. Is formed to be a slot 35 having a long length in the width direction of the polarizing film. At this time, the forming length (d4) of the slot 35 is preferably formed to be longer than or equal to the width (D) of the polarizing film (1). Of course, even if the exposed portion 30 is formed long in the width direction may be arranged in two or more rows.

In addition, the exposed part 30 may form an inclined surface T having an angle a1 corresponding to the irradiation angle a2 of the illumination 41 and the detection angle a3 of the camera 43, which will be described later. . Preferably, the angle a1 of the inclined surface T and the polarizing film 1 is equal to or smaller than the irradiation angle a2 of the illumination 41 and the detection angle a3 of the camera 43. The reason for this is to minimize the area of the exposed part 30 and maximize the area where the gas pads 21a and 21b face each other so that the gas injected from the gas injection port 23 contacts the polarizing film 1 as much as possible. This is to keep the flatness of the film 1 smoothly.

The film inspection unit 40 may be any equipment used in a method capable of inspecting defects of the polarizing film 1, such as a reflection method or a transmission method. In the present embodiment, by adopting the reflection method, the illumination 41 for irradiating light obliquely to the upper and lower surfaces of the polarizing film 1 and the camera 43 for detecting the light reflected from the illumination 41 are reflected. ).

The illumination 41 and the camera 43 are separately installed on the upper and lower portions of the gas pads 21a and 21b, respectively, and simultaneously inspect the upper and lower surfaces of the polarizing film 1. However, the present invention is not limited thereto and may be provided such that only one surface of the polarizing film 1 may be inspected by detecting light by irradiating light from one surface of the upper or lower surface of the polarizing film 1. For example, FIG. 6 is a schematic view showing another polarizing film inspection apparatus according to another embodiment of the present invention, and the exposed portion 30 is formed only on the gas pad 21a disposed thereon as shown in FIG. 6. The illumination 41 and the camera 43 also inspect only the upper surface of the polarizing film 1 as the light is irradiated and detected only by the exposed portion 30 of the gas pad 21a disposed thereon, and then the polarizing film ( 1) may be inverted and inserted between the gas pads 21a and 21b, and the opposite surface (bottom surface) may be inspected. Of course, the present invention is not limited thereto, and the exposed portion 30 may be formed only on the gas pad 21b disposed below, and the illumination portion 41 and the camera 43 may also expose the exposed portion 30 of the gas pad 21b disposed below. Only the bottom surface of the polarizing film 1 may be inspected by irradiating light with only).

Hereinafter, a process of inspecting a polarizing film using the polarizing film auditing apparatus according to the present invention will be described with reference to the drawings.

7A to 7 are schematic views showing the inspection process of the polarizing film inspection apparatus according to the present invention.

The process of inspecting the polarizing film 1 may include supplying the polarizing film 1 largely; Uniformly injecting gas onto the upper and lower surfaces of the polarizing film 1 introduced into the gas alignment unit 20 to align and transport the gas; Inspecting a portion of the polarizing film 1 exposed through the exposed part 30 when the polarizing film 1 is flatly aligned and transported; And discharging the inspected polarizing film 1.

The supplying of the polarizing film 1 is a step of loading the first conveying conveyor 10 continuously in order to inspect the polarizing film 1 manufactured to a suitable size, and the polarizing film 1 is conventionally There is no need for a separate alignment step such as alignment with clamping means or static electricity.

Aligning and transporting the polarizing film 1 and inspecting the polarizing film are performed simultaneously. The gas pads pass through the pair of gas pads 21a and 21b disposed opposite to each other. Polarized at the time when the polarized film 1 is exposed to the film inspection unit 40 through the exposed portion 30 as the polarized film 1 is kept flat by the gas injected from the 21a and 21b, and continues to be transferred. Inspection of the film 1 is made.

As shown in FIG. 7A, when the polarizing film 1 is introduced into the gas pads 21a and 21b from the first conveying conveyor, the exposed portion 30 remains flat by the gas injected from the gas pads 21a and 21b. In the direction of).

As shown in FIG. 7B, the polarizing film 1 to be transferred is exposed to the film inspection unit 40 while the front end thereof passes through the slot 31a constituting the first exposure unit 31. At this time, only the area A exposed to the first exposure part 31 is inspected among the entire areas of the polarizing film 1.

And, as shown in FIG. 7C, the polarizing film 1 that is continuously conveyed is exposed to the film inspection unit 40 while the front end thereof passes through the slot 33a constituting the second exposure unit 33. Thus, the inspection of the area B exposed to the second exposed portion 33 of the entire area of the polarizing film 1 is performed to inspect the entire area of the polarizing film 1.

The discharging of the polarizing film 1 is a step of receiving and unloading the polarizing film 1 drawn out from the gas alignment unit 20 by the second transfer conveyor after the inspection is completed.

In the present invention, the inspection object is presented as a polarizing film, but is not limited thereto, and any object having a relatively thin thickness and a sheet shape may be inspected.

On the other hand, the present invention is not limited to the above-described embodiment, but can be modified and modified within the scope not departing from the gist of the present invention, it should be seen that such modifications and variations are included in the technical spirit of the present invention. .

1 is a schematic view showing a polarizing film inspection apparatus according to the present invention,

Figure 2 is an explanatory view showing the principle of the polarizing film inspection apparatus according to the present invention,

3 is a perspective view showing a polarizing film inspection apparatus according to the present invention,

Figure 4 is a plan view showing a gas pad of the polarizing film inspection apparatus according to the present invention,

5 is a plan view showing another embodiment of the gas pad,

6 is a schematic view showing another polarizing film inspection apparatus according to another embodiment of the present invention,

7A to 7 are schematic views showing the inspection process of the polarizing film inspection apparatus according to the present invention.

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

1: polarizing film 10: first transfer unit

20: gas alignment unit 21a, 21b: gas pad

30: exposed portion 31: first exposed portion

33: second exposure portion 31a, 33a, 35: slot

40: film inspection part 41: illumination

43: camera 50: second transfer unit

Claims (10)

A gas alignment unit in which a pair of gas pads through which the gas is injected are disposed up and down, and the polarizing film is transferred therebetween; It includes a film inspection unit provided to inspect the polarizing film conveyed through the gas alignment unit, At least one of the pair of gas pads, the polarizing film inspection apparatus, characterized in that the exposed portion for exposing the polarizing film to the film inspection unit is formed. The method of claim 1, And the exposed portion is formed through the gas pad. The method of claim 2, The exposed part is a polarizing film inspection apparatus, characterized in that formed by a plurality of slots spaced apart from each other in a direction crossing with the conveying direction of the polarizing film. The method of claim 3, wherein And the exposed portion is formed in at least two rows or more. The method of claim 4, wherein The exposed part includes a first exposure part disposed in a direction crossing the conveying direction of the polarizing film; A second exposure part spaced apart from the first exposure part and arranged in parallel; The slots forming the first exposure portion and the slots forming the second exposure portion are staggered from each other, The width of the slot forming the second exposure portion is greater than or equal to the interval between the slots forming the first exposure portion. The method of claim 2, The exposed portion is a polarizing film inspection apparatus, characterized in that the slot is formed in a direction crossing the direction of the polarizing film has a length longer than or equal to the width of the polarizing film. The method according to any one of claims 2 to 6, The exposed portion is formed on each of the pair of gas pads, the forming position of the polarizing film inspection apparatus, characterized in that provided in a position facing each other. The method of claim 1, The pair of gas pads are formed with a plurality of gas injection holes on the surface facing each other, the polarized film inspection apparatus, characterized in that the gas supplied from the outside is uniformly injected through the gas injection hole. The method of claim 1, The film inspector is disposed to be adjacent to at least one of the gas pads of the pair of gas pads, and illuminates at least one of the upper and lower surfaces of the polarizing film exposed to the exposed part of the gas pads at an angle. And a camera for detecting the light reflected from the illumination. The method of claim 9, The exposed portion is a slot passing through the gas pad, And an inclined surface having an angle equal to or smaller than an irradiation angle of the illumination and a detection angle of the camera inside the slot.

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