KR101328742B1 - Apparatus for attaching polarized film - Google Patents

Abstract

The present invention provides a photovoltaic power generating device including a cleaning device, capable of cleaning a solar panel by compressed air, cleaning a panel surface by a brush, and improving the reabsorption preventing ratio and the removal ratio of fine foreign materials by absorbing and removing the foreign materials which are separated by the brush and the compressed air. The photovoltaic power generating device including the cleaning device according to the present invention includes a frame which is combined with a solar cell and supports the solar cell; and the cleaning device which is movably installed on the frame and removes the foreign materials of a generation surface by the brush, the compressed air, and air suction by moving along the generation surface.

Description

Apparatus for attaching polarized film

The present invention relates to an apparatus for attaching a polarizing film, and in more detail, in the conventional method of attaching a polarizing film to a liquid crystal cell substrate, there is a problem that bubbles are generated between the polarizing film and the liquid crystal cell substrate because the front of the polarizing film is bent. After installing the endless track type adhesive sheet on the left and right tilt rollers and the fixed roller and placing the polarizing film on the flat adhesive sheet, the polarizing film is attached to the liquid crystal cell substrate so that the polarizing film is not bent as a whole. When the film adheres to the surface of the liquid crystal cell substrate, the possibility of bubbles is significantly reduced, and the polarization film is prevented from occurring due to the increase of the polarizing film, thereby preventing the possibility of product defects. It relates to an attachment device.

1 is an overall plan view showing a schematic configuration of a polarizing film attachment device in a conventional embodiment. 2 is an overall side view showing a schematic configuration of a polarizing film attachment device in a conventional embodiment.

Referring to FIGS. 1 and 2, as a feature of the conventional polarizing film attachment device 1000, the liquid crystal cell substrate 1 is not transported on a plane, but is transported in a state in which the liquid crystal cell substrate 1 is standing up. The polarizing films 2 and 3 are attached to the 1st and 2nd main surface of the cell substrate 1, respectively.

The standing conveyance line 50 for conveying in the state which made the liquid crystal cell board | substrate 1 stand up is provided. The conventional standing conveying line 50 has a lower side support roller 11 supporting the lower side of the liquid crystal cell substrate 1 and a liquid crystal cell substrate 1 supporting the first and second main surfaces over the entire length thereof. One main surface support roller 12 to be disposed is disposed at a predetermined pitch. In conveyance of the liquid crystal cell board | substrate 1, conveyance of the liquid crystal cell board | substrate 1 is enabled by connecting a drive shaft to the lower side support roller 11, and rotating the lower side support roller 11, for example.

The substrate loader station 100 in which the board | substrate cassette 110 which stocks the some liquid crystal cell board | substrate 1 in the standing state is waiting in the upstream inlet side of the standing conveying line 50, and is provided. For conveyance from the substrate cassette 110 to the liquid crystal cell substrate 1 from the standing conveying line 50, for example, by easily driving control of the lower side support roller 111 provided on the substrate cassette 110. It becomes possible.

As another method, a device configuration using a robot arm or the like is also possible. The substrate cassette 110 is installed in a substrate loader station 100 so as to be capable of movement control in a direction orthogonal to the conveying direction of the standing conveying line 50.

The first and second liquid crystal cell substrates 1 are placed on the standing transfer line 50 in a state in which the cleaning line 200 for washing the liquid crystal cell substrate 1 in the standing state and the liquid crystal cell substrate 1 are in the standing state. The standing-up polarizing film attachment line 300 for attaching the polarizing films 2 and 3 to the main surface is provided.

The standing polarizing film attachment line 300 includes a panel cleaning station 310 for receiving a liquid crystal cell substrate 1 conveyed from a carrying station 250, and a standing liquid crystal cell substrate 1. A polarization film attachment station 320 for attaching the polarizing films 2 and 3 to the first and second major surfaces, and a contamination inspection station 330 for conducting a foreign material mixing inspection. It is.

The process in which the liquid crystal cell substrate 1 attaches the polarizing films 2 and 3 to the first and second main surfaces simultaneously to the polarizing film attaching station 320 is employed to produce the polarizing film 2 in the liquid crystal cell. The first polarizing film conveying line 400 A for supplying to the first main surface of the substrate 1 and the second polarizing film for supplying the polarizing film 3 to the second main surface of the liquid crystal cell substrate 1 The conveyance line 400B is arrange | positioned so that it may become line symmetry with the liquid crystal cell board | substrate 1 in between. Here, as a polarizing film 2, CF surface side polarizing film is mentioned, As a polarizing film 3, TFT surface side polarizing film is mentioned.

Peeling stations 470 A and 470 B for peeling off the release film from the polarizing films 2 and 3 are respectively provided on the first polarizing film conveying line 400 A and the second polarizing film conveying line 400 B. ) Is installed.

The peeling stations 470A, 470B are controlled by the peeling control boxes 460A, 460B and thereby allowing peeling of the mold release film along the diagonal direction of the polarizing films 2, 3. Peeling arms 461A and 461B are provided.

At both positions of the liquid crystal cell substrate 1, the polarizing films 2 and 3 on which the release film is peeled off are sucked and fixed to a position opposite to the main surface of the liquid crystal cell substrate 1 in the standing state. The 1st polarizing film set table 321A and the 2nd polarizing film set table 321B for standing conveyance of the polarizing films 2 and 3 are provided. Moreover, the crimping rollers 322A and 322B for pressure-contacting the polarizing films 2 and 3 to the liquid crystal cell board | substrate 1 are provided.

The attachment process for attaching the polarizing films 2 and 3 to the liquid crystal cell substrate 1 in the conventional polarizing film attachment device 1000 having the above configuration will be described.

The liquid crystal cell substrate 1 is conveyed continuously to the standing polarizing film attachment line 300 and is conveyed to the liquid crystal cell substrate 1 while conveying the liquid crystal cell substrate 1 in the standing state while being in the station 320 with polarizing film attachment. The polarized film 2 suction-held to the first polarizing film set table 321A is attached to the first major surface of the substrate. At the same time, the polarizing film 3 sucked and held on the second polarizing film set table 321B is attached to the second main surface of the liquid crystal cell substrate 1.

3 is a schematic diagram of a cross-sectional structure of a conventional color liquid crystal display.

The color liquid crystal display 10 includes a liquid crystal cell substrate 1 composed of a glass substrate sandwiched between a liquid crystal, an alignment film, a transparent electrode, a color filter, and the like. The polarizing films 2 and 3 arrange | positioned at the 1st main surface side and the 2nd main surface side (CF surface side, TFT surface side) of the liquid crystal cell substrate 1 are provided.

The manufacturing process of a color liquid crystal display having such a configuration requires a variety of processes such as a TFT array process, a color filter manufacturing process, a cell assembly process, a module assembly process, and the like. Although there exist, the polarizing film adhesion process to the liquid crystal cell substrate 1 is mentioned in it.

FIG. 4 is a first cross-sectional process diagram showing an outline of a process of attaching a polarizing film to a conventional liquid crystal cell substrate. FIG. FIG. 5 is a second cross-sectional process diagram showing an outline of a process of attaching a polarizing film to a conventional liquid crystal cell substrate. FIG.

The polarizing film attaching process is a process performed after the liquid crystal cell assembly process. As shown in FIG. 4, a releasing film is disposed in order to expose a pressure-sensitive adhesive layer on one surface of the polarizing film 2 by arranging the polarizing film 2 on the first major surface side of the liquid crystal cell substrate 1. (2a) is separated from the polarizing film (2).

Thereafter, as shown in FIG. 5, the polarizing film 2 adsorbed and fixed to the set table 2A is tilted up on the liquid crystal cell substrate 1 side, so that the liquid crystal cell substrate 1 and the polarizing film 2 are rotated. While sending to the conveyance roller 5, the polarizing film 2 adheres to the 1st main surface (CF surface) of the liquid crystal cell board | substrate 1 closely.

After that, after inverting the liquid crystal cell substrate 1, the polarizing film 3 is similarly attached to the second main surface (TFT surface) of the liquid crystal cell substrate 1.

However, in the conventional method of attaching the polarizing film to the liquid crystal cell substrate, there is a high possibility that air bubbles are generated between the liquid crystal cell substrate and the polarizing film. This means that a portion of the polarizing film that is not placed on the set table in FIG. 5 is bent downward rather than being kept flat in a straight line, so that the right edge end of the polarizing film and the liquid crystal cell substrate corresponding to the starting point of attachment of the polarizing film are placed. This is because the right corner end of the lift occurs.

In addition, according to the conventional method of attaching the polarizing film, the polarizing film 2 is weakly adsorbed on the set table 2A. At this time, the conveying roller 5 rotates so that the liquid crystal cell substrate 1 and the liquid crystal cell substrate 1 are rotated. ), The tensile stress is generated on the polarizing film 2 as a whole by the force of the polarizing film 2 attached to the end in the direction of the arrow, so that the polarizing film 2 is elongated and the length of the polarizing film 2 is increased. The total length of the stretched polarizing film 2 becomes slightly longer than the length to be attached to the liquid crystal cell substrate 1, resulting in a problem that warpage occurs in the liquid crystal cell substrate 1.

The present invention has been made to solve the problem of the method of attaching the conventional polarizing film to the liquid crystal cell substrate, the conventional method of adsorbing most of the area of the polarizing film on the set table and exposing the front part out of the set table In the left and right tilt rollers and fixed rollers to install the adhesive sheet of the endless track and the polarizing film is disposed on the adhesive film constituting the upper portion of the flat adhesive sheet as a whole, the polarizing film is attached to the liquid crystal cell substrate and polarized Since the film does not bend as a whole, the possibility of bubble generation is significantly reduced when the polarizing film adheres to the surface of the liquid crystal cell substrate, and thus the possibility of defects is eliminated, and the increase of the polarizing film prevents the occurrence of? To provide a polarizing film attachment device characterized in that The purpose.

In order to achieve the above object, the polarizing film attachment device according to the present invention, as a polarizing film attachment device for attaching a polarizing film on the surface of the liquid crystal cell substrate,

The polarizing film attachment device, the panel conveying plate for transporting the liquid crystal cell substrate in the state adsorbed on the bottom;

An adhesive sheet on which the polarizing film is placed;

The adhesive sheet is installed to be fitted by both the tilt roller and the fixed roller in a state connected to each other in an endless track manner, the tilt roller is a liquid crystal adsorbed on the panel carrier plate to attach the polarizing film to the liquid crystal cell substrate And move upwards to contact the cell substrate,

The adhesive sheet is composed of a Teflon glass fiber sheet on the inside, the outside is composed of an adhesive film,

The tilt roller is connected to the tilt power unit driven by the servo motor, characterized in that it moves up and down,

The tilt roller and the fixed roller is composed of no power,

With the tilt roller moving upwards, the end of the polarizing film is attached to the end of the liquid crystal cell substrate,

The tilting roller and the fixed roller are rotated while the liquid crystal cell substrate is moved by the panel transport plate, and at the same time, the polarizing film is gradually attached to the liquid crystal cell substrate.

The polarizing film attaching device according to the present invention conventionally adsorbs most of the area of the polarizing film on the set table, and initially exposes the front part of the polarizing film bonded to the liquid crystal cell substrate outside the set table. After the adhesive sheet is installed in the fixed roller and the fixed roller and the polarizing film is placed on the adhesive sheet, the tilt roller is tilted upward to be in close contact with the liquid crystal cell substrate. Since the polarizing film is attached to the cell substrate, the phenomenon in which the polarizing film is not bent as a whole does not occur, thereby reducing the possibility of bubble generation between the surface of the polarizing film and the liquid crystal cell substrate.

In addition, in the present invention, when the polarizing film is attached to the liquid crystal cell substrate, there is no problem that the length of the polarizing film is increased as fine as in the prior art, so that the bending of the liquid crystal cell substrate does not occur. When the polarizing film is gradually attached to the liquid crystal cell substrate, since the tilt roller rotates in the direction in which the liquid crystal cell substrate moves, the adhesive sheet moves at the same speed as the liquid crystal cell substrate. It doesn't happen at all.

Therefore, the defect rate of the liquid crystal cell substrate on which the polarizing film is installed is thereby significantly reduced, and the overall costs such as the production cost are significantly reduced.

1 is an overall plan view showing a schematic configuration of a polarizing film attachment device in a conventional embodiment.
2 is an overall side view showing a schematic configuration of a polarizing film attachment device in a conventional embodiment.
3 is a schematic diagram of a cross-sectional structure of a conventional color liquid crystal display.
FIG. 4 is a first cross-sectional process diagram showing an outline of a process of attaching a polarizing film to a conventional liquid crystal cell substrate. FIG.
FIG. 5 is a second cross-sectional process diagram showing an outline of a process of attaching a polarizing film to a conventional liquid crystal cell substrate. FIG.
FIG. 6 is a diagram illustrating a first step of attaching a polarizing film to a liquid crystal cell substrate using the polarizing film attaching apparatus according to the present invention.
FIG. 7 is a view illustrating a second step of attaching a polarizing film to a liquid crystal cell substrate using the polarizing film attaching device according to the present invention.
8 is a view showing a third step of attaching the polarizing film to the liquid crystal cell substrate using the polarizing film attachment device according to the present invention.
FIG. 9 is a view illustrating a second step of attaching a polarizing film to a liquid crystal cell substrate using the polarizing film attaching apparatus according to the present invention.
10 is a perspective view of a set table unit which is one component of the polarizing film attachment device according to the present invention.
11 is a side view of a set table unit which is one component of the polarizing film attachment device according to the present invention.
12 is an exemplary view for explaining a problem when the polarizing film is adhered to the liquid crystal cell substrate by a conventional method.
FIG. 13 is an explanatory diagram for explaining a feature of the present invention that overcomes the problems of the conventional polarizing film attaching method shown in FIG. 12.

FIG. 6 is a view showing a first step of attaching a polarizing film to a liquid crystal cell substrate using the polarizing film attaching apparatus according to the present invention.

Referring to FIG. 6, a panel transport plate in which a liquid crystal cell substrate 1 is adsorbed on a position where a polarizing film 2 is placed on a pressure-sensitive adhesive sheet 30 according to the present invention. 40 is configured to be located.

The adhesive sheet 30 of this invention is comprised from the Teflon sheet and the adhesive film comprised on a Teflon sheet.

The panel conveying plate 40 of the present invention is configured to move in the direction of an arrow (see FIG. 2) by a power means (not shown) such as a motor, and the tilt roller 20 according to the present invention is a panel conveying plate 40 Can be adjusted so that the position is tilted up and down so as to be in contact with the adsorbed liquid crystal cell substrate 1, and the fixed roller 22 is configured to be fixed so that the position does not move up and down.

The tilt roller 20 and the fixed roller 22 of the present invention are not configured to move in connection with a driving means such as a motor, but are simply configured with no power.

Although only one tilt roller 20 and one fixed roller 22 are shown in the drawing, in practice, the larger the diameter of each roller is, the larger the occupied area becomes, and in fact, the tilt roller 20 and the fixed roller 22 are one. It consists of the above rollers.

Since the adhesive sheet corresponds to a consumable part, the sheet connection part 32 is configured for replacement.

FIG. 7 is a view illustrating a second step of attaching a polarizing film to a liquid crystal cell substrate using the polarizing film attaching device according to the present invention.

Referring to FIG. 7, the left edge portion of the liquid crystal cell substrate 1 in which the tilt roller 20 of the present invention is tilted upward and adsorbed to the left edge portion of the polarizing film 2 and the panel transport plate 40. It comes in contact with.

Adjusting the position where the liquid crystal cell substrate 1 is adsorbed on the panel transport plate 40 and the position where the polarizing film 2 is placed on the adhesive sheet 30 is performed by a camera and a conveying means separately installed. Corresponds to

8 is a view showing a third step of attaching the polarizing film to the liquid crystal cell substrate using the polarizing film attachment device according to the present invention.

Referring to FIG. 8, the panel transport plate 40 according to the present invention is moved in the direction of the arrow, and the panel transport plate 40 is attached to the liquid crystal cell substrate 1 in the tilt roller 20 in the upward direction. Rotates as the arrow moves in the direction of the arrow, and the polarizing film 2 gradually adheres to the surface of the liquid crystal cell substrate 1.

9 is a view showing a fourth step of attaching the polarizing film to the liquid crystal cell substrate using the polarizing film attachment device according to the present invention.

Referring to FIG. 9, when the panel conveying plate 40 according to the present invention is moved in the direction of the arrow, the liquid crystal cell substrate 1 adsorbed on the panel conveying plate 40 also moves together, and at the same time, the tilt roller 20 which is non-powered. While the fixed roller 22 is also rotated, the polarizing film 2 adhered to the adhesive sheet 30 is attached to the surface of the liquid crystal cell substrate 1.

10 is a perspective view of a set table unit which is one component of the polarizing film attachment device according to the present invention. 11 is a side view of a set table unit which is one component of the polarizing film attachment device according to the present invention.

10 to 11, one end of the tilting unit 41 and the tilting unit 41, which is a configuration in which the polarizing film 2 is temporarily adhered and one end thereof moves up and down, according to the present invention. The tilting power part 42 which tilts up and down about the other end is comprised.

The tilt unit 41 according to the present invention is a tilting roller 20 which moves in the vertical direction, a fixed roller 22 which does not move up and down, and an adhesive sheet 30 which is installed in the tilt roller 20 and the fixed roller 22. It is configured to include).

The tilt power unit 42 according to the present invention is composed of a servo motor as a driving means, a gear connected to the servo motor, and the like (the detailed description is omitted since it is a very common technology to those skilled in the art), so that the tilt power unit 42 is directed upward. One end of the tilt unit 41 located in the configuration is configured to move up and down while rotating around the other end.

12 is an exemplary view for explaining a problem when the polarizing film is adhered to the liquid crystal cell substrate by a conventional method.

12 is a diagram illustrating a problem actually occurring during the polarizing film attaching process to the conventional liquid crystal cell substrate shown in FIG. 5.

As shown in Fig. 12, in the polarizing film 2 adsorbed and fixed to the conventional set table 2A, portions exposed to the outside from the set table 2A are flat in a straight line as shown in Fig. 5. There was a problem in that it does not keep comfortable and actually tilts in one direction.

Due to the problem that the exposed portion of the polarizing film 2 from the set table 2A to the outside is bent upward or downward, the bent portion of the polarizing film 2 is completely different from the liquid crystal cell substrate 1. It was not able to be in close contact with each other, and caused bubbles between the polarizing film 2 and the liquid crystal cell substrate 1, resulting in a problem of producing a defective product.

In addition, according to the conventional method of attaching the polarizing film, the polarizing film 2 is weakly adsorbed on the set table 2A. At this time, the conveying roller 5 rotates so that the liquid crystal cell substrate 1 and the liquid crystal cell substrate 1 are rotated. ), The tensile stress is generated on the polarizing film 2 as a whole by the force of the polarizing film 2 attached to the end in the direction of the arrow, so that the polarizing film 2 is elongated and the length of the polarizing film 2 is increased. The total length of the stretched polarizing film 2 becomes slightly longer than the length to be attached to the liquid crystal cell substrate 1, resulting in a problem that warpage occurs in the liquid crystal cell substrate 1.

FIG. 13 is an explanatory diagram for explaining a feature of the present invention that overcomes the problems of the conventional polarizing film attaching method shown in FIG. 12.

Referring to FIG. 13, the polarizing film attachment device according to the present invention has a configuration in which a pressure-sensitive adhesive sheet 30 is moved in an endless track to a tilting roller 20 that moves up and down and a fixed roller 22 that adheres to an installed position. .

The polarizing film 2 attached to the liquid crystal cell substrate 1 moving in the direction of the arrow with the panel transport plate 40 in a state of being adsorbed to the panel transport plate 40 according to the present invention is placed on the adhesive sheet 30. The panel conveying plate 40 and the liquid crystal cell substrate 40 are in a state in which the tilting roller 20 is tilted upward so that the corner end of the polarizing film 2 is in contact with the corner end of the liquid crystal cell substrate 1. As the polarizing film 2 adhered to the pressure-sensitive adhesive sheet 30 moves in the direction of the arrow, the tilt roller 20 gradually rotates, and the liquid crystal cell substrate 1 is pressed while the remaining part of the polarizing film is also used as the liquid crystal cell substrate ( It is configured to gradually join with 1).

The tilt roller 20 and the fixed roller 22 according to the present invention are constituted by a non-rotational force without rotating by a driving means such as a motor.

Since the adhesive material is coated on the surface of the polarizing film 2 adhered to the pressure sensitive adhesive sheet 30 to the liquid crystal cell substrate 1, the liquid crystal cell substrate 1 adsorbed to the panel transport plate 40 is While moving in the direction of the arrow, the non-powered tilt roller 20 and the fixed roller 22 also rotate.

If the tilt roller 20 and the fixed roller 22 are moved by driving means separately installed, the moving speed of the panel conveying plate 40 and the rotation speed of the tilt roller 20 and the fixed roller 22 are accurately synchronized. Only when the polarizing film 2 is attached to the liquid crystal cell substrate 1, the defect that the polarizing film 2 is stretched or bent does not occur. However, if fine synchronization is not achieved, there is a high possibility that a defect may occur in attaching the polarizing film 2 to the liquid crystal cell substrate 1.

For this reason, the tilt roller 20 and the fixed roller 22 according to the present invention are driven with no power.

In addition, in the present invention, when the polarizing film 2 is attached to the liquid crystal cell substrate 1, the problem that the length of the polarizing film 2 increases even finely as in the prior art does not occur. Warping does not occur. Since the tilt roller 20 rotates in the direction in which the liquid crystal cell substrate 1 moves when the polarizing film 2 is gradually attached to the liquid crystal cell substrate 1, the pressure-sensitive adhesive sheet 30 is the liquid crystal cell substrate 1. ), The tensile stress does not occur at all in the polarizing film 2 because it moves at the same speed as the moving speed.

In recent years, the size of color liquid crystal displays has been increased, and the size of a conventional color liquid crystal display is 15 inches in mainstream, but now 30 inches and 45 inches have become mainstream. It is believed that the size of the color liquid crystal display will accelerate in size.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

1: liquid crystal cell substrate 2: polarizing film
20: Tilt roller 22: Fixed roller
30: adhesive sheet 32: sheet connection
40: panel conveyance plate 41: tilt unit
42: tilt power unit

Claims (4)

A polarizing film attachment device for attaching a polarizing film on the surface of a liquid crystal cell substrate,
The polarizing film attachment device,
A panel transport plate for transporting the liquid crystal cell substrate in a state where the liquid crystal cell substrate is adsorbed on the bottom surface;
An adhesive sheet on which the polarizing film is placed;
The adhesive sheet is installed to be fitted by both the tilt roller and the fixed roller in a state connected to each other in an endless track manner,
The tilt roller is configured to move upward to contact the liquid crystal cell substrate adsorbed on the panel transport plate to attach the polarizing film to the liquid crystal cell substrate,
The polarizing film is placed flat on the pressure-sensitive adhesive sheet without bending, and when the tilt roller is tilted upward, the edge end of the polarizing film is in contact with the edge end of the liquid crystal cell substrate.
The tilt roller and the fixed roller is composed of no power,
With the tilt roller moving upwards, the edge end of the polarizing film is attached to the end of the liquid crystal cell substrate.
The tilting roller and the fixed roller is rotated while the liquid crystal cell substrate is moved by the panel conveying plate, and the polarizing film adhered to the adhesive sheet is attached to the liquid crystal cell substrate. .
The method of claim 1,
The adhesive sheet is composed of a Teflon glass fiber sheet on the inside, the polarizing film attachment device, characterized in that consisting of an adhesive film on the outside.
The method of claim 1,
The tilt roller is a polarizing film attachment device characterized in that it moves up and down by a servo motor.
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