JP4830258B2 - Method for pasting the pressure-sensitive adhesive layer. - Google Patents

Description

  The present invention relates to a method for bonding an adhesive layer to a resin film such as a polarizing plate and a retardation plate used for production of a liquid crystal display or the like. In detail, it is related with the bonding method of the adhesive layer which adheres an adhesive layer to the direction of a resin film more strongly than the board | substrate etc. which bond a resin film.

Polarizing films and retardation films used in the production of liquid crystal displays (hereinafter referred to as LCDs) usually have a pressure-sensitive adhesive layer adhered to these films, and a release film is bonded onto the film, and the other film surface is protected. It is commercialized as a state where the film is bonded. When manufacturing a liquid crystal display, these films are bonded to the glass substrate of a liquid crystal cell via an adhesive layer except for a release film.
Moreover, a decorative film etc. may also be commercialized as the state which bonded the adhesive layer, bonded the peeling film on it, and bonded the protective film on the other film surface. When this decorative film is bonded to a substrate, it is bonded via an adhesive layer except for the release film.

A polarizing film or the like is cut into a sheet and used or commercialized, but the polarizing film and the pressure-sensitive adhesive layer may be peeled off during handling. For example, the polarizing film and the pressure-sensitive adhesive layer may be peeled off when the release film is peeled off in order to bond the polarizing film to the glass substrate of the liquid crystal cell. In addition, when the polarizing film is bonded to the glass substrate through the pressure-sensitive adhesive layer, air bubbles may be bitten or wrinkles may occur. In this case, after the polarizing film is peeled off once and corrected , You may want to paste it again. In this case, it is necessary that the pressure-sensitive adhesive layer remains on the polarizing film and does not remain on the glass substrate.
For this reason, the pressure-sensitive adhesive layer needs to adhere more strongly to the polarizing film than the glass substrate.

As a method for strongly adhering the pressure-sensitive adhesive layer with a polarizing plate or a retardation plate, it has been proposed to perform a surface treatment such as corona treatment on the surface of the pressure-sensitive adhesive layer to be bonded to the polarizing plate or the retardation plate (Patent Literature). 1).
However, it is not sufficient to perform a surface treatment on the pressure-sensitive adhesive layer, and a method of strongly sticking the pressure-sensitive adhesive layer to the film is desired.
JP-A-7-174918

  An object of the present invention is to provide a method for strongly bonding a pressure-sensitive adhesive layer to a resin film.

As a result of intensive studies to solve such problems, the inventors of the present invention have made the pressure-sensitive adhesive layer stronger than the resin film by subjecting the surface to which the resin film and the pressure-sensitive adhesive layer are bonded to each other to surface activation treatment, particularly corona treatment. The inventors found that they can be in close contact, and completed the present invention.
That is, the present invention provides a method for bonding a pressure-sensitive adhesive layer to a resin film , wherein the polarizing film or retardation film and the acrylic pressure - sensitive adhesive layer are bonded to the surface of each of the resin film or the pressure-sensitive adhesive layer per 1 m ² of resin film or pressure-sensitive adhesive layer. It is characterized by corona treatment and bonding with a corona output of ˜9 kJ .

  According to the present invention, the pressure-sensitive adhesive layer can be more closely adhered to the resin film. By this, since a resin film adheres to a board | substrate via an adhesive layer, when peeling a peeling film, peeling of a resin film and an adhesive layer can be prevented. Moreover, when air bubbles are bitten at the time of bonding with the substrate or when wrinkles are generated, the pressure-sensitive adhesive layer can remain on the film and not on the substrate when it is peeled off and reattached.

  Examples of the resin film in the present invention include a polarizing film used for manufacturing a liquid crystal display (hereinafter referred to as LCD), an optical film such as a retardation film, a polyethylene film, a polypropylene film, a polymethyl methacrylate film, a polyvinyl chloride film, and the like. Although a decorative film etc. are mentioned, it is not limited to these.

Examples of the material for the pressure-sensitive adhesive layer include, but are not limited to, pressure-sensitive adhesives such as acrylic pressure-sensitive adhesives, rubber-based pressure-sensitive adhesives, and silicone-based pressure-sensitive adhesives.
These pressure-sensitive adhesives are usually formed in a film shape, and are provided in a state in which a release film is bonded to both surfaces.

Examples of the surface activation treatment include corona treatment and plasma treatment.
In the corona treatment, a high voltage is applied between the electrodes (usually one is a roll) to cause discharge to treat the resin film or the adhesive layer disposed between the electrodes. The effect of corona treatment varies depending on the type of electrode, electrode spacing, voltage, humidity, type of resin film and pressure-sensitive adhesive layer used, and specifically, for example, the distance between the electrodes is about 2 to 5 mm, and the processing speed is about It is performed at 5 to 20 m / min. The corona output is preferably about ^{2 to} 9 kJ, more preferably about 3 to 7 kJ per 1 m ² of the resin film or pressure-sensitive adhesive layer. If the corona output is less than about 2 kJ, the effect is small, and if it is greater than about 9 kJ, the effect is small.

  The plasma treatment is treatment with plasma of an inert gas, oxygen gas, or the like generated under a reduced pressure of 0.1 to 1 Torr or an atmospheric pressure. For example, a gas obtained by mixing about 10% of oxygen with an inert gas such as argon is used under a reduced pressure of about 0.1 Torr, a frequency of 13.56 MHz, a high frequency output of about 100 W, and a processing time of 10 minutes. Is called.

  In the present invention, surface activation treatment such as corona treatment is performed on the respective surfaces of the resin film and the pressure-sensitive adhesive layer. Adhesiveness is insufficient with only one of the resin film and the pressure-sensitive adhesive layer.

The outline | summary of an example of the method of bonding by performing a corona treatment as a surface activation process using a polarizing film as a resin film is shown in FIG.
A polarizing film on which the protective film is bonded (the protective film is wound around the outside) is fed out from the roll 1. On the other hand, the pressure-sensitive adhesive layer in which the release film is bonded to both sides is fed out from the roll 2. The release film on the side of the pressure-sensitive adhesive layer that has been subjected to corona treatment is peeled off and taken up by the release film take-up roll 4. In the polarizing film, the corona treatment device 7 and the pressure-sensitive adhesive layer from which one side of the release film is peeled are corona-treated by the corona treatment device 6, respectively, and the polarizing film and the corona-treated surface of the pressure-sensitive adhesive layer are bonded by the bonding roll 5. The A polarizing film having a pressure-sensitive adhesive layer bonded thereto (each of which has a release film and a protective film bonded to the outside) is wound on a winding roll 3.

  EXAMPLES Hereinafter, although an Example is shown and this invention is shown concretely, this invention is not restrict | limited to the following Example.

In the apparatus shown in FIG. 2, a polarizing film (Sumikaran (registered trademark) SRW862A-XF manufactured by Sumitomo Chemical Co., Ltd.) and an adhesive layer (non-carrier (registered trademark) P3132-2 manufactured by Lintec Corporation) are used as follows. The corona treatment was performed, the corona-treated surfaces were pasted, and a resin film was pasted with an adhesive layer.
The polarizing film was attached to the position A of the support plate 9 with the bonding surface of the polarizing film up, and the adhesive film was attached to the position B of the support plate with the bonding surface of the pressure-sensitive adhesive layer up, and the release film of the pressure-sensitive adhesive layer was peeled off. The support plate is placed on the carrier belt 8 while the corona treatment device (manufactured by Kasuga Electric Co., Ltd.) (corona treatment electrodes 6 and 7) is used for corona treatment of the polarizing film and the adhesive layer while moving at a line speed of 10 m / min. went. In addition, when changing and changing the corona output of a polarizing film and an adhesive layer, it carried out separately.
After performing the corona treatment, the polarizing film and the pressure-sensitive adhesive layer were bonded using a hand roller.

The polarizing film on which the pressure-sensitive adhesive layer was bonded was stored for 2 days, and an adhesion evaluation test was performed. In the evaluation test, the pressure-sensitive adhesive surface was lightly rubbed with a fingertip, and the peeled state from the polarizing film was observed.
1: The entire surface peels easily.
2: The entire surface peels easily, but is slightly stronger than 1.
3: The entire surface peels easily, but slightly stronger than 2.
4: The whole surface peels.
5: The entire surface peels off, but is slightly stronger than 4.
6: The entire surface peels off, but is slightly stronger than 5.
7: Partially peels off.
8: Almost no peeling.

In this evaluation test, those with an evaluation of 3 to 8 have practically almost no peeling of the pressure-sensitive adhesive layer or the remaining of the pressure-sensitive adhesive layer at the time of peeling of the polarizing film. May cause problems.
Table 1 shows the evaluation results obtained by changing the corona output (unit: kJ / m ² ).

どちらかをコロナ処理しない（コロナ出力が０）場合は、両方コロナ処理した場合に比べて密着性が劣っている。

When either one is not corona treated (corona output is 0), the adhesion is inferior compared to the case where both are corona treated.

The same procedure as in Example 1 was carried out except that Noncarrier (registered trademark) P119E (manufactured by Lintec Corporation) was used as the adhesive layer. The evaluation results are shown in Table 2.
As in Example 1, when either one is not corona treated (corona output is 0), the adhesion is inferior compared to the case where both are corona treated.

The same procedure as in Example 1 was performed except that a retardation film (Sumikite (registered trademark) KSEES440108Z-F manufactured by Sumitomo Chemical Co., Ltd.) was used as the resin film. The evaluation results are shown in Table 3.
As in Example 1, when either one is not corona treated (corona output is 0), the adhesion is inferior compared to the case where both are corona treated.

It is a figure which shows the outline | summary of an example of the method of corona-treating and bonding a resin film and an adhesive layer. It is a figure which shows the method performed in the Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Polarizing film feeding roll 2 Adhesive layer feeding roll 3 Winding roll 4 Release film winding roll 5 Bonding roll 6 Corona treatment electrode 7 Corona treatment electrode 8 Carrier belt 9 Support plate

Claims (1)

In the method of bonding the pressure - sensitive adhesive layer to the resin film , corona output of ^{2 to} 9 kJ per 1 m ² of the resin film or pressure-sensitive adhesive layer is used as the surface of the polarizing film or retardation film and the acrylic pressure - sensitive adhesive layer as the resin film. A method of laminating a pressure-sensitive adhesive layer, characterized by corona treatment and laminating.

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