JP5808156B2 - Multilayer adsorption sheet - Google Patents

Description

  The present invention relates to a multilayer adsorbing sheet that adsorbs and holds lightweight objects such as films, sheets, and ultrathin panels.

Conventionally, in a sticking apparatus for sticking a polarizing film to a liquid crystal panel, an adsorption sheet is used to transport a polarizing film as a transport object to a sticking position. As shown in FIG. 1, the sticking device 1 includes an annular infinite conveying belt 8 that is hung on the driving roller 2 and the plurality of driven rollers 3, an adsorption sheet 10 ′ provided on the outer surface of the infinite conveying belt 8, The pressure roller 5 that presses the supplied polarizing film F with the protective sheets S ₁ and S ₂ against the surface of the suction sheet 10 ′, the peeling roller 6 and the grip roller 7 that peel the protective sheet S ₂ from the polarizing film F, and the rotational axis position Includes a pressure roller 4 that can reciprocate up and down.

In the sticking apparatus 1, by the pressure roller 4 while deforming the endless conveyor belt 8 is moved downward, application surface F _a polarizing film F exposed by the protective sheet S ₂ is peeled is a liquid crystal panel P panel affixed to the surface _{P a} (see FIG. 1 (B) (C)) .

  Further, as shown in FIG. 2, another sticking device 20 includes a cylindrical drum 21, a suction sheet 10 ′ provided on the outer surface of the drum 21, and a polarizing film F with a protective sheet S. Film supply means 22 pressed against the surface of the film, peeling means 23 for peeling off the protective sheet S from the polarizing film F at a position where the drum 21 is rotated about 90 ° clockwise, and a position where the drum 21 is further rotated about 90 °. And a panel supply means 24 for supplying the liquid crystal panel P.

In the sticking device 20, by the stage 25 to the liquid crystal panel P sucked and held is moved downwardly, application surface F _a polarizing film F exposed by the protective sheet S is peeled is stuck to the liquid crystal panel P.

As a conventional suction sheet 10 ′ that can be used in the sticking apparatuses 1 and 20, for example, the one described in Patent Document 1 is known. This conventional adsorption sheet 10 ′ has a three-layer structure of a base material layer serving as an intermediate layer, an adhesive layer provided on the back surface of the base material layer, and a foamed resin layer provided on the surface of the base material layer, An adhesive layer is attached to the outer surface of the infinite conveyance belt 8 or the drum 21. Therefore, in the sticking apparatuses 1 and 20, the foamed resin layer of the adsorption sheet 10 ′ adsorbs and holds the polarizing film F (protective sheet S ₁ ).

JP 2010-70740 A

  By the way, in the sticking apparatus 1 shown in FIG. 1, since a plurality of bent portions exist in the conveyance path of the suction sheet 10 ′, a tensile force is applied to the suction sheet 10 ′ when passing through the bent portions. Further, in the sticking device 20 shown in FIG. 2, since the entire conveyance path of the suction sheet 10 'is bent, a tensile force is always applied to the suction sheet 10'.

  This tensile force is relatively small in the adhesive layer (base material layer) close to the center of bending (rotation center of the drum 21) and relatively large in the foamed resin layer far from the center of bending. There will be a bias in force. Further, in the conventional adsorbing sheet 10 ', the preferred thickness of the foamed resin layer is 2 to 8 mm, and a thick cloth, cloth or non-woven fabric is used as the base material layer, and since it has an appropriate waist strength, it is bent. However, since the thickness of the entire adsorbing sheet 10 ′ is very thick, such as several mm to several tens mm or more, the bias of the tensile force is considerably large.

  Accordingly, if the conventional suction sheet 10 ′ is continuously used in the pasting devices 1, 20, the foamed resin layer to which the most tensile force is applied is stretched and wrinkles are generated, or the surface is wrinkled. 10 'may be rolled up, and the polarizing film F may be sucked and transported. Therefore, when these problems occur, it is necessary to perform troublesome replacement work for temporarily stopping the sticking apparatuses 1 and 20 and replacing the suction sheet 10 'with a new one.

  This invention is made | formed in view of the said situation, The place made into the subject is providing the multilayer adsorbing sheet which does not produce a wrinkle and a twist even if it uses it for a long term in the environment which has a bending part.

In order to solve the above-mentioned problems, a multilayer adsorbing sheet according to the present invention includes a foamed resin layer having an acrylic foam resin thickness of 50 μm to 500 μm, and at least one PET film base laminated on the back surface of the foamed resin layer. A material layer and a pressure-sensitive adhesive layer made of an acrylic pressure-sensitive adhesive layer laminated on the surface opposite to the foamed resin layer of the PET film base material layer, the thickness of the PET film base material layer is 5 μm to 250 μm, and The total thickness is 800 μm or less.
According to this configuration, by reducing the overall thickness to 800 μm or less, it is possible to minimize the bias of the tensile force applied to the PET film substrate layer and the tensile force applied to the foamed resin layer at the bent portion. That is, it is possible to realize a multilayer adsorbing sheet that hardly causes wrinkles and wrinkles.
In addition, according to this configuration, the adhesive force of the adhesive layer can be used to easily and securely hold the infinite conveying belt or the drum.

The multilayer adsorption sheet may further include a laminate layer made of a PET film laminated on the surface of the adhesive layer opposite to the PET film base layer.
Generally, there are multiple products with different film configurations, materials, or sheet thicknesses depending on the type, grade, and performance to be added, such as a polarizing film (with a protective film). However, it is necessary to optimize the adsorption force, adsorption pressure, transportability and the like for each product by adjusting the thickness and waist strength of the entire multilayer adsorption sheet. However, if the thickness of the entire multilayer adsorbing sheet is adjusted using only the PET film base layer, the stiffness of the PET film is affected and the stiffness of the multilayer adsorbing sheet itself becomes too strong and the followability to the bent portion is impaired. Result.
In this regard, according to the above configuration, the laminate layer made of PET film is further laminated, and the adhesive layer having a relatively soft and viscoelasticity is sandwiched between the PET film base layer and the laminate layer. It is possible to adjust the thickness and the strength of the waist at the same time. That is, according to said structure, generation | occurrence | production of a wrinkle and a twist is suppressed, and the multilayer adsorption sheet excellent in the followable | trackability with respect to a bending part is obtained.

The multilayer adsorbing sheet is composed of an n-layer (where n is an integer of 1 or more) pressure-sensitive adhesive layer and a PET film made of an acrylic pressure-sensitive adhesive layered alternately on the surface of the laminate layer opposite to the pressure-sensitive adhesive layer. an n-layer laminate layer, and an m-layer composed of an acrylic pressure-sensitive adhesive layered alternately on the opposite side of the laminate layer from the adhesive layer (where m is 1 or more) (Integer) adhesive layer and m-1 laminated layer made of PET film may be further provided.
According to this configuration, since the overall thickness and waist strength can be adjusted by adjusting the number of layers n and m, it is possible to obtain a multilayer adsorbing sheet that is further excellent in followability to the bent portion.

  ADVANTAGE OF THE INVENTION According to this invention, even if it uses it over a long period of time in the environment which has a bending part, the multilayer adsorption sheet which cannot produce a wrinkle and a twist can be provided.

It is an example of a sticking apparatus, (A) is a whole sectional side view, (B) and (C) are partial sectional side views which show the mode of the sticking process which advances sequentially. It is a sectional side view which shows the other example of a sticking apparatus. It is a sectional side view of the multilayer adsorption sheet which concerns on this invention. It is the top view which looked at the multilayer adsorption sheet concerning the modification of the present invention from the surface side. It is a sectional side view of the multilayer adsorption sheet which concerns on the other modification of this invention.

  Hereinafter, with reference to an accompanying drawing, a desirable embodiment of a multilayer adsorption sheet concerning the present invention is described. In the following, the multilayer adsorbing sheet used in the adhering device 1 shown in FIG. 1 will be described, but the multilayer adsorbing sheet according to the present invention is also used in various environments other than the adhering device 1, for example, the adhering device 20. be able to.

  As shown in FIG. 3, the multilayer adsorbing sheet 10 according to the present invention includes a PET film base layer 11, a foamed resin layer 12 provided on the surface of the PET film base layer 11 (on the polarizing film F side), and PET. And an adhesive layer 13 provided on the back surface of the film base material layer 11 (infinite transport belt 8 side).

  The PET film substrate layer 11 is composed of a white polyethylene terephthalate film (hereinafter referred to as PET film), a transparent PET film or a foamed PET film. Although the thickness of the PET film base material layer 11 in this embodiment is about 50 micrometers, this can be changed suitably. However, if the PET film base material layer 11 is made too thin, the multilayer adsorbing sheet 10 is lost and handling becomes difficult. Moreover, when the PET film base material layer 11 is made too thick, the thickness of the multilayer adsorption sheet 10 as a whole increases, and the bias of the tensile force in the multilayer adsorption sheet 10 increases. Considering these points, in the present invention, it is preferable that the thickness of the PET film substrate layer 11 is 5 μm to 250 μm.

The foamed resin layer 12 is made of an acrylic foamed resin. The thickness of the foamed resin layer 12 in this embodiment is about 100 μm, but this can also be changed as appropriate. However, too thin a foamed resin layer 12, shock absorption is weakened, when the suction-holding the polarizing film F, there is a possibility of damaging the protective sheet S _1. Moreover, when the foamed resin layer 12 is too thick, the thickness of the entire multilayer adsorbing sheet 10 increases, and the bias of the tensile force in the multilayer adsorbing sheet 10 increases. Considering these points, in the present invention, the thickness of the foamed resin layer 12 is preferably 50 μm to 500 μm.

  The foamed resin layer 12 can be formed, for example, by uniformly coating an acrylic resin foamed by mechanical foaming or the like on the PET film substrate layer 11 and drying it. The expansion ratio of the foamed resin layer 12 may be determined in consideration of the impact absorbing power and the adsorptive power to the polarizing film F.

  The adhesive layer 13 is composed of an acrylic adhesive. The thickness of the pressure-sensitive adhesive layer 13 in the present embodiment is about 25 μm, but can be appropriately changed in the range of 10 μm to 50 μm in consideration of the adhesive strength and the thickness of the multilayer adsorption sheet 10 as a whole. The adhesive layer 13 preferably has removability in order to facilitate replacement of the multilayer adsorbing sheet 10.

  The multilayer adsorbing sheet 10 according to this embodiment formed by laminating the PET film base material layer 11, the foamed resin layer 12, and the adhesive layer 13 has an overall thickness of 65 μm to 800 μm, and a conventional adsorbing sheet (thickness: several mm). Therefore, according to the multilayer adsorbing sheet 10 according to the present embodiment, it is possible to reduce the bias of the tensile force in the sheet, and it is possible to make it difficult to cause wrinkles and wrinkles due to the bent portion.

  As mentioned above, although preferable embodiment of the multilayer adsorption sheet concerning this invention was described, this invention is not limited to these structures.

  For example, when the foaming resin layer 12 cannot be adjusted by changing the foaming ratio or thickness, such as when using the existing foamed resin layer 12, as shown in FIG. For example, a stripe-shaped printing layer 14 may be provided on the surface (polarizing film F side) by printing or the like. According to the printing layer 14, the adsorption force can be easily adjusted by limiting the surface area of the foamed resin layer 12 that contributes to adsorption. In addition, it can change to arbitrary patterns, such as on the mesh of the printing layer 14. FIG.

  Further, when any suction means (adhesive layer, suction mechanism, etc.) is provided on the endless conveyor belt 8 or the drum 21 side, the adhesive layer 13 can be omitted. In this case, since the maximum thickness of the multilayer adsorbing sheet 10 as a whole is 750 μm, a multilayer adsorbing sheet that is more resistant to wrinkling and curling can be obtained.

  The multilayer adsorbing sheet according to the present invention may additionally include a layer other than the PET film base layer 11, the foamed resin layer 12, the adhesive layer 13, and the printed layer 14. For example, the multilayer adsorbing sheet 10 shown in FIG. 5 has a laminate layer 15 (thickness: 5 μm to 250 μm) made of a white PET film, a transparent PET film or a foamed PET film on the back surface (infinite transport belt 8 side) side of the adhesive layer 13. And an adhesive layer 13 alternately laminated. The layer closest to the infinite conveyance belt 8 or the drum 21 may be the adhesive layer 13 as shown in FIG. 5A or the laminate layer 15 as shown in FIG. However, in the latter case, it is necessary to provide some suction means (suction mechanism or the like) on the endless conveyor belt 8 or the drum 21 side. In any case, the thickness of each layer must be adjusted so that the total thickness is 800 μm or less.

  According to the multilayer adsorbing sheet according to the modification shown in FIG. 5, the number of laminated layers 15 can be laminated without changing the thickness of the PET film substrate layer 11 by further laminating the laminated layer 15 made of PET film. You can adjust the overall thickness and waist strength at the same time. Further, according to the multilayer adsorbing sheet shown in FIG. 5, the relatively soft and viscoelastic adhesive layer 13 is sandwiched between the PET film base layer 11 and the laminate layer 15 and between the laminate layer 15 and the laminate layer 15. Therefore, the followability to the bent portion is not impaired even though the overall thickness is increased. The PET film substrate layer 11 and each laminate layer 15 may be the same type of PET film or different types of PET films.

  Moreover, the multilayer adsorbing sheet according to the present invention may be one in which the PET film substrate layer 11 is formed by laminating a plurality of layers made of the same type or different types of PET films. However, in this case, it is necessary that the total thickness of the PET film substrate layer 11 does not exceed 250 μm.

DESCRIPTION OF SYMBOLS 1 Sticking apparatus 2 Drive roller 3 Drive roller 4 Press roller 5 Press roller 6 Peel roller 7 Grip roller 8 Infinite conveyance belt F Polarizing film P Liquid crystal panel 10 Multilayer adsorption sheet 11 PET film base material layer 12 Foamed resin layer 13 Adhesive layer 14 Printing Layer 15 Laminating layer 20 Sticking device 21 Drum 22 Film supply means 23 Peeling means 24 Panel supply means 25 Stage

Claims (4)

A foamed resin layer having a thickness of 50 μm to 500 μm made of an acrylic foamed resin;
At least one PET film base material layer laminated on the back surface of the foamed resin layer;
An adhesive layer made of an acrylic adhesive laminated on the surface opposite to the foamed resin layer of the PET film base layer;
A multilayer adsorbing sheet, wherein the PET film substrate layer has a thickness of 5 μm to 250 μm and a total thickness of 800 μm or less. The multilayer adsorbing sheet according to claim 1, further comprising a laminate layer made of a PET film laminated on a surface of the adhesive layer opposite to the PET film base layer . A laminate of n layers made of an acrylic pressure-sensitive adhesive layer (where n is an integer of 1 or more) and a PET film alternately laminated on the surface of the laminate layer opposite to the pressure-sensitive adhesive layer multilayer adsorption sheet according to claim 2, further comprising a layer. The surface opposite to the adhesive layer of the laminate layer, m layer formed of an acrylic pressure-sensitive adhesive laminated alternately (where, m is an integer of 1 or more) the adhesive layer and the m-1 layer of PET film The multilayer adsorbing sheet according to claim 2 , further comprising a laminate layer.

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