JP2006208855A - Functional film for pasting and method for pasting the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide functional film for pasting whose pasting work efficiency is satisfactory and positioning accuracy of a pasting position is satisfactory, and by which intrusion of the air is suppressed. <P>SOLUTION: The functional film 10 for pasting is pasted to the pasting face of an object to be pasted to express functions such as prevention of light reflection and ultraviolet ray absorption. In the functional film 10, a functional layer 12 is provided to one face of base film 11, a protection layer 14 is provided on the functional layer 12 across a third adhesive layer 13, a first adhesive layer 15 is provided to the other face, and a stripping layer 16 is provided on the first adhesive layer 15. Furthermore, the film 10 is provided with a positioning seal 18 which is adhered to a peripheral part other than the pasting face of the object for pasting in a strippable manner and is used as a temporary locking part for performing temporary locking. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a functional film for pasting that is pasted on a display such as a mobile phone, a tablet PC, a PDA (Personal Digital assistants), a digital camera, etc. and a pasting method thereof.

  Conventionally, a protective film is generally mounted on this type of flat display in order to exert a function of preventing scratches and dirt from adhering to the surface of the flat display. There are various methods for attaching these protective films to the surface of the flat display, but typical examples of the application methods include the following first to third methods. The 1st is the method of fixing the periphery of the sticking surface of a flat display, and a protective film using a cellophane. The second is a method of providing a double-sided tape in a frame shape on one side of the protective film in contact with the flat display, and fixing the flat display and the protective film using the double-sided tape. The third is a method in which an adhesive is provided on the entire surface of the protective film in contact with the flat display, and the flat display and the protective film are fixed via the adhesive.

  However, these conventional pasting methods have various problems when pasting on a flat display. That is, in the first and second methods, since the seal other than the protective film or the double-sided tape is attached to the surface of the flat display, the aesthetics of the flat display is impaired. In addition, since the frames other than the frame are not fixed, there is a problem that air enters between the protective film and the flat display, resulting in a decrease in transmittance. Furthermore, in the third method, there is a problem in that air easily enters between the pressure-sensitive adhesive and the flat display at the time of pasting, and the aesthetic feeling after pasting is lost when air enters. Moreover, as a problem common to these conventional protective films, it is mentioned that it is difficult to determine the position to paste. Therefore, there is a case where the protective film protrudes from the flat display after pasting, and in that case, it is necessary to redo the pasting work, which causes a problem in workability.

Therefore, a sticker in which a releasable sheet layer, an adhesive layer, a printing layer, and an application film are laminated, and a sticker in which an alignment portion is provided in the releasable sheet layer is disclosed (for example, a patent Reference 1). Then, the sticker is attached by aligning the tip of the alignment portion with a position serving as a fulcrum of the adherend, and then pressing the pressure-sensitive adhesive layer that appears after peeling the release sheet of the printed portion against the adherend.
Japanese Patent Laid-Open No. 11-231784 (second page and FIG. 5)

  However, in the sticker described in Patent Document 1, since the tip of the alignment portion is aligned with the position serving as the fulcrum of the adherend, it is difficult to align the sticker with the attachment surface of the adherend. Accuracy is reduced. Moreover, when the pressure-sensitive adhesive layer that appears after peeling off the release sheet of the printed part is pressed against the adherend, the sticker is not fixed in the positioning state, so it is difficult to smoothly apply the sticker. There was a problem that air was easily trapped between the pressure-sensitive adhesive layer and the adherend.

  Accordingly, an object of the present invention is to provide a functional film for pasting and a pasting method thereof that have good pasting workability, good pasting position positioning accuracy, and can suppress air intrusion. is there.

  In order to achieve the above object, the functional film for sticking according to the first invention in the present invention is a functional film for sticking that is stuck on the sticking surface of an adherend and exhibits a function, and is a base film A functional layer is provided on one surface of the adhesive, a first pressure-sensitive adhesive layer is provided on the other surface, a release layer is provided on the first pressure-sensitive adhesive layer, and a peelable adhesive is provided on a portion other than the pasting surface of the adherend. And a temporary fixing portion for temporary fixing.

The functional film for sticking of the second invention is characterized in that, in the first invention, a protective layer for protecting the functional layer is provided on the functional layer.
The functional film for application according to a third aspect of the present invention is the first or second aspect, wherein the temporary fixing portion has a second pressure-sensitive adhesive layer, and the second pressure-sensitive adhesive layer partially protects or protects the functional layer. The positioning seal is adhered to the layer and the other part is adhered to a part other than the sticking surface of the adherend.

  In the functional film for application according to a fourth aspect of the present invention, in the third aspect, the adhesive force between the release layer adhered by the first adhesive layer and the substrate film is adhered by the second adhesive layer. It is set so that it may become smaller than the adhesive force between a functional layer and a positioning seal.

  In the functional film for application according to the fifth invention, the adhesive force between the release layer and the base film adhered by the first adhesive layer is adhered by the second adhesive layer in the third invention. It is set so that it may become smaller than the adhesive force between a protective layer and a positioning seal.

  The sticking method of the functional film for sticking of the sixth invention is a sticking method of sticking the functional film for sticking of the invention according to any one of the first to fifth aspects to an adherend, and the sticking of the adherend Position and place the release layer side of the functional film for application on the surface, and temporarily fix the temporary fixing part to a part other than the application surface of the adherend in that state, and then peel off the release layer, and the first adhesive layer Are attached in order from the side close to the temporary fixing portion toward the side far from the temporary fixing portion while being deaerated.

According to the present invention, the following effects can be exhibited.
In the functional film for sticking of the first invention, a functional layer is provided on one side of the base film, a first pressure-sensitive adhesive layer is provided on the other side, and a release layer is provided on the first pressure-sensitive adhesive layer. In addition, a temporary fixing portion is provided for temporarily fixing to the part other than the sticking surface of the adherend so as to be detachably adhered. For this reason, when affixing the functional film for sticking to the adherend, first position the functional film for sticking on the sticking surface of the adherend, and then attach the temporary fixing portion in that state to the sticking surface of the adherend. Adhere to other parts and temporarily fix. Next, the functional film for pasting is stuck on the sticking surface of the adherend by peeling the release layer from the first pressure sensitive adhesive layer and exposing the first pressure sensitive adhesive layer to adhere to the sticking surface of the adherend. Can do. Thus, by using a temporary fix | stop part, while a sticking workability | operativity becomes favorable, the positioning accuracy of a sticking position can be improved. Moreover, since the functional film for application is temporarily fixed by the temporary fixing part, the first adhesive layer of the functional film for application is applied in order from the position by using the temporary fixing part. It is possible to suppress air from entering between the attachment surface of the kimono and the functional film for application.

  In the functional film for sticking of the second invention, since the protective layer is provided on the functional layer, in addition to the effects of the first invention, the functional layer is protected by the protective layer, and the functional layer is damaged. Can be prevented, and the function of the functional layer can be sufficiently exhibited.

  In the functional film for sticking according to the third invention, the temporary fixing portion has the second pressure-sensitive adhesive layer, and a part thereof is adhered to the functional layer or the protective layer by the second pressure-sensitive adhesive layer. It is a positioning seal in which the part is adhered to a part other than the sticking surface of the adherend. For this reason, after positioning the functional film for sticking which adhered a part of positioning sticker on the functional layer or the protective layer with the 2nd adhesive layer on the sticking surface of a to-be-adhered body, a positioning seal is made into the 2nd in that state. A part other than the sticking surface of the adherend is adhered and temporarily fixed by the adhesive layer. Next, the functional film for pasting is stuck on the sticking surface of the adherend by peeling the release layer from the first pressure sensitive adhesive layer and exposing the first pressure sensitive adhesive layer to adhere to the sticking surface of the adherend. Can do. Thereafter, the positioning seal is peeled off from the functional layer or the protective layer. Therefore, in addition to the effects of the first or second invention, the positioning seal can be easily peeled off after positioning and sticking the functional film for sticking to the sticking surface of the adherend by the positioning sticker as the temporary fixing portion. Can do. In addition, since the positioning seal is formed separately from the functional film, the positioning seal and the functional film for application can be easily manufactured.

  In the functional film for sticking of 4th invention, the adhesive force between the peeling layer adhere | attached by the 1st adhesive layer and a base film is the functional layer and the positioning seal which were adhere | attached by the 2nd adhesive layer. It is set to be smaller than the adhesive strength between them. For this reason, after the positioning seal is adhered to a part other than the sticking surface of the adherend and temporarily fixed, the positioning seal is prevented from peeling off or deviating from the functional layer when the release layer is peeled off from the base film. can do.

  In the functional film for sticking according to the fifth invention, the adhesive force between the release layer adhered by the first pressure-sensitive adhesive layer and the substrate film is determined between the protective layer adhered by the second pressure-sensitive adhesive layer and the positioning seal. It is set to be smaller than the adhesive strength between them. For this reason, after the positioning seal is adhered to a part other than the affixing surface of the adherend and temporarily fixed, the positioning seal is prevented from being peeled off or displaced from the protective layer when the release layer is peeled off from the base film. can do.

  In the sticking method of the functional film for sticking of the sixth invention, first, the release layer side of the sticking functional film is positioned on the sticking surface of the adherend. In this state, the temporary fixing portion is temporarily fixed to a portion other than the sticking surface of the adherend. Next, the release layer is peeled off, and the first pressure-sensitive adhesive layer is attached in order while degassing from the side closer to the temporary fixing part to the side farther from the side. Thus, the functional film for sticking can be easily stuck on the sticking surface of the adherend, and the effects of any one of the first to fifth inventions can be exhibited.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
The functional film for sticking of this embodiment is a film for sticking to the sticking surface of a to-be-adhered body, and expressing functions, such as light reflection prevention, ultraviolet absorption, and electromagnetic wave shielding. As shown in FIGS. 1A and 1B, the functional film 10 for sticking has a planar rectangular shape, and a functional layer 12 is provided on one surface (upper surface) of the base film 11. Is provided with a protective layer 14 via a third pressure-sensitive adhesive layer 13, a first pressure-sensitive adhesive layer 15 is provided on the other surface (lower surface), and a release layer 16 is provided on the first pressure-sensitive adhesive layer 15. Configured. In addition, the functional film 10 for sticking is also only called the functional film 10 below. Further, the overlapping portion 18a of the positioning seal 18 as a temporary fixing portion is adhered to the upper surface on one short side of the functional layer 12 via the second adhesive layer 17, and the temporary fixing portion 18b of the positioning seal 18 is fixed. It adheres to the part other than the sticking surface 20 of the adherend 19 shown in FIG. 2A and FIG. The positioning seal 18 is configured by providing a second pressure-sensitive adhesive layer 17 on the lower surface of the base layer 22 and a release layer 23 on the lower surface of the second pressure-sensitive adhesive layer 17. In addition, the functional film 10 is drawn exaggerating the thickness to be thicker than the actual thickness for easy understanding in each drawing.

  As the base film 11, a conventionally known film can be selected and used. Among them, for example, polyester such as polyethylene terephthalate, polycarbonate, polymethyl methacrylate, polystyrene, regenerated cellulose, diacetyl cellulose, triacetyl cellulose, acrylonitrile-styrene-butadiene terpolymer, polyvinyl chloride, polyvinylidene chloride, polyvinyl alcohol, Examples thereof include nylon, polyethylene, cellulose acetate, polypropylene, polyamide, polyimide, polysulfone, polyethersulfone, and norbornene resin. Among these, transparent ones such as triacetyl cellulose, polyethylene terephthalate, and polycarbonate are preferable. Moreover, the process for improving adhesiveness may be made | formed on the single side | surface or both surfaces of the base film 11. FIG.

  The base film 11 has a thickness of usually 0.01 mm to 3 mm, preferably 0.01 to 0.5 mm, and particularly preferably 0.025 mm to 0.2 mm. The base film 11 has such a thickness, and includes a category generally called a base film. When the thickness of the base film 11 is thinner than 0.01 mm or thicker than 3 mm, it is not preferable because the handling property is deteriorated and the sticking work of the functional film 10 tends to be hindered. .

  Subsequently, the functional layer 12 is for expressing various functions such as light reflection prevention, ultraviolet absorption, electromagnetic wave shielding and the like on the bonding surface 20 of the adherend 19, and the type thereof is not particularly limited. As the functional layer 12, for example, a hard coat layer, an electromagnetic wave shielding layer, an infrared absorption layer, an ultraviolet absorption layer, a visible light absorption layer, an antireflection layer, a visibility control layer, a polarizing layer, an antiglare layer, an antistatic layer, an antifogging layer, Examples include an antifouling layer and a functional layer that makes writing with a pen for a pen input device appropriate. Further, the functional layer 12 may be a single layer or may be formed of a plurality of layers. As a specific example, for example, the hard coat layer includes “a polyfunctional monomer having 6 acryloyl groups in one molecule as the A component and a polyfunctional monomer having 2 acryloyl groups as the B component”. Examples thereof include a cured film obtained by polymerizing and curing an active energy ray-curable coating liquid and having a pencil hardness of 2H or more.

  As the light reflection preventing layer, “a fluorine-containing polyfunctional (meth) acrylic acid ester as component A and colloidal silica modified with at least one of a (meth) acryloyloxy group and a fluorine group-containing silane coupling agent as component B. A fluorine-containing resin cured film obtained by polymerizing and curing a fluorine-containing curable coating liquid containing ”.

  Moreover, the following are mentioned as a functional layer which makes the writing taste with the pen for pen input devices appropriate. That is, “it is made of a soft resin having self-healing properties and has a dent of 0.2 to 20 seconds when it is moved at a load of 200 g and a speed of 10 cm / second in an atmosphere of 20 ° C. and 50% relative humidity. It is a coating film that is restored in time and has a dynamic friction coefficient of 0.02 to 0.6 and a static friction coefficient of 0.3 to 2.

  The thickness of the functional layer 12 is not particularly limited as long as it is a thickness necessary for various functions, but is usually 20 nm to 1 mm, preferably 50 nm to 500 μm, and particularly preferably 50 nm to 200 μm. When this thickness is less than 20 nm, the above functions tend to be hardly exhibited. On the other hand, when the thickness exceeds 1 mm, it is sufficient for expressing the function, and the functional film 10 becomes thick and difficult to handle.

  Next, the protective layer 14 protects the functional layer 12, prevents the functional layer 12 from being damaged, and makes the functional layer 12 fully function. Workability, handleability, transportability From the viewpoint of the above, it is provided on the functional layer 12 when it is desired to protect the functional layer 12. Any protective layer 14 may be used as long as it is a known one that has been conventionally used in this type of functional film. Examples thereof include polyesters such as polyethylene terephthalate and polyolefins such as polyethylene and polypropylene.

  Moreover, since the protective layer 14 is finally peeled off, the protective layer 14 may be processed so as to be easily peeled off, such as mounting a tab or making a cut. The thickness of the protective layer 14 is usually 5 to 300 μm, preferably 20 to 200 μm. When the thickness is less than 5 μm, the function of protecting the functional layer 12 tends to be insufficient, and when it exceeds 300 μm, the function as the protective layer 14 becomes excessive. The protective layer 14 may be formed of a single layer or a plurality of layers.

  The first pressure-sensitive adhesive layer 15 may be any known technique and is not particularly limited. For example, acrylic pressure-sensitive adhesives, rubber-based pressure-sensitive adhesives, silicone-based pressure-sensitive adhesives and the like can be used, but acrylic-based pressure-sensitive adhesives are preferably used in terms of transparency, and silicone-based pressure-sensitive adhesives in terms of removability. Is preferably used. These pressure-sensitive adhesives can contain a plasticizer, a tackifier component and the like in addition to the pressure-sensitive polymer component, but it is more desirable to use them so as not to impair the transparency. Examples of the adhesive polymer that is the main component of the acrylic adhesive include 2-ethylhexyl acrylate, butyl acrylate, isooctyl acrylate, butyl methacrylate, propyl methacrylate, and other alkyl alcohols having 1 to 10 carbon atoms. And a copolymer of an alkyl ester of (meth) acrylic acid and a functional group-containing unsaturated monomer such as acrylic acid, methacrylic acid, maleic acid, fumaric acid, hydroxyethyl acrylate, hydroxyethyl methacrylate, etc. . As the adhesive polymer which is the main component of the rubber adhesive, a styrene-butadiene random copolymer, a styrene-isoprene block copolymer, natural rubber and the like are preferably used. The thickness of the adhesive layer by these components is 1-100 micrometers normally, Preferably it is 1-80 micrometers. When the thickness is less than 1 μm, the adhesive strength of the first pressure-sensitive adhesive layer 15 is insufficient, and it tends to be easily peeled off (cohesive failure) by an external force. When the thickness exceeds 100 μm, the pressure-sensitive adhesive The performance is sufficient, and it is not necessary to make it thicker.

  The first pressure-sensitive adhesive layer 15 may be provided on the entire surface of the base film 11 or may be provided partially. The first adhesive layer 15 is partially provided on the base film 11 because, for example, the first adhesive layer 15 is provided with a certain width on each side of the base film 11 and the first adhesive layer 15 is not provided on the other parts. This is the case. When providing partially, an adhesive may be apply | coated to a desired part and the 1st adhesive layer 15 may be provided, or various tapes, such as a double-sided tape, may be used. Moreover, the 1st adhesive layer 15 may be comprised from the single layer or multiple layers. When formed from a plurality of layers, a part of the non-adhesive layer 19 may be included, and for example, it refers to a base film existing in the middle when a double-sided tape is used.

  The adhesive strength of the first adhesive layer 15 of the functional film 10 to the glass is not limited as long as it does not hinder the pasting operation, and is usually 5 to 30,000 mN / in as the adhesive strength to the glass plate specified in ISO 8510-1. 25 mm (meaning width; the same shall apply hereinafter). When re-peelability or light releasability is desired, the silicone-based pressure-sensitive adhesive described above is given as a representative example, and the adhesive strength to glass is usually in the range of 5 to 5,000 mN / 25 mm, preferably 5 to 1,000 mN / 25 mm. If the adhesive strength is less than 5 mN / 25 mm, the adhesive strength is too low, and it is not preferable because it is easily peeled off from the adherend 19 regardless of the pasting operation during the operation. On the other hand, if the adhesive strength exceeds 1,000 mN / 25 mm, the adhesive strength becomes very high, and re-peelability and light peelability tend to decrease, which is not preferable.

  Moreover, when transparency is desired, an acrylic adhesive is mentioned as a typical example, and the adhesive force with respect to the glass is usually 5 to 30,000 mN, and preferably 10 to 20,000 mN. When the adhesive strength is less than 5 mN / 25 mm, the adhesive strength is too low, and it is not preferable because it is easily peeled off from the adherend 19 regardless of the pasting operation during the operation. On the other hand, when it exceeds 30,000 mN / 25 mm, it is a sufficient adhesive force as an acrylic adhesive and is wasted.

  Any release layer 16 may be used as long as it is a known one that has been used in this type of functional film. For example, a sheet of paper, plastic, fiber, metal, or the like, which is treated with a known release agent such as silicone, wax, fluororesin, or the like, or a synthetic resin sheet that can be peeled off can be used. Moreover, the process for making it easy to peel from the 1st adhesive layer 15 of attaching a tab to the peeling layer 16 or making a notch | incision may be performed. The thickness of the release layer 16 is usually 5 to 300 μm, preferably 10 to 200 μm.

  Adhesive force between the base film 11 and the release layer 16 adhered by the first adhesive layer 15 (hereinafter, also simply referred to as adhesive force between the base film 11 and the release layer 16. Other parts) The adhesive force may be expressed in the same manner.) Is usually in the range of 5 to 1,000 mN / 25 mm, preferably 5 to 500 mN, more preferably 5 to 300 mN. If the adhesive strength is less than 5 mN / 25 mm, the adhesive strength is too low and the release layer 16 tends to be peeled off regardless of the operation, which is not preferable. On the other hand, when it exceeds 1,000 mN, it tends to be difficult to peel the release layer 16 from the base film 11, which is not preferable from the viewpoint of workability.

  The positioning seal 18 is placed in advance at a position where the functional film 10 is to be pasted when the functional film 10 is pasted on the pasting surface 20 of the adherend 19, and then the release layer 23 is peeled off from the positioning seal 18. It is a seal for affixing the second pressure-sensitive adhesive layer 17 of the positioning seal 18 to a portion other than the affixing surface 20 of the adherend 19 to temporarily fix it. By providing the positioning seal 18, it can be easily temporarily fixed to the peripheral portion 21 other than the affixing surface 20 of the adherend 19, and when the functional film 10 is attached to the adherend 19, the functional film 10. Is less likely to be displaced with respect to a desired position.

  The positioning seal 18 may have any shape as long as the temporary fixing function is exhibited. For example, a square, a triangle, a circle, an ellipse, or the like is adopted in addition to a rectangle (rectangle). The length of the positioning seal 18 is only required to provide a temporary fixing function, and as shown in FIGS. 1 and 2, one side of the functional film 10 may be mounted from end to end, or the center of the side. Only a part or only an end part may be attached. In the case where only the vicinity of the central portion is temporarily fixed, it is preferable to temporarily fix at least 5% of the length of the side to which the positioning seal 18 is attached at one point or two or more points. It is more preferable to temporarily fix. Further, when only the vicinity of the end is temporarily fixed, it is preferable to temporarily fix the length of 5% or more of the side length at two or more points, and the length of 10% or more of the side length at three or more points. It is more preferable to temporarily fix the thickness. The width of the positioning seal 18 is usually 0.1 to 20 cm, preferably 0.5 to 10 cm, and more preferably 0.5 to 5 cm so that a temporary fixing function can be obtained. When this width is shorter than 0.1 cm, it becomes difficult to temporarily fix the functional film 10 to the peripheral portion 21 of the adherend 19, and when it is longer than 20 cm, the length becomes too long to temporarily fix, May be wasted.

  The length of the positioning seal 18 here is a distance in a direction parallel to the end side of the functional film 10, and the width is a distance in a direction perpendicular to the end side of the functional film 10. The base layer 22 of the positioning seal 18 only needs to satisfy the above-described pasting operation, and any conventionally known base layer 22 can be used. For example, paper, plastic, fiber, metal or the like can be used. The thickness of the base layer 22 is usually 0.01 mm to 3 mm, preferably 0.05 to 0.5 mm. If the thickness is less than 0.01 mm, the handling property at the time of sticking work tends to be deteriorated, and if it exceeds 3 mm, the function as the base layer 22 becomes excessive and may be wasted.

  The 2nd adhesive layer 17 of the positioning seal 18 should just be what can exhibit the adhesive force required for temporary fixing, a well-known adhesive can be used and is not specifically limited. For example, an acrylic pressure-sensitive adhesive, a rubber-based pressure-sensitive adhesive, a silicone-based pressure-sensitive adhesive or the like generally used for a seal or a sticker can be used. These pressure-sensitive adhesives can contain a plasticizer, a tackifier component and the like in addition to the pressure-sensitive polymer component. The adhesive polymer that is the main component of the acrylic adhesive has an alkyl group having 1 to 10 carbon atoms such as 2-ethylhexyl acrylate, butyl acrylate, isooctyl acrylate, butyl methacrylate, propyl methacrylate, and the like. A copolymer of an alcohol and an alkyl ester of (meth) acrylic acid and a functional group-containing unsaturated monomer such as acrylic acid, methacrylic acid, maleic acid, fumaric acid, hydroxyethyl acrylate, hydroxyethyl methacrylate, etc. Preferably used. As the adhesive polymer which is the main component of the rubber adhesive, a styrene-butadiene random copolymer, a styrene-isoprene block copolymer, natural rubber and the like are preferably used.

  The thickness of the 2nd adhesive layer 17 by these components is 1-100 micrometers normally, Preferably it is 1-80 micrometers. When the thickness is less than 1 μm, the strength of the second pressure-sensitive adhesive layer 17 is insufficient and tends to be peeled off (cohesive failure) by an external force. On the other hand, when the thickness exceeds 100 μm, the performance of the pressure-sensitive adhesive becomes excessive, and even if it is thicker than that, the adhesive strength is not improved. Moreover, as an adhesive of the 2nd adhesive layer 17, the acrylic adhesive mentioned above is mentioned as a typical example, However, The adhesive force with respect to the glass becomes like this. Preferably it is 5-30,000 mN / 25mm, More preferably, it is 10 ~ 20,000 mN / 25 mm. When the adhesive strength is less than 5 mN / 25 mm, the adhesive strength is too low, and the functional film 10 tends to be easily displaced during the pasting operation because it cannot be firmly fixed to the peripheral portion 21 of the adherend 19. This is not preferable. On the other hand, when it exceeds 30,000 mN / 25 mm, the adhesive force to the peripheral portion 21 of the adherend 19 becomes very high, and it is difficult to peel off after sticking. In addition, the adhesive layer between the positioning seal 18 and the peripheral portion 21 of the adherend 19 is higher than the adhesive force between the base film 11 and the release layer 16, and the release layer 16 is removed from the base film 11. When it is peeled off, the positioning seal 18 is difficult to peel off or shift from the peripheral portion 21 of the adherend 19, which is preferable from the viewpoint of sticking workability.

  Any release layer 23 of the positioning seal 18 can be used as long as it is a known one that has been used in this type of functional film. For example, it is possible to use a sheet of paper, plastic, fiber, metal, or the like, which is treated with a known release agent such as silicone, wax, or fluororesin, or a synthetic resin sheet that can be peeled off. Moreover, the process for making it easy to peel from a 2nd adhesive layer, such as mounting | wearing a peeling layer with a tab or making a notch | incision, may be performed. The thickness of the release layer is usually 5 to 300 μm, preferably 10 to 200 μm. If the thickness is less than 5 μm, the strength as the release layer tends to be weak, and if it exceeds 300 μm, the function of the release layer may be excessive.

  The adhesive force between the base layer 22 and the release layer 23 adhered by the second adhesive layer 17 is usually 5 to 1,000 mN / 25 mm, preferably 5 to 500 mN, more preferably 5 to 300 mN. If the adhesive strength is less than 5 mN / 25 mm, the adhesive strength is too low and the release layer 23 tends to be peeled off regardless of the operation, which is not preferable. On the other hand, when it exceeds 1,000 mN / 25 mm, the release layer 23 tends to be difficult to peel from the base layer 22, which is not preferable from the viewpoint of workability.

  Usually, the positioning seal 18 is in a form affixed to the functional film 10, and the release layer 23 of the positioning seal 18 does not exist in the part affixed on the functional film 10. However, when it is preferable not to apply the positioning seal 18 to the functional film 10 in advance from the viewpoint of application workability, transportability, etc., the application may be applied during the application work. For example, after the functional film 10 is placed at a position where the adherend 19 is to be attached, a tape such as a cello tape (registered trademark, for example, CT-24, manufactured by Nichiban Co., Ltd., 24 mm wide) is used as the positioning seal 18. When the functional film 10 and the peripheral portion 21 of the adherend 19 are temporarily fixed, the positioning seal 18 is not provided with the release layer 23. Therefore, the positioning seal 18 has the same structure as the base layer 22 and the second layer. It becomes the adhesive layer 17.

  Further, as the positioning seal 18 having the release layer 23 on the entire surface of the second pressure-sensitive adhesive layer 17, for example, the release layer 23 (release paper) is pasted on the entire surface of the second pressure-sensitive adhesive layer 17 of the tape such as the cello tape, A positioning seal 18 is prepared. Then, after placing the functional film 10 other than the positioning seal 18 at a position where the adherend 19 is to be attached, the release layer 23 of the positioning seal 18 is peeled off, and the peripheral portion of the functional film 10 and the adherend 19 is removed. 21 is temporarily fixed.

  As the positioning seal 18 having the release layer 23 on the entire surface of the second pressure-sensitive adhesive layer 17, for example, the release layer 23 is provided on the entire surface of the second pressure-sensitive adhesive layer 17 of the tape such as the cello tape, and the release layer 23 is kiss cut. A (slot) is provided and prepared as a positioning seal 18. Then, the overlapping portion 18 a of the release layer 23 of the positioning seal 18 is peeled off from the second pressure-sensitive adhesive layer 17 and attached along the short side straight portion of the protective layer 14 of the functional film 10. Next, after the functional film 10 is placed at a position where the adherend 19 is to be attached, the temporary fixing portion 18 b of the release layer 23 of the positioning seal 18 is peeled off, and the functional film 10 is attached to the peripheral portion of the adherend 19. Temporarily fix to 21.

  The pressure-sensitive adhesive forming the third pressure-sensitive adhesive layer 13 can be any known pressure-sensitive adhesive, and is not particularly limited. As the adhesive, for example, an acrylic adhesive, a rubber adhesive, a silicone adhesive, an olefin adhesive, or the like can be used. However, when the protective layer 14 is peeled off from the functional layer 12, it is preferable that the adhesive does not remain on the surface of the functional layer 12 and has an adhesive force that allows the functional layer 12 to exhibit a desired function. These pressure-sensitive adhesives can contain a plasticizer, a tackifier component and the like in addition to the pressure-sensitive polymer component, but it is more desirable to use them so as not to impair the transparency. Examples of the adhesive polymer that is the main component of the acrylic adhesive include 2-ethylhexyl acrylate, butyl acrylate, isooctyl acrylate, butyl methacrylate, propyl methacrylate, and other alkyl alcohols having 1 to 10 carbon atoms. And a copolymer of an alkyl ester of (meth) acrylic acid and a functional group-containing unsaturated monomer such as acrylic acid, methacrylic acid, maleic acid, fumaric acid, hydroxyethyl acrylate, hydroxyethyl methacrylate, etc. . As the adhesive polymer which is the main component of the rubber adhesive, a styrene-butadiene random copolymer, a styrene-isoprene block copolymer, natural rubber and the like are preferably used. As the olefin-based adhesive, an ethylene-vinyl acetate copolymer, a vinyl chloride-vinyl acetate copolymer, or the like is preferably used.

  The thickness of the 3rd adhesive layer 13 by these components is 1-150 micrometers normally, Preferably it is 2-100 micrometers. If the thickness is less than 1 μm, the adhesive strength of the third pressure-sensitive adhesive layer 13 is insufficient, and it tends to peel (cohesive failure) due to external force. If the thickness exceeds 150 μm, the pressure-sensitive adhesive The performance is sufficient, and if it is thicker than that, waste occurs.

  Further, as a pretreatment for increasing the adhesive force of the third pressure-sensitive adhesive layer 13 to the protective layer 14, chemical treatment such as etching treatment, physical treatment such as plasma treatment and sputtering treatment, mechanical treatment such as sand blasting and shot blasting. It is also preferable to carry out the treatment. In addition, as the 3rd adhesive layer 13, the protective film united with the normal protective layer 14 is normally used. As the protective film, for example, Sanei Kaken Co., Ltd. (N15, WS26F, Y37PH, PAC2-70, PAC3-70, PAC3-60T, PAC4-60, SAT106T, SAT116T), Sekisui Chemical Co., Ltd. protective tape ( # 6322B, # 6221F, # 6322C, # 622AX, # 625T), E-mask (RB-100, RB200S) manufactured by Nitto Denko Corporation, Hitachilex (DP-1010) manufactured by Hitachi Chemical Co., Ltd., and the like.

Next, in the case where the protective layer 14 is provided on the functional layer 12, the relationship of the adhesive force between each layer or each layer and the adherend 19 will be described.
The adhesive force between the release layer 16 adhered by the first adhesive layer 15 and the base film 11 is smaller than the adhesive force between the protective layer 14 adhered by the second adhesive layer 17 and the positioning seal 18. It is preferable to set so as to be. In that case, after the positioning seal 18 is adhered and temporarily fixed to the peripheral portion 21 of the adherend 19, the positioning seal 18 is peeled off or displaced from the protective layer 14 when the release layer 16 is peeled off from the base film 11. Can be prevented.

  Further, the adhesive force between the release layer 16 adhered by the first adhesive layer 15 and the base film 11 is preferably positioned with the peripheral portion 21 of the adherend 19 adhered by the second adhesive layer 17. It is set to be smaller than the adhesive force between the seal 18. Therefore, when the peeling layer 16 is peeled off from the base film 11, the positioning seal 18 can be prevented from being peeled off or displaced from the peripheral portion 21 of the adherend 19.

  Furthermore, the adhesive force between the adhesion surface 20 of the adherend 19 adhered by the first adhesive layer 15 and the base film 11 is such that the functional layer 12 and the protective layer 14 adhered by the third adhesive layer 13. It is preferably higher than the adhesive strength between and 20,000 mN / 25 mm. In this case, the adhesion of the functional film 10 to the sticking surface 20 of the adherend 19 becomes good, and the protective layer 14 is easily peeled off from the functional layer 12. Furthermore, the adhesive force between the adhesion surface 20 of the adherend 19 adhered by the first adhesive layer 15 and the base film 11 is such that the functional layer 12 and the protective layer 14 adhered by the third adhesive layer 13. It is preferably higher than the adhesive strength between and lower than 5,000 mN / 25 mm. In this case, after the functional film 10 is pasted on the adherend 19, the air bubbles are easily removed even in the pasted state, and the deaeration tends to be improved. In addition, the adhesive force between the adhesion surface 20 of the adherend 19 adhered by the first adhesive layer 15 and the base film 11 is the functional layer 12 adhered by the third adhesive layer 13 and the protective layer. It is preferably higher than the adhesive strength between the two and lower than 1,000 mN / 25 mm. In this case, after sticking the functional film 10 on the adherend 19, even when the functional film 10 is stuck, air bubbles are very easily removed, and the deaeration tends to be greatly improved.

  Next, as shown in FIGS. 4A and 4B, the protective layer 14 may be omitted. Accordingly, the second adhesive layer 17 of the positioning seal 18 is adhered onto the functional layer 12. In this case, the adhesive force between the release layer 16 adhered by the first adhesive layer 15 and the base film 11 is the adhesion between the functional layer 12 adhered by the second adhesive layer 17 and the positioning seal 18. It is preferable to set it to be smaller than the force. At this time, after the positioning seal 18 is adhered and temporarily fixed to the peripheral portion 21 of the adherend 19, the positioning seal 18 is peeled off or displaced from the functional layer 12 when the release layer 16 is peeled off from the base film 11. Can be prevented. In addition, it is preferable that the adhesive force between the peeling layer 16 and the base film 11 is set to be smaller than the adhesive force between the peripheral portion 21 of the adherend 19 and the positioning seal 18. In that case, it is possible to prevent the positioning seal 18 from being peeled off or displaced from the peripheral portion 21 of the adherend 19 when the release layer 16 is peeled from the base film 11.

  The adherend 19 is not particularly limited. For example, in addition to a flat display such as a mobile phone, a personal computer (PC), a tablet PC, a liquid crystal pen tablet, a PDA, a digital camera, a car navigation device, a television, etc. Pen tablet, building, vehicle, picture frame, lens, furniture, playground equipment, learning equipment, home appliances, etc.

Next, the effect | action of the functional film 10 for sticking is demonstrated based on FIG.2 and FIG.3.
Now, as shown in FIG. 2A, the release layer 16 side of the functional film 10 having the positioning seal 18 is placed on the affixing surface 20 of the adherend 19 for alignment, and FIG. State shown. This alignment operation can be easily and accurately performed because the first pressure-sensitive adhesive layer 15 and the second pressure-sensitive adhesive layer 17 are not exposed. In addition, the sticking surface 20 of the adherend 19 is formed flat at a position slightly lower than the peripheral portion 21. Subsequently, in a state where the functional film 10 is pressed from above, the release layer 23 of the positioning seal 18 is peeled off as shown in FIG. 3A, and the second appearing as shown in FIG. 3B. The pressure-sensitive adhesive layer 17 is placed on the peripheral portion 21 other than the sticking surface 20 of the adherend 19, and the base layer 22 is pressed to adhere and temporarily fix the base layer 22 to the peripheral portion 21 of the adherend 19.

  Next, as shown in FIG. 3C, the side opposite to the positioning seal 18 of the functional film 10 is lifted, and the peeling layer 16 on the lower surface is peeled off from the positioning seal 18 side. Thereafter, as shown in FIG. 3 (d), the base film 11 is pressed from the positioning seal 18 side, that is, air (bubbles) is applied between the attachment surface 20 of the adherend 19 and the base film 11. It sticks to the sticking surface 20 of the to-be-adhered body 19 gradually so that it may not be caught. In order to perform such work easily and quickly, a tool such as a spatula may be used. As such a tool, any tool can be used as long as it facilitates the pasting operation, and examples of the material of the tool include paper, plastic, metal, and cloth. Moreover, as long as those shapes satisfy | fill the said sticking operation | work, what kind of shape may be sufficient. By sticking in this way, air can be prevented from entering between the sticking surface 20 of the adherend 19 and the base film 11.

  Then, as shown in FIG. 3 (e), the positioning seal 18 is peeled off from the peripheral portion 21 of the adherend 19 and peeled off from the protective layer 14. After the positioning seal 18 is peeled from the protective layer 14, the protective layer 14 is peeled off from the functional layer 12, or the positioning seal 18 and the protective layer 14 are peeled off simultaneously. In this way, the functional film 10 can be easily and accurately attached to a predetermined position on the attaching surface 20 of the adherend 19.

The effects exhibited by the above embodiment will be described collectively below.
-In the functional film 10 for sticking of this embodiment, the functional layer 12 is provided in the one surface of the base film 11, the 1st adhesive layer 15 is provided in the other surface, On the 1st adhesive layer 15 A positioning seal 18 is provided as a temporary fixing part that includes the peeling layer 16 and is temporarily attached to a part other than the sticking surface 20 of the adherend 19 so as to be peelable. When the functional film 10 is attached to the adherend 19, the functional film 10 is first positioned on the attachment surface 20 of the adherend 19, and then the positioning seal 18 is placed around the adherend 19 in that state. The part 21 is adhered and temporarily fixed. Subsequently, the functional film 10 can be affixed to the sticking surface 20 by peeling the peeling layer 16 from the first pressure-sensitive adhesive layer 15 and exposing the first pressure-sensitive adhesive layer 15 to adhere to the sticking surface 20.

  By using the positioning seal 18 in this way, the pasting workability is improved, the time for the pasting work is not required, the time can be shortened, and the positioning accuracy of the pasting position can be improved. . In addition, since the functional film 10 is temporarily fixed by the positioning seal 18, the first adhesive layer 15 of the functional film 10 is applied in order from the position using the temporary fixing portion, whereby the application surface Intrusion of air between 20 and the functional film 10 can be suppressed. As a result, the functional layer 12 can sufficiently exhibit its function, and the appearance of the functional film 10 can be improved. In addition, since the positioning seal 18 is formed separately from the functional film 10, the positioning seal 18 and the functional film 10 can be easily manufactured.

  -The adhesive force of the 1st adhesive layer 15 is set to 5-30,000 mN / 25mm as an adhesive force with respect to the glass plate prescribed | regulated to ISO 8510-1. Therefore, the adhesive force between the sticking surface 20 of the adherend 19 and the base film 11 can be sufficiently obtained.

  -Since the adherend 19 is a flat display, the functional film 10 can be easily attached to the attaching surface 20 of the flat display.

Hereinafter, the embodiment will be described more specifically with reference to examples and comparative examples. Moreover, in each example, the adhesive force of each interface was measured by the following method.
(1) Adhesive force between the protective layer 14 adhered by the second pressure-sensitive adhesive layer 17 and the positioning seal 18 When the above-mentioned cello tape is used as the positioning seal 18, the cello tape is cut into a size: 24 mm long and 250 mm wide. A test piece was obtained. Moreover, the protective layer 14 of the same size as a glass plate was affixed on the single side | surface of a glass plate (thickness: 2 mm, size: length 50mm, width 150mm), and the four sides were temporarily fixed with the cellophane, and it was set as the test plate. A test sample was prepared on the protective layer 14 of the test plate by pressing a test piece using a rubber roller. After the crimping, a tensile tester (product number: STA-1150 manufactured by Orientec Co., Ltd.) was used, and the adhesive strength was measured by 90 ° peeling in accordance with ISO 8510-1 at a test speed of 50 mm / min.
(2) Adhesive force between the peripheral portion 21 of the display as the adherend 19 adhered by the second adhesive layer 17 and the positioning seal 18 Tablet PC (DynaBook SS 3500 DSIEPE / Toshiba Corporation) as a test plate All measurements were performed in the same manner as (1) except that the peripheral portion 21 of 2) was used.
(3) Adhesive force between the base film 11 adhered by the first adhesive layer 15 and the release layer 16 Recycled paper double-sided tape (trade name: Nystack, product number NW-15 manufactured by Nichiban Co., Ltd.) is used. Then, the functional layer 12 of the functional film 10 cut into size: 25 mm in length and 250 mm in width (if the functional film 10 includes the protective layer 14, the protective layer 14 is peeled off to cause the functional layer 12 to appear. ) And one side of a glass plate (thickness: 2 mm, size: length 50 mm, width 150 mm) were temporarily fixed to obtain a test sample. Next, after partly peeling off the release layer 16 of the functional film 10, a tensile tester (product number: STA-1150 manufactured by Orientec Co., Ltd.) is used and conforms to ISO 8510-1 at a test speed of 50 mm / min. Then, the adhesive strength was measured by 90 ° peeling.
(4) Adhesive force between the display surface 20 of the display adhered by the first adhesive layer 15 and the base film 11 Functionality in which the test piece was cut into a size of 25 mm in length and 250 mm in width and the release layer 16 was peeled off. All except that the film 10 was used and a liquid crystal display of a tablet PC (DynaBook SS 3500 DSIEP / 2 manufactured by Toshiba Corp.) or a PDA (CLIE PEG-TJ25 manufactured by Sony Corp.) was used as a test plate (2 ) And the same method.
(5) Adhesive strength of the third pressure-sensitive adhesive layer 13 between the functional layer 12 and the protective layer 14 adhered by the third pressure-sensitive adhesive layer 13 The test piece is obtained by cutting the protective layer 14 into a size: 25 mm long and 250 mm wide. And a glass plate (thickness: 2 mm, size: 50 mm long, 150 mm wide), except that a functional film of the same size as the glass plate is attached, and the four sides are temporarily fixed with cello tape to make a test plate All were measured by the same method as in (1).
(6) Adhesive force between the functional layer 12 adhered by the second pressure-sensitive adhesive layer 17 and the positioning seal 18 When the above-mentioned cello tape is used as the positioning seal 18, all except that the cello tape is used as a test piece ( It measured by the method similar to 5).
Example 1
On the short side of the protective layer 14 of the functional film 10 (PenFit 1002 manufactured by Nippon Oil & Fats Co., Ltd.) cut to a size of 246 mm in length and 185 mm in width, the above-mentioned cello tape that becomes the positioning seal 18 as shown in FIG. Cut to a length of 185 mm. Then, 9 mm of the tape width is affixed on the film and the remaining 15 mm is attached to the outside of the film, and the remaining 15 mm of the tape tape part is recycled paper double-sided tape (manufactured by Nichiban Co., Ltd., trade name: Nystack, product number: A release paper to be a release layer 23 having a width of NW-15 and a width of 15 mm was attached to obtain a functional film 10. And sticking to the liquid crystal display (size length 248 mm, width 187 mm) of tablet PC (DynaBook SS 3500 DSIEP / 2 made from Toshiba Corp.) was performed as follows.

  First, the functional film 10 is placed at a position on the liquid crystal screen to be affixed on the liquid crystal screen, and then the release paper is peeled off. The second adhesive layer 17 of the cello tape that appears and the peripheral part 21 outside the liquid crystal display ( The display frame of the tablet PC) was temporarily fixed and positioning was performed. Next, the functional film 10 was folded at the cello tape portion and turned over, and the release layer 16 was peeled off. The appearing first pressure-sensitive adhesive layer 15 was gradually attached to the surface of the liquid crystal display from the side closer to the cellophane to the side farther away.

  Then, the cellophane was peeled from the functional film 10 and finally the protective layer 14 was peeled off. As a result, it was possible to apply the film without protruding from the liquid crystal screen and with almost no bubbles. Moreover, the total time required for sticking was 1 minute 23 seconds, which could be done in a relatively short time.

The result of having evaluated the adhesive force of each interface in Example 1 with the said evaluation method is as follows. The adhesive force between the protective layer 14 and the positioning seal 18 is 5160 mN / 25 mm, the adhesive force between the peripheral portion 21 other than the display sticking portion and the positioning seal 18 is 510 mN / 25 mm, the base film 11 and the release layer 16. The adhesive strength between the adhesive layer 20 and the base film 11 is 110 mN / 25 mm, and the adhesive strength between the functional layer 12 and the protective layer 14 is 70 mN / 25 mm. there were.
(Example 2)
A functional film 10 (Nippon Yushi Co., Ltd., trade name: ReaLook 7702UV-S) cut into a size of 72 mm in length and 57 mm in width, and the above-mentioned cello tape as a positioning seal 18 were prepared, and PDA (CLIE PEG- manufactured by Sony Corporation) was prepared. TJ25) was attached to a liquid crystal display (size 74 mm in length, 59 mm in width) by the following method.

  First, the functional film 10 is placed on the liquid crystal screen at a position where it is desired to be pasted, and the prepared tape is cut to a length of 50 mm, and then 5 mm of the tape width is the protective layer 14 on the short side of the functional film 10. The upper part and the remaining 19 mm were temporarily fixed to the peripheral part 21 (PDA frame part) outside the liquid crystal display and positioned. Next, the functional film 10 was folded at the cello tape portion and turned over, and the release layer 16 was peeled off. The appearing first pressure-sensitive adhesive layer 15 was gradually attached to the surface of the liquid crystal display from the side closer to the cellophane to the side farther away.

  Then, the cellophane was peeled from the functional film 10 and finally the protective layer 14 was peeled off. As a result, it was possible to perform the pasting without protruding from the liquid crystal screen and without any bubbles. Moreover, the total time required for sticking was 0 minute 52 seconds, and it could be performed in a relatively short time.

The results of evaluating the adhesive strength between the respective layers in Example 2 under the above evaluation conditions are as follows. The adhesive force between the protective layer 14 and the positioning seal 18 is 2610 mN / 25 mm, the adhesive force between the peripheral portion 21 of the display and the positioning seal 18 is 4070 mN / 25 mm, and between the base film 11 and the release layer 16. The adhesive strength was 170 mN / 25 mm, the adhesive strength between the sticking surface 20 of the display and the base film 11 was 3520 mN / 25 mm, and the adhesive strength between the functional layer 12 and the protective layer 14 was 1730 mN / 25 mm.
(Example 3)
The functional film 10 (APF-A4 manufactured by Abel Co., Ltd.) cut to a size of 246 mm in length and 185 mm in width, and the cellophane tape are cut into a length of 185 mm, and the recycled adhesive double-sided tape (Nichiban) Product name: Nystack, product number: NW-25, width 25 mm) release paper is cut to a length of 186 mm and pasted so as to cover the entire surface of the second adhesive layer 17 and positioned. It was set to 18. Next, sticking to the liquid crystal display (size length 248 mm, width 187 mm) of tablet PC (DynaBook SS 3500 DSIEP / 2 manufactured by Toshiba Corporation) was performed as follows.

  First, the functional film 10 is placed on the liquid crystal screen at a position where it is desired to be pasted, the release paper of the prepared positioning seal 18 is peeled off, and 7 mm of the width of the second pressure-sensitive adhesive layer 17 that has appeared is reduced on the functional layer 12. The side part and the remaining 17 mm were temporarily fixed to the peripheral part 21 (frame part of the tablet PC) outside the liquid crystal display and positioned. Next, the functional film 10 was folded at the cello tape portion and turned over, and the release layer 16 was peeled off. The first pressure-sensitive adhesive layer 15 that appeared was gradually attached to the surface of the liquid crystal display from the side closer to the positioning seal 18 to the side farther from the positioning seal 18. Thereafter, the positioning seal 18 was peeled off from the functional film 10.

  As a result, it was possible to perform the pasting without protruding from the liquid crystal screen and without any bubbles. Moreover, the total time required for sticking was 1 minute 55 seconds, and it could be performed in a relatively short time.

The results of evaluating the adhesive strength between the respective layers in Example 3 under the above evaluation conditions are as follows. The adhesive force between the functional layer 12 and the positioning seal 18 is 5040 mN / 25 mm, the adhesive force between the peripheral portion 21 of the display and the positioning seal 18 is 530 mN / 25 mm, and between the base film 11 and the release layer 16. The adhesive force was 150 mN / 25 mm, and the adhesive force between the pasting surface 20 of the display and the base film 11 was 60 mN / 25 mm.
Example 4
Transparent double-sided tape (manufactured by Nitoms Co., Ltd.) on four sides opposite to the functional layer 12 of the base film 11 of the functional film 10 (Nippon Yushi Co., Ltd., PenFit1000) cut to 246 mm in length and 185 mm in width : PROSELF, product number: J0810) was pasted so that each side had a width of 3 mm to obtain a functional film 10. Further, the cellophane tape was prepared as the positioning seal 18. And sticking to the liquid crystal display (size length 248 mm, width 187 mm) of tablet PC (DynaBook SS 3500 DSIEP / 2 made from Toshiba Corp.) was performed as follows.

  First, the functional film 10 was placed on the liquid crystal screen at a position where it was desired to be pasted, and the prepared cello tape was cut to a length of 246 mm. Next, 5 mm of the tape width was temporarily fixed on the protective layer 14 on the long side portion of the functional film 10 and the remaining 19 mm was temporarily fixed to the peripheral portion 21 (PDA frame portion) outside the liquid crystal display to be positioned. Next, the functional film 10 was folded at the cello tape portion and turned over, and the release layer 16 was peeled off. The appearing first pressure-sensitive adhesive layer 15 was gradually attached to the surface of the liquid crystal display from the side closer to the cellophane to the side farther away. Thereafter, the protective layer 14 was peeled off at the same time as the cellophane tape was peeled off.

  As a result, it was possible to perform the pasting without protruding from the liquid crystal screen and without any bubbles. Moreover, the total time required for sticking was 1 minute 15 seconds, and it could be performed in a relatively short time.

The result of having evaluated the adhesive force between each layer in Example 4 by the said evaluation method is as follows. The adhesive force between the protective layer 14 and the positioning seal 18 is 5090 mN / 25 mm, the adhesive force between the peripheral portion 21 of the display and the positioning seal 18 is 550 mN / 25 mm, and the adhesive surface 20 of the display and the base film 11 The adhesive strength between them was 3120 mN / 25 mm, and the adhesive strength between the functional layer 12 and the protective layer 14 was 67 mN / 25 mm.
(Comparative Example 1)
Liquid crystal display (size DynaBook SS 3500 DSIEP / 2 manufactured by Toshiba Corp.) without using a positioning seal on the functional layer of Abel APF-A4 cut to 246 mm in length and 185 mm in width Affixation to 248 mm in length and 187 mm in width was performed as follows.

  First, the release layer of the above functional film was peeled off and placed on the same screen with the outer frame of the liquid crystal screen, and the positioning was attempted, but the adhesive layer was placed on the liquid crystal screen before setting it to the correct position. It took a considerable amount of time to stick. After positioning, it was attached to the opposite side in order from the positioning location. As a result, a part of the film protrudes from the liquid crystal screen on the opposite side from the positioning location, and a large number of large and small bubbles enter the application surface, resulting in a very unfavorable appearance.

  Further, the time required for pasting was 3 minutes and 38 seconds, which required a considerable time compared to the example. In addition to the time required for the first positioning, as a result of the fact that the first positioning could not be performed accurately, after all, it was found that the film protruded from the pasting frame in the latter half of the pasting after positioning. This is because the operation has been started again from the initial positioning. Nevertheless, a part of the film eventually protrudes from the liquid crystal screen, and a large number of bubbles enter the pasting surface, which is very unfavorable in appearance.

  The results of evaluating the adhesive strength of each interface in Comparative Example 1 under the above evaluation conditions are as follows. The adhesive force between the functional layer and the positioning seal is 5080 mN / 25 mm, the adhesive force between the display periphery and the positioning seal is 510 mN / 25 mm, the adhesive force between the base film and the release layer is 140 mN / 25 mm, The adhesive force between the display surface and the substrate film was 55 mN / 25 mm.

It should be noted that the present embodiment can be implemented with the following modifications.
As shown in FIG. 5, the positioning seal 18 can be provided on the long side of the functional film 10. In this case, since the length of the overlapping portion 18a and the temporary fixing portion 18b of the positioning seal 18 is longer than that in the embodiment, the width of the overlapping portion 18a and the temporary fixing portion 18b can be shorter than that in the embodiment. .

  As shown in FIGS. 6A and 6B, when the corner portion (corner portion) 24 of the sticking surface 20 of the adherend 19 has an arc shape, one of the release layers 23 of the positioning seal 18 A side edge is provided so that the short side of the sticking surface 20 may be followed.

  7A and 7B, when the short side of the attachment surface 20 of the adherend 19 is an arc portion 25, one side edge of the release layer 23 of the positioning seal 18 is attached. It is provided in accordance with the top of the arc portion 25 on the short side of the surface 20.

In the embodiment, the positioning seal 18 may be provided with an adhesive layer, and the positioning seal 18 may be adhered to the protective layer 14 by the adhesive layer.
As a temporary fixing portion, instead of the positioning seal 18 of the embodiment, the protective layer 14 extends from the functional layer 12, the second adhesive layer 17 is provided in the extending portion, and the extending portion is used as the positioning seal 18. Alternatively, a cut perforation or the like may be provided at the base end portion of the extending portion. In the case where the protective layer 14 is not provided, an extension portion is provided in the functional layer 12, and the others can be configured similarly to the above.

-In embodiment, although the sticking surface 20 of the to-be-adhered body 19 is formed lower than the peripheral part 21, the sticking surface 20 and the peripheral part 21 may be flush | level.
The protective layer 14 can be detachably bonded to the functional layer 12 by means such as heat fusion.

  A release film is adhered on the second pressure-sensitive adhesive layer 17 of the positioning seal 18, and a cut-out portion is formed at a boundary portion between the portion disposed on the protective layer 14 or the functional layer 12 and the portion serving as the release layer 23. It is also possible to provide or to separate the boundary portion in advance.

  -The positioning seal 18 or the protective layer 14 may be provided with a gripping portion that protrudes from the positioning seal 18 or the functional film 10, a gripping portion that is bent, or the like. In that case, when the positioning seal 18 is peeled off after temporary fixing, or when the protective layer 14 is peeled off after the functional film 10 is stuck, the positioning seal 18 or the protective layer 14 can be easily peeled off with a gripping portion.

Further, the technical idea that can be grasped from the embodiment will be described below.
The release layer (23) is provided in the site | part of the positioning seal (18) adhere | attached on parts other than the sticking surface (20) of the said adherend (19), The release layer (23) is provided. The functional film for sticking of description. When comprised in this way, handling can be made easy in the step before temporarily fixing the functional film for sticking.

  The adhesive strength of the first pressure-sensitive adhesive layer (15) is 5 to 30,000 mN / 25 mm as an adhesive strength to a glass plate specified in ISO 8510-1. The functional film for sticking as described in any one of Claims. When comprised in this way, the adhesive force between the sticking surface of a to-be-adhered body and a base film can fully be acquired.

  The functional film for sticking according to any one of claims 1 to 5, wherein the adherend (19) is a flat display. When comprised in this way, the functional film for sticking can be easily affixed on the sticking surface of a flat display.

(A) is sectional drawing which shows the functional film for sticking in embodiment, (b) is a top view of (a). (A) is a perspective view which shows the state before sticking the functional film for sticking to a to-be-adhered body, (b) is the state which put the functional film for sticking on the sticking surface of a to-be-adhered body, and was aligned. FIG. (A)-(d) is sectional drawing which shows the process of affixing the functional film for sticking to a to-be-adhered body in order, (e) is sectional drawing which shows the state which affixed the functional film for sticking to a to-be-adhered body. (A) is sectional drawing which shows the functional film for sticking in the other example of this invention, (b) is a top view of (a). The top view which shows the functional film for sticking in the other example of this invention. (A) is a fragmentary top view which shows the state which stuck the functional film for sticking in the further another example of this invention to the to-be-adhered body, (b) is sectional drawing which shows a positioning seal | sticker. (A) is a partial top view which shows the state which stuck the functional film for sticking in the other another example of this invention to the to-be-adhered body, (b) is sectional drawing which shows a positioning seal | sticker.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Functional film for sticking, 11 ... Base film, 12 ... Functional layer, 14 ... Protective layer, 15 ... 1st adhesive layer, 16 ... Release layer, 17 ... 2nd adhesive layer, 18 ... Temporary fixing part Positioning seal, 19 ... adherend, 20 ... sticking surface, 21 ... peripheral part as a part other than the sticking surface.

Claims (6)

It is a functional film for sticking that is affixed to the adherend surface of the adherend to express its function,
A functional layer is provided on one surface of the base film, a first pressure-sensitive adhesive layer is provided on the other surface, a release layer is provided on the first pressure-sensitive adhesive layer, and peeling is performed on portions other than the pasting surface of the adherend. A functional film for sticking, characterized by comprising a temporary fixing part for allowing temporary adhesion and temporary fixing. The functional film for sticking according to claim 1, wherein a protective layer for protecting the functional layer is provided on the functional layer. The temporary fixing part has a second pressure-sensitive adhesive layer, and the second pressure-sensitive adhesive layer is partly adhered to the functional layer or the protective layer, and the other part is a part other than the sticking surface of the adherend. The functional film for sticking according to claim 1 or 2, wherein the functional film is a positioning seal adhered to the film. The adhesive force between the release layer and the base film adhered by the first adhesive layer is set to be smaller than the adhesive force between the functional layer and the positioning seal adhered by the second adhesive layer. The functional film for sticking according to claim 3, wherein the functional film is attached. The adhesive force between the release layer and the base film adhered by the first adhesive layer is set to be smaller than the adhesive force between the protective layer and the positioning seal adhered by the second adhesive layer. The functional film for sticking according to claim 3, wherein the functional film is attached. A sticking method for sticking the functional film for sticking according to any one of claims 1 to 5 to an adherend,
Position and place the release layer side of the functional film for application on the adherend surface of the adherend, temporarily fix the temporary fastening portion to a portion other than the adherend surface of the adherend, and then peel off the release layer. A method of applying a functional film for application, wherein the first pressure-sensitive adhesive layer is attached in order while deaerating from the side closer to the temporary fixing part toward the side farther from the temporary fixing part.

Images