JP2015063602A - Adhesive sheet and method for manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an adhesive sheet excellent in see-through when stuck on a transparent plate being an adherend and allowing adhesion of oil contamination, easily released when released and small in a paste residue.SOLUTION: An adhesive sheet 1 having transparency and formed by laminating a transparent adhesive layer 12 on one surface of a transparent base material 11 is used for a transparent sheet allowing adhesion of oil contamination. One surface of the transparent adhesive layer 12 contacted with the transparent base material and the surface (an adhesive surface P) on the opposite side are smooth, and the adhesive of the transparent adhesive layer 12 has re-releasability.

Description

  The present invention relates to a pressure-sensitive adhesive sheet used for a transparent plate to which oil stains can adhere, a method for producing the pressure-sensitive adhesive sheet, and a method for using the pressure-sensitive adhesive sheet.

  In a food supermarket, a restaurant, and the like, a cooking place (kitchen) and a sales place or a hall are partitioned by a transparent plate in order to show the cooking situation to general customers. Here, when cooking using oil such as frying and frying is performed at the kitchen, and oil stains adhere to the transparent plate, the impression that the kitchen is difficult to see or the kitchen is unsanitary May give a bad impression that the food is not delicious. In this case, it is common to deal with cleaning using a detergent or the like, but the work is very complicated and improvement is required.

  As a method for preventing oil stains, a stain prevention method that does not require cleaning has been proposed by sticking a stain prevention sheet to the wall of the kitchen, removing the sheet when the stain has adhered, and applying a new sheet. (For example, refer to Patent Document 1).

JP 2004-249287 A

  However, all the methods using the antifouling sheet including Patent Document 1 are for wall surfaces that do not require transparency. The antifouling sheet used in such a method is inferior in transparency and inferior in transparency when applied to a transparent plate. In addition, when a general adhesive sheet is used, the adhesive strength is high, so it is difficult to remove even if it is peeled off after dirt has adhered, and adhesive residue is generated when it is removed, so the transparent plate must be cleaned It may become. If a new sheet is pasted with insufficient cleaning, the transparency may be impaired due to the remaining glue.

  The present invention has been made in view of the above problems, and has good transparency when applied to a transparent plate to which oil stains can adhere, which is an adherend, and is easy to peel off when peeled off and has an adhesive residue. It aims at providing few adhesive sheets.

  In order to achieve the above object, first, the present invention is a pressure-sensitive adhesive sheet in which a transparent pressure-sensitive adhesive layer is laminated on one surface of a transparent substrate, the pressure-sensitive adhesive sheet having transparency, and the transparent pressure-sensitive adhesive sheet. The surface of the adhesive layer opposite to the surface in contact with the transparent substrate has smoothness, and the adhesive of the transparent adhesive layer has removability, and can be attached with oil stains An adhesive sheet used for a transparent plate is provided (Invention 1).

  The pressure-sensitive adhesive sheet of the above invention (Invention 1) has good transparency when affixed to a transparent plate to which oil stains can adhere, and is easily peeled off when peeled and has little adhesive residue. The pressure-sensitive adhesive sheet of the present invention can be suitably used for maintaining the transparency of the transparent plate and always keeping it clean. In addition, the pressure-sensitive adhesive sheet of the present invention has an effect that air hardly remains between the transparent plate as the adherend and the pressure-sensitive adhesive sheet.

  In the said invention (invention 1), the peeling sheet is laminated | stacked directly on the surface on the opposite side to the said transparent base material side of the said transparent adhesive layer, The surface which contact | connects the said transparent adhesive layer in the said peeling sheet, A smooth surface is preferred (Invention 2).

  Secondly, the present invention provides a transparent plate to which oil stains can adhere, the pressure-sensitive adhesive sheet of the invention (Inventions 1 and 2) on the surface opposite to the surface in contact with the transparent substrate in the transparent pressure-sensitive adhesive layer. A method for maintaining the transparency of a transparent plate to which oil stains can adhere, characterized in that the adhesive sheet is peeled off from the transparent plate after the oil stain has adhered to the transparent plate so as to be in contact with the transparent plate. (Invention 3)

  Thirdly, the present invention is a method for producing the pressure-sensitive adhesive sheet of the above invention (Invention 2), wherein a pressure-sensitive adhesive material constituting the transparent pressure-sensitive adhesive layer is applied to one surface of the transparent substrate, and the application The adhesive sheet is formed into the transparent adhesive layer, and the release sheet and the transparent adhesive layer are laminated so that the smooth surface of the release sheet is in direct contact with the transparent adhesive layer. A method for producing a pressure-sensitive adhesive sheet is provided (Invention 4).

  The pressure-sensitive adhesive sheet of the present invention has good transparency when affixed to a transparent plate to which oil stains can adhere, and is easily peeled off when peeled and has little adhesive residue.

It is sectional drawing of the adhesive sheet which concerns on one Embodiment of this invention. It is sectional drawing of the peeling sheet used in one Embodiment of this invention. It is a figure showing an example of an external appearance when the adhesive sheet which concerns on one Embodiment of this invention is stuck on the to-be-adhered body.

Hereinafter, embodiments of the present invention will be described.
FIG. 1 is a cross-sectional view of an adhesive sheet according to an embodiment of the present invention. The pressure-sensitive adhesive sheet 1 according to this embodiment includes a transparent base material 11 and a transparent pressure-sensitive adhesive layer 12 laminated on one surface (lower side in FIG. 1) of the transparent base material 11. Furthermore, the release sheet 2 may be directly laminated on the surface opposite to the surface in contact with the transparent substrate 11 in the transparent adhesive layer 12 (the lower side in FIG. 1). In this case, the release sheet 2 is peeled from the transparent pressure-sensitive adhesive layer 12 when the pressure-sensitive adhesive sheet 1 is used (or the pressure-sensitive adhesive sheet 1 composed of the transparent pressure-sensitive adhesive layer 12 and the transparent substrate 11 is peeled from the release sheet 2. ). In the pressure-sensitive adhesive sheet 1 from which the release sheet 2 has been peeled, the exposed surface (the pressure-sensitive adhesive surface P shown in FIG. 1) opposite to the surface in contact with the transparent substrate 11 in the transparent pressure-sensitive adhesive layer 12 is an adherend. The pressure-sensitive adhesive sheet 1 is affixed to the transparent plate by being brought into contact with a certain transparent plate. In addition, in this embodiment, the laminated body of the adhesive sheet 1 and the peeling sheet 2 may be called adhesive sheet 1A with a peeling sheet.

  In this specification, an object that is “transparent” means that the opposite side of the object (the opposite side from the viewer) is visible through the object. Specifically, the object can transmit visible light. It means that there is little diffuse reflection of light. Moreover, when the adhesive sheet 1 according to the present embodiment has “transparency”, when the opposite main surface direction is viewed from one main surface of the adhesive sheet 1 through the adhesive sheet 1, the opposite side is visually recognized. It means that it is possible. However, the above-mentioned “having transparency” does not require that the entire surface of the pressure-sensitive adhesive sheet 1 is “transparent”. For example, the surface of the pressure-sensitive adhesive sheet 1 is partially formed by printing on the transparent substrate 11. This includes cases where there are parts that are not “transparent”.

  In this embodiment, the haze value of the pressure-sensitive adhesive sheet 1 is preferably more than 0% and 6% or less, particularly preferably more than 0% and 4% or less, more than 0% and 2% or less. Is more preferable. When the haze value is within such a range, the transparency of the pressure-sensitive adhesive sheet 1 is ensured, and when pasted on a transparent plate, the transparent plate from one side (for example, a sales floor or a hall) to the opposite side (for example, a kitchen) Etc.) can be kept transparent. In addition, the specific measuring method of a haze value is shown in the Example mentioned later.

  The adherend of the pressure-sensitive adhesive sheet 1 according to this embodiment is a transparent plate to which oil stains can adhere. In this specification, “oil stains” includes cooking oil that is scattered when cooking at a cooking place, oil contained in cooking products, machine oil that is used in factories, etc., and scattered in the air, and dust contained in cigarette smoke. The tar content or dust adhering to these tars is included. The transparent plate as the adherend is not particularly limited as long as the opposite side can be visually recognized when viewed through the transparent plate from at least one main surface of the transparent plate, for example, glass. Although a board, an acrylic board, etc. are illustrated, it is not limited to these. Moreover, like the above-mentioned adhesive sheet 1, the entire surface of the transparent plate does not need to be transparent, and there may be a portion that is not partially transparent on the transparent plate.

1. Transparent substrate The transparent substrate 11 used in the present embodiment is not particularly limited as long as it is transparent, and any one of conventionally known materials can be appropriately selected and used. As such a transparent substrate 11, a resin film is usually used.

  Examples of the resin film include polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate, polybutylene terephthalate, and polyethylene naphthalate, polyvinyl chloride, polystyrene, polyurethane, polycarbonate, polyamide, polyimide, polyetherimide, and poly (meth). Acrylic acid ester, polybutene, polybutadiene, polymethylpentene, acrylic urethane, ethylene vinyl acetate copolymer, ethylene (meth) acrylic acid copolymer, ethylene (meth) acrylic acid ester copolymer, ABS resin, ionomer resin, various Use a film made of at least one resin selected from thermoplastic elastomers, or a single type or a plurality of types of laminated films selected from them. It can be. In the present specification, (meth) acrylic acid means both acrylic acid and methacrylic acid. The same applies to other similar terms.

  The resin film may be a stretched film, an unstretched film, or may be formed by a casting method using a process material. Moreover, the resin film may contain various additives such as an inorganic filler, an organic filler, and an ultraviolet absorber.

  As the transparent substrate 11 of the pressure-sensitive adhesive sheet 1 according to this embodiment, among the resin films, a polyethylene terephthalate (PET) film, polyethylene, polyurethane and the like are particularly preferable.

  One or both surfaces of the resin film can be subjected to a surface treatment such as a primer treatment, an oxidation method, or an unevenness method. Such surface treatment improves the adhesion of the transparent adhesive layer 12 laminated on the resin film. Moreover, as will be described later, when a printed layer is provided on the surface of the resin film, the adhesion between the resin film and the printed layer is also improved. In addition, the said primer process means the process which apply | coats the liquid agent for improving the adhesiveness with the transparent adhesive layer 12 on the one or both surfaces of the said resin film. The liquid agent that can be used for the primer treatment is not particularly limited, and conventionally known ones such as acrylic, polyester, polyurethane, silicone, and rubber can be used. On the other hand, examples of the oxidation method include corona discharge treatment, plasma discharge treatment, chromium oxidation treatment (wet), flame treatment, hot air treatment, ozone, ultraviolet irradiation treatment, and the like. Method, thermal spraying method and the like. These surface treatment methods are appropriately selected depending on the type of the resin film, but in this embodiment, primer treatment is preferably used from the viewpoint of the effect.

  Moreover, you may provide a printing layer further in the surface (upper side in FIG. 1) on the opposite side to the surface which laminates | stacks the transparent adhesive layer 12 in the said resin film. By printing on the surface of the resin film, the printing can be observed when the pressure-sensitive adhesive sheet 1 is attached to a transparent plate. In this case, a printing coat layer for improving the adhesion of the printing layer may be formed on the surface of the resin film. In addition, printing (back print) can also be given to the surface which laminates | stacks the transparent adhesive layer 12 of the said resin film, and in this case, the coating layer for printing may be formed in the said surface. When printing is performed on the surface of the resin film on which the transparent adhesive layer 12 is laminated, the printing can be observed from the transparent plate side when the adhesive sheet 1 is attached to the transparent plate.

  FIG. 3 is a diagram illustrating an example of an appearance when the printed adhesive sheet 1 is attached to an adherend. As shown in FIG. 3, the printing may be partially printed on the surface of the resin film. As an example of this printing, printing 13 such as “Time sale from 5 o'clock”, “Monday sale day of meat”, “Wednesday is a 10% off day of the week” on the upper and lower sides and both ends of the resin film on the adherend. It may be applied to such an extent that the transparency of a certain transparent plate 3 is not hindered. By applying such printing, when the adhesive sheet 1 is affixed to the transparent plate 3, it is possible to provide a customer suction force and an advertisement effect.

  Further, the surface of the resin film or the surface of the printing layer may be subjected to an antifouling treatment that makes it possible to easily wipe off oil stains adhering to the surface. Examples of the antifouling treatment include applying a fluorine resin or a silicone resin.

  Also, in place of the antifouling treatment, a resin film in which this antifouling treatment is performed on one surface and an adhesive layer is laminated on the opposite surface, or a fluorine film in which an adhesive layer is laminated on one surface A film that can easily wipe off oil stains such as a resin film may be bonded to the surface of the resin film opposite to the surface on which the transparent adhesive layer 12 is laminated.

  Although the thickness of the transparent base material 11 is not specifically limited, It is preferable that it is 5-300 micrometers, and it is especially preferable that it is 20-150 micrometers. When the thickness of the transparent base material 11 is less than 5 μm, the transparent base material 11 becomes weak and wrinkles are generated or cut off in the process of manufacturing the pressure-sensitive adhesive sheet 1 (or the pressure-sensitive adhesive sheet with release sheet 1A). Moreover, when sticking the adhesive sheet 1 to a to-be-adhered body, it may produce wrinkles. On the other hand, when the thickness of the transparent base material 11 becomes thicker than 300 μm, the transparent base material 11 becomes unnecessarily thick and requires an extra material cost for the transparent base material 11, and the adhesive sheet 1 (or with a release sheet) In the winding stage of the process for producing the pressure-sensitive adhesive sheet 1A), the transparent substrate 11 is thick and bulky, so that the quantity that can be wound at one time is reduced, and the manufacturing cost at a desired quantity is increased, which is economically disadvantageous. become.

2. Transparent adhesive layer As for the transparent adhesive layer 12 in this embodiment, the surface (adhesive surface P shown in FIG. 1) on the opposite side to the surface where the transparent base material 11 is laminated | stacked has smoothness. When the pressure-sensitive adhesive surface P of the transparent pressure-sensitive adhesive layer 12 has smoothness, the transparency of the transparent plate is obtained when the pressure-sensitive adhesive sheet 1 according to this embodiment is attached to an adherend (transparent plate to which oil stains can adhere). Is kept good, and air hardly remains between the pressure-sensitive adhesive sheet 1 and the adherend.

  The surface of the transparent adhesive layer 12 opposite to the surface on which the transparent substrate 11 is laminated (adhesive surface P shown in FIG. 1) represents the surface roughness by the root mean square slope (RΔq) of the roughness curve. Sometimes, it is preferably more than 0 μm and 1.0 μm or less, particularly preferably more than 0 μm and 0.030 μm or less, more preferably more than 0 μm and 0.015 μm or less. Here, the root mean square slope (RΔq) of the roughness curve is a parameter obtained by taking the root mean square of the slope of the unevenness in the minute range of the surface, and a specific measuring method will be described later. The root mean square slope of the roughness curve becomes smaller as the surface becomes smoother.

  When the surface roughness of the pressure-sensitive adhesive surface P is in the above range, the pressure-sensitive adhesive surface P becomes smoother, and the pressure-sensitive adhesive surface P is prevented from having a state of unevenness (so-called yuzu skin). Scattering of the reached light is suppressed. For this reason, when the adhesive sheet 1 is affixed to a transparent plate, the transparency of the transparent plate is further improved. Moreover, air becomes difficult to remain between the transparent plate and the pressure-sensitive adhesive sheet 1 by making the pressure-sensitive adhesive surface P smoother.

  Here, the adhesive surface P of the transparent adhesive layer 12 is in direct contact with the release surface of the release sheet 2 described later, and the surface roughness of the release surface is transferred to the adhesive surface P. The roughness approximates the surface roughness of the peeled surface. Therefore, the surface roughness of the pressure-sensitive adhesive surface P in this specification is measured by the surface roughness of the release surface of the release sheet 2.

  In this embodiment, the pressure-sensitive adhesive constituting the transparent pressure-sensitive adhesive layer 12 has removability. Since the pressure-sensitive adhesive has re-peelability, the pressure-sensitive adhesive sheet 1 according to the present embodiment is kept adhered while being adhered to the transparent plate, and is easily peeled off when peeled off from the transparent plate, and the adhesive remains. It will be less.

  In the pressure-sensitive adhesive sheet 1 according to the present embodiment, when the adherend is a glass plate, the pressure-sensitive adhesive strength when the pressure-sensitive adhesive sheet 1 is stuck to the glass plate is preferably 1 to 140 mN / 25 mm immediately after the sticking. In particular, 5 to 100 mN / 25 mm is preferable, and 10 to 50 mN / 25 mm is more preferable. Moreover, it is preferable that the adhesive force 24 hours after sticking is 1-160 mN / 25 mm, It is especially preferable that it is 5-120 mN / 25 mm, and it is more preferable that it is 10-70 mN / 25 mm.

  Moreover, as for the adhesive sheet 1 which concerns on this embodiment, when an adherend is made into an acrylic board, the adhesive force at the time of sticking the adhesive sheet 1 on the said acrylic board is 1-220mN / 25mm immediately after sticking. Is particularly preferable, and 5 to 100 mN / 25 mm is preferable, and 10 to 50 mN / 25 mm is more preferable. Moreover, it is preferable that the adhesive force 24 hours after sticking is 1-230 mN / 25 mm, It is especially preferable that it is 5-110 mN / 25 mm, and it is more preferable that it is 10-60 mN / 25 mm.

  In the pressure-sensitive adhesive sheet 1 according to the present embodiment, the adhesive strength immediately after sticking and 24 hours after sticking is in the above range, so that sticking is maintained while sticking to the transparent plate, and when peeling from the transparent plate. Easier to peel off and less glue residue. In addition, the specific test method of the said adhesive force is shown in the Example mentioned later.

  In the present embodiment, the pressure-sensitive adhesive constituting the transparent pressure-sensitive adhesive layer 12 is not particularly limited as long as it has removability and provides the pressure-sensitive adhesive sheet 1 with the above-described pressure-sensitive adhesive force. Examples thereof include polyurethane, rubber, and silicone. Moreover, any of an emulsion type, a solvent type, or a solventless type may be sufficient, and any of a crosslinked type or a non-crosslinked type may be sufficient. Of these pressure-sensitive adhesives, silicone pressure-sensitive adhesives are preferable. Silicone pressure-sensitive adhesives can be made relatively low in adhesiveness, so that they can be easily peeled off from the adherend and the amount of adhesive residue on the adherend can be made extremely small. . Therefore, the pressure-sensitive adhesive sheet 1 having the transparent pressure-sensitive adhesive layer 12 composed of such a silicone-based pressure-sensitive adhesive has excellent removability. In addition, the silicone adhesive has a lower surface energy than acrylic adhesives, has good wettability, and easily spreads on the surface of the adherend. Therefore, when the adhesive sheet 1 is applied to a transparent plate In addition, air hardly remains between the adherend and the pressure-sensitive adhesive sheet 1, and the transparency and workability are further improved.

  The silicone-based pressure-sensitive adhesive constituting the transparent pressure-sensitive adhesive layer 12 is composed of a first polydimethylsiloxane having at least two alkenyl groups in one molecule and a second polydimethyl having at least two hydrosilyl groups in one molecule. An addition reaction type silicone adhesive containing an addition reaction type silicone resin obtained from siloxane and a silicone resin is preferable.

  Examples of the alkenyl group contained in the first polydimethylsiloxane include monovalent hydrocarbon groups such as vinyl group, allyl group, propenyl group, butenyl group, pentenyl group, hexenyl group, heptenyl group, and octenyl group. The group is particularly preferred.

  The content of alkenyl groups in the first polydimethylsiloxane (ratio of the number of alkenyl groups to the number of siloxane bonds) is preferably 0.01 to 10 mol%, particularly 0.1 to 5 mol%. Preferably there is. The alkenyl group is preferably present at both ends of the molecular chain, and may be present in the side chain. The degree of polymerization (number of siloxane bonds) of the first polydimethylsiloxane is preferably 200 to 5,000, more preferably 500 to 3,000. Further, the content of hydrosilyl groups in the second polydimethylsiloxane is preferably 2 to 300, more preferably 4 to 200, per molecule. The polymerization degree of the second polydimethylsiloxane is preferably 50 to 2,000, and particularly preferably 100 to 1,500. Furthermore, the compounding ratio of the second polydimethylsiloxane to 100 parts by mass of the first polydimethylsiloxane is preferably 0.01 to 20 parts by mass, and particularly preferably 0.1 to 10 parts by mass. The addition reaction of the first polydimethylsiloxane and the second polydimethylsiloxane by the content of each functional group and the blending ratio of the second polydimethylsiloxane to the first polydimethylsiloxane being within the above range. Is performed well, and it becomes possible to obtain a silicone-based pressure-sensitive adhesive having removability.

  The first polydimethylsiloxane preferably has no hydrosilyl group, and the second polydimethylsiloxane preferably has no alkenyl group.

  The weight average molecular weight of the first polydimethylsiloxane is preferably 20000 to 1300000, and particularly preferably 300000 to 1200000. In addition, the weight average molecular weight of the second polydimethylsiloxane is preferably 300 to 1400, and particularly preferably 500 to 1200. In addition, the weight average molecular weight in this specification is the value of polystyrene conversion measured by the gel permeation chromatography (GPC) method.

As the silicone resin, for example, an MQ resin composed of an M unit which is a monofunctional siloxane unit [(CH ₃ ) ₃ SiO _1/2 ] and a Q unit which is a tetrafunctional siloxane unit [SiO _4/2 ] is used. Can be used. The molar ratio of M unit / Q unit is preferably 0.6 to 1.7. This silicone resin has a role of imparting tackiness to the silicone-based pressure-sensitive adhesive.

  The compounding ratio of the silicone resin to 100 parts by mass of the addition reaction type silicone resin is preferably 1 to 30 parts by mass, particularly preferably 3 to 20 parts by mass, and further preferably 5 to 15 parts by mass. preferable. When the blending ratio of the silicone resin is within such a range, the peelability of the obtained transparent adhesive layer 12 from the release sheet 2 can be adjusted to a desirable range. That is, the obtained pressure-sensitive adhesive sheet 1 having the transparent pressure-sensitive adhesive layer 12 can be peeled with a preferable peeling force from the peeling surface of the peeling sheet 2 described later. In addition, the obtained pressure-sensitive adhesive sheet 1 having the transparent pressure-sensitive adhesive layer 12 can be easily peeled off from the adherend, and the amount of adhesive residue on the adherend is extremely small.

  The addition reaction type silicone pressure-sensitive adhesive preferably contains a catalyst. The catalyst is not particularly limited as long as it can cure the above addition reaction type silicone resin (addition reaction between the first polydimethylsiloxane and the second polydimethylsiloxane), but among them, a platinum group metal compound. Is preferred. Examples of the platinum group metal compounds include fine platinum, fine platinum adsorbed on a carbon powder carrier, chloroplatinic acid, alcohol-modified chloroplatinic acid, olefin complexes of chloroplatinic acid, palladium, rhodium and the like. . By containing such a catalyst, the curing reaction of the addition reaction type silicone resin can proceed more efficiently.

  As for the compounding ratio of the catalyst with respect to 100 parts by mass of the addition reaction type silicone resin, the platinum content is preferably 0.0001 to 0.1 parts by mass, and particularly preferably 0.001 to 0.01 parts by mass.

  In addition to the above components, the addition reaction type silicone pressure-sensitive adhesive may contain various additives such as a reaction inhibitor and an adhesion improver.

  The thickness of the transparent adhesive layer 12 is usually preferably 1 to 100 μm, particularly preferably 3 to 30 μm, and further preferably 5 to 15 μm. Here, when the thickness of the transparent adhesive layer 12 becomes thinner than 1 μm, there may be a problem that it becomes difficult to form the transparent adhesive layer 12 when the adhesive sheet 1 is manufactured. Moreover, when the thickness of the transparent adhesive layer 12 becomes thicker than 100 μm, the transparent adhesive layer 12 becomes unnecessarily thick, and the material cost of the transparent adhesive layer 12 is required, and the adhesive sheet 1 is manufactured. Since the transparent adhesive layer 12 is thick and bulky in the winding stage of the process, the quantity that can be wound at a time is reduced, and the manufacturing cost for the desired quantity is increased, which is economically disadvantageous.

3. Release Sheet The release sheet 2 according to the present embodiment is directly laminated on the surface (adhesive surface P shown in FIG. 1) opposite to the surface in contact with the transparent base material 11 of the transparent adhesive layer 12, and the adhesive sheet. It is preferable that the surface (peeling surface R shown in FIG. 1) which contacts the transparent adhesive layer 12 in 1 is a smooth surface. Here, when the release surface R of the release sheet 2 is a rough surface having irregularities, the irregularities are transferred to the adhesive surface P of the adhesive layer in contact with the release surface R, and the adhesive surface of the adhesive layer There exists a possibility that P may become what is called a yuzu skin, the light which reached | attained the adhesion surface P may be scattered, and there exists a possibility that the transparency of the adhesive sheet 1 may deteriorate. However, since the release surface R of the release sheet 2 is a smooth surface, the adhesive surface P of the transparent adhesive layer 12 that is in direct contact with the release surface R becomes smooth immediately after being released from the release sheet 2, so-called Since the skin is prevented from being distorted, the scattering of light reaching the adhesive surface P is suppressed, and the transparency is further improved. Further, since the pressure-sensitive adhesive surface P becomes smooth, air hardly remains between the transparent plate and the pressure-sensitive adhesive sheet 1.

  Examples of such release sheet 2 include polyethylene film, polypropylene film, polybutene film, polybutadiene film, polymethylpentene film, polyvinyl chloride film, vinyl chloride copolymer film, polyethylene terephthalate film, polyethylene naphthalate film, poly Butylene terephthalate film, polyurethane film, ethylene vinyl acetate film, ionomer resin film, ethylene / (meth) acrylic acid copolymer film, ethylene / (meth) acrylic acid ester copolymer film, polystyrene film, polycarbonate film, polyimide film, A fluororesin film or the like is used. Moreover, the single type or multiple types of laminated film chosen from these may be sufficient. Moreover, you may use paper base materials, such as a quality paper, a craft paper, a glassine paper, as a base material of the peeling sheet 2. FIG. The paper substrate may be coated with a resin such as olefin, acrylic, urethane, starch, etc. on one or both sides, and a single type or a plurality of types selected from these coating agents may be laminated. In addition, resin films such as polyolefin, acrylic, and polyurethane may be laminated, and a single kind or a plurality of kinds selected from these films may be laminated.

  If necessary, the release surface R of the release sheet 2 may be subjected to a release treatment. In this case, examples of the release agent used for the release treatment include alkyd, silicone, fluorine, unsaturated polyester, polyolefin, wax, and rubber release agents.

  Moreover, it is preferable that the surface (back surface B shown in FIG. 1) on the opposite side to the transparent adhesive layer 12 in the peeling sheet 2 is a rough surface. When the back surface B of the release sheet 2 is a rough surface, the pressure-sensitive adhesive sheet with release sheet 1A can be conveyed and fed out favorably, and is suitable for processing such as printing and punching.

  As the release sheet 2 having such characteristics, the release sheet shown in FIG. 2 is particularly preferably used.

  Here, the release sheet 2 shown in FIG. 2 includes a paper base 21, a coat layer 22 formed on one side of the paper base 21 (upper side in FIG. 2), and a paper base 21 of the coat layer 22. A first resin layer 23 formed on the opposite side (upper side in FIG. 2), and a second resin layer 24 formed on the other surface side (lower side in FIG. 2) of the paper substrate 21; Consists of

  In the present embodiment, the surface of the first resin layer 23 opposite to the coat layer 22 side (the upper surface in FIG. 2) is the release surface R, and the transparent adhesive layer 12 is directly laminated on the release surface R. Is done. At the time of peeling, the peeling sheet 2 and the transparent adhesive layer 12 are separated at the peeling surface R.

  As the paper substrate 21, the above-described high-quality paper, kraft paper, glassine paper, or the like can be used, and among these, it is preferable to use high-quality paper. High-quality paper has an advantage that the degree of curling (paper warpage) due to the influence of environmental temperature, humidity and the like is small.

The basis weight of the paper substrate 21 is preferably 35~200g / ^{m 2,} it is preferred that particularly 60~120g / ^{m 2.} When the basis weight of the paper base material 21 is less than 35 g / m ² , the paper base material 21 becomes weak and causes problems such as wrinkles or breakage in the process of manufacturing the release sheet 2. There is. In addition, when the basis weight of the paper base material 21 is more than 200 g / m ² , the paper base material 21 becomes unnecessarily thick and requires an extra material cost for the paper base material 21, and the adhesive with release sheet In the winding stage of the process of manufacturing the sheet 1A, the paper base 21 is thick and bulky, so that the quantity that can be wound at a time is reduced, and the manufacturing cost for the desired quantity is increased, which is economically disadvantageous. Become.

  The paper substrate 21 is preferably opaque. If it is opaque, when printing is performed on the pressure-sensitive adhesive sheet with release sheet 1A according to the present embodiment, even when a plurality of pressure-sensitive adhesive sheets with release sheet 1A after printing are stacked, the printed portion of each pressure-sensitive adhesive sheet with release sheet 1A Are not seen overlapping each other, and the inspection of the printed appearance and the inspection of the pressure-sensitive adhesive sheet 1A with the release sheet can be easily performed.

  The coat layer 22 formed on the paper base 21 has a role of filling (sealing) unevenness caused by the paper fibers of the paper base 21. Therefore, the roughness of the surface of the coat layer 22 opposite to the paper substrate 21 side is smaller than the roughness of the surface of the paper substrate 21. In addition, the coat layer 22 may have a role other than sealing such as water resistance and chemical resistance.

  The coat layer 22 preferably contains pigments and the like, and by using these pigments, the paper substrate 21 can be effectively spotted. In this case, the coat layer 22 is formed by applying a coating liquid containing a pigment, a binder, a solvent, and optionally an additive to one surface of the paper substrate 21. Examples of the pigment include clay, titanium oxide, heavy calcium carbonate, light calcium carbonate, calcium sulfate, calcium acetate, zinc oxide, alumina, aluminum hydroxide, barium sulfate, plastic pigment, and synthetic silica. These can also be used individually by 1 type and can also be used in mixture of 2 or more types.

  Among the pigments, clay is particularly preferable. According to clay, the sealing of the paper base material 21 can be performed more effectively. Examples of clay include kaolin, talc, bentonite, vermiculite, mica, mica, chlorite, kibushi clay, gyrome clay, smectite, halloysite, and the like. can do. Among the clays, it is preferable to use kaolin and / or talc that can effectively seal the paper base material 21.

  Examples of the binder include latexes such as styrene-butadiene latex, acrylic latex, and vinyl acetate latex; starches such as starch, modified starch, oxidized starch, hydroxyethyl etherified starch, and phosphate esterified starch; carboxymethyl cellulose And cellulose derivatives such as hydroxyethyl cellulose; polyvinyl alcohol, polyvinyl pyrrolidone, casein, gelatin and the like, and one kind can be used alone or two or more kinds can be used in combination.

  As additives, for example, pigment dispersants, antifoaming agents, antifoaming agents, viscosity modifiers, lubricants, water resistance agents, water retention agents, ultraviolet absorbers, colorants and the like can be used as appropriate. As the solvent, water, alcohol or the like is usually used.

  The coating liquid can be applied using a coating machine such as a bar coater, a die coater, a gravure coater, a roll coater, a blade coater, or a size press coater.

Coating amount after drying of the coating layer 22 is preferably 5 to 40 g / ^{m 2,} it is particularly preferably 10 to 30 g / ^{m 2.} When the coating amount of the coat layer 22 after drying is in the above range, the paper substrate 21 can be sealed as necessary and sufficiently.

  In addition, what the coating layer 22 was previously formed in one side of the paper base material 21 can also be used.

  The first resin layer 23 has a role of further smoothing the peeling surface R of the release sheet 2 by covering finer irregularities on the smooth surface of the coat layer 22 on the first resin layer side. On the other hand, the second resin layer 24 has a role of suppressing curling of the release sheet 2. That is, by laminating the resin layers on both sides of the paper base material 21, the stress generated on one surface side and the other surface side of the release sheet 2 is balanced, and the release sheet 2 is less likely to be curled. Also, since the resin layers are laminated on both sides of the paper base material 21, moisture in the paper base material 21 becomes difficult to move to the outside, so that the release sheet 2 is prevented from curling due to a change in water content. Can do. Furthermore, the second resin layer 24 is a surface opposite to the release surface R of the release sheet 2 (back surface B; surface opposite to the paper substrate 21 side of the second resin layer 24 if necessary. 2) also serves as a layer for adjusting the smoothness to a desired degree.

The resin constituting the first resin layer 23 and the second resin layer 24, for example, ultra low density polyethylene (VLDPE, density: 880 kg / ^{m 3} or more and less than 910 kg / ^{m 3),} low density polyethylene (LDPE, density: 910 kg / ^{m 3} or more, 930 kg / ^m less than ^3), medium density polyethylene (MDPE, density: 930 kg / ^{m 3} or more and less than 942kg / ^{m 3),} high density polyethylene (HDPE, density: 942kg / ^{m 3} or higher) Such as polyethylene resin, polypropylene resin, polyethylene-polypropylene copolymer, olefin elastomer (TPO), cycloolefin resin, ethylene-vinyl acetate copolymer (EVA), ethylene-vinyl acetate-maleic anhydride copolymer, ethylene -(Meth) acrylic acid copolymer, ethylene- (meth) acrylate Examples thereof include a lauric acid ester copolymer, an ethylene- (meth) acrylic acid ester-maleic anhydride copolymer, and the like can be used alone or in admixture of two or more. The resin of the first resin layer 23 and the resin of the second resin layer 24 may be the same or different.

  Among the above resins, polyethylene resin, particularly low density polyethylene is preferable. According to the polyethylene resin, the pressure-sensitive adhesive layer made of a silicone pressure-sensitive adhesive can be peeled off. In particular, low-density polyethylene has a low elastic modulus and a small peeling force. Therefore, according to the low-density polyethylene, the pressure-sensitive adhesive layer made of a silicone-based pressure-sensitive adhesive can be easily peeled off.

  The thickness (t1 in FIG. 2) of the first resin layer 23 is preferably 0.1 to 100 μm, particularly preferably 1 to 50 μm, and more preferably 5 to 30 μm. When the thickness (t1) of the first resin layer 23 is 0.1 μm or more, the fine unevenness on the surface of the coat layer 22 on the first resin layer 23 side is sufficiently covered, and the release sheet 2 It becomes possible to smooth the peeling surface R to a desired level. The thickness (t1) of the first resin layer 23 is sufficient if it is 100 μm, and if it is thicker than that, the release sheet 2 becomes unnecessarily thick and requires an additional resin material cost. Since the release sheet 2 is thick and bulky in the winding stage of the process for manufacturing the sheet 2, the number of rolls that can be wound at one time is reduced, and the manufacturing cost for the desired quantity is increased, which is economically disadvantageous.

  The thickness of the second resin layer 24 (t2 in FIG. 2) is preferably 0.1 to 100 μm, particularly preferably 1 to 50 μm, and more preferably 5 to 30 μm. When the thickness (t2) of the second resin layer 24 is 0.1 μm or more, the roughness of the back surface B of the release sheet 2 can be adjusted to a desired degree. The thickness (t2) of the second resin layer 24 is sufficient if it is 100 μm, and if it is thicker than that, the release sheet 2 becomes unnecessarily thick and requires an extra resin material cost. This is economically disadvantageous because the quantity that can be wound at one time is reduced due to the fact that it is bulky at the winding stage at the time of manufacture, and the manufacturing cost for the desired quantity is increased.

  The ratio (t1 / t2) of the thickness (t1) of the first resin layer 23 to the thickness (t2) of the second resin layer 24 is preferably 0.5 to 2.0, particularly preferably It is preferable that it is 8-1.5. When the ratio (t1 / t2) between the two is within the above range, the stress generated on one surface side and the other surface side of the release sheet 2 is balanced, and curling of the release sheet 2 can be effectively prevented. it can. Moreover, the smoothness of the surface (peeling surface R) on the opposite side to the coat layer 22 side of the 1st resin layer 23, and the surface (peeling sheet) on the opposite side to the paper base material 21 side of the 2nd resin layer 24 It becomes easy to set the smoothness of the back surface B) of 2 to a preferable range described later.

  The first resin layer 23 and the second resin layer 24 are preferably formed by extrusion lamination. Specifically, using a T-die film forming machine or the like, the resin constituting the first resin layer 23 and the resin constituting the second resin layer 24 are respectively melted and kneaded, and the coat layer 22 is formed on one side. While moving the formed paper base 21 at a constant speed, the molten resin of the first resin layer 23 is extruded and laminated on the surface on the side of the coat layer 22, and is opposite to the coat layer 22 of the paper base 21. The molten resin of the second resin layer 24 is extruded and laminated on the side surface.

  Here, it is preferable that the surface (peeling surface R) of the first resin layer 23 on the side opposite to the coat layer 22 side is subjected to a high smoothing process described later. Thereby, the smoothness of the peeling surface R of the peeling sheet 2 becomes very high. For this reason, the adhesive surface P of the transparent adhesive layer 12 that is in direct contact with the release surface R of the highly smooth release sheet 2 becomes highly smooth immediately after peeling from the release sheet 2 and may become so-called yuzu skin. Therefore, the scattering of light reaching the adhesive surface P is suppressed, and the transparency is further improved. Moreover, air becomes difficult to remain between the transparent plate and the adhesive sheet 1 by making the adhesive surface P highly smooth.

  As the high smoothing process, for example, a calendar process using a mirror roll whose surface is mirror-finished (including a cooling process immediately after extrusion and a super calendar process), a press process, and the like can be employed. Such high smoothing treatment is preferably performed by the extrusion lamination and a series of steps.

  The root mean square slope of the roughness curve on the surface of the first resin layer 23 opposite to the coat layer 22 side (peeling surface R) is preferably more than 0 μm and less than 1.0 μm, particularly more than 0 μm, The thickness is preferably 0.030 μm or less, more preferably more than 0 μm and 0.015 μm or less. Thereby, the adhesive surface of the transparent adhesive layer 12 laminated | stacked on the said surface becomes a highly smooth thing, and the distorted skin of an adhesive surface is prevented.

  As described above, the root mean square slope (RΔq) of the roughness curve is a parameter obtained by taking the root mean square of the slope of the unevenness in the minute range of the surface. The smoother the surface, the smaller the root mean square slope of the roughness curve. The root mean square slope of the roughness curve is determined according to ISO 4287: 1997. In this specification, the surface roughness is measured by using a surface roughness measuring machine (SURFTEST SV-3000 manufactured by Mitutoyo Corporation in the test example). A value measured at a reference length of 2.5 mm from a roughness curve of 2.5 mm.

  On the other hand, since the second resin layer 24 is directly laminated on the paper base material 21, the surface of the second resin layer 24 opposite to the paper base material 21 side (the back surface B of the release sheet 2) is paper. The unevenness of the base material 21 is reflected to become a rough surface. However, when the roughness (smoothness) does not reach a desired level, the back surface B of the release sheet 2 is preferably matted. The mat processing in the present specification refers to processing for physically roughening the surface.

  Examples of the mat processing include an embossing method and a sand blasting method. Among them, the embossing method is preferable, and an embossing method using a mat roll having irregularities on the surface is particularly preferable. The embossing method using a mat roll can be performed by the extrusion lamination and a series of steps. In this case, the mat roll can be used as a cooling roll immediately after extrusion of the polyolefin resin.

  As described above, since the back surface B of the release sheet 2 is a rough surface, when the pressure-sensitive adhesive sheet 1A with the release sheet 2 provided with the release sheet 2 is subjected to various processing, particularly when subjected to processing with a single sheet, the release sheet 2 is peeled off. As air enters the rough surface concave portion of the back surface B of the sheet 2 and the contact area with the surface of the transparent substrate 11 of the pressure-sensitive adhesive sheet 1A with the release sheet is reduced, the slip on the back surface B is effectively expressed. In addition, it is possible to suppress double feeding (multiple sheets are conveyed while being stacked) and jamming (clogging in the conveyance path) of the pressure-sensitive adhesive sheet with release sheet 1A. Thereby, especially when printing by a sheet | seat, the adhesive sheet 1A with a peeling sheet can be conveyed correctly. Moreover, in the winding roll at the time of processing the said adhesive sheet 1A with a peeling sheet by roll-to-roll, the back surface B of the peeling sheet 2 which is a rough surface is the transparent base material 11 of the adhesive sheet 1A with a peeling sheet. It is difficult for blocking (partial adhesion between sheets) to occur between the two surfaces, and the pressure-sensitive adhesive sheet with release sheet 1A can be fed out satisfactorily.

  The Oken type smoothness of the surface of the second resin layer 24 on the side opposite to the paper substrate 21 side is preferably 10,000 sec or less, particularly preferably 5,000 sec or less, and more preferably 1 000 sec or less is preferable. Thereby, the back surface B of the release sheet 2 becomes a rough surface suitable for processing such as printing and punching, and transport and feeding can be performed satisfactorily.

  Here, the Oken smoothness is represented by the number of seconds required for a predetermined amount of compressed air to leak from the gap between the measurement ring and the test piece in a state where the test piece is pressed against the measurement ring at a predetermined pressure. The smaller the value of the Oken type smoothness, the rougher it is, and it becomes difficult for double feeding and jamming to occur when the pressure-sensitive adhesive sheet with release sheet 1A is conveyed. The Oken type smoothness was measured according to JIS P8155: 2010. In this specification, the Oken type air permeability / smoothness tester (KY6 manufactured by Asahi Seiko Co., Ltd. in the test example) was measured. Value.

  The total thickness of the release sheet 2 is preferably 100 to 200 μm, and particularly preferably 140 to 180 μm. When the release sheet 2 having the above configuration has such a total thickness, the release sheet 2 has a desired rigidity (stiffness) and is excellent in various workability.

  In the release sheet 2 of the present embodiment, the paper substrate 21 may be colored in a desired color, or desired printing may be performed on the paper substrate 21 or the second resin layer 24. Further, the first resin layer 23 and / or the second resin layer 24 may be colored in a desired color.

  The color of coloring is not particularly limited. However, when printing is performed on the pressure-sensitive adhesive sheet 1A with a release sheet, the color of the release sheet 2 is preferably white from the viewpoint of calibration, appearance inspection, and the like. As an index of whiteness, for example, Hunter whiteness defined in JIS P8123 can be mentioned. This hunter whiteness can be measured by a hunter whiteness meter (for example, Hunter whiteness meter D type manufactured by Toyo Seiki Co., Ltd.). Specifically, the white release sheet 2 preferably has a Hunter whiteness of 70 to 90%. Thereby, proofreading, external appearance inspection, etc. of adhesive sheet 1A with a release sheet can be performed easily.

4). Manufacturing method of pressure-sensitive adhesive sheet The pressure-sensitive adhesive sheet 1 (pressure-sensitive adhesive sheet 1A with a release sheet) according to this embodiment can be manufactured, for example, as follows. First, after applying the adhesive material constituting the above-mentioned silicone-based pressure-sensitive adhesive and a coating solution containing a diluent as desired, one surface of the transparent substrate 11 is dried and formed into a film (cured). The transparent adhesive layer 12 is formed. The coating can be performed using, for example, a coating machine such as a bar coater, a die coater, a gravure coater, a roll coater, or a knife coater.

  There is no restriction | limiting in particular as said diluent, A various thing can be used. For example, hydrocarbon compounds such as toluene, hexane, heptane, acetone, ethyl acetate, methyl ethyl ketone, methyl isobutyl ketone, alcohol, water, and mixtures thereof are used.

Coating amount after drying of the transparent adhesive layer 12 is preferably 0.1 to 500 g / ^{m 2,} preferably in particular 1 to 100 g / ^{m 2,} to be 10 to 40 g / ^{m 2} More preferred. When the coating amount after drying of the transparent pressure-sensitive adhesive layer 12 is in the above range, both the pressure-sensitive adhesive force and re-peelability of the transparent pressure-sensitive adhesive layer 12 are good.

  Further, when the silicone-based pressure-sensitive adhesive is the above-described addition reaction type silicone pressure-sensitive adhesive, it is preferable that the applied pressure-sensitive adhesive material be heat-cured. In this case, the heating temperature is preferably 80 to 180 ° C. When the heating temperature is lower than 80 ° C., thermosetting may be insufficient. When the heating temperature is higher than 180 ° C., the solvent may bump and the coated surface state may be deteriorated. The heating time is preferably about 10 to 90 seconds. Since 90 seconds is sufficient for heat curing, it is not necessary to make it longer than this, and if it is shorter than 10 seconds, heat curing may be insufficient.

  When the transparent adhesive layer 12 is formed on one surface of the transparent substrate 11 as described above, the release sheet 2 and the transparent adhesive are so disposed that the release surface R of the release sheet 2 is in direct contact with the transparent adhesive layer 12. The agent layer 12 is laminated. Since the release surface R of the release sheet 2 is highly smooth, the pressure-sensitive adhesive surface P that is in direct contact therewith is also highly smooth, and the pressure-sensitive adhesive sheet with release sheet 1A of the present embodiment can be obtained.

  In addition, when the transparent base material 11 is surface treatment, printing, antifouling processing, etc., those processes can be performed in arbitrary steps.

  Here, the transparent adhesive layer 12 is directly laminated on the release surface R of the release sheet 2 in the reverse order to the above, and the transparent substrate 11 is provided on the surface of the transparent adhesive layer 12 opposite to the release sheet 2. Furthermore, although the method of laminating | stacking can also be employ | adopted, in such a method, the adhesiveness of the transparent base material 11 and the transparent adhesive layer 12 may be inferior. Therefore, as described above, a method of directly laminating the release sheet 2 on the transparent adhesive layer 12 after forming the transparent adhesive layer 12 on one surface of the transparent substrate 11 is more preferable.

5. Transparency maintenance method of transparent board The adhesive sheet 1A with a release sheet of this embodiment peels the release sheet 2 at the time of use, exposes the adhesive surface P of the transparent adhesive layer 12, and can adhere oil stains. Affix to (adherent). The transparent sheet is protected from oil stains by the attached adhesive sheet 1.

  Here, the adhesive surface P of the transparent adhesive layer 12 is a smooth surface as described above. This smoothness is preferably such that the release surface R of the release sheet 2 that is in direct contact with the adhesive surface P of the transparent adhesive layer 12 has high smoothness, so that the highly smooth surface of the release surface R becomes the adhesive surface P. Brought by being transcribed. Thus, since the adhesive surface P of the transparent adhesive layer 12 is a smooth surface, the adhesive sheet 1 according to the present embodiment has a smooth surface immediately after the release sheet 2 is peeled from the adhesive sheet 1A with the release sheet. This prevents the light reaching the pressure-sensitive adhesive surface P from being scattered, so that the transparency of the transparent plate to which the pressure-sensitive adhesive sheet 1 is stuck is maintained immediately after the sticking. Therefore, the transparent plate to which the adhesive sheet 1 is attached has good transparency from one side (for example, sales floor or hall) to the other side (for example, kitchen).

  Further, since the pressure-sensitive adhesive surface P is highly smooth, air hardly remains between the transparent plate and the pressure-sensitive adhesive sheet 1, and work such as re-sticking is reduced and workability is improved. In addition, as a sticking method, you may stick with water depending on the case. With this water sticking, when sticking the pressure sensitive adhesive sheet 1 to an adherend, a misty water is applied to the pressure sensitive adhesive surface of the pressure sensitive adhesive sheet 1 and the surface of the adherend with a sprayer and then temporarily attached. In this method, the surface of the film is rubbed uniformly and sequentially, and the pressure-sensitive adhesive sheet 1 is adhered to the adherend while extruding and removing water.

  When oil stains adhere to the adhesive sheet 1, the adhesive sheet 1 to which oil stains have adhered is peeled from the transparent plate, thereby making the transparent plate an initial clean transparent state. Here, since the adhesive of the transparent adhesive layer 12 has removability, the sticking is maintained while the adhesive sheet 1 is stuck on the transparent plate, and on the other hand, it is easy to peel off when peeling from the transparent plate, And there is little glue residue. The transparent plate from which the pressure-sensitive adhesive sheet 1 has been peeled can be protected from adhesion of oil stains by attaching another pressure-sensitive adhesive sheet 1 again, and the transparency of the transparent plate can be maintained.

  By maintaining the transparency of the transparent plate, in food supermarkets, restaurants, etc., the transparency from the hall to the kitchen is maintained, giving the general customer the impression that the kitchen is hygienic or cooking. An impression that the product looks delicious can be given, and an effect that can lead to an increase in sales of the cooked product is obtained.

  In addition, you may affix the laminated body which laminated | stacked the adhesive sheet 1 of several sheets beforehand on the transparent board (adhered body) to which oil stains can adhere. Specifically, the surface of the transparent substrate 11 opposite to the surface in contact with the transparent adhesive layer 12 (surface treatment, printing, antifouling treatment, etc. are applied to the transparent substrate 11). In the case, the adhesive surface P of another adhesive sheet 1 is pasted on the surface of the transparent substrate 11 subjected to the treatment, etc .; the surface S shown in FIG. Thus, a plurality of adhesive sheets 1 are laminated to form a laminate. The laminate is affixed to the transparent plate so that the adhesive surface P exposed at the outermost layer of the laminate contacts the transparent plate. Thus, by sticking the laminated body of the several adhesive sheet 1 to a transparent board, when oil stains adhere, the outermost adhesive sheet 1 on the opposite side to the surface which is in contact with the glass of the said laminated body The transparency of the transparent plate can be restored simply by peeling off the film. This operation can be performed for the number of the pressure-sensitive adhesive sheets 1. According to said method, since the effort which affixes another adhesive sheet 1 to a transparent plate again can be saved, it becomes possible to obtain quickly the transparent plate protected by the adhesive sheet 1 without oil stains.

  Further, a plurality of pressure-sensitive adhesive sheets 1 may be sequentially attached to a transparent plate (adhered body) to which oil stains can adhere. Specifically, the first release sheet 2 is peeled from the first pressure-sensitive adhesive sheet 1A with the release sheet to expose the pressure-sensitive adhesive surface P of the transparent pressure-sensitive adhesive layer 12, and the pressure-sensitive adhesive surface P comes into contact with the transparent plate. The first adhesive sheet 1 is attached to the transparent plate. Next, the second release sheet 2 is peeled from the second pressure-sensitive adhesive sheet with release sheet 1A to expose the pressure-sensitive adhesive surface P of the transparent pressure-sensitive adhesive layer 12, and the pressure-sensitive adhesive surface P is attached to the transparent plate. The second adhesive sheet 1 is affixed to the first adhesive sheet 1 so as to contact the surface S of the adhesive sheet 1. Similarly, the (n + 1) th adhesive sheet 1 is sequentially attached to the nth adhesive sheet 1. By sticking a plurality of pressure-sensitive adhesive sheets 1 sequentially to the transparent plate in this way, the transparency of the transparent plate can be restored simply by peeling off the pressure-sensitive adhesive sheet 1 applied last when oil stains are adhered. . This operation can be performed for the number of the pressure-sensitive adhesive sheets 1. According to the above method, when oil stains adhere to the pressure-sensitive adhesive sheet 1, the pressure-sensitive adhesive sheet 1 is free from the need to peel off the pressure-sensitive adhesive sheet 1 and then apply another pressure-sensitive adhesive sheet 1 to the transparent plate again. A transparent plate protected by 1 can be obtained quickly.

  The embodiment described above is described for facilitating understanding of the present invention, and is not described for limiting the present invention. Therefore, each element disclosed in the above embodiment is intended to include all design changes and equivalents belonging to the technical scope of the present invention.

  EXAMPLES Hereinafter, although an Example etc. demonstrate this invention further more concretely, the scope of the present invention is not limited to these Examples etc.

[Production Example 1] Production of silicone-based pressure-sensitive adhesive 100 parts by mass of both ends dimethylvinylsiloxy group-capped linear dimethylpolysiloxane (degree of polymerization 1,000) and both ends trimethylsiloxy group-capped methylhydrogen polysiloxane (1 molecule) 3 parts by mass of hydrosilyl groups), 0.5 part by mass of a toluene solution of chloroplatinic acid and divinyltetramethyldisiloxane complex as a catalyst (0.4% by mass of platinum), and silicone resin 10 parts by mass of MQ resin (M unit / Q unit = 0.85) were mixed to obtain a silicone-based pressure-sensitive adhesive (toluene solution).

[Production Example 2] Production of release sheet (i) Preparation of coating layer coating solution 80 parts by weight of kaolin, 20 parts by weight of heavy calcium carbonate, 10 parts by weight of styrene-butadiene latex, and 5 parts by weight of starch, It was dispersed in water and mixed to obtain a coating layer coating solution (solid content: 50% by mass).

(Ii) Formation of a coating layer A gravure coater so that the coating amount after drying the coating solution for coating layer is 20 g / m ² on the felt surface of a paper substrate made of high-quality paper having a basis weight of 80 g / m ^2. After coating and drying, a coat layer was formed by applying pressure between a metal roll and an elastic roll.

(Iii) Formation of second resin layer Low-density polyethylene (melt mass flow rate measured according to ISO 1872-1: 1993) on the surface of the paper base on which the coat layer is formed, on the side opposite to the coat layer: 4.5 g / 10 min, density: 923 kg / m ³ ) was melt-extruded and laminated to a thickness of 20 μm, and then the surface was continuously roughened between a cooling roll (mat roll) and a pressing roll. The second resin layer was formed by passing the space between the low-density polyethylene and the mat roll so as to be matted. The surface roughness of the cooling roll was adjusted so that the Oken smoothness of the second resin layer was 490 sec.

(Iv) Formation of the first resin layer On the surface of the coat layer (the surface opposite to the paper substrate), the same low density polyethylene as the material of the second resin layer is melt-extruded so as to have a thickness of 25 μm. After laminating, the first resin layer is continuously passed between a cooling roll (mirror roll) whose surface is mirror-finished and a press roll so that the first resin layer is in contact with the mirror roll. Formed. In this way, a release sheet was produced.

  In addition, it was 78.2% as a result of measuring the Hunter whiteness prescribed | regulated to JISP8123 of the coat layer of a peeling sheet using the Toyo Seiki Co., Ltd. Hunter whiteness meter D type.

[Example 1]
On one side of a polyethylene terephthalate film (Toyobo Co., Ltd., Cosmo Shine A4300) having a thickness of 50 μm, which is a transparent substrate, the toluene solution of the silicone-based adhesive produced in Production Example 1 was applied at a coating amount of 15 g / A transparent pressure-sensitive adhesive layer was formed by coating with a knife coater to m ² and drying. A pressure-sensitive adhesive sheet with a release sheet was prepared by bonding the release sheet produced in Production Example 2 to the surface of the transparent pressure-sensitive adhesive layer so that the first resin layer was in contact with the transparent pressure-sensitive adhesive layer.

[Example 2]
Example 1 with the exception that a polyethylene terephthalate film (Toyobo Co., Ltd., Cosmo Shine A4300) with a thickness of 100 μm was used as a transparent substrate, and the coating amount after drying of the silicone adhesive was 35 g / m ^2. Similarly, an adhesive sheet with a release sheet was produced.

[Comparative Example 1]
A commercially available sheet for preventing oil stains (manufactured by Cando, transparent sheet) was used as an adhesive sheet with a release sheet.

[Test Example 1] (Measurement of haze value)
Using a haze meter (Nippon Denshoku Industries Co., Ltd., NDH2000), the haze value (%) of the pressure-sensitive adhesive sheet obtained by peeling the release sheet from the pressure-sensitive adhesive sheet with the release sheet of Examples and Comparative Examples is compliant with JIS K7136-2000. Measured. The results are shown in Table 1.

[Test Example 2] (Measurement of adhesive strength)
From the adhesive sheets with release sheets of Examples and Comparative Examples cut into rectangles having a length of 200 mm and a width of 25 mm, the rectangular portions of 100 mm in length and 25 mm in width were peeled from the longitudinal ends of the adhesive sheets with release sheets. The exposed transparent pressure-sensitive adhesive layer was placed on a glass plate (Asahi Glass Co., Ltd., R3202) and an acrylic plate (Mitsubishi Rayon Co., Ltd., WH000) as an adherend in an environment of 23 ° C. and 50% RH with a mass of 2 kg. Each was pasted by a reciprocating method using a rubber roller. Immediately after that, using an all-purpose tensile tester (Orientec Co., Ltd., Tensilon UTM-4-100), in accordance with JIS Z0237: 2000, the adhesive sheet is made of glass at a peeling angle of 180 ° and a peeling speed of 300 mm / min. It peeled from the board and the acrylic board, and the adhesive force at that time was measured, respectively. Moreover, after sticking a transparent adhesive layer on a glass plate and an acrylic board similarly to the above, it was left to stand in 23 degreeC and 50% RH environment for 24 hours, and the adhesive force when peeled after that was measured. The results are shown in Table 1.

[Test Example 3] (Evaluation of removability)
The release sheet was peeled off from the pressure-sensitive adhesive sheets with release sheets of Examples and Comparative Examples cut into a rectangle of 50 mm length and 25 mm width, and the exposed transparent pressure-sensitive adhesive layer was adhered to the adherend in an environment of 23 ° C. and 50% RH. The glass plate (Asahi Glass Co., Ltd., R3202) and the acrylic plate (Mitsubishi Rayon Co., Ltd., WH000) were each pasted by a reciprocating method using a rubber roller having a mass of 2 kg. Next, it is left for 24 hours in an environment of 23 ° C. and 50% RH, and then left for one week in an environment of 40 ° C. and 95% RH. Thereafter, the adhesive sheet is peeled off from the adherend by hand, and there is no adhesive residue. Was confirmed visually. Moreover, the resistance at the time of peeling was evaluated according to the following criteria. The results are shown in Table 1.

= Evaluation of resistance when peeling =
○: Can be easily peeled off.
Δ: Although it could be peeled off, more force was required than in the case of evaluation of ○.

[Test Example 4] (Measurement of surface roughness)
In accordance with ISO 4287: 1997, a surface roughness measuring machine (SURFTEST SV-3000, manufactured by Mitutoyo Corporation) was used to determine the root mean square slope of the roughness curve on the release surface of each release sheet used in Examples and Comparative Examples. From a roughness curve with a cutoff value of 2.5 mm, the measurement was performed at a reference length of 2.5 mm. The results are shown in Table 1. In addition, the root mean square inclination shows that it is so smooth that a value is small.

[Test Example 5] (Evaluation of remaining air)
The release sheet was peeled off from the adhesive sheet with the release sheet of Examples and Comparative Examples cut into a square of 80 mm length and 80 mm width, and one end of the exposed transparent adhesive layer was placed in an environment of 23 ° C. and 50% RH. Then, contact with a glass plate (Asahi Glass Co., Ltd., R3202) as an adherend that has been cleaned so that there is no foreign matter on the surface, and stick using a squeegee (plastic spatula) starting from the contact point. The number of remaining air of 0.5 mm or more was visually evaluated. The results are shown in Table 1.

  As is clear from Table 1, the pressure-sensitive adhesive sheets of the examples had excellent transparency, had a pressure-sensitive adhesive force suitable for re-peeling, and had little adhesive residue. Moreover, since the adhesive surface was highly smooth, it was difficult for air to remain.

  The pressure-sensitive adhesive sheet of the present invention is suitable as a pressure-sensitive adhesive sheet used for a transparent plate that can separate a cooking place (kitchen) from a sales floor or a hall in a food supermarket, a restaurant, or the like and to which oil stains can adhere.

DESCRIPTION OF SYMBOLS 1 ... Adhesive sheet 11 ... Transparent base material 12 ... Transparent adhesive layer 2 ... Release sheet 21 ... Paper base material 22 ... Coat layer 23 ... 1st resin layer 24 ... 2nd resin layer 1A ... Adhesive sheet R with release sheet ... Peeling surface B ... Back surface (of the release sheet) P ... Adhesive surface S ... (Transparent substrate) surface

Claims (4)

A pressure-sensitive adhesive sheet in which a transparent pressure-sensitive adhesive layer is laminated on one surface of a transparent substrate,
The pressure-sensitive adhesive sheet has transparency,
The surface of the transparent adhesive layer opposite to the surface in contact with the transparent substrate has smoothness,
The pressure-sensitive adhesive sheet used for a transparent plate to which oil stains can adhere, wherein the pressure-sensitive adhesive of the transparent pressure-sensitive adhesive layer has removability. A release sheet is directly laminated on the surface of the transparent adhesive layer opposite to the transparent substrate side,
The pressure-sensitive adhesive sheet according to claim 1, wherein a surface of the release sheet that contacts the transparent pressure-sensitive adhesive layer is a smooth surface. The pressure-sensitive adhesive sheet according to claim 1, wherein the surface opposite to the surface in contact with the transparent substrate in the transparent pressure-sensitive adhesive layer is in contact with the transparent plate on which oil stains can adhere. Affix,
A method for maintaining the transparency of a transparent plate to which oil stains can adhere, wherein the pressure-sensitive adhesive sheet is peeled off from the transparent plate after oil stains have adhered. A method for producing the pressure-sensitive adhesive sheet according to claim 2,
Applying the adhesive material constituting the transparent adhesive layer to one surface of the transparent substrate,
Forming the applied adhesive material into the transparent adhesive layer,
The method for producing a pressure-sensitive adhesive sheet, comprising laminating the release sheet and the transparent pressure-sensitive adhesive layer so that the smooth surface of the release sheet is in direct contact with the transparent pressure-sensitive adhesive layer.

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