JP4508774B2 - Aluminum vapor deposition label and manufacturing method thereof - Google Patents

Description

  The present invention relates to an aluminum vapor deposition label used by sticking to a glass bottle such as beer or sake, and a method for producing the same, and more specifically, it has bottle washing suitability and can be easily peeled off and removed from the container. The present invention relates to an aluminum vapor deposition label that can be reused and a method for producing the same.

  Conventionally, a label printed with a trade name, contents, date of manufacture, or the like is attached to the surface of a container such as a glass bottle of beer or sake via an adhesive layer. And this kind of container is collect | recovered after use from a viewpoint of environmental protection, resource saving, etc., and the reuse is achieved. In order to reuse the label, it is necessary to remove the label from the container such as a bottle and reapply a new label to the container such as the bottle. As a method for removing the label from a container such as a bottle, the container is washed with an alkaline aqueous solution or the like, and the adhesive layer is dissolved.

  Therefore, as a specification of the label, a coating layer is formed on one surface of a paper base material with a coating agent composed of an aqueous solution, emulsion, dispersion, etc. whose main component is a resin soluble in an alkaline aqueous solution, An aluminum vapor deposition label in which an aluminum vapor deposition layer, a primer layer, a printed pattern layer, an overcoat layer and the like are sequentially formed on the coating layer is usually used (see, for example, Patent Documents 1 and 2). This aluminum vapor deposition label is used by being adhered to the surface of a container such as a bottle with an adhesive layer such as starch paste, and the container collected after use is washed with an alkaline aqueous solution to obtain the coating layer or adhesive layer. Is dissolved, removed and reused.

  However, the aluminum vapor deposition labels disclosed in Patent Documents 1 and 2 directly form an aluminum vapor deposition layer on the coating layer (hereinafter referred to as a direct method), and the surface state of the coating layer remains as it is. Since it was reproduced as an aluminum vapor deposition layer, a sufficiently satisfactory smooth surface gloss surface could not be obtained.

Therefore, as an alternative to the direct method described above, an aluminum vapor-deposited layer is provided on a synthetic resin film having a smooth surface via a release agent layer, and an adhesive layer is applied to the aluminum vapor-deposited layer surface and attached to a paper substrate. Then, a smooth surface glossy surface that cannot be obtained by the direct method can be obtained by manufacturing an aluminum vapor-deposited label using a method of peeling the synthetic resin film (hereinafter referred to as a transfer method). However, since the adhesive layer used in the transfer method is usually a thermosetting adhesive for dry lamination or a photo-curing adhesive that is cured by irradiation with electron beams or ultraviolet rays, the adhesive layer of the resin at the time of curing is used. The problem is that the aluminum deposition layer (aluminum deposition surface) is large and “swells” due to the large shrinkage stress, or in extreme cases There is a problem that cracking may occur. In addition, as another problem, when using a thermosetting adhesive, there is a problem that the manufacturing lead time becomes long because a curing time is required, and when using a photocurable adhesive, There is a problem that an electron beam or ultraviolet irradiation device is required. The expression “undulate” means that a large unevenness such as a wave is generated on the aluminum deposition surface when the aluminum deposition surface is visually observed.
JP-A-8-106253 JP-A-11-316548

  Accordingly, the present invention is to provide an aluminum vapor deposition label having a smooth and beautiful surface glossy surface in which the aluminum vapor deposition layer does not “undulate” as well as suitability for washing bottles, and a method for producing the same.

In order to achieve the above-mentioned object, the inventor of the present invention described in claim 1 includes an alkali-soluble resin layer, an adhesive layer, and a resin that is soluble in an alkaline aqueous solution on one surface of the paper base layer. An aluminum vapor deposition label in which an aluminum vapor deposition layer and a release layer / printing primer layer are sequentially provided, wherein the adhesive layer is formed of a styrene / acrylic emulsion adhesive. By comprising in this way, since the shrinkage | contraction stress of the resin of the adhesive bond layer at the time of drying and solidifying is excellent while being excellent in a washing bottle suitability, the aluminum vapor deposition label which has a smooth surface glossy surface can be obtained.

According to a second aspect of the present invention, there is provided a method for producing an aluminum vapor-deposited label according to the present invention comprising: a transfer film provided with an aluminum vapor-deposited layer on one side of a film substrate via a release layer / printing primer layer; styrene and paper substrate provided with an alkali-soluble resin layer having a resin soluble in an aqueous solution such that the aluminum deposited layer and the alkali-soluble resin layer of the paper substrate opposing the transfer film The method comprises a step of laminating and integrating with an acrylic emulsion type adhesive and a step of peeling the film substrate . By adopting such a manufacturing method, there is no need for curing time, and no need for an electron beam or ultraviolet irradiation device, and a smooth surface glossy surface with a short manufacturing lead time, low cost and high productivity. The aluminum vapor deposition label which has it and is excellent in the washing bottle suitability can be manufactured.

  In the aluminum vapor deposition label of the present invention, the adhesive layer between the aluminum vapor deposition layer and the alkali-soluble resin layer is formed of an emulsion type adhesive so that the aluminum vapor deposition layer has a smooth glossy surface. It is possible to produce an effect of being excellent in suitability for washing bottles. In addition, the method for producing an aluminum vapor deposition label of the present invention does not require a curing time and does not require an electron beam or ultraviolet irradiation device, has a short production lead time, and has a smooth surface with good productivity at a low cost. The effect is that an aluminum vapor deposition label having a glossy surface and excellent washing bottle suitability can be produced.

The above-described present invention will be described in detail below with reference to the drawings.
FIG. 1 is a layer configuration diagram schematically showing one embodiment of an aluminum vapor deposition label according to the present invention, and FIG. 2 schematically shows one embodiment of a transfer film used in producing the aluminum vapor deposition label according to the present invention. 1 is an aluminum vapor deposition label, 2 is a transfer film, 10 is a film substrate, 11 is a primer layer for printing and peeling layer, 12 is an aluminum vapor deposition layer, 13 is an adhesive layer, and 14 is a layer configuration diagram. An alkali-soluble resin layer, 15 represents a paper substrate.

  FIG. 1 is a layer configuration diagram schematically showing one embodiment of an aluminum vapor deposition label according to the present invention, and FIG. 2 schematically shows one embodiment of a transfer film used in producing the aluminum vapor deposition label according to the present invention. It is a layer configuration diagram, and an aluminum vapor deposition label 1 has an alkali-soluble resin layer 14 made of a resin soluble in an alkaline aqueous solution, an adhesive layer 13, an aluminum vapor deposition layer 12, and a release layer on one surface of a paper substrate 15. The printing primer layer 11 has a layer structure provided in order. As a method for producing the aluminum vapor deposition label 1, first, the release layer / printing primer layer 11 is formed on one surface of the film substrate 10 by various known coating methods such as gravure printing, roll coating, and air knife coating. Next, the transfer film 2 shown in FIG. 2 in which the aluminum vapor deposition layer 12 is formed by depositing aluminum on the surface of the release layer / printing primer layer 11 by a known vacuum vapor deposition method is manufactured. On the other hand, a paper substrate 15 having an alkali-soluble resin layer 14 formed on one surface by various known coating methods such as gravure printing and roll coating is prepared. Then, an emulsion type adhesive is applied to the surface of the aluminum vapor deposition layer 12 of the transfer film 2 (becomes the adhesive layer 13 after drying), and the alkali-soluble resin layer 14 side of the paper substrate 15 is applied to the application surface. It can be manufactured by depositing the paper base material 15 by a wet lamination method so as to be positioned and drying it, and then peeling off the film base material 10.

As the film substrate 10, a stretched film such as a polyester film, a polypropylene film, a polyamide film, or polyvinyl alcohol, or cellophane is suitable from the viewpoint of dimensional stability during processing. The thickness of the film substrate 10 may be appropriately selected and used, but is generally 9 to 25 μm.

Further, as the release layer / printing primer layer 11, the material of the film base material 10 or the surface of the release layer / printing primer layer 11 is subjected to processing such as printing in a later step. The resin for forming the release layer / printing primer layer 11 may be appropriately selected in consideration of suitability, and examples of the resin for forming the release layer / printing primer layer 11 include vinyl chloride-vinyl acetate copolymer, butyral resin, and plasticized nitro. A cellulose, a polyamide resin, a polyurethane resin, a polyester resin, an acrylic resin, etc. can be mentioned, As an application quantity, what is necessary is just to apply | coat so that it may become about 0.5-2.0 g / m < ² > after drying.

  The aluminum vapor deposition layer 12 may be formed by either physical vapor deposition (PVD) or chemical vapor deposition (CVD), and has a thickness of 100 to 1000 mm (angstrom), preferably 300 to 800 mm. What is necessary is just to form in thickness.

The adhesive layer 13 is formed by a wet lamination method using an emulsion type adhesive having at least a hydrogen ion index, so-called PH (pH) of 5-9. The first reason is that when heat or a photo-curing adhesive is used, the shrinkage stress of the resin constituting the adhesive when cured is large, and the aluminum vapor deposition layer is greatly swelled or, in extreme cases, partially In the case of emulsion type adhesives, the shrinkage stress of the resin that forms the adhesive when it is solidified by drying is small, so the aluminum deposited layer does not swell, and the deposited layer is wrinkled and cracked. This is because there is not. As a second reason, the thermosetting adhesive requires a curing time, and the production lead time becomes long. Also, the photocurable adhesive requires an electron beam or an ultraviolet irradiation device. This is because the equipment must be installed in the equipment. The emulsion type adhesive is not particularly limited as long as it satisfies the above characteristics, but styrene / acrylic, butyral, vinyl acetate, and ethylene / vinyl acetate are suitable and have excellent heat resistance. From the viewpoint, styrene / acrylic type is preferable. Moreover, the hydrogen ion index of the emulsion type adhesive is most preferably 7 (neutral), but if it is 5 to 9, it is prevented from disappearing even in an aluminum vapor deposition layer that is easily lost by acid or alkali. can do. In addition, as a coating amount after drying of the adhesive layer 13, approximately 3.0 to 6.0 g / m ² is appropriate.

The alkali-soluble resin layer 14 is not particularly limited as long as it is a resin that is soluble in an alkaline aqueous solution used at the time of washing, for example, an acrylic resin, a nitrocellulose resin, or an acrylic monomer, One or more of styrene monomers, allyl monomers, etc., and one or more of acrylic acid, methacrylic acid, maleic acid, maleic anhydride, fumaric acid, itaconic acid and other unsaturated carboxylic acids having a carboxyl group Resins that are soluble in an alkaline aqueous solution composed of a copolymer with the above can be mentioned, and the coating amount is suitably 3.0 to 6.0 g / m ² after drying.

Further, since the paper base material 15 is a basic material constituting a label, it is desirable that the paper base material 15 has a mechanically, physically, and chemically stable property. It is necessary to release the water in the emulsion type adhesive, and a thin paper, fine paper, pure white roll paper, coated paper, kraft paper, etc. having a basis weight of 20 to 100 g / m ² , preferably 50 to 85 g / m ² It is.

Although not shown in the drawing, if necessary, transparency can be achieved with an ink obtained by kneading a pigment or dye having transparency on the entire surface or between the release layer / printing primer layer 11 and the aluminum vapor deposition layer 12. A solid print layer may be provided. By comprising in this way, it can be set as the colored aluminum vapor deposition label. As the resin for forming the solid print layer, the same resin as that for forming the release layer / printing primer layer 11 described above can be used as appropriate, and the method for forming the solid print layer is as follows. May be formed by a known method such as a gravure printing method or a flexographic printing method, and in the case of the entire surface, it is formed by a known method such as a gravure printing method, a flexographic printing method, or a roll coating method or an air knife coating method. What should I do?

  Next, the present invention will be described in more detail with reference to the following examples.

A primer solution made of an acrylic resin on one surface of a 12 μm thick untreated biaxially stretched polyethylene terephthalate film (hereinafter referred to as PET film) [manufactured by Showa Ink Industries Ltd .: VM primer (trade name) )] Is printed by a gravure printing method, and a release layer / printing primer layer is provided so that the coating amount after drying is 1.0 g / m ^2, and then 400 Å on the release layer / printing primer layer. A transfer film provided with an aluminum deposited layer having a thickness was prepared. Next, a styrene / acrylic emulsion type adhesive (manufactured by Syden Chemical Co., Ltd .: RC1500 (trade name)) is applied to the aluminum vapor deposition layer surface of the transfer film so as to be 4.0 g / m ² after drying. A coating solution mainly composed of a styrene-maleic acid copolymer on one surface of 52.3 g / m ² high-quality paper prepared in advance [manufactured by Showa Ink Industries, Ltd .: Coat for washing bottle (trade name) )] Is printed by a gravure printing method, and the alkali-soluble resin layer is positioned on the emulsion-type adhesive surface side of a paper base material on which an alkali-soluble resin layer that becomes 3.5 g / m ² after drying is formed. In this way, after bonding by the wet lamination method, the 12 μm-thick PET film was immediately peeled off to produce the aluminum vapor deposition label of the present invention.

[Comparative Example 1]
A resin solution in which 13 wt% of phenolic resin and 13% by weight of amino alkyd resin are mixed on the clay coat surface of 60 g / m ² of clay coated paper [Fuji Kagaku Co., Ltd .: Comorant VMTS (trade name)] by gravure printing. After drying, it is applied to 3 g / m ² to form an alkali-soluble resin layer, an aluminum vapor-deposited layer having a thickness of 400 mm is provided on the alkali-soluble resin layer, and styrene and acrylic are provided on the aluminum vapor-deposited layer surface. An aluminum vapor deposition label as a comparative example provided with an anchor coat layer made of resin was produced.

About the aluminum vapor deposition label of Example 1 produced above and the comparative example 1, surface smoothness was evaluated by the following evaluation method (* 1), and the result is shown in Table 1. As is clear from Table 1, the aluminum vapor deposition label of Example 1 was able to be an aluminum vapor deposition surface having excellent smoothness as compared with Comparative Example 1 which is a conventional specification.
(* 1) Smoothness evaluation method: Center line average roughness (Ra) evaluated by a surface roughness test specified in JIS B 0601 “Surface Roughness—Definition and Display”. The number of samples is n = 5.

  Next, the aluminum vapor deposition labels of Example 1 and Comparative Example 1 produced above were used as a printing raw, and the surface of the printing raw (on the opposite side of the paper substrate) was mainly made of nitrified cotton and polyamide. A printing paper provided with a pattern printing layer and an overcoat layer was prepared by a gravure printing method using a printing ink made of a resin ([The Inktec Co., Ltd .: IBL (trade name)]].

  The printed papers of Example 1 and Comparative Example 1 prepared above were cut into 5 cm squares, and the cut printed papers were pasted on a glass plate using starch paste, and this was heated to 70 ° C. Immersion in 3% sodium hydroxide solution, time from immersion to peeling of the printed pattern on the printed paper (Evaluation 1) and peeling when the paper substrate remaining on the glass plate is rubbed with a glass rod Table 2 shows the measured time until evaluation (evaluation 2: time from immersion to peeling). The number of samples was n = 5.

  As is apparent from Table 2, Example 1 showed a bottle washing performance comparable to that of Comparative Example 1 which is a conventional specification.

It is a layer block diagram which shows one Example of the aluminum vapor deposition label concerning this invention schematically. It is a layer block diagram which shows typically one Example of the transfer film used when manufacturing the aluminum vapor deposition label of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Aluminum vapor deposition label 2 Transfer film 10 Film base material 11 Peeling layer and printing primer layer 12 Aluminum vapor deposition layer 13 Adhesive layer 14 Alkali-soluble resin layer 15 Paper base material

Claims (2)

An aluminum vapor deposition label in which an alkali-soluble resin layer made of a resin soluble in an alkaline aqueous solution, an adhesive layer, an aluminum vapor deposition layer, a release layer and printing primer layer are sequentially provided on one surface of the paper base material layer, The aluminum vapor deposition label, wherein the adhesive layer is formed of a styrene / acrylic emulsion adhesive. A paper base provided with a transfer film provided with an aluminum vapor deposition layer on one side of a film substrate via a release layer / printing primer layer, and an alkali-soluble resin layer comprising a resin soluble in an alkaline aqueous solution on one side A step of laminating and integrating a material with a styrene / acrylic emulsion type adhesive so that the aluminum vapor-deposited layer of the transfer film and the alkali-soluble resin layer of the paper substrate face each other, and the film substrate A method for producing an aluminum vapor deposition label, comprising:

Images