JP2006306115A - Layer concealing card and manufacturing method thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a layer concealing card consisting of a fluorescent printing layer concealed with a concealing layer and emitting a fluorescence of sufficient intensity when irradiated with an ultraviolet beam. <P>SOLUTION: The layer concealing card is formed by laminating base materials (12, 14, 16, 18) provided with a magnetic recording layer (20), the fluorescent printing layer (34), and the concealing layer (30) concealing the magnetic recording layer (20) and the fluorescent printing layer (34). The fluorescent printing layer (20) comprises a medium, a fluorescent dye and a solvent, and the concealing layer (30) comprise a medium, a pigment and a solvent. The layer concealing card is formed by interposing an adhesive layer (32) between the fluorescent printing layer (34) and the concealing layer (30). <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a concealment card and a manufacturing method thereof, and in particular, a concealment card in which a concealed fluorescent printing layer cannot be easily visually recognized by sunlight or indoor light and emits sufficient fluorescence by irradiation of ultraviolet rays and a manufacturing method thereof. About.

  Magnetic cards, magnetic commuter passes, and the like are known in which a fluorescent printing layer is provided together with a magnetic recording layer to prevent counterfeiting. This fluorescent printed layer is usually concealed by a concealing layer and is not easily visible. However, fluorescence is generated from the pattern of the fluorescent printed layer by irradiating with ultraviolet rays, so that the authenticity of the card or the like is judged. I have to.

  There is a document describing a concealment card having such a magnetic recording layer in which a fluorescent pattern layer is provided between the magnetic recording layer and the magnetic recording layer concealing layer (see, for example, Patent Document 1). According to Patent Document 1, the magnetic recording layer is usually concealed by the magnetic recording layer concealing layer, and the ultraviolet light contained in sunlight is absorbed by the magnetic recording layer concealing layer. When ultraviolet rays are irradiated, since the ultraviolet rays pass through the magnetic recording layer hiding layer, the fluorescent pattern layer can be visually recognized.

However, in such a concealment card, although it is concealed by a magnetic recording layer concealment layer so that it cannot be seen by sunlight or ultraviolet rays contained in room light, the fluorescent printing layer and the magnetic recording layer concealment layer are overprinted. Therefore, the concealability of the concealing layer is high, so that there is a disadvantage that the fluorescence generated when irradiated with ultraviolet rays is weakened. In addition, since the unevenness of the fluorescent printing layer is visible on the magnetic recording layer concealing layer, there is a problem that the concealment cannot be sufficiently performed.
Japanese Utility Model Publication No. 3-40615

  The present invention eliminates the above-mentioned problems, sufficiently conceals the fluorescent printed layer so that it cannot be seen with ultraviolet rays contained in sunlight or room light, and is sufficient when irradiated with ultraviolet rays. It is an object of the present invention to provide a concealment card and a method for manufacturing the same so as to obtain fluorescence with a high intensity.

  In order to achieve this object, the present invention has the following features. The description in “” described below is added to clarify the correspondence between “Claims” and “Embodiments of the Invention”. The interpretation of the technical scope of the invention described in “Scope” is not intentionally limited.

  The concealment card according to the present invention includes a base material “12, 14, 16, 18” provided with a magnetic recording layer “20”, a fluorescent printing layer “34”, a magnetic recording layer “20”, and a fluorescent printing layer “20”. 34 ”is a concealing card formed by laminating a concealing layer“ 30 ”, and the fluorescent printing layer“ 34 ”includes a medium, a fluorescent dye, and a solvent. The masking layer “30” includes medium, pigment, and solvent, and has an adhesive layer “32” between the fluorescent printing layer “34” and the masking layer “30”. It is characterized by being formed.

  The concealment card according to the present invention includes a base material “12, 14, 16, 18” provided with a magnetic recording layer “20”, a fluorescent printing layer “34”, a magnetic recording layer “20”, and fluorescent printing. A concealment card formed by laminating a concealment layer “30” that conceals the layer “34”, and the fluorescent printing layer “34” includes a medium, a fluorescent dye, and a solvent. The concealing layer “30” includes a polyester resin, a pigment, and a solvent.

  The concealment card according to the present invention includes a base material “12, 14, 16, 18” provided with a magnetic recording layer “20”, a fluorescent printing layer “34”, a magnetic recording layer “20”, and fluorescent printing. A concealment card formed by laminating a concealment layer “30” that conceals the layer “34”, and the fluorescent printing layer “34” includes an acrylic resin, a fluorescent dye, and a solvent. The concealing layer “30” is characterized by comprising a medium, a pigment, and a solvent.

  In the concealment card according to the present invention, the adhesive layer “32” has a layer thickness of 1 μm or less, and the fluorescent printed layer “34” has a layer thickness of 1 μm or less.

  In the concealment card according to the present invention, the medium is a vinyl chloride-vinyl acetate copolymer resin.

  The method for manufacturing a concealment card according to the present invention includes a step of forming a magnetic recording layer “20” on a base material “12, 14, 16, 18” to form a card base material, and a transfer base material “22”. , A release layer “24”, a concealing layer “30”, an adhesive layer “32”, and a fluorescent printing layer “34” are sequentially formed to form a transfer sheet, and the card substrate and the transfer sheet are fused. The fluorescent printing layer “34” has a medium, a fluorescent dye, and a solvent, and the concealing layer “30” has a medium, a pigment, and a solvent. It is characterized by comprising.

  The method for manufacturing a concealment card according to the present invention includes a step of forming a magnetic recording layer “20” on a base material “12, 14, 16, 18” to form a card base material, and a transfer base material “22”. , A release layer “24”, a concealment layer “30”, and a fluorescent printing layer “34” are formed in sequence to form a transfer sheet, and a card base material and the transfer sheet are fused. The fluorescent printing layer “34” is composed of medium, fluorescent dye, and solvent, and the concealing layer “30” is composed of polyester resin, pigment, and solvent. It is characterized by.

  The method for manufacturing a concealment card according to the present invention includes a step of forming a magnetic recording layer “20” on a base material “12, 14, 16, 18” to form a card base material, and a transfer base material “22”. , A release layer “24”, a concealment layer “30”, and a fluorescent printing layer “34” are formed in sequence to form a transfer sheet, and a card base material and the transfer sheet are fused. The fluorescent printing layer “34” includes an acrylic resin, a fluorescent dye, and a solvent, and the concealing layer “30” includes a medium, a pigment, and a solvent. It is characterized by.

  In the method for manufacturing a concealing card according to the present invention, the adhesive layer “32” is formed with a layer thickness of 1 μm or less, and the fluorescent printed layer “34” is formed with a layer thickness of 1 μm or less. .

  In the concealment card manufacturing method according to the present invention, the medium is a vinyl chloride-vinyl acetate copolymer resin.

  According to the present invention, it is possible to conceal the fluorescent printing layer and obtain sufficiently strong fluorescence when irradiated with ultraviolet rays.

  Hereinafter, the concealment card and the manufacturing method thereof according to the present embodiment will be described in detail with reference to the accompanying drawings.

   FIG. 1 shows a cross-sectional view of one embodiment of a concealment card according to the present invention. The concealment card includes the transparent overlay film 12, the center core sheets 14 and 16, the transparent overlay film 18, the magnetic tape 20, the fluorescent printing layer 34, the adhesive layer 32, the silver concealment layer 30, the picture layer 28, and the overcoat layer 26 in this order. Are stacked. As will be described later, the magnetic tape 20 and the fluorescent printing layer 34 are concealed by the silver concealment layer 30. Therefore, although the fluorescent printed layer 34 cannot be visually recognized by normal sunlight or indoor light, fluorescence is generated from the fluorescent printed layer 34 when irradiated with ultraviolet rays, and the fluorescent printed layer 34 can be visually recognized.

  FIG. 2 shows a method for manufacturing a card substrate used for manufacturing a concealment card according to the present invention. The card substrate is formed by laminating the transparent overlay film 12, the center core sheets 14 and 16, the transparent overlay film 18 and the magnetic tape 20 in this order, and simultaneously heat-sealing with one heating.

The transparent overlay films 12 and 18 have a thickness of, for example, 100 μm, and the center core sheets 14 and 16 are, for example, white and a polyvinyl chloride (PVC) film having a thickness of 270 μm. The heat sealing condition is a temperature of 130 to 140 ° C., for example, 135 ° C. and a pressure of 20 kg / cm ² , and heating and pressurization for 20 to 30 minutes.

  3A to 3G show a manufacturing process of a transfer sheet used for manufacturing a concealment card according to the present invention. First, as shown in FIG. 3A, a polyethylene terephthalate (PET) film 22 having a thickness of, for example, 188 μm is prepared as a transfer substrate. Next, as shown in FIG. 3B, a release layer 24 is formed. The release layer 24 is coated with a silicon resin and formed to have a thickness of 1 μm or less, for example.

Further, as shown in FIG. 3C, an overcoat layer 26 is formed. The overcoat layer 26 is formed by coating a vinyl chloride-vinyl acetate copolymer resin and a wax. For example, the overcoat layer 26 having a thickness of 2 to 3 μm is formed with the following composition.
Product name SS8-800 medium wax MEK-toluene solvent (1: 1), manufactured by Toyo Ink Co., Ltd.

  Next, as shown in FIG. 3D, the picture layer 28 is formed by silk screen printing or offset printing.

Further, as shown in FIG. 3E, a silver hiding layer 30 is formed. The silver hiding layer 30 is formed to have a thickness of 1 to 2 μm by silk screen printing using, for example, ink having the following composition.
PVC / Vinyl acetate copolymer resin 15%
Al paste 30%
Solvent (thinner with 1: 1: 1 of cyclohexane, isophorone, Solvesso # 200) 55%

  Further, an adhesive layer 32 is formed as shown in FIG. The adhesive layer 32 is provided in order to prevent the silver hiding layer 30 from being excessively damaged by the fluorescent printing layer 34 described later. That is, when the fluorescent printing layer 34 is directly formed on the silver hiding layer 30, the silver hiding layer 30 is excessively eroded by the solvent of the fluorescent printing layer 34 in the hiding card, and the arrangement of the pigment is changed. Therefore, the presence of the fluorescent printing layer 34 can be visually recognized, and a sufficient hiding effect cannot be obtained. In order to prevent this, the adhesive layer 32 is provided between the silver hiding layer 30 and the fluorescent printing layer 34 in this embodiment.

For example, the adhesive layer 32 is formed to have a thickness of 1 μm or less by silk screen printing using ink having the following composition.
Vinyl chloride-vinyl acetate copolymer resin (manufactured by Toyo Ink Co., Ltd., trade name SS6K-600 medium solvent (manufactured by Toyo Ink Co., Ltd., trade name S718)

  As will be described later, the adhesive layer 32 is formed by making the silver hiding layer 30 a composition that is not easily attacked by the solvent of the fluorescent printing layer 34 or by making the fluorescent printing layer 34 a composition that does not attack the silver hiding layer 30. May be omitted.

After forming the adhesive layer 32, the fluorescent printing layer 34 is formed as shown in FIG. The fluorescent printing layer 34 is formed to have a thickness of 1 μm or less by silk screen printing using, for example, fluorescent ink having the following composition. As a result, an appropriate amount of fluorescent ink penetrates into the silver hiding layer.
Fluorescent ink PVC-vinyl acetate copolymer resin (medium)
(Toyo Ink Co., Ltd., trade name SS-8WAC varnish) 1000 parts by weight Fluorescent dye (Ciba Geigy Co., Ltd., trade name Ubitex OB) 2-4 parts by weight Solvent (isophorone, anone, MIBK, xylene, etc.)
(Product name: S718, manufactured by Toyo Ink Co., Ltd.) 400 to 500 parts by weight

A transfer sheet is manufactured as described above. As shown in FIG. 4, such a transfer sheet is transferred to the above-mentioned card substrate to obtain a concealment card. The fluorescent printed layer 34 side of the transfer sheet is superimposed on the magnetic tape 20 side of the card substrate, and the transfer sheet is adhered to the card substrate by heating and pressing under the following conditions, and then the PET film 22 of the transfer sheet is peeled off. Peel by 24. Thereby, a concealment card as shown in FIG. 1 is obtained.
Transfer conditions Temperature 120 ~ 130 ℃
Pressure 16-18Kg / cm ²
Time 15-25 minutes

  According to the concealment card of the present embodiment thus obtained, the magnetic recording layer of the magnetic tape 20 is concealed by the silver concealment layer 30 and the fluorescent printing layer 34 is concealed by the silver concealment layer 30. Due to the presence of the silver hiding layer 30, the fluorescent printing layer 34 is not normally visible because it does not generate fluorescence when exposed to sunlight or ultraviolet rays contained in room light. Since the fluorescent ink forming the fluorescent printing layer penetrates the concealing layer, when the ultraviolet ray is irradiated, the fluorescent ink is irradiated with a lot of ultraviolet rays, and sufficient fluorescence is generated. And counterfeiting can be determined.

  Moreover, according to the concealment card of this embodiment, since the adhesive layer 32 is provided between the silver concealment layer 30 and the fluorescent printing layer 34, the silver concealment layer 30 is excessively affected by the solvent of the fluorescent printing layer 34. Can be prevented. Therefore, it is possible to prevent the fluorescent printing layer 34 from being visually recognized due to the erosion of the silver hiding layer 30, and a sufficient hiding effect can be obtained in a normal state.

  As another embodiment of the present invention, an example in which the adhesive layer 32 is not provided will be described. As an example in which the adhesive layer 32 is not provided, when the silver concealing layer 30 is a layer having a composition that is not easily attacked by the fluorescent printing layer 34, the fluorescent printing layer 34 is a layer having a composition that is unlikely to corrode the silver concealing layer 30. There is one.

The silver hiding layer 30 that is not easily affected by the fluorescent printing layer 34 may be formed by the following composition, for example.
Al paste (a paste made by adding a mineral spirit solvent to a resin coating type in which aluminum powder is covered with acrylic resin)
Toyo Aluminum Co., Ltd., trade name FZE0240 6 parts by weight Asahi Kasei Metals Co., Ltd., trade name CR-909CM 6 parts by weight Polyester resin Toyo Ink Co., Ltd., trade name 6K-600 medium 10 parts by weight Solvent Toyo Ink ( Product name, S-695 10 parts by weight

  When the silver hiding layer 30 is formed with the composition as described above, since it contains a polyester resin, it is less likely to be eroded by the fluorescent printing layer 34, and the fluorescent printing layer 34 can be visually recognized due to excessive erosion of the silver hiding layer 30. Can be prevented, and a sufficient concealing effect can be obtained in a normal state.

The fluorescent printing layer 34 that does not easily invade the silver hiding layer 30 may be formed with the following composition, for example.
Acrylic resin Teikoku Ink Co., Ltd., trade name: NAN Medium 100 parts by weight Fluorescent dye Ciba Geigy Co., Ltd., trade name: Ubitex 0.3 parts by weight

  When the fluorescent printing layer 34 is formed with the composition as described above, since the acrylic resin is used, the silver concealment layer 30 is hardly eroded, and the fluorescent printing layer 34 is visually recognized due to excessive erosion of the silver concealment layer 30. Can be prevented, and a sufficient concealing effect can be obtained in a normal state.

  As described above, the concealment card in the present embodiment includes the base material, the magnetic recording layer, the fluorescent printing layer, and the concealing layer, and the fluorescent printing layer and the concealing layer are provided on the transfer base material. The printed layers are formed in this order and transferred onto the substrate and the magnetic recording layer. Therefore, since the fluorescent ink forming the fluorescent printing layer penetrates the masking layer, it becomes possible to obtain strong fluorescence by irradiation with ultraviolet rays.

  Moreover, the manufacturing method of the concealment card | curd in this embodiment forms a magnetic recording layer in a base material, and forms a card base material. Further, a transfer sheet is formed by sequentially forming a release layer, an overcoat layer, a pattern printing layer, a concealing layer, and a fluorescent printing layer on the transfer substrate. Then, after the transfer sheet is heated and pressed on the card base material and fused, the transfer base material is peeled off by the release layer. Therefore, since the concealing layer and the fluorescent printing layer are formed in this order on the transfer substrate, the fluorescent ink forming the fluorescent printing layer penetrates into the concealing layer, and strong fluorescence can be obtained by irradiation with ultraviolet rays.

It is sectional drawing which shows the layer structure of one Embodiment of the concealment card | curd by this invention. It is a figure which shows the manufacturing method of the card | curd base material used for the concealment card | curd by this invention. It is a figure which shows the manufacturing process of the transfer sheet used for the concealment card | curd by this invention. It is a figure which shows the method of manufacturing a concealment card | curd from the card | curd base material of FIG. 2, and the transfer sheet of FIG.

Explanation of symbols

12, 18 Transparent overlay film 14, 16 Center core sheet 20 Magnetic tape 22 PET film 24 Release layer 26 Overcoat layer 28 Picture layer 30 Silver concealment layer 32 Adhesive layer 34 Fluorescent printing layer

Claims (10)

A concealment card formed by laminating a base material provided with a magnetic recording layer, a fluorescent printing layer, and a concealing layer for concealing the magnetic recording layer and the fluorescent printing layer,
The fluorescent printing layer comprises a medium, a fluorescent dye, and a solvent,
The concealing layer comprises a medium, a pigment, and a solvent,
A concealment card comprising an adhesive layer between the fluorescent printed layer and the concealment layer. A concealment card formed by laminating a base material provided with a magnetic recording layer, a fluorescent printing layer, and a concealing layer for concealing the magnetic recording layer and the fluorescent printing layer,
The fluorescent printing layer comprises a medium, a fluorescent dye, and a solvent,
The concealing card is characterized by comprising a polyester resin, a pigment, and a solvent. A concealment card formed by laminating a base material provided with a magnetic recording layer, a fluorescent printing layer, and a concealing layer for concealing the magnetic recording layer and the fluorescent printing layer,
The fluorescent printing layer comprises an acrylic resin, a fluorescent dye, and a solvent,
The concealment layer is characterized by comprising a medium, a pigment, and a solvent. The adhesive layer has a layer thickness of 1 μm or less,
The concealment card according to claim 1, wherein the fluorescent printed layer has a layer thickness of 1 μm or less.   The concealment card according to any one of claims 1 to 3, wherein the medium is a vinyl chloride-vinyl acetate copolymer resin. Forming a magnetic recording layer on a substrate and forming a card substrate;
Forming a transfer sheet by sequentially forming a release layer, a concealing layer, an adhesive layer, and a fluorescent printing layer on a transfer substrate;
Fusing the card substrate and the transfer sheet;
Have
The fluorescent printing layer comprises a medium, a fluorescent dye, and a solvent,
The method of manufacturing a concealing card, wherein the concealing layer comprises a medium, a pigment, and a solvent. Forming a magnetic recording layer on a substrate and forming a card substrate;
Forming a transfer sheet by sequentially forming a release layer, a concealing layer, and a fluorescent printing layer on a transfer substrate;
Fusing the card substrate and the transfer sheet;
Have
The fluorescent printing layer comprises a medium, a fluorescent dye, and a solvent,
The concealing layer comprises a polyester resin, a pigment, and a solvent. Forming a magnetic recording layer on a substrate and forming a card substrate;
Forming a transfer sheet by sequentially forming a release layer, a concealing layer, and a fluorescent printing layer on a transfer substrate;
Fusing the card substrate and the transfer sheet;
Have
The fluorescent printing layer comprises an acrylic resin, a fluorescent dye, and a solvent,
The method of manufacturing a concealing card, wherein the concealing layer comprises a medium, a pigment, and a solvent.   7. The method of manufacturing a concealing card according to claim 6, wherein the adhesive layer is formed with a layer thickness of 1 [mu] m or less, and the fluorescent printing layer is formed with a layer thickness of 1 [mu] m or less.   The method for manufacturing a concealing card according to any one of claims 6 to 8, wherein the medium is a vinyl chloride-vinyl acetate copolymer resin.

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