JP2001155136A - Forgery prevention light emitting card and its manufacturing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a forgery prevention light emitting card capable of preventing forgery and also easily verifying authenticity by providing the surface with a protective layer excellent in wear resistance, heat transfer suitability, brilliance and gloss on the surface, and to provide its manufacturing method. SOLUTION: This forgery prevention light emitting card is provided with the protective layer which contains ultraviolet-curable acrylate-based aqueous emulsion, vinyl chloride copolymer thermoplastic resin-based aqueous emulsion, ultraviolet illuminant and/or infrared illuminant as essential components and if formed by using a water-based coat agent containing a lubricant and a viscosity modifier as necessary. The water-based coat agent is applied on the outer surface of the card, then heated, dried and cured by ultraviolet irradiation, and the cured protective layer is heated and pressed to be formed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anti-counterfeit light-emitting card and a method of manufacturing the same, and more particularly to a magnetic card, an IC card, a rewritable card, etc., mainly provided with a protective layer (overcoat layer). And a manufacturing method for easily manufacturing the anti-counterfeit light emitting card.

[0002]

2. Description of the Related Art Conventionally, a device using a luminescent material in the manufacture of a forgery prevention card has already been devised. For example, Japanese Patent Application Laid-Open No. H02-225091 discloses a forgery prevention light emitting device in which a luminescent identification mark of a fluorescent paint is printed. An identification card is disclosed.

The cross-sectional structure of a conventional forgery prevention card is shown in FIGS.
FIG. The magnetic card 1A shown in FIG. 4 is of a magnetic tape concealment type, and has a cross-sectional structure in which a transparent vinyl chloride resin is provided on the lower surface of a center core material 2, 2 made of a thermoplastic resin such as opaque vinyl chloride resin or polyethylene terephthalate resin. A luminescent ink in which an oversheet material 3 made of, for example, is laminated, and an ultraviolet light emitter that emits visible light when excited by irradiation with ultraviolet light is added on the upper surface of the center core material 2 to prevent forgery and determine authenticity. Providing a printing layer 4,
A magnetic recording layer 5 is fixed on an upper surface on which an oversheet material 3 made of a transparent vinyl chloride resin or the like is laminated, and a concealing layer 6 made of a silver ink containing aluminum powder is fixed on the upper surface of the oversheet material 3. Is provided. A desired design print layer 7 is applied to the surface of the concealing layer 6, and a protective layer (overcoat layer) 8 for covering and protecting the print layer 7 is laminated on the outer surface thereof.

The magnetic card 1B shown in FIG. 5 is of a magnetic tape concealment type, and its cross-sectional structure is formed on the upper and lower surfaces of center core members 2, 2 made of a thermoplastic resin such as opaque vinyl chloride resin or polyethylene terephthalate resin. Oversheet materials 3 and 3 made of a transparent vinyl chloride resin or the like are laminated, and a magnetic recording layer 5 is fixed on the upper surface thereof. Further, a concealing layer 6 made of a silver ink containing aluminum powder is provided on the upper surface of the oversheet material 3. Is provided. A desired design print layer 7 is provided on the surface of the concealing layer 6 and a luminescent ink print layer 4 to which the ultraviolet light emitter is added is provided. The print layer 7 and the luminescent ink print layer are provided on the outer surface thereof. A protective layer (overcoat layer) 8 for covering and protecting the layer 4 is laminated.

The magnetic card 1C shown in FIG. 6 is of a general card type, and has a sectional structure of a transparent vinyl chloride on the lower surface of a center core material 2, 2 made of a thermoplastic resin such as opaque vinyl chloride resin or polyethylene terephthalate resin. An oversheet material 3 made of a resin or the like is laminated, a desired design printed layer 7 is provided on the upper surface, and the oversheet material 3 is further provided on the upper surface. The magnetic recording layer 5 is fixed on the oversheet material 3 on the upper surface. And a luminescent ink printing layer 4 to which the ultraviolet light emitter is added.

The magnetic card 1C shown in FIG. 7 is of a general card type, and has a sectional structure of a transparent vinyl chloride on the lower surface of a center core material 2, 2 made of a thermoplastic resin such as opaque vinyl chloride resin or polyethylene terephthalate resin. An oversheet material 3 made of resin or the like is laminated, and a desired design print layer 7 is provided on the upper surface thereof.
A luminescent ink printing layer 4 to which the ultraviolet light emitter is added is provided thereon, an oversheet material 3 is provided on the upper surface thereof, and a magnetic recording layer 5 is fixed thereon.

[0007]

In each of the magnetic cards 1A to 1D shown in FIGS. 4 to 7, a printing ink to which the above-mentioned ultraviolet luminous substance is added is formed and printed by using the printing ink. 4 are provided. This method has an advantage that characters and patterns can be partially printed to emit light instead of solid printing, but there is a disadvantage that one color is added in the printing process. If an attempt is made to emit light using both the above-mentioned ultraviolet light emitter and an infrared light emitter which emits light such as infrared light when excited by irradiation with infrared light, two colors will be added in the printing step. Since one color increase in the printing process may involve passing through the printing machine twice in some cases, this method not only complicates the printing process but also increases the cost, is cheap, and can easily prevent forgery. There is a problem that it is not possible to obtain a counterfeit prevention light emitting card.

On the other hand, the magnetic cards 1A to 1A shown in FIGS.
1B, the design printing layer 7 applied to the card surface
A protective layer 8 is provided to cover and protect the like.
Recently, there has been a tendency to apply printing, a face photograph, a sign panel, and the like to the protective layer 8 using a thermal transfer agent. Therefore,
The protective layer 8 is suitable to have a thermal transfer agent receptivity. As a coating agent for forming the protective layer having such a function, a resin component such as a urethane resin or a vinyl acetate-vinyl chloride copolymer is conventionally used. Solvent-based paints dissolved in organic solvents such as toluene, xylene, methyl ethyl ketone, and methyl isobutyl ketone have been mainly used. However, in the case of using a solvent-based paint obtained by dissolving a resin component in an organic solvent, the weight of the paint rapidly changes due to the high volatility of the organic solvent in the process of applying the paint to the card surface. Is difficult to adjust, which causes inconvenience in coating suitability. Further, since the volatilized organic solvent has an adverse effect on the human body or easily ignites, a suction facility and an exposure prevention facility are required in the coating step, especially in the drying step.

Therefore, a first object of the present invention is to provide a forgery-preventing light-emitting card capable of suppressing an increase in manufacturing cost, preventing forgery and easily verifying authenticity. A second object of the present invention is to provide a forgery-preventing light-emitting card provided with a protective layer having excellent suitability, embossing suitability, surface gloss / gloss, and the like. It is an object of the present invention to provide a manufacturing method for easily forming a forgery prevention light-emitting card having the protective layer without requiring suction equipment or exposure protection equipment for preventing flashing or fire.

[0010]

Means for Solving the Problems The inventors of the present invention have conducted intensive studies to solve the above-mentioned problems. As a result, instead of the conventional solvent-based paint obtained by dissolving an organic solvent in a resin component, an aqueous emulsion-based paint, especially The present inventors have found that the problem can be solved by using an aqueous emulsion-based paint in which the above-mentioned ultraviolet light emitter or infrared light emitter is blended with an ultraviolet-curable acrylate-based aqueous emulsion or a vinyl chloride copolymer-based thermoplastic resin aqueous emulsion. The invention has been completed.

A first aspect of the present invention is a forgery-preventing luminescent card provided with a protective layer for covering and protecting the surface, wherein the protective layer is composed of an aqueous emulsion mainly composed of an ultraviolet-curable acrylate and a vinyl chloride. An aqueous emulsion containing a polymerized thermoplastic resin as a main component, and an aqueous coating agent containing an ultraviolet light emitter and / or an infrared light emitter as essential components and, if necessary, a lubricant and a viscosity modifier. The present invention relates to a forgery prevention light-emitting card.

[0012] Claim 2 of the present invention provides the following (1) to
The present invention relates to a method for manufacturing a forgery prevention light-emitting card, which includes the step (4). (1) An aqueous emulsion containing an ultraviolet-curable acrylate as a main component, an aqueous emulsion containing a vinyl chloride copolymer-based thermoplastic resin as a main component, and an ultraviolet light emitter and / or an infrared light emitter as essential components. (2) Drying step of heating the applied coating film to evaporate water and forming an uncured protective layer (3) ) A step of irradiating the uncured protective layer obtained by the drying step with ultraviolet rays to cure it. (4) A step of molding the cured protective layer by applying heat and pressure.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail. The water-based coating agent used in the present invention is not a solvent-based coating in which the resin component is dissolved in an organic solvent, but an aqueous emulsion-based coating mainly composed of an ultraviolet-curable urethane acrylate and a vinyl chloride copolymer-based thermoplastic resin. By using an aqueous emulsion paint mixture consisting of an aqueous emulsion paint, the paint has low volatility, easy adjustment of the coating amount and excellent suitability for application on the card surface. It is harmless and nonflammable, and does not require any exposure protection equipment in the coating and drying processes.

Further, the formed protective layer has a thermal transfer agent receptivity, and the hardness of the protective layer is increased by photopolymerization bonding of acrylic by ultraviolet irradiation, and the abrasion resistance to the magnetic head is also improved. In addition to protecting the design print layer, magnetic recording layer, etc. underneath, and containing a vinyl chloride copolymer-based thermoplastic resin, the protective layer accepts gold, silver, especially blue and black thermal transfer agents In addition, the hologram tape and label can be bonded well by heat, and the sign panel can be bonded well, and the gloss and gloss of the outer surface of the card can be improved.

If necessary, a lubricant such as an aqueous stearic acid emulsion, a higher alcohol or a phosphate ester of a higher alcohol may be added to the protective layer so that the protective layer is mirror-finished by the action of the lubricant. The protective layer can be more suitably formed, for example, by smoothing the separation between the mirror plate and the protective layer and thereby forming a good surface condition.

Since the protective layer formed by using the water-based coating agent contains an ultraviolet light emitter and / or an infrared light emitter, this information is hard to be noticed by the naked eye under natural light, so that it is noticed. However, in the case of an ultraviolet light emitter, the irradiation of a black lamp (ultraviolet lamp) excites the ultraviolet light emitter, emits visible light, and is visible to the naked eye. In the case of an infrared light emitter, this information is hard to be seen by the naked eye under natural light, so it is not noticed.However, since the infrared light emitter is excited by the irradiation of the infrared lamp to emit light such as infrared light, the infrared light is emitted. By detecting with an optical sensor or the like, true / false determination can be made.

When both the ultraviolet light emitter and the infrared light emitter are used, the authenticity can be determined by irradiating a black lamp (ultraviolet lamp), and the authenticity can be determined by irradiating an infrared lamp. Therefore, the forgery prevention effect can be significantly improved compared to the authenticity determination based on the presence or absence of light emission by both light emitters.

When both an ultraviolet light emitter and an infrared light emitter are used, even if both are mixed and used in the water-based coating agent, the water-based coating agents individually formulated are applied to different portions of the card surface. Or any of these may be applied in combination.

The ultraviolet light emitter used in the present invention may be an inorganic phosphor or an organic phosphor. For example, a colorless inorganic phosphor, an inorganic phosphor emitting red, an inorganic phosphor emitting green, and a blue phosphor. There are inorganic phosphors and the like, specifically, inorganic phosphors such as zinc sulfide, cadmium sulfide, calcium tungstate, and well-known organic phosphors which are applied as a brightening agent to fibers and clothing, diaminostilbene disulfonic acid Organic phosphors such as derivatives, imidazole derivatives, coumaric acid derivatives, derivatives such as triazole, carbazole, pyridine, naphthalic acid, and imidazolone, dyes such as fluorescein and eosin, and compounds having a benzene ring such as anthracene, or two or more of these. And mixtures thereof.

As the infrared light emitter used in the present invention, for example, LiNdP ₄ O ₁₂ , NdP ₅ O ₁₄ activated by Nd that absorbs and excites infrared rays having a wavelength of about 800 nm and emits infrared rays having a wavelength of about 1000 nm. Al ₃
Nd (BO ₃ ) _{4 and} other inorganic infrared fluorescent materials such as molybdate inorganic infrared fluorescent materials, polymethine dyes, anthraquinone dyes, dithiol metal salt dyes, phthalocyanine dyes, indophenonol dyes, azo An organic infrared fluorescent substance such as a system dye or a mixture of two or more of them can be used.

It is preferable that the ultraviolet light emitter and / or the infrared light emitter used in the present invention is subjected to a surface treatment with a coating, a coupling, a polymerizable monomer or the like in order to improve properties such as dispersibility.

The mass ratio of the ultraviolet light emitter and / or the infrared light emitter used in the present invention and the amount of the ultraviolet light emitter and / or the infrared light emitter are not particularly limited. The amount is preferably from 0.1 to 5 parts by mass, more preferably from 0.5 to 2 parts by mass, based on 100 parts by mass of the polymer component composed of an ultraviolet-curable acrylate and a vinyl chloride copolymer-based thermoplastic resin. If the amount is less than 0.1 part by mass, it may be difficult to determine the authenticity. If the amount is more than 5 parts by mass, it may be visible with the naked eye.

The thickness of the protective layer formed using the aqueous coating agent is not particularly limited, but is usually about 2 to 3 μm. The proportion of the solid content in the whole aqueous coating agent is adjusted to 20 to 50% by mass, preferably 30 to 40% by mass, and more preferably about 35% by mass.

The aqueous emulsion mainly composed of an ultraviolet-curable acrylate used in the present invention is one in which acrylate in a polymer or oligomer state is dispersed in an aqueous system in the form of fine particles together with additives such as a photopolymerization initiator. Commercial products that can be suitably used for such paints include, for example, aqueous UV coating agents (W
(BR-828, WBR-829, WBR-850, etc.)
There is.

Preferred examples of the UV-curable acrylate used in the present invention include UV-curable urethane acrylates, and commercially available products include, for example, PERMUTEX manufactured by Stanhl of the Netherlands. This permucene was developed as a flooring agent, and is prepared by mixing an aqueous emulsion of an ultraviolet-curable urethane acrylate with an additive such as a photopolymerization initiator in advance.

The aqueous emulsion containing a vinyl chloride copolymer-based thermoplastic resin as a main component used in the present invention is obtained by dispersing a polymer in the form of fine particles in an aqueous system. Commercially available products that can be suitably used for such paints include, for example, aqueous emulsions of vinyl chloride copolymers (Viniblanc: PVC / vinyl acetate copolymers 240, 60) manufactured by Nissin Chemical Industry Co., Ltd.
1, 602, PVC / acrylic copolymers 270, 277,
609, 680, 683, PVC / vinyl acetate copolymer 38
0, 386, 410, 550, PVC / acrylic copolymers 680S, 680R, etc.).

In consideration of the suitability for application to the card surface and the physical and chemical suitability of the formed protective layer, the aqueous coating agent is further added with an aqueous stearic acid emulsion, a higher alcohol, or a higher alcohol phosphoric acid. It is preferable to mix additives selected from lubricants such as esters, viscosity modifiers such as thickeners, leveling agents, surfactants, fillers and the like.

FIGS. 1 to 3 show cross-sectional structures of an example of a forgery prevention light-emitting card of the present invention in which a protective layer is formed on the card surface by applying the above-mentioned aqueous coating agent. The anti-counterfeit light-emitting card 1 of the present invention shown in FIG. 1 is of a magnetic tape concealment type, and has a cross-sectional structure of upper and lower surfaces of a center core material 2, 2 made of a thermoplastic resin such as opaque vinyl chloride resin or polyethylene terephthalate resin. An oversheet material 3 made of a transparent vinyl chloride resin or the like is laminated thereon, and a magnetic recording layer 5 is fixed on the upper surface of the oversheet material 3. Further, on the upper surface of the oversheet material 3, a concealment made of silver ink containing aluminum powder is provided. A layer 6 is provided. A desired design printing layer 7 is applied to the surface of the concealing layer 6, and the outer surface of the concealing layer 6 is coated with the aqueous coating agent to which the above-mentioned ultraviolet light emitter and / or infrared light emitter is added. Layer 7
Layer (overcoat layer) 8A for covering and protecting
Are formed.

The anti-counterfeit light emitting card 1 shown in FIG.
E is a general card type having a cross-sectional structure in which an oversheet material 3 made of a transparent vinyl chloride resin or the like is laminated on the lower surface of a center core material 2 made of a thermoplastic resin such as opaque vinyl chloride resin or polyethylene terephthalate resin. Then, a desired design print layer 7 is applied on the upper surface of the center core material 2 and the magnetic recording layer 5 is fixed on the upper surface of the design print layer 7. The sheet material 3 is laminated, and a protective layer (overcoat layer) 8A is formed on the outer surface thereof by applying a water-based coating agent to which the ultraviolet light emitter of the present invention is added. As shown in FIG. 2B, the numbers 1, 2, and
3, 4, and 5 are printed 9 in black. Since the white portion of the base appears to emit light due to the irradiation of ultraviolet rays, the entire image emits light.

The anti-counterfeit light emitting card 1 shown in FIG.
F is a general card type, the cross-sectional structure of which is the same as the cross-sectional structure shown in FIG.
A protective layer (overcoat layer) 8A for covering and protecting the design print layer 7 by applying a water-based coating agent to which the ultraviolet light emitter of the present invention is added is formed on the upper surface. FIG.
As shown in (b), white numbers 1, 2, 3, 4, and 5 are printed 9 on a base based on a dark color such as black on the design print layer 7, so that the ultraviolet light is emitted by irradiating ultraviolet rays. When light is emitted, it is difficult to see the light emitted from the base, so that the white numbers shine well and are easy to distinguish.

The conventional anti-counterfeit light emitting card has a printing ink to which an ultraviolet light emitting substance is added and is printed using the printing ink to provide a light emitting ink printing layer. However, in the present invention, since the ultraviolet light emitter and / or the infrared light emitter is added to the protective layer 8A in the present invention, it can be performed in the conventional printing process, There is no significant increase in one or two colors in the printing process, so that cost reduction can be achieved, and a remarkable effect such as a cheap and easily forged anti-counterfeit light emitting card can be obtained.

[0032]

Next, the present invention will be described in more detail with reference to examples, but the present invention is not limited to these examples. (Example 1) An aqueous coating agent was prepared with the following composition. (1) Aqueous emulsion containing UV-curable acrylate as a main component (aqueous UV coating agent of Taisei Kako Co., Ltd .: WBR-828) 50 parts by mass (2) Aqueous solution containing vinyl chloride copolymer-based thermoplastic resin as a main component 50 parts by mass of emulsion (vinyl chloride / vinyl acetate copolymer aqueous emulsion of Nissin Chemical Industry Co., Ltd .: Vinyl Blanc 240) (3) Ultraviolet light emitter (Fluorescent whitening agent of Nippon Kayaku Co., Ltd .: Kayalac B) 58 parts by mass (4) 15 parts by mass of stearic acid emulsion (manufactured by Chukyo Yushi Co., Ltd.) (5) 1 part by mass of viscosity modifier (manufactured by Sannobuco: SN-612)

Then, using the above-mentioned aqueous coating agent, FIG.
The thickness of the protective layer is about ² to 2.5 mμ with a coating amount of about ² to 3 g / m ² using a thin film coater on the surface of the design print layer 7 of the card 1 of the present invention shown in FIG. It was applied (application step of applying an aqueous coating agent).

The coated card 1 was irradiated with far infrared rays at a lamp surface temperature of about 260 ° C. for about 15 seconds to evaporate the water to form an uncured overcoat layer (removal of water). Drying step).

Further, the protective layer obtained by the drying step was irradiated with ultraviolet rays of 350 mJ / cm ² by an ultraviolet irradiation device to be cured (a step of irradiating with ultraviolet rays and curing).

Further, a hardened protective layer is molded by pressing the card surface at 150 ° C. for 25 minutes by a multi-stage press (Lami Press) to form a final protective layer 8 A on the card 1 surface ( Heating / pressing and molding), the forgery prevention light emitting card 1 of the present invention provided with the desired protective layer 8A shown in FIG.

By performing the hot pressing, the luminescent material is well dispersed or dissolved in the protective layer 8A, whereby a good anti-counterfeit light emitting card 1 of the present invention can be obtained. By performing the hot pressing, a card having no unevenness on the surface and no peeling of the luminous body due to rubbing with the magnetic head does not occur. It was confirmed that the obtained anti-counterfeit light-emitting card 1 of the present invention emitted light when irradiated with ultraviolet rays.
It should be noted that the above coating step and drying step do not require any suction equipment and exposure prevention equipment.

Example 2 An aqueous coating agent was prepared with the following composition. (1) Aqueous emulsion containing UV-curable acrylate as a main component (aqueous UV coating agent of Taisei Kako Co., Ltd .: WBR-828) 50 parts by mass (2) Aqueous solution containing vinyl chloride copolymer-based thermoplastic resin as a main component Emulsion (vinyl chloride / vinyl acetate copolymer aqueous emulsion of Nissin Chemical Industry Co., Ltd .: Vinyblan 240) 50 parts by mass (3) Infrared light emitter 1.15 parts by mass (4) Stearic acid emulsion (manufactured by Chukyo Yushi Co., Ltd.) 15 parts by mass (5) 1 part by mass of a viscosity modifier (manufactured by Sannobuco: SN-612) Then, using the above-mentioned water-based coating agent, the thickness of the protective layer was set to 2.5 to 3.5 mμ in the same manner as in Example 1. A forgery prevention light emitting card 1 of the present invention provided with a protective layer 8A was produced. It was confirmed that the obtained anti-counterfeit light-emitting card 1 of the present invention emitted light when irradiated with infrared rays. It should be noted that the above coating step and drying step do not require any suction equipment and exposure prevention equipment.

Example 3 An aqueous coating agent was prepared with the following composition. (1) Aqueous emulsion containing UV-curable acrylate as a main component (aqueous UV coating agent of Taisei Kako Co., Ltd .: WBR-828) 50 parts by mass (2) Aqueous solution containing vinyl chloride copolymer-based thermoplastic resin as a main component 50 parts by mass of emulsion (vinyl chloride / vinyl acetate copolymer aqueous emulsion of Nissin Chemical Industry Co., Ltd .: Vinyl Blanc 240) (3-1) Ultraviolet light emitter (Fluorescent brightener of Nippon Kayaku Co., Ltd .: Kayalac B) 1.15 parts by mass (3-2) Infrared emitter 1.15 parts by mass (4) 15 parts by mass of stearic acid emulsion (manufactured by Chukyo Yushi Co., Ltd.) (5) 1 part by mass of viscosity modifier (manufactured by Sannobuco: SN-612) Example 1 Using the aqueous coating agent of the present invention described above, Example 1
In the same manner as in the above, a forgery prevention light emitting card 1 provided with a protective layer 8A having a protective layer thickness of 1.5 to 2.0 μm was prepared. It was confirmed that the obtained anti-counterfeit light-emitting card 1 of the present invention emitted light when irradiated with ultraviolet rays and infrared rays. It should be noted that the above coating step and drying step do not require any suction equipment and exposure prevention equipment.

[0040]

The forgery-preventing light-emitting card according to the first aspect of the present invention is a forgery-preventing light-emitting card capable of preventing forgery and easily verifying the authenticity thereof, wherein the formed protective layer is provided below. While well protecting the design print layer, magnetic recording layer, etc., it also has abrasion resistance, heat transfer suitability, embossing suitability,
In addition to excellent surface gloss and gloss, the formed protective layer has good receptivity to gold, silver, especially blue and black thermal transfer agents, can heat-bond hologram tapes and labels well, and sign panels etc. Adhesion is good, and peeling of the luminescent agent due to rubbing with the magnetic head does not occur.

According to the production method of claim 2 of the present invention,
Suppress production cost increase and printing process complexity due to the formation of a protective layer, do not adversely affect the human body due to volatile organic solvents, and do not need suction equipment or exposure prevention equipment to prevent ignition Thus, the forgery prevention light emitting card according to claim 1 can be easily manufactured.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a cross-sectional structure of an example of a forgery prevention light emitting card of the present invention in which a protective layer is formed on a card surface by applying a water-based coating agent.

FIG. 2A is an explanatory view showing a cross-sectional structure of another anti-counterfeit light-emitting card of the present invention in which a protective layer is formed on a card surface by applying a water-based coating agent, and FIG. It is a plane explanatory view of the shown card.

FIG. 3A is an explanatory view showing a cross-sectional structure of another anti-counterfeit light-emitting card of the present invention in which a protective layer is formed on a card surface by applying a water-based coating agent, and FIG. It is a plane explanatory view of the shown card.

FIG. 4 is an explanatory view showing a cross-sectional structure of a conventional forgery prevention card.

FIG. 5 is an explanatory view showing a cross-sectional structure of another conventional forgery prevention card.

FIG. 6 is an explanatory view showing a cross-sectional structure of another conventional forgery prevention card.

FIG. 7 is an explanatory view showing a cross-sectional structure of another conventional forgery prevention card.

[Explanation of symbols]

 1, 1E, 1F Forgery prevention light emitting card 1A-1D magnetic card 2 Center core material 3 Over sheet material 4 Light emitting ink printing layer 5 Magnetic recording layer 6 Concealment layer 7 Design printing layer 8, 8A Protective layer 9 Printing

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2C005 HA02 HA10 JA01 JA26 JB12 JB13 JC02 KA02 KA06 KA08 KA15 KA40 KA45 LA02 LA11 LA20 LB16 LB18 4J038 CD022 FA281 MA08 MA10 PA17 5B035 AA04 AA13 BA03 TA05 TA13 TA03 TA05

Claims (2)

[Claims] An anti-counterfeit light-emitting card provided with a protective layer for covering and protecting the surface, wherein the protective layer comprises an aqueous emulsion mainly composed of an ultraviolet-curable acrylate, a vinyl chloride copolymer-based thermoplastic resin. Anti-counterfeit prevention characterized by being formed using an aqueous emulsion containing a main component and an aqueous coating agent containing an ultraviolet light emitter and / or an infrared light emitter as essential components and, if necessary, a lubricant and a viscosity modifier. Luminous card. 2. A method for manufacturing a forgery prevention light emitting card, comprising the following steps (1) to (4). (1) An aqueous emulsion containing an ultraviolet-curable acrylate as a main component, an aqueous emulsion containing a vinyl chloride copolymer-based thermoplastic resin as a main component, and an ultraviolet light emitter and / or an infrared light emitter as essential components. (2) Drying step of heating the applied coating film to evaporate water and forming an uncured protective layer (3) ) A step of irradiating the uncured protective layer obtained by the drying step with ultraviolet rays to cure it. (4) A step of molding the cured protective layer by applying heat and pressure.