JP2017222083A - card - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a card making it easier to control display colors for information.SOLUTION: A card 10 includes: a base layer 11; an absorption layer 13 which contains a functional pigment composed of metal and absorbs a laser beam having a wavelength included in a wavelength region of not less than 1030 nm nor more than 1070 nm; and a colored layer 12 which contains a coloring pigment and is located between the base layer 11 and the absorption layer 13. The coloring pigment contained in the colored layer 12 is made up of one or more pigments selected from the group consisting of pigments respectively producing yellow, orange, red, purple, blue, and green.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a card on which information is recorded by laser light irradiation.

  A method of recording information such as letters and numbers on the surface of a card such as a credit card using laser marking is known (see, for example, Patent Document 1). One type of laser marking records information using a phenomenon in which an object that has been irradiated with laser light is destroyed by absorbing the energy of the laser light. That is, a card, which is an information recording target, has a structure in which a base material layer that transmits laser light is disposed under an absorption layer that absorbs laser light when viewed from the surface. In the region irradiated with the laser beam, the absorption layer is destroyed, and the base material layer is visually recognized from the surface of the card. Information is recorded on the card as these areas form letters, numerals, and the like.

Japanese Patent Laying-Open No. 2015-83621

In the card having the above configuration, the display color of information visually recognized from the surface of the card is limited to the color of the base material layer. Therefore, as a configuration for diversifying the display color of information, a colored layer exhibiting a desired color is formed between the absorbing layer and the base material layer so that the desired color is visually recognized in the destroyed region of the absorbing layer. A configuration arranged between them has been proposed. However, if the colored layer is made of a material that absorbs laser light, the colored layer is destroyed in addition to the absorbing layer when irradiated with laser light. Is difficult to control.
An object of this invention is to provide the card | curd with which control of the display color of information is easy.

  The card that solves the above problems includes a base material layer, a functional pigment made of a metal, an absorption layer that absorbs laser light having a wavelength included in a wavelength range of 1030 nm or more and 1070 nm or less than the base material layer, A colored layer that includes a colored pigment and is located between the base material layer and the absorbing layer, and the colored pigment that the colored layer includes includes yellow, orange, red, purple, blue, and green It is comprised from 1 or more pigments selected from the group which consists of each pigment exhibited separately.

  According to the said structure, since the colored layer does not contain carbon black which is a black pigment, a colored layer is hard to absorb the laser beam of the wavelength of 1030 nm or more and 1070 nm or less used for general laser marking. Therefore, when receiving laser light irradiation from the absorption layer side for recording information, the absorption layer and its upper layer are destroyed, while the colored layer under the absorption layer is hardly destroyed. Therefore, the color of the colored layer can be seen in the destroyed portion of the absorbent layer as viewed from the direction facing the surface of the card. That is, since the color displayed by the colored layer becomes the display color of information, the display color of information can be easily controlled by adjusting the color displayed by the colored layer.

The said structure WHEREIN: The said colored layer may exhibit black.
According to the said structure, although it is a structure which does not contain carbon black, a colored layer exhibits black by the combination of a pigment. Therefore, even if the colored layer is black, the colored layer is prevented from being destroyed by the laser beam, and information can be displayed in black.
The said structure WHEREIN: It is preferable that the said color pigment which the said colored layer contains is a yellow pigment, a red pigment, and a blue pigment.
According to the said structure, the colored layer which exhibits black can be implement | achieved suitably.
The said structure WHEREIN: It is preferable that the said functional pigment which the said absorption layer contains is at least one of an aluminum pigment and a tin pigment.
According to the said structure, the absorption layer destroyed by absorption of a laser beam is suitably realizable.

In the above configuration, the functional pigment included in the absorption layer is the aluminum pigment, the absorption layer includes the aluminum pigment and a resin, and the aluminum pigment with respect to a total weight of the aluminum pigment and the resin. The weight of is preferably 40% or more.
According to the said structure, the absorption layer destroyed by absorption of a laser beam is suitably realizable.

In the above configuration, the card includes a magnetic stripe, and an area where information recorded by the laser beam is located may not overlap the magnetic stripe when viewed from a direction facing the surface of the card.
According to the above configuration, since the laser beam is not irradiated to the region where the magnetic stripe is located, the deterioration of the magnetic stripe function can be suppressed.

  In the above configuration, the region where the information recorded by the laser beam is located when viewed from the direction facing the surface of the card may include a region overlapping with the colored layer and a region not overlapping with the colored layer. .

  According to the above configuration, it is possible to make the display color of information in the region overlapping the colored layer out of the region where the information is located different from the display color of information in the region not overlapping the colored layer. The configuration can be used to improve the designability of the card and to improve the forgery prevention effect.

  The said structure WHEREIN: The said colored layer is a 1st colored layer, Comprising: The said card | curd is provided with the 2nd colored layer located between the said base material layer and the said absorption layer, The said 2nd colored layer is Carbon black may be included as a coloring pigment.

  According to the above configuration, the second colored layer and the upper layer thereof are destroyed when irradiated with laser light. Therefore, the difference in the state of the constituent layers of the card due to the arrangement of the first colored layer and the second colored layer, such as the difference in the display color of information in the region irradiated with the laser beam, can be improved in design and counterfeiting in the card. It can be used to improve the prevention effect.

  According to the present invention, the display color of information can be easily controlled in a card on which information is recorded by laser light irradiation.

The top view which shows the planar structure of a card | curd about one Embodiment of a card | curd. Sectional drawing which shows the cross-section of the card | curd in the part which does not contain the area | region where the information was recorded about the card | curd of one Embodiment. Sectional drawing which shows the cross-section of the card | curd in the part containing the area | region where the information was recorded about the card | curd of one Embodiment. Sectional drawing which shows the cross-section of a card | curd about the card | curd of a modification. The top view which shows the planar structure of a card | curd about the card | curd of a modification.

  An embodiment of a card will be described with reference to FIGS.

[Card layout]
As shown in FIG. 1, the card 10 has, for example, a substantially rectangular plate shape, and is an information area where information recorded by irradiation with laser light is viewed from the direction facing the surface of the card 10. It has a recording area Rd. The information recorded in the information recording area Rd is not particularly limited, and the information is, for example, letters, numbers, symbols, pictures, and the like.

  Further, the card 10 has a print image area Pd which is an area where an image formed by printing is viewed when viewed from the direction facing the front surface. Such an image includes, for example, a picture pattern, a background pattern, characters, and the like.

  For example, the information indicated by the information recording area Rd is information unique to each card 10, and the image indicated by the print image area Pd is a design common to the same type of card 10, and faces the surface of the card 10. , The portion other than the information recording area Rd is the print image area Pd.

  When viewed from the direction facing the surface of the card 10, the entire information recording area Rd overlaps the colored layer 12 included in the constituent layers of the card 10, and the display color of information indicated by the information recording area Rd is the colored layer 12. This is the color that

  The card 10 may be a magnetic card having a magnetic stripe as a storage medium, an IC card having an IC chip as a storage medium, or a card not having such a storage medium. The use of the card 10 is not particularly limited, and the card 10 is used as, for example, a credit card, a cash card, various membership cards or point cards, or an ID card for identification.

[Cross section of card]
As shown in FIG. 2, the card 10 includes a base material layer 11, a colored layer 12, an absorption layer 13, a decoration layer 14, and a protective layer 15. In the example illustrated in FIG. 2, the card 10 includes a magnetic stripe 16 that is an example of a storage medium.

  From the back surface to the front surface of the card 10, the base material layer 11, the colored layer 12, the absorption layer 13, the decoration layer 14, and the protective layer 15 are positioned in this order. The surface exposed to the outside among the surfaces of the base material layer 11 is the back surface of the card 10, and the surface exposed to the outside among the surfaces of the protective layer 15 is the surface of the card 10.

  The base material layer 11 is a layer having low absorbability of laser light irradiated when recording information, specifically, laser light having a wavelength included in a wavelength range of 1030 nm to 1070 nm. The absorption rate of light having a wavelength of 1030 nm to 1070 nm in the layer 11 is 10% or less.

  The base material layer 11 is composed mainly of a resin. The base material layer 11 may be composed of one layer or may be composed of a plurality of layers. In the example shown in FIG. 2, the base material layer 11 has a three-layer structure in which one core base material 11b is sandwiched between two exterior base materials 11a and 11c. The exterior base materials 11a and 11c are colorless and transparent, and the core base material 11b is white.

  The color of the base material layer 11 may be colorless or colored, but if it is colorless or white, the laser beam having a wavelength of 1030 nm or more and 1070 nm or less, which is a general laser beam used for laser marking Is preferable because the base material layer 11 is difficult to absorb. For example, the laser beam transmittance of the exterior substrates 11a and 11c is 90% or more, and the core substrate 11b reflects the laser beam. In addition, when the color of the base material layer 11 is colored, it is preferable that the base material layer 11 does not contain carbon black which is a black pigment.

  As resin which comprises the base material layer 11, resin generally used for the base material of a card | curd should just be used. Examples of such resins include vinyl chloride, vinyl chloride-vinyl acetate copolymers, copolymers of terephthalic acid with cyclohexanedimethanol and ethylene glycol, copolymers of terephthalic acid with isophthalic acid and ethylene glycol, and the like. Amorphous polyester, polyethylene terephthalate, polybutylene terephthalate, ABS resin and the like made of a polymer alloy of at least one copolymer and at least one of polycarbonate and polyarylate are exemplified.

  Although the thickness of the base material layer 11 is not particularly limited, for example, when the shape of the card 10 is 680 μm or more and 840 μm or less, and the shape of the card 10 conforms to a standard such as JIS or ISO, the total thickness of the card 10 May be set to be within the range defined in the standard. When the base material layer 11 is composed of a plurality of layers, the base material layer 11 is formed by welding or bonding these layers.

  The colored layer 12 is sandwiched between the base material layer 11 and the absorption layer 13. When viewed from the direction facing the surface of the card 10, the colored layer 12 may overlap the entire base material layer 11, but it is only required to be positioned at least in a portion overlapping the entire information recording region Rd.

  The colored layer 12 includes a colored pigment and a resin. The colored pigment included in the colored layer 12 is one or more pigments selected from the group consisting of pigments exhibiting yellow, orange, red, purple, blue, and green colors. That is, the colored layer 12 does not contain carbon black that is a black pigment. The color of the colored layer 12 is controlled by the combination of pigment colors selected from the above group and the ratio of the combined pigments.

  The wavelength range of light absorbed by carbon black overlaps with the wavelength range of 1030 nm to 1070 nm, which is the wavelength of general laser light used for laser marking. Therefore, if the colored layer 12 contains carbon black, the colored layer 12 easily absorbs laser light. On the other hand, since the colored layer 12 of this embodiment does not contain carbon black, the colored layer 12 is difficult to absorb the laser beam irradiated when recording information. The absorptance of light having a wavelength of 1030 nm to 1070 nm in the colored layer 12 is preferably 10% or less.

  As described above, the color exhibited by the colored layer 12 can be controlled variously depending on the combination of pigments of a plurality of colors and the ratio of the combined pigments. Even if the colored layer 12 does not contain a black pigment, the colored layer 12 The twelve colors can be black. Specifically, when the colored pigment included in the colored layer 12 is a yellow pigment, a red pigment, and a blue pigment, the colored layer 12 exhibiting black can be realized, and the volume ratio of these pigments is yellow: It is preferable that red: blue = 1: 1: 1.

  The colored pigment included in the colored layer 12 may be an inorganic pigment or an organic pigment. Examples of inorganic pigments include red pigments such as red lead, iron oxide red, yellow pigments such as yellow lead, zinc yellow (1 type of zinc yellow and 2 types of zinc yellow), blue pigments such as ultramarine blue and prussian blue ( Ferric iron potash). Examples of organic pigments include polycyclic pigments and azo pigments. Examples of polycyclic pigments include yellow pigments such as isoindolinone, isoindoline, azomethine, anthraquinone, anthrone, xanthene, orange pigments such as diketopyrrolopyrrole, perylene, anthraquinone (anthrone), perinone, quinacridone, indigoid, red With pigments quinacridone, diketopyrrolopyrrole, anthraquinone, perylene, perinone, indigoid, purple pigments dioxazine, quinacridone, perylene, indigoid, anthraquinone (anthrone), xanthene, blue pigments phthalocyanine, anthraquinone, indigoid, green pigment Some phthalocyanines, azomethines, and perylenes. Examples of azo pigments include monoazo compounds, diazo compounds, triazo compounds, and polyazo compounds.

Examples of the resin contained in the colored layer 12 include thermoplastic resins such as vinyl chloride, vinyl acetate, vinyl alcohol, acrylic resin, polyester resin, polyurethane resin and copolymers thereof, epoxy resin, phenol resin, melamine resin, and the like. Examples thereof include thermosetting resins and UV curable resins.
Although the thickness in particular of the colored layer 12 is not restrict | limited, For example, it is preferable that it is 20 micrometers or less.

  The colored layer 12 is formed by applying an ink containing a colored pigment and a resin onto the base material layer 11. The ratio of the pigment contained in the ink is preferably 10% by mass or more and 60% by mass or less. The ink may contain a known additive. As the coating method, for example, a known printing method such as screen printing, offset printing, flexographic printing or the like is used.

  The magnetic stripe 16 is disposed on the base material layer 11, and the absorption layer 13 is exposed from the colored layer 12, the magnetic stripe 16, and the colored layer 12 and the magnetic stripe 16 in the base material layer 11. Covers the part. The absorption layer 13 only needs to overlap at least the colored layer 12 and the magnetic stripe 16 as viewed from the direction facing the surface of the card 10.

Further, it is preferable that each of the information recording region Rd and the colored layer 12 does not overlap the magnetic stripe 16 when viewed from the direction facing the surface of the card 10. The fact that the information recording region Rd does not overlap with the magnetic stripe 16 indicates that the magnetic stripe 16 has not been irradiated with laser light for recording information, whereby the magnetic stripe 16 is magnetized by the laser light. It is possible to suppress the deterioration of the function related to output. Further, since the colored layer 12 does not overlap the magnetic stripe 16, it is possible to prevent the thickness of the upper layer of the magnetic stripe 16 from becoming excessively large. It can be suppressed.
The configuration of the magnetic stripe 16 is not particularly limited as long as it is a magnetic stripe generally used for cards.

  The absorption layer 13 is made of a material that absorbs laser light having a wavelength included in the wavelength range of 1030 nm to 1070 nm. In other words, the absorption rate of light having a wavelength of 1030 nm to 1070 nm in the absorption layer 13 is 90 % Or more. The absorption layer 13 also has a function of hiding the magnetic stripe 16 from the outside.

  The absorption layer 13 contains a functional pigment made of metal and a resin. The functional pigment included in the absorption layer 13 is preferably at least one of an aluminum pigment and a tin pigment. In particular, the functional pigment included in the absorption layer 13 is an aluminum pigment, and the weight of the aluminum pigment relative to the total weight of the aluminum pigment and the resin is preferably 40% or more. According to such a configuration, it is possible to suitably realize the absorption layer 13 that is destroyed by the absorption of laser light.

  Examples of the resin included in the absorption layer 13 include thermoplastic resins such as vinyl chloride, vinyl acetate, vinyl alcohol, acrylic resin, polyester resin, polyurethane resin and copolymers thereof, epoxy resin, phenol resin, melamine resin, and the like. Examples thereof include thermosetting resins and UV curable resins.

In addition, it is preferable that the absorption layer 13 does not contain coloring pigments other than carbon black. Thereby, it is suppressed that the color of the absorption layer 13 appears to be mixed with the display color of information due to the fragments remaining when the absorption layer 13 is destroyed.
The thickness of the absorption layer 13 is not particularly limited, but is preferably 1 μm or more and 10 μm or less, for example.

  The absorbing layer 13 is formed by applying an ink containing a functional pigment and a resin onto the base material layer 11 on which the colored layer 12 and the magnetic stripe 16 are arranged. The ink may contain a known additive. As the coating method, for example, a known printing method such as screen printing, gravure printing, flexographic printing or the like is used.

The decoration layer 14 is a layer constituting an image of the print image area Pd, and is formed by printing so that such an image can be visually recognized when viewed from the surface of the card 10. The decorative layer 14 includes a color pigment having a color corresponding to an image to be formed and a resin. Examples of the resin included in the decorative layer 14 include a thermoplastic resin, a thermosetting resin, and a UV curable resin.
The thickness of the decoration layer 14 is not particularly limited, but is preferably 3 μm or less, for example.

  The decoration layer 14 is formed by applying an ink containing a color pigment and a resin onto the absorption layer 13. The ratio of the pigment contained in the ink is preferably 10% by mass or more and 60% by mass or less. The ink may contain a known additive. As the coating method, for example, known printing methods such as screen printing, gravure printing, and offset printing are used.

In addition, when the base color of the card 10 viewed from the direction facing the surface is white, a white layer containing a titanium dioxide pigment may be disposed between the absorption layer 13 and the decoration layer 14. .
The protective layer 15 is a layer that protects the decorative layer 14 and its lower layer, and overlaps the entire base material layer 11 when viewed from the direction facing the surface of the card 10.

  The protective layer 15 is transparent and is composed mainly of a resin. Examples of the resin constituting the protective layer 15 include vinyl chloride, vinyl acetate, polyvinyl alcohol, polyester resin, polyurethane resin, acrylic resin, polycarbonate resin, epoxy resin, ABS resin, copolymers and polymer alloys thereof. It is done.

Moreover, the protective layer 15 may contain waxes such as polyethylene wax and PTFE wax, mica, talc, silica and the like as additives, and these additives depend on the characteristics required for the protective layer 15. It only has to be selected.
Although the thickness in particular of the protective layer 15 is not restrict | limited, For example, it is preferable that they are 0.5 micrometer or more and 8.0 micrometers or less.

The protective layer 15 is formed by applying an ink containing a resin and an additive as necessary on the decorative layer 14. As the coating method, for example, a known printing method such as offset printing, screen printing, gravure printing, flexographic printing, or a known coating method such as die coating is used.
As long as the laminated structure shown in FIG. 2 can be formed, the order of forming the layers constituting the card 10 and the forming method are not limited to the above-described embodiments.

FIG. 3 is a diagram showing a cross-sectional structure of the card 10 at a portion where the information recording area Rd is located.
The information recording region Rd is formed by irradiating a laser beam from the surface side of the card 10 to the laminate composed of the above-described respective constituent layers of the card 10. The wavelength of the laser beam used is 1030 nm or more and 1070 nm or less, and particularly preferably 1064 nm. By using a laser beam having such a wavelength range, it is possible to suitably form the information recording region Rd on the laminate composed of the above constituent layers, and the colorless or white base having the above constitution. It is possible to suppress the material layer 11 from being deteriorated by the heat of laser light.
As the laser, for example, a fiber laser, an Nd: YAG laser, or an Nd: YVO laser is preferably used.

  As described above, since the colored layer 12 does not contain carbon black, it hardly absorbs laser light, and the absorption layer 13 absorbs laser light. Therefore, when the laser beam is irradiated from the surface side of the protective layer 15, the absorption layer 13 is altered by absorbing the energy of the laser beam and raising the temperature, and in the portion irradiated with the laser beam, the absorption layer 13 is Along with the decorative layer 14 and the protective layer 15 which are the upper layers, it peels from the lower layer. On the other hand, since the colored layer 12 and the base material layer 11 which are the lower layers of the absorption layer 13 are difficult to absorb laser light, these layers are not destroyed by the laser light. As a result, the colored layer 12 is exposed in the region irradiated with the laser light when viewed from the surface.

  As a result, an information recording region Rd is formed in the region irradiated with the laser light, and the information recording region Rd looks like a color exhibited by the colored layer 12 when viewed from the direction facing the surface of the card 10. By adopting a configuration in which the color of the decorative layer 14 near the information recording area Rd and the color of the colored layer 12 are different, the information indicated by the information recording area Rd can be identified when viewed from the direction facing the surface of the card 10. It is.

  As described above, in this embodiment, since the color exhibited by the colored layer 12 becomes the display color of information recorded by laser light irradiation, the display color of information is defined by setting the color of the colored layer 12. Can do. Therefore, it is easy to control the display color of information.

In addition, as a configuration to be compared with the configuration of the card 10 of the present embodiment, a resin layer having heat resistance is sandwiched between the colored layer 12 and the absorbing layer 13 in order to protect the colored layer 12 from laser light. Is assumed. In such a configuration, before and after the heating and pressurizing steps for forming the resin layer, it is necessary to apply ink by a printing method or the like for forming the colored layer 12 or the absorbing layer 13. Although it is complicated, since the card 10 of this embodiment can be formed by coating each layer without sandwiching the formation of the resin layer, the complexity of the manufacturing process can be suppressed.
As described above, according to the card of the present embodiment, the effects listed below can be obtained.

  (1) The absorption layer 13 includes a functional pigment made of metal and absorbs laser light. And the coloring pigment which the colored layer 12 contains is comprised from 1 or more pigments selected from the group which consists of each pigment which exhibits yellow, orange, red, purple, blue, and green separately. According to such a configuration, since the colored layer 12 does not contain carbon black which is a black pigment, the colored layer 12 hardly absorbs laser light having a wavelength of 1030 nm or more and 1070 nm or less used for general laser marking. Accordingly, when receiving the laser beam from the absorption layer 13 side for recording information, the absorption layer 13 and the upper layer thereof are destroyed while the colored layer 12 below the absorption layer 13 is hardly destroyed, and the card The color of the colored layer 12 can be seen in the destroyed part of the absorption layer 13 when viewed from the direction facing the surface of 10. That is, since the color that the colored layer 12 exhibits becomes the information display color, the display color of the information can be easily controlled by adjusting the color that the colored layer 12 exhibits.

  (2) In the configuration in which the colored layer 12 exhibits a black color, the colored layer 12 exhibits a black color due to a combination of pigments even though the color layer 12 does not include carbon black. 12 is suppressed from being destroyed, and black information can be displayed. And according to the structure which the color pigment which the colored layer 12 contains is a yellow pigment, a red pigment, and a blue pigment, the colored layer which exhibits black can be implement | achieved suitably.

  (3) In the configuration in which the functional pigment included in the absorption layer 13 is at least one of an aluminum pigment and a tin pigment, the absorption layer 13 that is destroyed by absorption of laser light can be suitably realized. Furthermore, in the configuration in which the functional pigment included in the absorption layer 13 is an aluminum pigment, and the weight of the aluminum pigment with respect to the total weight of the aluminum pigment and the resin included in the absorption layer 13 is 40% or more, absorption of laser light The absorbing layer 13 to be destroyed can be realized particularly preferably.

  (4) Since the information recording region Rd does not overlap the magnetic stripe 16 when viewed from the direction facing the surface of the card 10, the region where the magnetic stripe 16 is located is not irradiated with laser light. Therefore, a decrease in the magnetic stripe function can be suppressed.

[Example]
The card described above will be described using specific examples and comparative examples.
Example 1
<Card configuration>
The card having the structure illustrated in FIG. 2 was manufactured as follows. The card of Example 1 includes a magnetic stripe between the base material layer and the concealing layer.

-Base material layer: an exterior base material made of transparent polyvinyl chloride having a thickness of 0.1 mm, a core base material made of white polyvinyl chloride having a thickness of 0.6 mm, and a transparent base material having a thickness of 0.1 mm A laminate composed of an exterior base material made of vinyl chloride was formed by welding to form a base material layer.
Colored layer: Ink containing yellow pigment, red pigment, and blue pigment as color pigments at a volume ratio of yellow: red: blue = 1: 1: 1 is applied by offset printing, and the thickness is 1 μm. A colored layer was formed.

Absorbing layer: An aluminum pigment as a functional pigment and an ink containing a copolymer of vinyl chloride and vinyl acetate as a resin in a weight ratio of functional pigment: resin = 4: 6 are applied by screen printing. To form an absorption layer having a thickness of 3 μm.
-Decoration layer: An ink containing a UV curable acrylic resin was applied by offset printing to form a decoration layer having a thickness of 1 µm.
Protective layer: Ink containing acrylic resin was applied by gravure printing to form a protective layer having a thickness of 2 μm.

<Recording information by laser irradiation>
In contrast to the above configuration, when a laser beam having a wavelength of 1064 nm is irradiated from the protective layer side using a fiber laser, the protective layer, the decorative layer, and the absorbing layer are destroyed. A colored layer was visible. Thereby, black character information was formed.

(Example 2)
<Card configuration>
The card | curd whose base material layer is 1 layer structure manufactured the structure of a base material layer as follows. About the structure of the coloring layer, the absorption layer, the decoration layer, and the protective layer, it was set as the structure similar to Example 1. FIG. The card of Example 2 does not have a magnetic stripe. That is, the card according to the second embodiment is a card having a structure shown in FIG.
-Base material layer: A layer made of white polycarbonate having a thickness of 0.8 mm was used as the base material layer.

<Recording information by laser irradiation>
In contrast to the above configuration, when a laser beam having a wavelength of 1064 nm is irradiated from the protective layer side using a fiber laser, the protective layer, the decorative layer, and the absorbing layer are destroyed. A colored layer was visible. Thereby, black character information was formed.

(Comparative Example 1)
<Card configuration>
The card of Comparative Example 1 was manufactured by changing the configuration of the colored layer in Example 1 as follows. The configuration of each layer other than the colored layer was the same as that of Example 1.
Colored layer: An ink containing carbon black as a colored pigment was applied by offset printing to form a colored layer having a thickness of 1 μm.
<Recording information by laser irradiation>
In contrast to the above configuration, when a laser beam having a wavelength of 1064 nm is irradiated from the protective layer side using a fiber laser, the colored layer is destroyed in addition to the protective layer, the decorative layer, and the absorbing layer, and black character information cannot be formed. It was.

  As described above, by using a pigment other than carbon black as the color pigment contained in the color layer, it is possible to suppress the destruction of the color layer by laser light and to form information consisting of the color exhibited by the color layer. It was shown that there is.

[Modification]
The above embodiment can be implemented with the following modifications.
In the above embodiment, the base material layer 11 has a three-layer structure. However, as shown in FIG. 4, the base material layer 11 may be composed of one layer, two layers, Or you may be comprised from four or more layers. Further, the surface of the card 10 may be matted.

  In the above embodiment, the magnetic stripe 16 is disposed on the surface close to the surface of the card 10 among the surfaces of the base material layer 11, but the magnetic stripe 16 is the card on the surface of the base material layer 11. 10 may be arranged on the surface constituting the back surface. Further, the card 10 may include an IC chip as an example of a storage medium or an antenna for non-contact communication using an IC chip in place of or in addition to the magnetic stripe 16. As shown in FIG. 4, such a storage medium may not be provided.

  In the above embodiment, when the colored layer 12 includes colored pigments of a plurality of colors, these pigments are mixed with ink for forming the colored layer 12, and the colored layer 12 is formed by application of this ink. It was done. Instead of such a configuration, the colored layer 12 may be formed by applying inks containing different color pigments to each other by offset printing or the like. That is, when viewed from the direction facing the surface of the card 10, the colored layer 12 may be a set of fine dots including colored pigments of different colors.

  The colored layer 12 may have a plurality of portions that exhibit different colors when viewed from the direction facing the surface of the card 10, and the information recording region Rd may overlap each of these portions. Further, the card 10 includes a plurality of colored layers 12 exhibiting different colors, and when viewed from the direction facing the surface of the card 10, the colored layers 12 are located in different areas, and the information recording area Rd is Each of these colored layers 12 may overlap. According to such a configuration, it is possible to change the display color of information depending on the position in the information recording area Rd. For example, such a configuration can improve the design of the card 10 and improve the forgery prevention effect. Can be used for.

  As shown in FIG. 5, the information recording region Rd may include a region that overlaps the colored layer 12 and a region that does not overlap the colored layer 12. In the information recording region Rd, in the region that does not overlap with the colored layer 12, the base layer 11 is exposed at a portion where the absorption layer 13 is destroyed together with the upper layer by irradiation of the laser beam. The color of the base material layer 11 can be seen from the viewpoint. Therefore, in the information recording region Rd, it is possible to make the display color of information in the region overlapping with the colored layer 12 different from the display color of information in the region not overlapping with the colored layer 12. Can be used, for example, to improve the design of the card 10 and to improve the effect of preventing forgery.

-The card | curd 10 may be provided with the 1st colored layer which is the said colored layer 12 which does not contain carbon black, and the 2nd colored layer containing carbon black.
For example, when viewed from the direction facing the surface of the card 10, the first colored layer and the second colored layer are located in different areas, and the information recording area Rd overlaps each of these colored layers. Also good. Specifically, for example, when viewed from the direction facing the surface of the card 10, the first colored layer and the second colored layer extending in a strip shape in one direction are orthogonal to the extending direction of these colored layers. You may arrange | position so that it may adjoin to the direction. That is, in the configuration shown in FIG. 5, a colored layer containing carbon black may be located between the two colored layers 12 when viewed from the direction facing the surface of the card 10.

  Further, for example, the second colored layer is sandwiched between the first colored layer and the base material layer 11, and a part of the first colored layer is the second when viewed from the direction facing the surface of the card 10. It may overlap with the colored layer. That is, in the portion where the first colored layer and the second colored layer overlap, the base material layer 11, the second colored layer, the first colored layer, and the absorbing layer 13 are positioned in this order.

  Since the second colored layer containing carbon black absorbs laser light, when it is irradiated with laser light, the second colored layer and its upper layer are destroyed and the base material layer 11 is exposed. As a result, the color of the base material layer 11 can be seen in the information recording region Rd in the region overlapping the second colored layer as viewed from the direction facing the surface of the card 10. Therefore, in the information recording area Rd, it is possible to make the display color of information in the area overlapping only the first colored layer different from the display color of information in the area overlapping with the second colored layer. Such a configuration can be used, for example, for improving the design of the card 10 and improving the forgery prevention effect.

  DESCRIPTION OF SYMBOLS 10 ... Card, 11 ... Base material layer, 12 ... Colored layer, 13 ... Absorbing layer, 14 ... Decoration layer, 15 ... Protective layer, 16 ... Magnetic stripe, Rd ... Information recording area, Pd ... Print image area.

Claims (8)

A base material layer;
An absorbing layer that contains a functional pigment made of a metal and absorbs laser light having a wavelength included in a wavelength range of 1030 nm or more and 1070 nm or less than the base material layer;
A colored layer containing a colored pigment and located between the base material layer and the absorbing layer,
The colored pigment included in the colored layer is composed of one or more pigments selected from the group consisting of pigments exhibiting yellow, orange, red, purple, blue, and green separately. The card according to claim 1, wherein the colored layer is black. The card according to claim 2, wherein the colored pigment included in the colored layer is a yellow pigment, a red pigment, and a blue pigment. The card according to claim 1, wherein the functional pigment included in the absorption layer is at least one of an aluminum pigment and a tin pigment. The functional pigment included in the absorption layer is the aluminum pigment,
The card according to claim 4, wherein the absorption layer includes the aluminum pigment and a resin, and the weight of the aluminum pigment with respect to the total weight of the aluminum pigment and the resin is 40% or more. The card comprises a magnetic stripe;
The card | curd as described in any one of Claims 1-5 in which the area | region where the information recorded with the said laser beam is located does not overlap with the said magnetic stripe seeing from the direction facing the surface of the said card | curd. The region where the information recorded by the laser beam is located when viewed from the direction facing the surface of the card includes a region overlapping with the colored layer and a region not overlapping with the colored layer. The card according to any one of the items. The colored layer is a first colored layer,
The card includes a second colored layer located between the base material layer and the absorbent layer,
The card according to claim 1, wherein the second colored layer includes carbon black as a coloring pigment.