JP6343878B2 - Authentic media - Google Patents

Description

  The present invention relates to an authenticity-determinable medium capable of authenticity determination.

Conventionally, a combination of pearl ink and fluorescent ink that emits fluorescence in response to ultraviolet rays or infrared rays is used to print a letter or design on the surface of the substrate. 2. Description of the Related Art There are widely known media and the like capable of authenticating by printing characters and pictures on the surface of a base material using two types of fluorescent inks that emit fluorescence (see, for example, Patent Documents 1 and 2). By irradiating these with ultraviolet rays, infrared rays, etc., characters or designs printed with fluorescent ink emit light and become visible, and authenticity can be determined.
It is widely known that characters, pictures, and the like are printed with such pearl inks and fluorescent inks, so that the user has a common impression and there is no novelty.

JP 2002-285061 A JP 2006-205500 A

  An object of the present invention is to provide an authenticity-determinable medium having a different fluorescent emission mode from the conventional one.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.
The invention of claim 1 is provided on the ultraviolet reaction layer (11) that emits fluorescence in response to ultraviolet rays and at least one surface (11b) of the ultraviolet reaction layer, and the color of the one surface of the ultraviolet reaction layer. And a pattern forming layer (14) that is formed of a material that does not emit fluorescence with respect to ultraviolet light and forms a pattern (141), and covers at least part of the pattern forming layer and the ultraviolet reaction layer. An ultraviolet transmission layer (15, 25) that is provided in a laminated manner, transmits ultraviolet rays, has a planar surface, and reduces a difference in gloss between the ultraviolet reaction layer and the pattern forming layer; provided, on the UV transmissive layer (15, 25), the information printed layer which transmits ultraviolet rays is formed, ultraviolet transmission amount of the pattern forming layer is less than ultraviolet transmittance of the ultraviolet transmissive layer By irradiating ultraviolet rays to the one surface side of the ultraviolet reaction layer, the pattern formation layer is visually recognized darker than the ultraviolet reaction layer, and the authenticity can be determined. Medium (10, 20).
According to a second aspect of the present invention, in the authenticity-determinable medium according to the first aspect, the ultraviolet-ray reaction layer (11) is a base material of the authenticity-determinable medium (10). 20).
The authenticity-determinable medium (10) according to the third aspect, wherein the authenticity-determinable medium according to claim 1 or 2, wherein the ultraviolet ray transmitting layer (15) transmits visible light. It is .
Invention 請 Motomeko 4 is the authenticity determination medium according to any one of claims 1 to 3, wherein the ultraviolet light-reactive layer (11) is a fluorescent agent that reacts to ultraviolet radiation fluoresce It is a medium (10, 20) capable of authenticity determination characterized by containing.
The invention of claim 5 is provided on the ultraviolet reaction layer (11) that emits fluorescence in response to ultraviolet rays and at least one surface (11b) of the ultraviolet reaction layer, and the color of the one surface of the ultraviolet reaction layer And a pattern forming layer (14) that is formed of a material that does not emit fluorescence with respect to ultraviolet light and forms a pattern (141), and covers at least part of the pattern forming layer and the ultraviolet reaction layer. An ultraviolet transmissive layer (25) provided to be laminated and transmitting ultraviolet rays and reducing a difference in surface gloss between the ultraviolet reaction layer and the pattern forming layer; and an amount of ultraviolet rays transmitted through the pattern forming layer Is less than the amount of ultraviolet light transmitted through the ultraviolet light transmissive layer, and the pattern forming layer is viewed darker than the ultraviolet light reactive layer by irradiating the one surface side of the ultraviolet light reactive layer with ultraviolet light. Is, the pattern becomes visible, the UV transmission layer (25) does not transmit visible light, it is colored, it is the authenticity judgment medium, wherein (20).
According to a sixth aspect of the present invention, there is provided an ultraviolet reaction layer (11) that emits fluorescence in response to ultraviolet rays, and at least one surface (11b) of the ultraviolet reaction layer, and the color of the one surface of the ultraviolet reaction layer. And a pattern forming layer (14) that is formed of a material that does not emit fluorescence with respect to ultraviolet light and forms a pattern (141), and covers at least part of the pattern forming layer and the ultraviolet reaction layer. An ultraviolet ray transmitting layer (15, 25) that is provided in a laminated manner and that transmits ultraviolet rays and reduces the difference in gloss between the ultraviolet reaction layer and the pattern forming layer. The pattern formation layer has an ultraviolet transmission amount less than that of the ultraviolet transmission layer, and the pattern formation layer is formed by irradiating the one surface side of the ultraviolet reaction layer with ultraviolet rays. Is darker than the ultraviolet reaction layer, the pattern is visible, and is formed in a predetermined shape on at least a part of at least one surface (10a) of the authenticity-determinable medium. A concavo-convex portion (132) having a shape and a glossy portion (131) formed in a region other than the concavo-convex portion, not having the fine concavo-convex shape, and having a smoother surface than the concavo-convex portion. A medium (10, 20) for authenticity determination, characterized by comprising a resin layer (13).

  ADVANTAGE OF THE INVENTION According to this invention, the medium which can authenticate determination from which the aspect which fluoresces fluorescence differs from the past can be provided.

It is a figure explaining the upper surface 10a and the lower surface 10b of the card | curd 10 of 1st Embodiment. It is the figure which expanded and showed the cross section of the card | curd 10 of 1st Embodiment. It is a figure explaining how the upper surface 10a and the lower surface 10b of the card | curd 10 of 1st Embodiment can be seen. It is a figure explaining the card | curd 20 of 2nd Embodiment.

  Embodiments of the present invention will be described below with reference to the drawings. In addition, each figure shown below including FIG. 1 is the figure shown typically, and the magnitude | size and shape of each part are exaggerated suitably for easy understanding.

(First embodiment)
FIG. 1 is a diagram illustrating an upper surface 10a and a lower surface 10b of a card 10 according to the first embodiment. FIG. 1A shows the upper surface 10 a of the card 10, and FIG. 1B shows the lower surface 10 b of the card 10.
FIG. 2 is an enlarged view showing a cross section of the card 10 according to the first embodiment. 2 shows a cross section parallel to the straight line A1-A2 shown in FIG. 1. In FIG. 2, the upper side is the upper surface 10a side of the card 10, and the lower side is the lower surface 10b side of the card 10.
The card 10 is an authenticity-determinable medium having various printings on both sides. In the present embodiment, the card 10 will be described with the front surface as the upper surface 10a and the back surface as the lower surface 10b. However, depending on the intended use and design of the card 10, the upper surface 10a is the back and the lower surface 10b is the lower surface 10b. It may be a table.

  In the present embodiment, as shown in FIG. 1, the card 10 has an example in which the outer shape is a substantially rectangular shape, but is not limited thereto, and may be a circle, an ellipse, or a polygon. Moreover, although the example where this card | curd 10 is utilized as an event participation ticket is given and demonstrated, the use of the card | curd 10 is not limited to this.

As shown in FIG. 2, the card 10 includes a base material layer 11, an information printing layer 12 and a transparent layer 13 that are sequentially stacked on the upper surface 11 a of the base material layer 11, and a lower surface 11 b of the base material layer 11. A pattern layer 14, an ultraviolet transmissive layer 15, and an information print layer 16 are sequentially stacked on top of each other.
The base material layer 11 is a layer that becomes a base material of the card 10 and is an ultraviolet reaction layer that reacts with ultraviolet rays. The base material layer 11 has a thickness sufficient for use as a card.
This base material layer 11 is a white paperboard containing a fluorescent dye (fluorescent whitening agent) which is a fluorescent agent that emits light in response to ultraviolet rays, and its upper surface 11a and lower surface 11b are white.
In general, in order to increase the whiteness of the surface of paper, a fluorescent dye (also referred to as a fluorescent whitening agent) may be added. The base material layer 11 also uses a paper material containing such a fluorescent dye as a material, and the material cost can be suppressed.
In addition, the base material layer 11 is good also as a sheet-like member made from resin (PET resin, PP resin, etc.) containing the fluorescent dye which reacts with an ultraviolet-ray and emits fluorescence.

First, the upper surface 10a side of the card 10 will be described.
The information printing layer 12 is a layer formed on the upper surface 11a of the base material layer 11 and printed with a pattern, characters, symbols, and the like, and has various information.
This information printing layer 12 is formed on the upper surface 11a of the base material layer 11 by ultraviolet curable ink (UV ink) of a color (blue) different from the color (white) of the surface 11a of the base material layer 11, The venue, pictures, etc. are printed.
Note that the information printing layer 12 is not limited to blue, and may be other colors, and is not limited to single color printing, and may be multicolor printing. Moreover, the information printing layer 12 can be formed with oil-based, water-based, solvent-based ink or the like in addition to the ultraviolet curable ink.

The transparent layer 13 is a transparent layer that is laminated so as to cover the upper surface 11a of the base material layer 11 and the information printing layer 12, and is formed over the entire upper surface 11a. In addition, the transparent layer 13 is good also as a form formed in the one part area | region of the upper surface 11a.
The transparent layer 13 has a fine concavo-convex shape such as a textured shape on its surface, and includes a concavo-convex portion 132 that forms characters, symbols, patterns, etc., and the surface of other regions is smoother than the concavo-convex portion 132. The glossy glossy part 131 is formed.
The transparent layer 13 is formed of a transparent ultraviolet curable varnish (UV varnish) that is cured by irradiation with ultraviolet rays. The transparent layer 13 may be formed using medium ink, varnish, PP resin, or the like.

As shown in FIG. 1, the concavo-convex portion 132 is formed with the letters “ABC” in the approximate center of the upper surface 10a of the card 10. However, the pattern formed by the concavo-convex portion 132 and its position can be freely selected and set. You can do it.
The uneven portion 132 can visually recognize the pattern formed by the uneven portion 132 by changing the angle at which the card 10 is observed from the difference in glossiness between the uneven portion 132 and the gloss portion 131. The presence or absence of the concavo-convex portion 132 can also be confirmed by touching the surface of the transparent layer 13 with a finger or the like. However, the concavo-convex portion 132 cannot be detected by detection light from a copying machine or the like, and is difficult to be copied (copied) by the copying machine, or the pattern of the concavo-convex portion is slightly copied as a contrast difference when copied. The fine uneven shape is not reproducible. Therefore, it can be easily determined that the copying is performed by a copying machine.

Next, the lower surface 10b side of the card 10 will be described.
The pattern layer 14 is a layer that forms a pattern 141 such as characters, symbols, patterns, and background patterns, and is formed on the lower surface 11 b of the base material layer 11.
The pattern layer 14 is white having the same color as the lower surface 11b of the base material layer 11, and is formed of ultraviolet curable ink (white UV ink) that is cured by irradiation with ultraviolet rays. Therefore, in FIG. 1B, for easy understanding, the pattern layer 14 and the pattern 141 are shown by dotted lines, but the lower surface 10b of the card 10 is viewed under sunlight or illumination light. In this case, the pattern layer 14 is hardly visible.
If the pattern layer 14 is formed on the lower surface 11b of the base material layer 11 and an ultraviolet transmission layer 15 described later is laminated thereon, and it is difficult to visually recognize the pattern 141, the color of the lower surface 11b A similar color having a difference that can be regarded as the same color may be used. In this specification and the like, “similar color” means a color (saturation) having an indistinguishable difference between the pattern layer 14 and the lower surface 11b of the base material layer 11 in a state where the ultraviolet ray transmitting layer 15 is laminated thereon. , Colors with similar brightness, etc.).

As shown in FIG. 1B, the pattern 141 formed by the pattern layer 14 has a strip shape in which a plurality of characters “ABC” are repeatedly arranged from the lower left to the upper right in FIG. 1B. A plurality of the belt-like patterns 141 are formed at equal intervals from the upper left to the lower right in FIG. 1B.
The pattern layer 14 is not limited to the above example, and may be a pattern, a symbol, or the like, a ground pattern, or the like, and the position thereof may be freely set.

  The pattern layer 14 is a layer that does not emit fluorescence with respect to ultraviolet rays, and does not contain a substance that reacts with ultraviolet rays, such as a phosphor that reacts with ultraviolet rays. Moreover, since the pattern layer 14 absorbs ultraviolet rays by the pigment contained therein, the amount of ultraviolet rays transmitted is less than that of the ultraviolet ray transmitting layer 15 described later. Therefore, ultraviolet rays do not reach the lower surface 11b of the base material layer 11 on which the pattern layer 14 is formed, or reflected light is absorbed even if it reaches the lower surface 11b and is reflected by the lower surface 11b, and is not emitted from the pattern layer 14. Very few even when emitted.

The ultraviolet transmissive layer 15 is a layer laminated so as to cover the lower surface 11 b and the pattern layer 14 of the base material layer 11, and is provided on the entire surface of the lower surface 10 b of the card 10.
The ultraviolet light transmitting layer 15 is a transparent layer that transmits ultraviolet light and visible light. The ultraviolet ray transmission amount of the ultraviolet ray transmission layer 15 is larger than the ultraviolet ray transmission amount of the pattern layer 14 described above.
If only the pattern layer 14 is formed on the lower surface 11b of the base material layer 11, even if both are the same color, both of them are due to the difference in material and surface smoothness between the pattern layer 14 and the lower surface 11b of the base material layer 11. There is a difference in gloss. And the pattern 141 of the pattern layer 14 may be visually recognized by this gloss difference.
However, by forming the ultraviolet ray transmitting layer 15, such a difference in gloss can be eliminated and it is difficult to visually recognize the pattern 141 of the pattern layer 14.
The ultraviolet transmissive layer 15 has a sufficient thickness, has a flat surface, and does not have irregularities or the like that follow the thickness of the pattern layer 14 printed on the base.
The ultraviolet transmissive layer 15 is formed of an ultraviolet curable transparent medium ink. The ultraviolet light transmitting layer 15 may be formed of a transparent OP varnish, aqueous varnish, UV varnish, or the like. The ultraviolet light transmitting layer 15 may be colored transparent or translucent.

The information printing layer 16 is a layer in which a pattern, characters, symbols, and the like are printed on the surface of the ultraviolet ray transmitting layer 15 and has various information. The information printing layer 16 has a function of transmitting ultraviolet rays.
This information printing layer 16 is printed with blue UV ink on a pattern, precautions when participating in an event, and the like. Note that the precautions and the like of the information print layer 16 are shown as an array of characters “abc” in FIG.
The information print layer 16 is not limited to blue, but may be other colors, not limited to single color printing, and may be multicolor printing. The information printing layer 16 is not limited to UV ink, and may be formed using solvent-type ink or the like.
The information print layer 16 is preferably an array of small characters and symbols such as sentences because the pattern layer 14 is more difficult to discriminate.

  Note that when the information printing layer 16 has a larger amount of ultraviolet transmission than the ultraviolet transmission layer 15, even if the information printing layer 16 is formed by solid printing as a large pattern or the like, a card which will be described later is used. The pattern 141 of the pattern layer 14 is visible when the lower surface 10b is irradiated with ultraviolet rays in the 10 authenticity determination. In addition, when the information printing layer 16 is formed by solid printing when the ultraviolet ray transmission amount of the information printing layer 16 is smaller than the ultraviolet ray transmission amount of the ultraviolet ray transmission layer 15, the lower surface 10b is irradiated with ultraviolet rays. Sometimes, it becomes difficult to visually recognize the pattern 141. Therefore, in this case, it is preferable that the information printing layer 16 is made of characters, symbols, etc. to avoid solids.

Here, an example of the manufacturing method of the card | curd 10 of this embodiment is demonstrated. Since each layer laminated on the base material layer 11 of the card 10 of this embodiment is formed of a material that is cured by irradiation with ultraviolet rays, it can be performed using a UV printing method.
The upper surface 10a of the card 10 forms the information printing layer 12 on the upper surface 11a of the base material layer 11 by UV printing with blue UV ink. Then, a base agent is printed on a portion that becomes the uneven portion 132 from above, and further, a transparent UV varnish is UV printed from above to form the transparent layer 13.
This base agent has an action of repelling the transparent UV varnish that forms the transparent layer 13. Therefore, the transparent UV varnish is repelled in the portion on which the base agent is printed, so that a coating film cannot be formed and is cured as fine particles.
Thereby, the uneven | corrugated | grooved part 132 which has an embossed fine uneven | corrugated shape is formed. Further, the portion where the base agent is not printed becomes a glossy glossy portion 131 having a smooth surface. Through these steps, the upper surface 10a of the card 10 is formed.

  The lower surface 10b of the card 10 forms a pattern layer 14 on the lower surface 11b of the base material layer 11 by UV-printing white UV ink on the portion to be the pattern 141. Next, UV ink is printed on the entire surface to cover the lower surface 11 b of the base material layer 11 and the pattern layer 14, thereby forming the ultraviolet light transmitting layer 15. Further, the information printing layer 16 is formed on the surface of the ultraviolet transmitting layer 15 by UV printing with blue UV ink. Through these steps, the lower surface 10b of the card 10 is formed.

After printing each layer as described above on the base material layer 11, the base material layer 11 is cut into a predetermined size, and the card 10 is completed. In addition, when performing the above-mentioned various printing etc. to the upper surface 11a and the lower surface 11b of the base material layer 11, the base material layer 11 may be a sheet | seat shape, and a web shape may be sufficient as it.
Further, the combination of the material for forming the transparent layer 13 and the base material may be appropriately selected so that a suitable fine uneven shape can be formed.

In the card 10 of the present embodiment, the base material layer 11 is a paper material, and the information printing layer 12 and the transparent layer 13 on the upper surface 10a, the pattern layer 14, the ultraviolet light transmitting layer 15 and the information printing layer 16 on the lower surface 10b are all included. It is formed of ink, varnish or the like having the property of being cured by ultraviolet rays. Therefore, the card 10 can be manufactured using a paper material which is a general material, UV ink or UV varnish which is cured by irradiation of ultraviolet rays, and the like, without using special ink such as fluorescent ink. Can be manufactured inexpensively.
In addition, as described above, the card 10 has a property that each layer other than the base material layer 11 is cured by ultraviolet rays, so that the card 10 can be formed in a lump by a UV printing machine. The work of changing the printing device or the like is not necessary, and the production process can be simplified.
Furthermore, since the fluorescent ink is not used, the fluorescent ink remaining in the printing apparatus does not affect when printing other printed matter.
In addition, the manufacturing method of the card | curd 10 is not restricted to said example, You may select an optimal thing suitably according to the ink, material, etc. to be used.

A method for determining the authenticity of the card 10 of this embodiment will be described.
FIG. 3 is a diagram illustrating how the upper surface 10a and the lower surface 10b of the card 10 according to the first embodiment are seen. 3A and 3B show how the upper surface 10a is seen under sunlight, illumination light, and the like. FIG. 3B is different from FIG. .
3 (c) shows how the lower surface 10b is seen under sunlight, illumination light, or the like, and FIG. 3 (d) shows how the lower surface 10b is seen when irradiated with ultraviolet light. .
First, the user visually checks the upper surface 10a of the card 10 by changing an observation angle or the like, and confirms whether or not the pattern of the uneven portion 132 is observed.
Accordingly, the user can determine that the pattern of the concavo-convex portion 132 is visually recognized and the product that is not visually recognized or that the visually recognized pattern is different from the genuine product is a counterfeit product.

Next, the user touches the upper surface 10a (the surface of the transparent layer 13) of the card 10 with his / her hand to determine whether there is a difference in tactile sensation between the uneven portion 132 and the gloss portion 131.
The user can determine that there is a difference in tactile sensation between the uneven portion 132 and the gloss portion 131 as a genuine product, and there is no difference in tactile sensation between the uneven portion 132 and the gloss portion 131, or a genuine product and a touch. If there is a difference, it can be determined that the product is counterfeit.

Next, the user irradiates the lower surface 10b of the card 10 with ultraviolet light using black light or the like, and confirms whether the pattern 141 of the pattern layer 14 is visible.
As shown in FIG. 3C, the authentic card 10 does not visually recognize the pattern 141 of the pattern layer 14 even when the lower surface 10b is visually recognized, as shown in FIG. 3C.
Next, a case where ultraviolet light is irradiated on the lower surface 10b of the genuine card 10 will be described.
A region where the information printing layer 16 is not formed and the pattern layer 14 is not formed on the lower surface 11b of the base material layer 11 (for example, the point P1 shown in FIGS. 1B and 2) is pale. Looks bright. On the other hand, the area where the information printing layer 16 is not formed and the pattern layer 14 is formed on the lower surface 11b (for example, the point P2 shown in FIGS. 1B and 2) is the pattern layer described above. It looks darker than the part where 14 is not formed.
This is because the fluorescent dye (fluorescent whitening agent) contained in the base material layer 11 emits fluorescence in response to the irradiated ultraviolet light, while the pattern layer 14 does not contain the fluorescent dye and does not emit fluorescence. Further, this is because the pattern layer 14 has a smaller ultraviolet transmission amount than the ultraviolet transmission layer 15.

In the area where the information printing layer 16 is formed, the area where the pattern layer 14 is formed on the lower surface 11b of the base material layer 11 (for example, the point P4 shown in FIGS. 1B and 2) is the pattern layer 14. Appears darker than a region where no is formed (for example, the point P3 shown in FIGS. 1B and 2). At this time, the contrast difference between the two is smaller than the contrast difference between the presence and absence of the pattern layer 14 in the region where the information printing layer 16 is not formed.
This is because the information printing layer 16 transmits ultraviolet light in addition to the difference in the reaction of the base material layer 11 and the pattern layer 14 to ultraviolet light and the difference in the amount of ultraviolet light transmitted between the pattern layer 14 and the ultraviolet light transmitting layer 15. Due to that.

  Therefore, by irradiating the lower surface 10b of the card 10 with ultraviolet rays, the pattern 141 becomes visible due to a difference in contrast between the pattern layer 14 and the lower surface 11b of the base material layer 11.

From the above, the user cannot see the pattern 141 of the pattern layer 14 on the lower surface 10b of the card 10 under sunlight, illumination light, or the like, but the pattern of the pattern layer 14 on the lower surface 10b by irradiation with ultraviolet rays. It is possible to determine that the item 141 that is visible is a genuine product.
In addition, the user can see the pattern on the lower surface 10b of the card 10 even under sunlight, illumination light, or the like, the pattern 141 is not visible even when irradiated with ultraviolet rays, or the pattern 141 is visible. If the contrast difference is different from the genuine product (the contrast is light or dark or the contrast is small) or the pattern is different, it can be determined that the product is a counterfeit product.

From the above, according to the present embodiment, the following effects can be obtained.
(1) The authenticity determination of the card 10 can be performed easily and accurately in a short time.
(2) The authenticity determination regarding the upper surface 10a can be determined by visual and tactile sense, and the authenticity determination regarding the lower surface 10b can be determined if there is a small illumination device that can irradiate ultraviolet rays such as black light and can be carried. Therefore, a large-scale device for authenticity determination, precision equipment such as a reader is not required, and authenticity determination can be quickly performed with low space and low cost.
(3) It is possible to determine the authenticity of the card 10 at two stages, ie, the upper surface 10a and the lower surface 10b, thereby enhancing the effect of counterfeiting and greatly suppressing unauthorized use due to counterfeit products.

(4) The lower surface 11b of the base material layer 11 and the pattern layer 14 are the same color, and the ultraviolet ray transmitting layer 15 is formed so as to cover them, and the difference in gloss between these is eliminated. And is difficult to view under normal illumination light, sunlight, etc., and the presence of the pattern 141 used for authenticity determination is difficult to be noticed by a malicious third party. Further, since the wavelength of light used in a general copying machine is different from the wavelength region of ultraviolet rays, forgery by a copying machine can be suppressed, and even if forged by a copying machine, it depends on the light source type as described above. Since the appearance does not change, it can be easily determined as a counterfeit product.

(5) Since a paper material containing a fluorescent dye that reacts with ultraviolet rays is used as the base material layer 11 to improve whiteness, and no special ink such as fluorescent ink is used, it can be provided at low cost. .
(6) Since the lower surface 11b of the base material layer 11 is fluorescently emitted by ultraviolet irradiation and is visually recognized as bluish white, and the pattern 141 of the pattern layer 14 is visually recognized as dark, what is a conventional pattern printed with a fluorescent paint? Aspects are different, surprising, and high in design. Moreover, since the area | region in which the pattern layer 14 is not formed among the lower surfaces 11b of the base material layer 11 emits fluorescence by irradiation of an ultraviolet-ray, the area of the part which looks bright is large, and the pattern 141 is easy to visually recognize.
(7) Since the information printing layer 16 is further printed on the surface of the ultraviolet light transmissive layer 15, the pattern 141 becomes more difficult to recognize and the counterfeit check effect can be enhanced.
(8) The pattern 141 is less affected by the information print layer 16 in the authenticity determination, and the information of the information print layer 16 can be set freely regardless of the shape of the pattern 141 of the pattern layer 14, and therefore has a high counterfeit check effect. While having it, the designability of the card | curd 10 can be improved.
From the above, it is possible to provide a card 10 that has a counterfeit check effect, has high designability, and can easily determine authenticity.

(Second Embodiment)
FIG. 4 is a diagram illustrating the card 20 according to the second embodiment.
4A shows the lower surface 20b of the card 20, and FIG. 4B shows the lower surface 20b side of the cross-sectional view of the card 20 taken along the line A3-A4 shown in FIG.
The card 20 of the second embodiment is the same as the card 10 of the first embodiment except that the configuration of the lower surface 20b is different from the card 10 of the first embodiment. Therefore, parts having the same functions as those in the first embodiment described above are denoted by the same reference numerals or the same reference numerals at the end, and repeated description is appropriately omitted.
The card 20 of the second embodiment includes an upper surface 20a and a lower surface 20b. The upper surface 20a of the card 20 is the same as the upper surface 10a of the card 10 of the first embodiment described above.

As shown in FIG. 4, the lower surface 20 b of the card 20 is provided on the surface of the pattern layer 14, the ultraviolet transmissive layer 25, and the ultraviolet transmissive layer 25 that forms the pattern 141 on the lower surface 11 b side of the base material layer 11. A printing layer 16 and the like.
The ultraviolet transmissive layer 25 is a layer provided on the entire lower surface 20 b of the card 20, and is formed so as to cover the base material layer 11 and the pattern layer 14.
The ultraviolet ray transmitting layer 25 is formed of a yellow-colored UV ink and transmits ultraviolet rays but hardly transmits visible light and is not transparent. Further, the ultraviolet transmission layer 25 has a characteristic of transmitting ultraviolet light, like the ultraviolet transmission layer 15 of the first embodiment described above. The ultraviolet light transmitting layer 25 may have another color such as red or blue, or may be formed using oily, water-based, solvent-based ink, or the like.

According to the present embodiment, it is possible to provide a card 10 that has a high anti-counterfeit effect, has high designability, and can easily determine authenticity.
Further, since the ultraviolet light transmitting layer 25 does not transmit visible light and is opaque, the difference in gloss between the pattern layer 14 and the lower surface 11b of the base material layer 11 is reduced, and the pattern layer 14 is exposed to sunlight or illumination light. The effect of making it difficult to recognize the presence of the pattern 141 can be further enhanced.
Moreover, since the ultraviolet transmissive layer 25 is opaque and colored, the design of the card 20 can be further enhanced.

(Deformation)
Without being limited to the embodiments described above, various modifications and changes are possible, and these are also within the scope of the present invention.

(1) The base material layer 11 is good also as what coated fluorescent paint on one side, such as paper and a resin-made sheet | seat which do not contain a fluorescent dye. Even with such a configuration, the same effects as those of the above-described embodiments can be obtained.

(2) The upper surface 11a and the lower surface 11b of the base material layer 11 are not limited to white, and may have a predetermined color such as yellow or light blue. At this time, it is preferable that the pattern layer 14 has the same color as the upper surface 11a and the lower surface 11b of the base material layer 11 from the viewpoint of concealing the pattern 141 and enhancing the concealment. By setting it as such a form, the design property of the cards 10 and 20 can be improved.

(3) Although the ultraviolet transmissive layer 25 of the second embodiment has been shown as an example of a single color, the present invention is not limited to this, and for example, the lower surface 11b may be applied in a pattern with a plurality of colors. In the second embodiment, the UV transmissive layer 25 is an opaque layer that does not transmit visible light. However, the present invention is not limited to this, and the UV transmissive layer 25 is not limited to this. It is good also as a transparent layer. By setting it as such a form, the design property of the cards 10 and 20 can be improved.

(4) In each embodiment, the pattern layer 14 is formed in a predetermined character, symbol, or pattern pattern. However, the present invention is not limited to this, and the pattern layer 14 is a so-called blank character. It is good also as a form which the area | region in which no is formed forms the predetermined pattern.

(5) The cards 10 and 20 may have a configuration in which the ultraviolet transmissive layers 15 and 25 are not provided if there is no difference in gloss between the surface of the pattern layer 14 and the lower surface 11b of the base material layer 11 and the visual recognition is sufficiently difficult. Good.

(6) The cards 10 and 20 perform the authenticity determination only based on whether or not the pattern 141 on the lower surfaces 10b and 20b is visible when the ultraviolet rays are irradiated, and a form or a transparent layer in which the uneven portions 132 are not formed on the upper surfaces 10a and 20a. 13 may not be provided.
Further, the pattern layer 14, the ultraviolet light transmitting layers 15 and 25, and the information printing layer 16 may be provided on the upper surfaces 10 a and 20 a side.

(7) The cards 10 and 20 that are authenticity-determinable media may be used, for example, as cards for games such as trading card games, or may be used as passports or various tickets. Further, the authenticity-determinable medium is not limited to a card, and may be a gift certificate, securities, various certificates, or the like. Furthermore, the cards 10 and 20 further include an OVD such as a hologram and a diffraction grating, an IC chip and an antenna, a magnetic tape, and the like, which can also be used for authenticity determination, increase the accuracy of authenticity determination, Improvements may be made.

(8) The transparent layer 13 may be translucent or colored and transparent. Further, instead of the transparent layer 13, a colored opaque layer or the like may be formed. By setting it as such a form, designability can be improved.
The uneven portion 132 may be formed, for example, by applying a transparent ink or varnish that forms the transparent layer 13 and curing it, and then hot pressing a desired uneven portion pattern.

(9) The information printing layer 16 may not transmit ultraviolet light, or may be difficult to transmit and slightly transmit.

  In addition, although this embodiment and modification can also be used in combination as appropriate, detailed description is abbreviate | omitted. Further, the present invention is not limited by the embodiments described above.

DESCRIPTION OF SYMBOLS 10,20 Card 11 Base material layer 12 Information printing layer 13 Transparent layer 131 Glossy part 132 Concavity and convexity part 14 Pattern layer 141 Pattern 15, 25 Ultraviolet transmission layer 16 Information printing layer

Claims (6)

An ultraviolet reaction layer that emits fluorescence in response to ultraviolet light; and
A pattern forming layer that is provided on at least one surface of the ultraviolet reaction layer, is a color similar to the color of the one surface of the ultraviolet reaction layer, is formed of a material that does not emit fluorescence with respect to ultraviolet light, and forms a pattern; ,
Provided by laminating so as to cover at least a part of the pattern forming layer and the ultraviolet reaction layer, and transmitting ultraviolet rays, and the surface thereof is planar, and the surfaces of the ultraviolet reaction layer and the pattern formation layer UV transmission layer to reduce the gloss difference of
With
An information printing layer that transmits ultraviolet light is formed on the ultraviolet light transmitting layer,
The UV transmission amount of the pattern forming layer is less than the UV transmission amount of the UV transmission layer,
By irradiating the one surface side of the ultraviolet reaction layer with ultraviolet rays, the pattern forming layer is visually recognized darker than the ultraviolet reaction layer, and the pattern becomes visible.
A medium capable of authenticity determination. The authenticity-determinable medium according to claim 1,
The ultraviolet reaction layer is a base material of the medium capable of determining authenticity;
A medium capable of authenticity determination. In the authenticity-determinable medium according to claim 1 or 2,
The ultraviolet light transmitting layer transmits visible light;
A medium capable of authenticity determination. In the authenticity-determinable medium according to any one of claims 1 to 3 ,
The ultraviolet reaction layer contains a fluorescent agent that emits fluorescence in response to ultraviolet rays;
A medium capable of authenticity determination. An ultraviolet reaction layer that emits fluorescence in response to ultraviolet light; and
A pattern forming layer that is provided on at least one surface of the ultraviolet reaction layer, is a color similar to the color of the one surface of the ultraviolet reaction layer, is formed of a material that does not emit fluorescence with respect to ultraviolet light, and forms a pattern; ,
UV transmission that is provided so as to cover at least part of the pattern formation layer and the UV reaction layer, transmits UV light, and reduces the difference in gloss between the UV reaction layer and the pattern formation layer. Layers,
With
The UV transmission amount of the pattern forming layer is less than the UV transmission amount of the UV transmission layer,
By irradiating the one surface side of the ultraviolet reaction layer with ultraviolet rays, the pattern forming layer is visible darker than the ultraviolet reaction layer, and the pattern becomes visible,
The ultraviolet transmissive layer does not transmit visible light and is colored;
A medium capable of authenticity determination. An ultraviolet reaction layer that emits fluorescence in response to ultraviolet light; and
A pattern forming layer that is provided on at least one surface of the ultraviolet reaction layer, is a color similar to the color of the one surface of the ultraviolet reaction layer, is formed of a material that does not emit fluorescence with respect to ultraviolet light, and forms a pattern; ,
UV transmission that is provided so as to cover at least part of the pattern formation layer and the UV reaction layer, transmits UV light, and reduces the difference in gloss between the UV reaction layer and the pattern formation layer. Layers,
A medium capable of authenticity determination, comprising:
The UV transmission amount of the pattern forming layer is less than the UV transmission amount of the UV transmission layer,
By irradiating the one surface side of the ultraviolet reaction layer with ultraviolet rays, the pattern forming layer is visible darker than the ultraviolet reaction layer, and the pattern becomes visible,
Compared with the concavo-convex portion, formed on at least a part of at least one surface of the authenticity-determinable medium in a predetermined shape, having a concavo-convex portion having a fine concavo-convex shape on the surface, and a region other than the concavo-convex portion A resin layer having a smooth surface with a smooth surface,
A medium capable of authenticity determination.

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