JP4525040B2 - Anti-counterfeit media and anti-counterfeit stickers - Google Patents

Description

  TECHNICAL FIELD The present invention relates to an anti-counterfeit medium and an anti-counterfeit sticker that exhibit an iris color and can be observed with different hues by changing the viewing angle, and in particular, prevent anti-counterfeiting that can prevent faithful copying by a copying machine or the like. It relates to media and anti-counterfeit stickers.

  Conventionally, as a means for preventing counterfeiting, for example, it is difficult to imitate an article itself, or an article that is difficult to imitate is attached to an article as proof of authenticity, and genuine and counterfeit There is a method to make it possible to distinguish. Typical examples of the latter include anti-counterfeiting means using holograms such as relief holograms, diffraction gratings, and Lippmann holograms that are frequently used in recent years. Among the holograms used here, for example, a relief hologram is a reproduction of interference fringes in the form of fine irregularities, and the viewing angle by the diffraction and interference of light generated here (that is, the hologram is supported). Inherent color shift (color change of reflected light) occurs according to (angle). Therefore, by using such a hologram as a means for preventing counterfeiting and confirming the presence or absence of color shift in that portion, it can be easily determined whether or not it is genuine, and authenticity can be confirmed quickly and easily. To be done. However, in recent years, holograms such as those described above are becoming more easily counterfeited because of the simple hologram principle and the structure of the layers constituting the hologram, and the effect of preventing forgery using this has been diminished.

  On the other hand, a multilayer thin film structure in which thin films having different optical properties, such as ceramics and metals, are laminated in multiple layers on a substrate as having the same color shift (color change of reflected light) effect as the hologram described above. It has been proposed (see, for example, Patent Document 1).

  This multilayer thin film structure is designed to obtain a color shift by utilizing the interference effect of light obtained by the combination of the optical characteristics and film thickness of the thin film, and has reflection / transmission characteristics in a specific wavelength range. However, by changing the observation position, the reflection / transmission characteristics change, and the visible colors are different. Therefore, whether such a multilayer thin film structure is genuine is carried on a part of the object that is not to be counterfeited, and whether or not the object is color-shifted is checked by checking whether or not the object is color-shifted. Can be easily determined. At this time, this multilayer thin film structure may be difficult to understand if the base material forming the transparent film is a transparent film, so that a colored layer or metal colored in a dark color such as black is used as the base of the multilayer thin film. A reflective film may be added.

  The color shift (color change of reflected light) in these holograms and multilayer thin film structures makes it possible to determine whether a color change due to a difference in viewing angle is true or false with respect to a counterfeit product, particularly copying machines, color copying machines, etc. It is impossible to reproduce even such optical characteristics when trying to copy illegally by using, so that counterfeiting / alteration is difficult, and further acts of giving up counterfeiting / alteration .

In order to be able to expect such an effect, recently, development on a seal, a transfer foil, a transfer sheet, or the like has been attempted. For example, a multilayer thin film layer or a hologram forming layer that changes in reflection color according to a change in viewing angle is supported on a part thereof, and these are attached to an object to be attached, or transferred to a desired article. A hologram or the like is formed on the substrate so as to exhibit the above-described characteristics. In such a case, with the aim of adding even higher security, the layer structure is taken into consideration, and the seal is difficult to peel off, or it is configured to be difficult to regenerate after peeling, such as a brittle seal, and once applied. Attempts to peel off the hologram after it is attached will destroy part or all of the hologram, making it impossible to forge, and making it possible to determine at a glance that manipulation such as tampering has been performed.

However, it is difficult to stably manufacture a multilayer thin film structure in which thin films made of ceramics or metals having different optical properties are laminated on a base material, and in particular, to form a wide area with a predetermined film thickness. Has the problem of high costs.
Japanese Patent Laid-Open No. 7-146650

  In the present invention made in view of the above-mentioned problems, it is possible to observe the color shift in the iris multi-layer film more clearly and to observe various iris colors in the formation region of each light absorption layer provided in a part thereof. Forgery prevention media and anti-counterfeit stickers, especially if used as a means of prevention measures such as forgery and alteration, authenticity can be easily determined by visual inspection, and also forgery, alteration, tampering, etc. The purpose is to provide anti-counterfeit media and anti-counterfeit stickers that make it difficult to cheat.

In order to solve the above-mentioned problem, the invention according to claim 1 is characterized in that two or more kinds of thin films are alternately laminated, and a first iris multilayer film and a second iris multilayer film that cause optical interference are provided. The first light-absorbing layer having a light-absorbing property is partially disposed between the first iris multi-layer film and the second iris multi-layer film . The first iris multilayer film and the second iris multilayer film are bonded together by an adhesive layer, and the surface of the second iris multilayer film that is not in contact with the adhesive layer has light absorption. The second light absorption layer having the first light absorption layer is provided so that there is at least a region that does not overlap with the formation region of the first light absorption layer when observed from the first light absorption layer side. It is a forgery prevention medium.

According to a second aspect of the invention, the medium for preventing forgery according to claim 1, wherein the first light-absorbing layer is characterized by being provided in a pattern.

The invention according to claim 3 is the forgery prevention medium according to claim 1 or 2 , wherein the second light absorption layer is provided in a pattern.

The invention according to claim 4 is the anti-counterfeit medium according to any one of claims 1 to 3 , wherein the first light absorption layer and the second light absorption layer have a shape, a size, a number, and an arrangement. Any one or more of these are different.

Invention according to claim 5, in medium for preventing forgery according to any of claims 1 to 4, the thickness of the adhesive layer, thicker than the thickness of each thin film constituting the iris multilayer film Features.

The invention according to claim 6 is the anti-counterfeit medium according to any one of claims 1 to 5 , wherein the first and second iris multilayer films are formed by alternately laminating two or more kinds of thin films. It is characterized by comprising at least an iris multi-layer part that generates optical interference.

According to a seventh aspect of the present invention, in the forgery prevention medium according to any one of the first to sixth aspects, the outermost layer on the side where the second light absorption layer is provided as viewed from the first light absorption layer. Is an anti-counterfeit sticker provided with an adhesive layer.

  The present invention is not a multilayer thin film structure made of a thin film constituent material such as ceramics or metal as a thin film constituent material of the multilayer thin film, but is obtained by laminating two or more kinds of plastic films in multiple layers and stretching them under certain conditions. Two types of iris multi-layer films having a so-called color shift effect are used, and they are bonded with an adhesive layer to form a laminated structure, and a light absorption layer having a different formation location, shape, etc. is used for the laminated structure. Since it is provided at a predetermined location, the color shift becomes clearer and various iris colors are observed in the formation region of each light absorption layer. Therefore, if such an anti-counterfeit medium and an anti-counterfeit sticker are used as a means for preventing forgery or alteration, the authenticity determination can be made quickly and easily by visual inspection. Tampering and other fraudulent activities become difficult.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a plan view showing an embodiment of the anti-counterfeit sticker of the present invention, and FIG. 2 is a cross-sectional view of the anti-counterfeit sticker shown in FIG. Moreover, FIG. 3 is sectional drawing which shows other embodiment of the forgery prevention sticker of this invention. 4 is a plan view showing an embodiment of the anti-counterfeit medium of the present invention, and FIG. 5 is a cross-sectional view taken along line YY of the anti-counterfeit medium shown in FIG.

  The anti-counterfeit sticker of the present invention includes, as shown in FIGS. 1 to 3, a first iris multilayer film 11 in which two or more kinds of thin films are alternately laminated to generate optical interference, and two or more kinds of thin films. The first light absorption layer 13 having a light absorption property is partially disposed between the second iris multilayer film 12 that is alternately laminated and generates optical interference, and the first iris The light-absorbing multilayer film 11 and the second iris multilayer film 12 are bonded to each other by the adhesive layer 15, and the surface that is not in contact with the adhesive layer 15 of the second iris multilayer film 12 has a light absorption property. The second light absorption layer 14 having the first light absorption layer 13 is provided so that there is at least a region that does not overlap with the formation region of the first light absorption layer 13 when observed from the first light absorption layer 13 side. An adhesive layer 16 is further laminated on the upper layer of the second light absorption layer 14.

  Further, as shown in FIGS. 4 and 5, the anti-counterfeit medium of the present invention includes a first iris multilayer film 21 in which two or more types of thin films are alternately laminated to generate optical interference, and two or more types of anti-counterfeit media. A first light-absorbing layer 23 having light absorption is partially disposed between the second iris multilayer film 22 in which thin films are alternately laminated to generate optical interference, and the first The surface of the second iris multilayer film 22 that is not in contact with the adhesive layer 25 is bonded to the iris multilayer film 21 and the second iris multilayer film 22 by the adhesive layer 25. The second light-absorbing layer 24 having a thickness is provided such that there is at least a region that does not overlap with the region where the first light-absorbing layer 23 is formed when observed from the first light-absorbing layer 25 side.

The iris multilayer films 11, 12, 21, and 22 are formed by alternately laminating two or more kinds of polymer thin films having different refractive indexes, so that optical interference occurs. As a polymer used as a thin film constituent material, as a high refractive index polymer, polyethylene naphthalate (PEN; 1.63 = refractive index n: the same applies hereinafter), polycarbonate (1.59), polystyrene (1.59), polyethylene terephthalate (PET; 1.58) and the like, and as the low refractive index polymer, nylon (1.53), polymethyl methacrylate (1.49), polymethylpentene (1.46), fluorine-type polymethyl methacrylate (1.4). By selecting at least one of these polymers from a high-refractive index material and at least one from a low-refractive index material, and laminating them alternately at a predetermined thickness, each of the above-mentioned iris multilayer films can be obtained, and a visible light having a specific wavelength can be obtained. It shows a predetermined absorption or reflection for light.

  The thicknesses of the first and second iris multilayer films may be the same or different, but when the thicknesses of the first and second iris multilayer films are different, they are shown in FIGS. In the anti-counterfeit stickers 1, 1 ′, the first light absorption layer 13 and the second light absorption layer 14 are different from the first light absorption layer 23 and the second light absorption layer 24. Will come to present. Similarly, in the anti-counterfeit medium 2 shown in FIG. 5, the first light absorption layer 23 and the second light absorption layer 24 have different iris colors, and the color shift effect is more vividly visually observed. Will come to be. In addition, the anti-counterfeit medium 1, 1 ′ and the anti-counterfeit sticker 2 shown in FIGS. 2, 3 and 5 are configured such that two or more kinds of thin films are alternately laminated to cause optical interference as a whole. The configuration of the iris multi-layer film is not limited to the above, and for example, it comprises an iris multi-layer part in which two or more kinds of thin films are alternately laminated to generate optical interference in a part thereof. A film-like structure may be sufficient.

  On the other hand, the first light absorption layer 13 and the second light absorption layer 14 further enhance the optical characteristics of the first iris multilayer film 11 and the second iris multilayer film 12, so The absorption layer 23 and the second light absorption layer 24 are provided to further enhance the optical characteristics of the first iris multilayer film 21 and the second iris multilayer film 22.

  The iris multilayer films 11 and 12 and the iris multilayer films 21 and 22 have the property of absorbing light of a specific wavelength and reflecting light of other wavelengths depending on the film thickness. By absorbing light of a predetermined wavelength by the light absorption layers 13 and 14 and the light absorption layers 23 and 24, light reflected and observed can be seen more clearly.

  If the light absorption layers 13, 14, 23, and 24 provided so as to perform such a function have a hue that can absorb light absorbed by the iris multilayer films 11, 12, 21, and 22, the hue is particularly good. There is no limitation, and it is generally sufficient that it is colored in a dark hue. In particular, black is often used. In addition, as described above, the first light absorption layer 13 and the first light absorption layer 23 are partially disposed between the first iris multilayer film and the second iris multilayer film. The second light absorption layers 14 and 24 are provided so that there is at least a region that does not overlap with the formation region of the first light absorption layers 13 and 23 when observed from the first light absorption layers 13 and 23 side. Specifically, any one or more of the shape, size, number, and arrangement may be provided differently.

  On the other hand, the adhesive layers 15 and 25 may be formed using a general adhesive material as long as they do not alter or invade the iris multilayer film to be bonded thereto. Specifically, a vinyl chloride-vinyl acetate copolymer, polyester polyamide, acrylic, butyl rubber, natural rubber, silicon, polyisobutyl, or the like, or alkyl methacrylate, vinyl Aggregating components such as esters, acrylonitrile, styrene, vinyl monomers, unsaturated carboxylic acids, hydroxy group-containing monomers, modifying components such as acrylonitrile, polymerization initiators, plasticizers, curing agents, curing accelerators, oxidation An iris multi-layer film having an additive such as an inhibitor added as necessary and having no or little influence on the colors exhibited by the optical interference of the first and second iris multi-layer films. It is formed to be thicker than the thickness of each thin film constituting the film. For forming the adhesive layer 15 and the adhesive layer 25, a known printing method such as a gravure printing method, an offset printing method, a screen printing method, or a coating method such as a bar coating method, a gravure method, or a roll coating method may be used. it can.

The adhesive layer 16 provided in a part of the anti-counterfeit seal of the present invention is for attaching to other objects, and the light absorbing layer 14 or the iris multilayer films 11 and 12 that are in contact therewith may be altered, It can be formed using a general adhesive material that does not attack. Specifically, vinyl chloride-vinyl acetate copolymer, polyester-based polyamide, acrylic-based, butyl rubber-based, natural rubber-based, silicon-based, polyisobutyl-based adhesive, or alkyl methacrylate, vinyl ester, Acrylic, aggregation components such as tolyl, styrene, vinyl monomers, unsaturated carboxylic acids, hydroxy group-containing monomers, modifying components such as acrylonitrile, polymerization initiators, plasticizers, curing agents, curing accelerators, antioxidants It is formed using what added additives, such as an agent, as needed. The pressure-sensitive adhesive layer 6 can be formed by a known gravure printing method, offset printing method, screen printing method, or other printing method, or a bar coating method, gravure method, roll coating method, or the like.

  Examples of the present invention will be described below.

First, a light absorbing layer having the following composition is formed on a first iris multilayer film having a thickness of 16.5 μm obtained by alternately laminating two kinds of thin films of PET and thin films of PEN in 200 layers. The pattern-form 1st light absorption layer was printed by the screen-printing method using the constituent material. On the other hand, a second iris multi-layer film having a thickness of 19 μm formed by alternately laminating thin films made of PET and thin films made of PEN was used, and an adhesive layer constituting material having the following composition was formed on one surface by a gravure method to 2 μm. Was applied to form an adhesive layer. Next, the second iris multilayer film and the first iris multilayer film are combined such that the adhesive layer surface on the second iris multilayer film and the light absorption layer forming surface on the first iris multilayer film are combined. And then integrated. Subsequently, a second light absorption layer in a pattern shape is printed on the other surface of the second iris multilayer film of the integrated laminate by a screen printing method with a light absorption layer constituting material having the following composition, An adhesive constituent material having the following composition was applied at a thickness of 10 μm by a gravure method so as to cover the second light absorption layer to form an adhesive layer. Finally, release paper was placed on the adhesive layer and cut into a predetermined size to obtain a forgery prevention sticker according to the present invention.
[Composition of light absorbing layer constituting material]
Black ink: SS16 911 black (manufactured by Toyo Ink Manufacturing Co., Ltd.) 100 parts Curing agent: SS UR 100B (manufactured by Toyo Ink Manufacturing Co., Ltd.) 10 parts Diluting solvent: 20 parts of S787 solvent [Composition of adhesive layer constituting material]
100 parts of K474 PET-G adhesive varnish (manufactured by Toyo Ink Co., Ltd.) [Composition of adhesive layer constituting material]
Acrylic resin:
BPS5160 (Toyo Ink Manufacturing Co., Ltd.) 60 parts Diluting solvent:
VC202C solvent (manufactured by Toyo Ink Co., Ltd.) 40 parts When the anti-counterfeit sticker obtained in this way is viewed from the surface, the part where the sticker is attached shows an iris color, and the color changes by changing the viewing angle. I saw. In addition, since the portion provided with the light absorption layer is provided in order to further enhance the optical characteristics, an iris color having a higher luminance than that of the portion without the light absorption layer could be clearly observed. Furthermore, the portion with the first light absorption layer and the portion with the second light absorption layer were observed with different iris colors.

  On the other hand, when the above-mentioned anti-counterfeit sticker was used as a manuscript and color copying was performed, the obtained color copy was indistinguishable from the manuscript at first glance, but the color change in the portion corresponding to the iris multi-layer film was As a result, it was easily determined that the product was a duplicate.

It is a top view which shows one Embodiment of the forgery prevention sticker which concerns on this invention. It is sectional drawing in the XX line of the forgery prevention sticker shown in FIG. It is sectional drawing which shows other embodiment of the forgery prevention sticker which concerns on this invention. It is a top view which shows one Embodiment of the forgery prevention medium which concerns on this invention. FIG. 5 is a cross-sectional view taken along line YY of the forgery prevention medium illustrated in FIG. 4.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 1 'Anti-counterfeit sticker 2 Anti-counterfeit medium 11, 21 1st iris multilayer film 12, 22 2nd iris multilayer film 13, 23 1st light absorption layer 14, 24 2nd light absorption layer 15 25 Adhesive layer 16 Adhesive layer

Claims (7)

A first light absorption layer having light absorption is partially provided between the first iris multilayer film and the second iris multilayer film in which two or more kinds of thin films are alternately laminated to generate optical interference. The first iris multilayer film and the second iris multilayer film have different thicknesses, and the first iris multilayer film and the second iris multilayer film are adhesive layers. And a second light-absorbing layer having light absorptivity is provided on the surface of the second iris multi-layer film that is not in contact with the adhesive layer from the first light-absorbing layer side. An anti-counterfeit medium characterized in that it is provided so that there is at least a region that does not overlap with a region where the first light absorption layer is formed when observed. The forgery prevention medium according to claim 1 , wherein the first light absorption layer is provided in a pattern. The medium for preventing forgery according to claim 1 or 2, characterized in that the second light-absorbing layer is provided in a pattern. The first and the light-absorbing layer and the second light-absorbing layer, the shape, size, number, to any of claims 1 to 3, characterized in that any one or more of the arrangement is different The forgery prevention medium described. The forgery prevention medium according to any one of claims 1 to 4 , wherein a thickness of the adhesive layer is larger than a thickness of each thin film constituting the iris multilayer film. The said 1st and 2nd iris multilayer film comprises at least an iris multilayer section in which two or more kinds of thin films are alternately laminated to generate optical interference. 6. A forgery prevention medium according to any one of 5 to 5 . The adhesive layer is provided in the outermost layer of the anti-counterfeit medium according to any one of claims 1 to 6 on the side where the second light absorption layer is provided when viewed from the first light absorption layer . Anti-counterfeit sticker characterized by that.