JPH0844837A - Medium for certificate and circulating path discriminating method for the same - Google Patents

Abstract

PURPOSE:To discriminate the truth/false of a light diffraction pattern and to recognize the channel of the illegal flowing-out of the light diffraction pattern. CONSTITUTION:For the medium 10 for certificate, a light diffraction pattern expressed in an uneven surface pattern is formed together with the display of the certificate information of its owner. The medium 10 for certificate is provided with a certificate information display layer 21 for displaying the certificate information and a light diffraction pattern forming layer 30 for forming a first image to be reproduced by white light and a second image which is not visible but can be reproduced only by prescribed monochroic light and contains the circulation information of the light diffraction pattern.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cash card on which an optical diffraction pattern such as a hologram or a diffraction grating is formed,
The present invention relates to a certification medium such as a credit card and a method for determining a distribution route of the certification medium.

[0002]

2. Description of the Related Art A hologram, which is one of optical diffraction pattern recording bodies, is a recording body in which wave information of light is recorded by a holographic technique and can reproduce a three-dimensional three-dimensional image. Conventionally, a light diffraction pattern has a hologram, a diffraction grating, or the like, and is formed by a method of photographing an interference fringe formed by object light and reference light. The light diffraction pattern is a laser light reproduction type in which an image is reproduced by irradiating monochromatic light such as the same laser light as the reference light, and a white light reproduction type in which visible light is visible and can be reproduced by white light. Is known. Further, as the form of the light diffraction pattern, another surface unevenness pattern is recorded by superposing it on the surface on which one surface unevenness pattern is recorded,
A so-called multiple-exposure type is known (Japanese Patent Laid-Open No. S59-59).
No. 154482).

Holograms, which are one of the light diffraction patterns, are generally difficult to manufacture, and therefore have the advantage of high anti-counterfeiting effect. Therefore, for example, by forming a hologram on a cash card, a credit card, or the like, it is widely used to enhance the security of the card itself.

Further, there is known a confirmation method in which, when a hologram of a laser beam reproducing type is recorded on a cash card or the like, a reproduced image obtained by irradiating the hologram with a laser beam is formed on a screen (Japanese Patent Laid-Open No. 2000-242242). 58-92596
Issue).

[0005]

However, in the above-mentioned conventional hologram, a transfer foil for transferring the hologram may be loaded into a dedicated printer for use, or the user may process the transfer foil. . Therefore, there is a problem that the hologram is forged, such as illegally obtaining and using the transfer foil.

The present invention has been made in order to solve the above-mentioned problems, and it is possible to determine the authenticity of a light diffraction pattern and to know the route of illegal outflow of the light diffraction pattern. The purpose is to do.

[0007]

In order to achieve the above-mentioned object, the invention of claim 1 displays the certification information of the owner and the certification in which the light diffraction pattern represented by the surface unevenness pattern is formed. A medium for certification, which is a certification information display layer for displaying the certification information, a light diffraction pattern on which a first image reproducible by white light is formed, and a light diffraction pattern which is formed so as to overlap with the light diffraction pattern and is invisible. A light diffraction pattern forming layer having a second image which is an image reproducible only with predetermined monochromatic light and which contains distribution information of the light diffraction pattern. The invention according to claim 2 is a certification medium in which the certification information of the owner is displayed and a light diffraction pattern represented by a surface uneven pattern is formed.
A certification information display layer for displaying the certification information, a first image reproducible with white light is formed in the first region, and the image is invisible and reproducible only with predetermined monochromatic light. The second image including the distribution information of the light diffraction pattern includes a light diffraction pattern forming layer formed in the second region. A third aspect of the present invention is a method for determining a distribution route of a certification medium that displays certification information of an owner, wherein only a first image reproducible by white light and an invisible and predetermined monochromatic light are used. A second image, which is a reproducible image and contains distribution information of the certification medium, is provided on the certification medium with a light diffraction pattern represented by an uneven surface pattern, and the light diffraction pattern is provided when the certification medium is handled. The distribution route of the certification medium is determined by reading the distribution information by irradiating the pattern with the predetermined monochromatic light.

[0008]

According to the present invention, a monochromatic light reproducing type light diffraction pattern whose image is reproduced by monochromatic light and a white light reproducing type light diffraction pattern whose image is reproduced by white light are subjected to multiple exposure. It Further, in the invention of claim 2, the above-mentioned two types of light diffraction patterns are formed by being divided into respective regions. Further, in the monochromatic light reproduction type light diffraction pattern, distribution information such as a manufacturing company name and a use company name is recorded. Therefore, when the certification medium is used, the authenticity of the certification medium can be determined by reading the circulation information. Furthermore, when the certification medium is forged, the unauthorized outflow route can be known by knowing the distribution information. Further, since this distribution information is a light diffraction pattern that is reproduced only with monochromatic light and is not visible, it is possible to secure its concealing property. According to the invention of claim 3, the distribution information of the certification medium is recorded in the light diffraction pattern which can be reproduced only by monochromatic light, and the distribution information is reproduced when the certification medium is handled. The authenticity of can be easily discriminated, and the outflow route can be known when the certification medium is forged.

[0009]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a sectional view showing the structure of an embodiment of a certification medium according to the present invention. The certification medium 10 of this embodiment is composed of a medium portion 20 and a light diffraction pattern forming layer 30 formed on the medium portion 20. Examples of the medium unit 20 include a cash card, a credit card, a passbook, a passport, and a driver's license. A certification information display layer 21 is formed on the base body 20. The certification information display layer 21 is a layer that displays certification information (including individual information) of the owner of the certification medium 10. The proof information includes the photograph of the owner, a signature,
Address, name, registration number, etc. can be given. Examples of the method for forming the certification information display layer 21 include sublimation transfer, handwriting, printing by a printer, embedding of a photograph, embossed characters, and the like.

The light-diffraction pattern forming layer 30 is formed with a surface uneven pattern (light diffraction pattern) capable of reproducing a two-dimensional or three-dimensional image. Can also be used. Examples of the surface concavo-convex pattern include a relief hologram and a relief diffraction grating in which the light intensity distribution of interference fringes due to the interference of the object light and the reference light is recorded in a concavo-convex pattern. In particular, the light diffraction pattern forming layer 30 in this embodiment includes a laser light reproduction hologram (Fresnel hologram, Fraunhofer hologram, lensless Fourier transform hologram, image hologram, etc.) and white light reproduction hologram (rainbow hologram, diffraction grating, etc.). And are recorded multiple times. In addition, in addition to this, a color hologram using a hologram principle, a computer hologram, a hologram display, a multiplex hologram, a holographic stereogram, a holographic diffraction grating using a hologram recording means, an electron beam drawing device, or the like is used. It is also possible to use a hologram, a diffraction grating, or the like that can obtain an arbitrary diffracted light based on the calculation by making a diffraction grating.

In FIG. 1, an optical diffraction pattern forming layer 30 is provided.
Is provided on the medium section 20, and the relief layer 31
And a reflective layer 32 and an adhesive layer 33. The relief layer 31 is formed of a synthetic resin capable of imparting a fine uneven shape of the light diffraction pattern. Examples of the synthetic resin include thermoplastic synthetic resins such as polyvinyl chloride and acrylic, thermosetting synthetic resins such as unsaturated polyester and melamine, or a mixture thereof. The relief layer 31 having the above structure is applied and formed to have a thickness of about 0.1 to 100 μm by a coating method such as a gravure coating method or an offset printing method. In the examples, as the material of the relief layer 31, a mixture of melamine and acrylic or an acrylic resin was used.
This synthetic resin is preferable because it can emboss the minute irregularities of the light diffraction pattern by hot pressing and cures after embossing to produce sufficient durability. Then, this synthetic resin was formed to a thickness of 3 μm.

The reflective layer 32 is for imparting reflectivity to the image of the light diffraction pattern. As the reflective layer 32,
Examples thereof include those having reflective transparency and those having opacity. In this embodiment, the certification information display layer 21
When the light diffraction pattern forming layer 30 is provided on the reflective layer 32, the reflective layer 32 needs to have reflective transparency in order to make the image of the certification information display layer 21 visible. The material of the reflective layer 32 having reflective transparency is a relief layer 31.
And a continuous thin film of a substance having a different refractive index or a metal thin film. The thickness of the continuous thin film is usually 100 to 10,000.
Angstrom. As a method for forming a continuous thin film on the relief forming surface of the relief layer 31, a vacuum vapor deposition method,
Examples of the thin film forming method include a sputtering method and an ion plating method. In the example, TiO _x was formed to a thickness of 400 Å. Further, Al, Cr or the like is used as the material of the opaque reflective layer 32, which can be formed by sputtering, ion plating, or plating, and the thickness thereof is 200.
It is preferably ˜1000 Å. When the opaque reflective layer 32 is provided, the image of the light diffraction pattern becomes opaque and exhibits a silver color.

The adhesive layer 33 is the light diffraction pattern forming layer 3
0 is attached to the medium unit 20. As a material forming the adhesive layer 33, an acrylic resin, a copolymer thereof, a styrene-butadiene copolymer, natural rubber, casein, a phenol resin, a styrene resin, or the like can be used. Further, a heat-sensitive adhesive such as polyethylene or polyvinyl acetate, which has adhesiveness by heating, can be used. The adhesive layer 33 is provided by applying it by silk printing or the like, and is several to several tens of μm.
It is formed to have a thickness of a certain degree. In the example, the acrylic mixed resin was formed to a thickness of 3 μm.

Next, a method of manufacturing the light diffraction pattern will be described. FIG. 2 is a diagram for explaining an example of a method of manufacturing a light diffraction pattern. First, as shown in (a) of the figure, a master hologram is obtained by irradiating a photosensitive material 41 with object light 44 obtained by irradiating a subject 42 with laser light 43 and reference light (laser light) 45. (41A) is produced. Next, as shown in (b) in the figure, a slit 46 in the horizontal direction is formed on the master hologram 41A, and a reference light 47 which is conjugate with the reference light 45 is applied to the master hologram 41A to reproduce a subject image on the hologram dry plate 48. Then, the reference light 49 is applied to this to record a hologram. Next, as shown in (c) in the figure, a mask 50 recording distribution information of the certification medium,
The scattering plate 51 is arranged in close proximity, the illumination light 52 is directed to the mask 50 via the scattering plate 51, and the object light 53 passing through the opening 50a formed in the mask 50 is converted into the hologram dry plate 4.
Then, the reference light 54 is irradiated onto the light source 8. Here, the distribution information is displayed by the opening shape of the opening 50a of the mask 50. The distribution information means the light diffraction pattern forming layer 3
It is information such as the name of the manufacturing company of 0 and the name of the company that uses the certification medium 10.

When the hologram dry plate 48 manufactured as described above is developed, an uneven shape is formed on this surface. An embossed stamper is manufactured from this uneven shape.
Then, as shown in (d) in the figure, the embossing stamper 55 is embossed on the material 56 (transfer sheet) to be embossed,
That is, thermocompression bonding is performed. By this embossing, a surface uneven pattern is formed on the relief layer 31. The material 56 to be embossed is a release layer 56 made of an acrylic resin or the like on a PET 56a having a thickness of about 25 μm which is a support material.
b and the above-mentioned relief layer 31 are sequentially laminated. When the material 56 to be embossed is a transfer seal, it is not necessary to provide the peeling layer 56b. Next, the above-mentioned reflective layer 32 is formed on the relief layer 31 on which the surface uneven pattern is formed. Further, the adhesive layer 33 is formed (glued) on the reflective layer 32. Thereby, the light diffraction pattern forming layer 30 is formed. When the light diffraction pattern forming layer 30 is a transfer sheet, it is transferred to the medium portion 20 using a transfer device or the like, and when it is a seal, the medium portion 20 is used.
Pasted on top.

The light diffraction pattern forming layer 30 has two different layers.
Two images are formed. That is, in FIG. 2, (a)
The image formed in steps (b) to (hereinafter referred to as “first image”)
Say. ) Is a rainbow hologram that can be reproduced (visible) by white light, and the image formed at the step (c) in the figure (hereinafter referred to as “second image”) is not visible and is a laser beam. It is a reproducible hologram only. Therefore, generally only the first image is visible.

Next, a method of using the certification medium 10 will be described. When the certification medium 10 is handled (for example, when used), the authenticity of the certification medium 10 is determined by visually observing the first image as in the conventional hologram. Further, the image reading device of the light diffraction pattern forming layer 30 irradiates the second image including the distribution information of the light diffraction pattern forming layer 30 with the laser light to read the second image. Here, if the second image is formed as a coded machine-readable hologram, the distribution device can check the distribution information.

When a counterfeit version of the light diffraction pattern forming layer 30 is flowing out, the distribution information is checked to confirm the manufacturer name of the light diffraction pattern forming layer 30 or the certification medium 10. It is possible to determine which company name is used forgery, and to know the unauthorized distribution route.

In the embodiment, the light diffraction pattern obtained by multiple exposure of the laser light reproduction hologram and the white light reproduction hologram is used. However, as conceptually shown in FIG. A laser beam reproduction hologram 3
It is also possible to form the 1a and the white light reproduction hologram 31b by dividing them into regions by superposing a mask for limiting the recording region on the hologram dry plate 48 in each step of (b) and (c) of FIG. . Further, when the counterfeiter tries to find such distribution information, usually, the entire surface of the light diffraction pattern forming layer 30 is irradiated with reproduction light. Therefore, it is effective to record the main information in one of the divided areas and record the disturbance information in which the reproduced image and the reproduced image overlap each other. When reproducing only this information, the reproduction light may be narrowed or only a specific area (for example, a part of the area divided into a mesh) may be masked.

Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment,
Various modifications are possible without departing from the spirit of the invention. For example, the certification information display layer 21 is formed on the medium section 20, but the invention is not limited to this, and it may be formed on the adhesive layer 33 side of the light diffraction pattern forming layer 30.

[0021]

According to the first and second aspects of the present invention, the monochromatic light reproducing light diffraction pattern and the white light reproducing light diffraction pattern are respectively recorded by multiple recording and area division, and the monochromatic light reproducing light diffraction pattern is recorded. Since the distribution information is included in the pattern, the distribution information can be concealed and the authenticity of the certification medium can be determined by reading the distribution information when the certification medium is used. Further, when the certification medium is forged, the reverse detection function can be exhibited, in which the outflow route can be known by knowing the distribution information. According to the invention of claim 3, since the circulation information is reproduced when the certification medium is handled, the authenticity of the certification medium can be easily discriminated and the certification medium is forged. Can know the outflow route. This makes it possible to prevent counterfeiting of the certification medium.

[Brief description of drawings]

FIG. 1 is a sectional view showing a configuration of an embodiment of a certification medium according to the present invention.

FIG. 2 is a diagram for explaining an example of a method of manufacturing a light diffraction pattern.

FIG. 3 is a diagram schematically showing another embodiment of the light diffraction pattern forming layer according to the present invention.

[Explanation of symbols]

 10 Proof Medium 20 Medium Part 30 Optical Diffraction Pattern Forming Layer 31 Relief Layer 32 Reflective Layer 33 Adhesive Layer

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location G03H 1/18 G06K 19/10 G07F 7/08 G07F 7/08 Z

Claims (3)

[Claims] 1. Displaying the certification information of the owner,
A certification medium in which a light diffraction pattern represented by a surface uneven pattern is formed, wherein a certification information display layer displaying the certification information, and a light diffraction pattern formed with a first image reproducible by white light. And a second image which is superposed on the light diffraction pattern and which is invisible and can be reproduced only by a predetermined monochromatic light, and a second image including distribution information of the light diffraction pattern is formed. A certification medium comprising a layer. 2. Displaying the certification information of the owner,
A certification medium in which a light diffraction pattern represented by an uneven surface pattern is formed, wherein a certification information display layer for displaying the certification information and a first image reproducible by white light is formed in a first region. And a light diffraction pattern forming layer in which a second image which is invisible and can be reproduced only by a predetermined monochromatic light and which contains distribution information of the light diffraction pattern is formed in the second region. A proof medium characterized by the following. 3. A method for determining a distribution channel of a certification medium for displaying certification information of an owner, wherein a first image reproducible by white light and an invisible and predetermined monochromatic light are reproducible. The second image including the circulation information of the certification medium is provided on the certification medium with the second image including the distribution information of the certification medium, and the light diffraction pattern is formed on the certification medium when the certification medium is handled. A method for determining a distribution route of a certification medium, which comprises determining the distribution route of the certification medium by reading the distribution information by irradiating with the predetermined monochromatic light.