JP4249494B2 - Medium using information generation pattern by optical diffraction structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to hidden information by a diffraction grating for generating new information in combination with information to be displayed separately.
[0002]
[Prior art]
The light diffractive structure is used not only for viewing and as a one-point design, but also incorporated in a part of a design such as a cash voucher and used for forgery prevention or copy restraint.
For example, for the purpose of preventing forgery, a light diffraction structure on which a hologram or a pattern by a diffraction grating is formed is used as a thermal transfer foil, and transferred to a plastic card, a gift certificate, or a high-priced prepaid card. The reason why it is used as an anti-counterfeiting means is that it is difficult to duplicate the same object because the optical diffraction structure is extremely technically manufactured.
[0003]
In the above-mentioned usage example, the light diffraction structure formed as part of the design of the voucher is visually identified, and it is determined whether or not it is the same as the real thing notified in advance. However, there is also an embodiment in which authenticity is determined by reading a laser reproduction pattern formed on a part of the light diffraction structure with a dedicated device.
The laser reproduction pattern may be a character, symbol, or pattern that is projected on a screen and visually discerned, or a barcode that is read mechanically by a dedicated device itself.
[0004]
In addition, a technique is disclosed in which a plurality of holograms are formed in a multiplexed manner, light transmission holograms therein and laser reproduction holograms are reproduced in the apparatus, and these are combined to generate identification information (see Patent Document 1). ).
[0005]
[Patent Document 1]
JP-A-6-282216 [0006]
[Problems to be solved by the invention]
The above-described technique reads out the hidden pattern incorporated in the light diffraction structure using an apparatus and determines whether the pattern is a predetermined pattern, and requires a dedicated determination device.
Moreover, the incorporated pattern itself was simply determined.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a medium using an information generation pattern by the light diffraction structure of the present invention is achieved by the following aspects.
That is, the present onset Ming is formed a pattern including an optical diffractive structure on the media substrate, said pattern comprises a plurality of partial patterns, first the during each partial pattern visual information is formed pattern And the second pattern in which hidden information is formed and the first pattern and the background pattern having background information other than the second pattern are formed by different diffraction gratings, and the second pattern is discriminated. It comprises a diffraction grating in which predetermined information appears as a moire pattern depending on the tool, and further, auxiliary information for decrypting the information encrypted by the visual information and the hidden information is provided on the medium substrate. It is what.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
The information generation pattern by the light diffraction structure of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram for explaining an embodiment of a medium using an information generation pattern by the light diffraction structure of the present invention, and FIG. 2 is a method for discriminating hidden information formed in the light diffraction structure of FIG. FIG. 3 is a diagram for explaining the relationship between visual information and hidden information, FIG. 4 is an enlarged view of a partial pattern of FIG. 1, and FIG. 5 is a diagram for explaining FIG. FIG. 6 is a diagram for explaining different application examples, FIG. 6 is a diagram for discriminating hidden information by placing a discriminator on the upper part of the information generation pattern by the light diffraction structure, and FIG. 7 is a diagram for explaining an embodiment of the discriminator. FIG. 8 is a diagram for explaining a cross section of the discriminator, FIG. 9 is a diagram for explaining an aggregate of bands in which two diffraction gratings forming a pair are formed, and FIG. On the density of stripes composed of bands FIG. 11 is a diagram for explaining an example of a band, FIG. 12 is a diagram for explaining an example of a diffraction grating formed on the band, and FIG. 13 is an auxiliary explanatory diagram of FIG. .
[0012]
With reference to FIG. 1, an embodiment of a medium using an information generation pattern by the light diffraction structure of the present invention will be described.
The embodiment described here is an example of an application in which, for example, a member decrypts a phone number displayed in a cipher to apply for a quiz or the like.
In order to decrypt the code, the arrow hidden in the light diffraction structure must be identified. The discriminating tool for this discrimination (see FIG. 7) is, for example, sent in advance or distributed so that only members can use it at a designated location.
[0013]
In FIG. 1, a pattern 11 including a light diffraction structure is formed on a medium substrate 10 using a film such as paper, metal, or plastic.
The third information (auxiliary information for decoding the third information by using the visual information of the pattern 11 including the light diffraction structure and the hidden information 111 hidden in the pattern of the light diffraction structure) A third information display field 12 including information) is formed by means such as printing.
The dedicated discriminator shown in FIG. 7 is used to discriminate the arrow of the pattern including the light diffraction structure, starting from the start position of the arrow (in the figure, the visual information 1 is the start position). And add abcdefghhi and reading in order from the right end of the number.
According to the description of the third information display field 12 including the auxiliary information, the telephone number (03)-“ghff-dcei” displayed in the lowermost part is decoded.
[0014]
The pattern 11 including the light diffraction structure is composed of nine partial patterns 110. The partial pattern 110 includes hidden information 111, a background pattern 112, and visual information 113.
The hidden information 111 and the background pattern 112 are formed of a diffraction grating, and the hidden information 111 cannot be determined in a normal viewing state.
In order to discriminate the hidden information 111 from the background information 112, the dedicated discriminator is required.
The visual information 113 may be a light diffractive structure, a display by normal printing, or a white surface of the medium substrate 10.
[0015]
With reference to FIG. 2, the procedure for discriminating the hidden information formed in the optical diffraction structure of FIG. 1 by the discriminator will be described.
When the discriminating tool 2 is put on the pattern 11 including the light diffraction structure in FIG. 1 in a state of close contact, the discriminating tool 2 displays an arrow as the hidden information 111 as a moire pattern.
A right-pointing arrow (hidden information 111) is hidden in the partial pattern 110 on which the visual information 2 is displayed, and a downward arrow (hidden information 111) is hidden on the partial pattern 110 on which the visual information 3 and the visual information 6 are displayed. You can see that
[0016]
The relationship between visual information and hidden information will be described with reference to FIG. As can be seen from FIG. 3, the relationship between the visual information of each partial pattern and the direction of the arrow of the hidden information is in the order of “123698745”.
[0017]
Knowing the relationship between the above-mentioned visual information and hidden information, the encrypted telephone number shown in the third information display column 12 including the auxiliary information in FIG. 1 is decrypted.
As shown in FIG. 13, by replacing the sequence of digits of the visual information a sequence of arrows, further by assigning the right-most digit of alphabetic characters according to the instructions of the auxiliary information of FIG. 1, the "ghff-dcei" telephone number It turns out that it becomes "3266-8791" when converted into a number.
[0018]
FIG. 4 is an enlarged view of the partial pattern 110 of FIG. 1. As described with reference to FIG. 1, the hidden information 111 is incorporated as a diffraction grating pattern in the background pattern 112 by the diffraction grating. 111 and the background pattern 112 can not determine the boundaries of both the state of visual observation.
The hidden information 111 and the background pattern 112 are each composed of band-like pixels, and can be discriminated by changing the band incorporation angle.
Further, the visual information 113 is formed as a portion where the diffraction grating is not formed, is provided with a contrast with the background pattern 112 by changing the pitch of the diffraction grating, etc. can do.
[0019]
FIG. 5 shows an application example different from that shown in FIG. 1 except that a card displaying “two stars” in the normal visual information 113 is enclosed in a mail medium sent by direct mail. It is understood that the member who owns “5 stars”. If it is written in the appendix that “Three stars or more can receive discount benefits, please bring this case and come to the store”, you know that the person who brought the card is a member Can be used for play, etc.
[0020]
In FIG. 6, a light diffraction structure 11 is formed on the surface of a medium substrate (hereinafter referred to as a printed product) 10 with an adhesive 13.
When hidden information is incorporated in the light diffractive structure, if the discriminating tool 2 for discriminating the hidden information by the light diffractive structure is brought close to the printed matter 10 at a predetermined angle, the hidden information incorporated in the light diffractive structure. Is displayed on the discriminator 2 in a moire state.
In applications such as anti-counterfeiting, when a pattern displayed in a moire state is a predetermined pattern, the printed material is determined to be a legitimate product (genuine product) supplied from a correct supplier.
Since the light irradiated to the hidden information of the printed material must pass through the discriminator 2 and reach the eyes 3 of the observer, a transparent base substrate is used for the discriminating pattern of the discriminator.
Further, since the discriminating tool is frequently used, it is used in a state where the base substrate is fixed with a strong frame material. This frame member has a handle to prevent the transparent base substrate of the discriminator 2 from being stained with fingerprints or oil.
[0021]
When discriminating the hidden information, the discriminator 2 is discriminated so as to be close to the printed matter 10.
The hidden pattern can be discriminated from the close contact state up to a certain distance. However, since the moire phenomenon is used, it is difficult to discriminate if the distance between the light diffraction structure 11 and the discriminator 2 is too large. become.
Further, since the light that causes the moire of the hidden information to be generated in the discriminator 2 becomes light incident from the direction of the eyes 3 shown in FIG. 6, it is preferable that the base material has high transparency.
[0022]
An embodiment of the discriminator will be described with reference to FIG.
The discriminator 2 is obtained by cutting a transparent film on which a discriminating pattern is formed into a predetermined size and reinforcing it with a tough frame.
In some cases, a handle is provided so that fingerprints or the like are not attached to the surface of the film on which the discrimination pattern is formed so that discrimination is easy.
[0023]
With reference to FIG. 8, an example of the cross section of the discrimination | determination film 20 in which the discrimination | determination pattern of the discrimination tool 2 is formed is demonstrated.
The discriminating tool fixes the discriminating film 20 on which the discriminating pattern is formed as described above with a frame made of synthetic resin or the like.
A colored material layer 23 is formed on one side of the transparent substrate 21 via a transparent adhesive layer 22. Depending on the method of creating the discrimination pattern, the transparent adhesive layer 22 may be coated on the entire color material layer side of the transparent substrate and integrated with the transparent substrate. Therefore, the adhesive needs to be transparent.
Although not shown, a protective layer is provided on the surface of the colored material layer 23 as necessary.
[0024]
The discrimination pattern is formed by a method such as photolithography, etching, printing, or transfer. When it is desired to increase the formation accuracy of the line width between the colored straight line portion and the transparent straight line portion, the photoengraving method and the etching method are selected. If the required accuracy is relatively low, the printing and transfer methods are selected. Etching is a metal film exposed on a thin metal film formed on the entire surface of the transparent substrate, with a photosensitive resin coating and then a plate-making film on which a discrimination pattern is baked, and washing away unexposed areas. Is melted by corrosion to form a transparent straight portion.
[0025]
The material of the transparent substrate can be selected from synthetic resins such as polyethylene, polypropylene, polystyrene, polyester (polyethylene terephthalate), polyvinyl chloride, polyvinyl acetate, and methacrylic resin.
The transparent substrate 21 is made of a thicker base material for a synthetic resin that does not lose transparency even if it is thick, and a thin base material is selected for a synthetic resin whose transparency is reduced by increasing the thickness.
[0026]
The material of the adhesive is selected according to the material of the transparent substrate to be selected.
It can be selected from known adhesives such as acrylic resins, vinyl resins, polyester resins, urethane resins, amide resins, epoxy resins, rubber resins, and ionomer resins.
The thickness of the adhesive layer 101 is selected in the range of 0.1 to 50 μm depending on the material to be selected.
[0027]
The color of the colored material layer 23 differs depending on the material forming method. In the case of the photoengraving method, the color is a black silver salt, and in the case of etching, it is a ground color of a metal such as silver, gold, or copper formed by a method such as sputtering. .
In the case of printing, a color can be freely selected for forming by a silk screen printing method or the like. Also, in the case of transfer, the color can be freely selected.
In general, the discrimination tool selects a color close to black, which is easy to discriminate moire because it is discriminated by moire.
[0028]
Next, an example of a fringe formed by a diffraction grating formed as hidden information will be described with reference to FIG.
The stripe 1120 in FIG. 9 is based on a band 1110 having a light diffraction structure formed at a predetermined diffraction angle or pitch, and a light diffraction structure formed at a different diffraction angle or pitch with respect to the band 1110. It is composed of a band 1111.
The band 1110 formed of a horizontal line is formed, for example, at a diffraction angle of 0 degrees, and the band angle is formed at 45 degrees. Further, the band 1111 formed of vertical lines is formed with a diffraction angle of 90 degrees, for example, and the band angle is formed with 45 degrees.
[0029]
As shown in FIG. 10, when the width of the stripe 1120 described in FIG. 9 is set to 0.2 mm or less, five or more stripes are inserted into 1 mm, and more pixels forming hidden information are added. It can be incorporated into the background pattern in a state that is difficult to discriminate, and the concealment effect can be enhanced.
[0030]
With reference to FIG. 11 and FIG. 12, the fringes formed by the diffraction grating will be described.
When the portion A of the band 1111 constituting the stripe shown in FIG. 11 is enlarged, as shown in FIG. 12, a plurality of diffraction grating structural units (pixels) 1100 are formed inside the band 1111.
These pixels 1100 are regularly arranged with the same diffraction angle and the same pitch for one band.
[0031]
As an example of setting the pitch or diffraction angle of the constituent unit of the diffraction grating, for example, when the pitch of the constituent unit 1100 is p1 and the diffraction angle is β1 with respect to the band 1110, the other band 1111 (FIG. 9), the pitch of the structural unit 1100 is p1, and the diffraction angle is β2.
As described above, when the fringe is formed by changing the diffraction angle and pitch of the diffraction grating, either one of the elements is made the same, and the other element is changed.
The same effect can be obtained by a combination of changing two elements.
[0032]
In this way, the hidden information is constituted by a set of stripes having an angle α with respect to the horizontal line, and the background pattern is constituted by stripes intersecting at right angles to the stripes constituting the hidden information.
By making the pixels of the diffraction grating constituting the background pattern have similar contents to the hidden information, the hidden information can be made more difficult to distinguish by ordinary visual means.
When the discriminating pattern stripe angle of the discriminator is set to the same angle as the stripe mounting angle where the hidden information is formed when the discriminator is overlaid on the hidden information of the printed matter, moire is generated and hidden by the discriminator. Information can be determined.
[0033]
【The invention's effect】
According to the present invention, a pattern including a light diffractive structure is formed on a medium substrate , the pattern includes a plurality of partial patterns, and a first pattern in which visual information is formed in each partial pattern and a discriminator Provided with a second pattern formed with hidden information determined by , and further provided with auxiliary information for decrypting the visual information and information encrypted by the hidden information on the medium substrate, Since the encrypted information is decrypted from the first pattern, the second pattern, and the auxiliary information, the information on the medium is difficult to discriminate under normal conditions, so that the hidden information is more secure. Can be used as a cryptographic element.
Further, according to the present invention, the hidden information formed in the second pattern is discriminated by the discriminator, so that the discriminator can be handled as a common key .
[Brief description of the drawings]
FIG. 1 is a diagram for explaining an embodiment of a medium using an information generation pattern by an optical diffraction structure of the present invention.
FIG. 2 is a diagram for explaining a procedure for discriminating hidden information formed in the light diffraction structure of FIG. 1 by a discriminator.
FIG. 3 is a diagram for explaining a relationship between visual information and hidden information.
4 is an enlarged view of the partial pattern of FIG.
FIG. 5 is a diagram for explaining an application example different from FIG. 1;
FIG. 6 is a diagram for discriminating hidden information by placing a discriminator on top of an information generation pattern based on an optical diffraction structure.
FIG. 7 is a diagram for explaining an embodiment of a discriminator.
FIG. 8 is a diagram for explaining a cross section of a discriminator.
FIG. 9 is a diagram for explaining an aggregate of bands in which two diffraction gratings forming a pair are formed.
FIG. 10 is a diagram for explaining the density of stripes composed of bands.
FIG. 11 is a diagram for explaining an example of a band;
FIG. 12 is a diagram for explaining an example of a diffraction grating formed in a band.
FIG. 13 is an auxiliary explanatory view of FIG. 1;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Medium using the information generation pattern by the light diffraction structure of this invention 2 Discriminating tool 3 Eye of discrimination means 10 Media base | substrate 11 (Information generation) pattern 12 containing a light diffraction structure 3rd information display column 13 containing auxiliary information Agent 20 Discriminating tool discriminating film 21 Transparent substrate 22 Adhesive 23 Colored material layer 110 Partial pattern 111 Hidden information, hidden pattern, second pattern 112 Second pattern background pattern 113 Visual information, first pattern 1000 Border 1100 Pixel 1110, 1111 Band 1120 Stripe

Claims (1)

A pattern including a light diffraction structure is formed on the medium substrate,
The pattern is composed of a plurality of partial patterns, and each partial pattern includes a first pattern in which visual information is formed, a second pattern in which hidden information is formed, the first pattern, and the second pattern. The background pattern other than the pattern of the background information is formed by different diffraction gratings,
The second pattern is a diffraction grating in which predetermined information appears as a moire pattern by a discriminator.
Furthermore, the medium using the information generation pattern by the light diffraction structure characterized by providing auxiliary information for decoding the information encrypted by the visual information and the hidden information on the medium substrate.

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