JP5239028B2 - Authenticity discriminator and authenticity discriminator pair and method for discriminating between them - Google Patents

Description

  The present invention relates to valuable printed matter having asset values such as banknotes, stock certificates, securities, lotteries, passports, and the like, and aims to prevent forgery, alteration, alteration, and the like.

  Conventionally, various security techniques have been used for valuable printed matter such as banknotes having various asset values, various securities, and passports in order to beneficially retain the value of the printed matter. Commonly used as security technology are holograms, threads printed with micro characters, paper with watermarks, functional inks such as optically changing ink (OVI), offset printing, screen printing, Printing techniques such as intaglio printing, unique image line layout, etc. are mentioned, and these are effectively combined to improve the deterrence effect of counterfeiting, alteration, tampering and the like.

  Among these anti-counterfeiting technologies, using printing technology and processing technology to various base materials, in one region, only patterns and information given to that region are recognized, but by using a discriminator Technologies that can recognize new information are widely disclosed. However, for true / false discrimination using these discriminators, it is possible to perform true / false discrimination with a simple discriminator, while true / false discrimination cannot be performed in situations where no discriminator is available. There was a problem.

  Therefore, in order to enable easy and reliable verification without separately preparing a discriminator for authenticity discrimination, the line ratio is 1 at three corners on a single paper substrate. : 1 and a latent image pattern composed of parallel lines having the same pitch is formed, and a non-latent image pattern in a line shape is formed at one target corner by the latent image pattern and the folding line. And a latent image pattern in which a watermark printing layer is applied to a portion of the non-latent image pattern, and each latent image pattern and the non-latent image pattern are aligned with the folding line, thereby making it possible to visualize the latent image pattern and determine the authenticity An image forming body having the above is disclosed (for example, see Patent Document 1).

  In addition, unevenness formed by a pair of convex portions and concave portions is arranged at regular intervals on the surface of the sheet where the sheet itself is folded in two, and the horizontal, vertical, and height dimensions of the convex portions are arranged. By changing the sheet itself, the sheet itself is folded in half, the unevenness is overlapped, and the special sound generated when rubbing each other in the horizontal direction creates a special sound that can be identified without the need for complicated judgment equipment etc. It is disclosed (for example, see Patent Document 2).

  In addition, in a printed material having a first region and a second region including a region printed with infrared absorbing ink, the printed material is folded at a predetermined folding position, and a region where the first region and the second region overlap is formed. Forming and irradiating infrared light with a discriminating device having a detection unit comprising a light irradiation unit and a light receiving unit, receiving infrared transmitted light in the overlapped region, detecting at least one feature data, and storing it in advance A method is disclosed in which the authenticity of a printed matter is determined by comparison with a reference level that has been set (see, for example, Patent Document 3).

  Furthermore, although not on the same printed matter, a concave portion on which the first information is printed is formed on one printed matter, and the other printed matter has a shape that can be fitted in the concave portion, and the second printed matter There is disclosed a printed material pair having a tag on which information is printed and expressing the code information by overlapping the first information and the second information by fitting the tag into the concave portion of one printed material (for example, a patent Reference 4).

JP 2007-168356 A JP 2007-268712 A JP 2007-213360 A Japanese Patent No. 4420275

  However, with respect to Patent Document 1, it is possible to visualize the latent image pattern and determine the authenticity by aligning the printed matter with the folding line without preparing a discriminating tool. It is formed by providing a printing layer between the base material itself or the base material where the unevenness formed by the pair of convex parts and concave parts is arranged in a certain arrangement, and the unevenness itself has a latent image pattern. It is not a complicated drawing line configuration. Therefore, if the appearance principle of the latent image pattern is known, there is a problem that the image is forged relatively easily.

  Also, in Patent Document 2, it is possible to perform authenticity determination by preparing a special sound by friction without using a determination tool, by folding the paper itself and overlapping the concaves and convexes. By generating the image, there is an effect particularly for identification for a visually impaired person, and the image is not superimposed and appears.

  For Patent Document 3, two regions formed using a functional material on one printed material are overlapped by folding the printed material at a predetermined folding position, and discriminated against the information formed by the overlapping. The information is determined by using a device, and the information formed in the two areas has a relatively simple configuration. Furthermore, since the information is formed using a functional material called infrared absorbing ink, there is a problem that a special device must be used to confirm the information.

  Furthermore, with respect to Patent Document 4, when forming two pieces of information to form one piece of meaningful information (code information in Patent Document 4), the shape of the recess is used so that meaningful information can be formed reliably. It uses tags with shapes that can be fitted, and it is effective to ensure that information appears by combining two different areas. However, meaningful information can be obtained by overlaying different areas on a single printed matter. Did not appear.

  In view of the above, the present invention allows the first meaningful information to appear by bending the printed matter at a predetermined position without using a special discriminating tool, and further shifting the base material in a certain direction from that state and observing the first meaningful information. With the appearance of 2 meaningful information, more accurate authenticity determination is possible, and the elements for forming the meaningful information are complicated, making it easy to forge. The object is to provide a true / false discriminator. As described above, since the elements for forming meaningful information are complicated, at least two regions are formed on the same base material and folded in order to make the meaningful information appear. It is an object of the present invention to enable true / false discrimination with higher accuracy than in the prior art, not only in the configuration of making it possible, but also in a configuration using separate base materials, so-called discriminators.

In order to solve the above-described problems, the present invention is such that two regions made of concave and / or convex elements are formed on the same surface and / or different surfaces of a substrate, and the two regions are overlapped. In some cases, a false discrimination formation in which two latent image images are visible, and an area composed of concave and / or convex elements is partially phased with concave and / or convex elements. Different areas or different area ratios within the same range can be divided into a latent image forming part and a background part. Of the two areas, the first area has a concave shape and / or a convex shape. 1 element is arranged in a plurality of lines at a first pitch, and of the two areas, the second area is a concave and / or convex second element is a second pitch in a line. A plurality of first latent image images and a second latent image are arranged by the latent image forming unit in the first area. A part of the image is formed at a position separated by a predetermined distance, and the latent image image forming unit in the second region forms a first latent image formed by the latent image forming unit in the first region. Other than the part and the part other than the part of the second latent image formed by the latent image forming unit in the first area are formed at positions separated by the same distance as the predetermined distance, and the first area or the first area A first specifying unit and a second latent image that specify a reference position for forming the first latent image are formed in and / or in the vicinity of one of the two areas. A first reference portion including a second specifying portion for specifying a position serving as a reference for the second reference portion is formed, and the second reference portion corresponding to the first reference portion is formed in the other region and / or in the vicinity of the other region. The first reference portion is formed so that the second reference portion is interposed between the first specific portion and the second specific portion in the first reference portion. When the first specific portion and the second reference portion are in contact with each other by overlapping the region and the second region, the first latent image is formed by the latent image forming unit for forming the first latent image. When the second specific portion and the second reference portion are in contact with each other, the second latent image is formed and visually recognized by the latent image forming portion for forming the second latent image. It is a true / false discriminating body characterized by being able to do so.

  In the authenticity determination formed body of the present invention, the first pitch and the second pitch are the same pitch or a pitch that is a positive integer multiple of the other pitch with respect to one pitch.

  In the authenticity determination formed body of the present invention, the first reference portion is formed by the first element in the first region or by the second element in the second region, The reference portion is formed by the second element in the second region when the first reference portion is formed in the first region, and the first reference portion is formed in the second region. In some cases, the first region is formed by the first element.

  In the authenticity determination formed body of the present invention, the first reference portion is formed by a concave and / or convex element in the vicinity of the first region or the second region, and the second reference portion is When the first reference portion is formed in the vicinity of the first region, the first reference portion is formed by a concave and / or convex element in the vicinity of the second region, and the first reference portion is formed in the second region. When formed in the vicinity, it is characterized in that it is formed of a concave and / or convex element in the vicinity of the first region.

  Further, the authenticity determination formed body of the present invention includes a plurality of arranged first elements, a plurality of arranged second elements, a first reference portion, and a second reference portion including an image line, a halftone dot, and a pixel. It consists of any one of a figure and a character, or those combination.

  Further, the true / false discrimination forming body of the present invention is the first element and / or the second element, in one element among a plurality of elements arranged in a line, an image line, a halftone dot, It consists of a combination of two or more of pixels, figures and characters.

  Further, in the authenticity determination formed body of the present invention, the first element, the second element, the first reference part, and the second reference part are embossed, intaglio printing, screen printing, gravure printing, flexographic printing, letterpress. It is formed by any one or a combination of printing, inkjet printing, laser processing, and penetration.

  Further, in the authenticity determination formed body of the present invention, when the first element and the second element are formed by any of intaglio printing, screen printing, gravure printing, flexographic printing, letterpress printing, and inkjet printing, It is printed with an ink having infrared absorption characteristics.

  In the authenticity determination formed body of the present invention, the first element, the second element, the first reference part, and the second reference part are formed in a convex shape using foamed ink. And

  Further, the present invention irradiates the authenticity determination formed body with infrared light in a state where the base material is bent at a predetermined position and the first region and the second region are overlapped, and the first latent image image Is confirmed, whether the first latent image is confirmed, and whether the second latent image appears when it is shifted to a position separated by a predetermined distance in the first direction. Whether the first latent image and the second latent image can be confirmed is determined as to whether the authenticity determination formed body is true or false.

  Further, the present invention is a method for authenticating a true / false discrimination formed by a discrimination device having at least a detection unit, a storage unit, and a determination unit including a storage unit, an irradiation unit, and a light receiving unit. The first latent image is formed by overlapping the first area and the second area by bending at the position, and the first latent image is inserted into the discriminating device storage section, and the substrate is irradiated with infrared light from the irradiation section The infrared transmission light is received by the light receiving unit, the infrared absorption pattern of the first latent image is detected by the detection unit by the received infrared transmission light, and the infrared absorption pattern of the detected first latent image is stored in the storage unit In the state where the second latent image is formed by shifting it by a predetermined distance in the first direction from the position where the infrared absorption pattern of the first latent image is detected, the first latent image is applied to the substrate. On the other hand, irradiate infrared light and receive infrared transmitted light at the light receiving part. The infrared pattern of the second latent image is detected by the detection unit using the transmitted infrared transmitted light, and the infrared absorption pattern of the detected second latent image is temporarily stored in the storage unit and temporarily stored in the storage unit. Pattern matching between the infrared absorption pattern of both the latent image and the second latent image and the reference pattern for infrared absorption of the first and second latent images stored in advance in the storage unit Compared with each other, authenticity determination is performed.

Furthermore, the present invention is a true / false discrimination formation pair consisting of two formations in which two regions where two latent image images appear by superimposing each other are formed. In one formed body, a plurality of concave and / or convex first elements are arranged at a first pitch in a first line on a substrate in a first region, and the first elements are partially arranged Are divided into a latent image forming portion and a background portion by changing the phase ratio or the area ratio within the same range. In the region 2, a plurality of concave and / or convex second elements are arranged at a second pitch in the form of lines, and the second elements are partially out of phase or within the same range. Different area ratios are divided into a latent image forming part and a background part, and the latent image forming part in the first region A part of the first latent image and a part of the second latent image are formed at positions separated by a predetermined distance, and the latent image in the first region is formed by the latent image forming unit in the second region. Other than a part of the first latent image formed by the image forming unit and a part of the second latent image formed by the latent image forming unit in the first area are the same as the predetermined distance. It is formed at a position separated by a distance, and a position serving as a reference for forming the first latent image is specified in one area of the first area or the second area and / or in the vicinity of one area. A first reference portion including a first specifying portion and a second specifying portion for specifying a reference position for forming the second latent image is formed, and the first reference portion is formed in the other region and / or A second reference portion corresponding to the first reference portion is formed in the vicinity of the region, and the first specifying portion and the second specifying portion in the first reference portion are formed. To form the first latent image when the first specific portion and the second reference portion are in contact with each other by overlapping the first region and the second region so that the second reference portion is interposed therebetween A latent image for forming a second latent image when the second specific portion and the second reference portion are in contact with each other when the first latent image is formed and visually recognized by the latent image forming portion. A pair of authenticity determination formed bodies, wherein a second latent image is formed by the forming unit and can be visually recognized.

  In the authenticity determination formed body pair according to the present invention, the first pitch and the second pitch are the same pitch or one pitch is a positive integer multiple of the other pitch. .

  In the authenticity determination formed body pair of the present invention, the first reference portion is formed by the first element in the first region or by the second element in the second region. When the first reference portion is formed in the first region, the reference portion is formed by the second element in the second region, and the first reference portion is formed in the second region. In this case, the first element is formed in the first region.

  In the authenticity discrimination formed body pair of the present invention, the first reference portion is formed of a concave and / or convex element in the vicinity of the first region or the second region, and the second reference When the first reference portion is formed in the vicinity of the first region, the portion is formed by a concave and / or convex element in the vicinity of the second region, and the first reference portion is the second reference portion. When formed in the vicinity of the region, it is characterized by being formed of a concave or convex element in the vicinity of the first region.

  Further, the true / false discrimination forming body pair of the present invention includes a plurality of arranged first elements, a plurality of arranged second elements, a first reference portion and a second reference portion, which are drawn lines, halftone dots, It consists of any one of a pixel, a figure, and a character, or those combination.

  Further, the true / false discriminating body pair of the present invention includes a first line and / or a second line in a single element among a plurality of elements arranged in a line. It consists of a combination of any two or more of pixels, figures and characters.

  In addition, the authenticity determination formed body pair of the present invention includes a first element, a second element, a first reference portion, and a second reference portion, embossing, intaglio printing, screen printing, gravure printing, flexographic printing, It is formed by any one or a combination of letterpress printing, ink jet printing, laser processing, and penetration.

  In the authenticity discrimination formed body pair of the present invention, the first element and the second element are formed by any one of intaglio printing, screen printing, gravure printing, flexographic printing, letterpress printing, and inkjet printing. The ink is printed with an ink having infrared absorption characteristics.

  Further, the authenticity determination formed body pair of the present invention is such that the first element, the second element, the first reference part, and the second reference part are formed in a convex shape using the foamed ink. Features.

  Further, the present invention provides a true / false discrimination formed body in a state in which the first region of one formed body and the second region of the other formed body are overlapped with the above-described authenticity formed body pair. Is irradiated with infrared light to confirm whether or not the first latent image appears, and after confirming the appearance of the first latent image, place one of the formed bodies in the first direction. Confirm whether the appearance of the second latent image is confirmed when the predetermined distance is shifted, and whether or not the appearance of both the first latent image and the second latent image can be confirmed. It is a true / false discrimination method of a true / false discrimination formed body pair characterized by true / false discrimination.

  In the present invention, a first latent image appears by superimposing two regions, and a second latent image appears when a certain amount of observation is shifted from that state in a certain direction. The accuracy of the true / false discrimination is improved by the complicated configuration rather than the true / false discrimination due to the appearance of information, and more effective forgery and tampering are prevented.

  In the present invention, when the concave and convex shapes formed in the two regions are overlapped with each other, the convex portion is fitted to the concave portion, and conversely, the concave portion is fitted to the convex portion. The latent image can appear reliably.

  Further, according to the present invention, after the concave and convex shapes formed in the two regions are overlapped with each other to cause the first latent image to appear, the concave and convex portions of the fitted regions are guided. Since the portion (rail) can be shifted in a certain direction, the second latent image can be surely appeared by shifting the base material along the guide.

  Further, according to the present invention, since the reference portion is formed corresponding to the two latent image images at the reference position for forming the latent image, the position where each latent image appears is specified. It is easy.

  Furthermore, the present invention uses a functional material for each region component for causing a latent image to appear, so that it matches true / false discrimination under visible light and the characteristics of the functional material used. Since authenticity determination can be performed using a determination device, the accuracy of authenticity determination can be further improved.

It is a figure which shows an example of the authenticity determination formation body of this invention. It is a figure which shows an example of the authenticity discrimination formation body pair of this invention. It is an enlarged view of the 1st field and the 2nd field in Drawing 1. It is a figure explaining the 1st element and the 2nd element. It is a figure which shows the state when the authenticity determination formation body shown in FIG. 1 is bent in the position of X-X '. It is a figure explaining a 1st latent image image and a 2nd latent image image. It is a figure explaining the latent image image formation part in each element. It is sectional drawing which shows the state with which a 1st element and a 2nd element overlap. It is a figure explaining the latent image image formation part comprised by varying an area ratio. It is a figure explaining the latent image image formation part comprised by making a phase differ. It is a figure explaining a reference | standard part. It is the figure which made the latent image appear by using the reference | standard part. It is a figure explaining other shapes of a standard part. It is a figure explaining the other form of a reference | standard part. It is a figure explaining the other shape in the form of the reference | standard part of FIG. It is a flowchart when authenticity determination is performed using a determination device. 3 is a true / false discrimination formed body in Example 1. FIG. 6 is a diagram illustrating a latent image in Example 1. FIG. FIG. 3 is a diagram illustrating a configuration of each element in the first embodiment. It is a figure explaining the latent image image formation part with respect to a 1st latent image. It is a figure explaining the latent image image formation part with respect to a 2nd latent image. It is a true / false discrimination formation pair in Example 2.

  The best mode for carrying out the present invention will be described with reference to the drawings. However, the present invention is not limited to the embodiments for carrying out the invention described below, and as long as it is within the scope of the technical matters described in the claims, the embodiments of the invention are appropriately determined. You can also make changes.

  In the present invention, under visible light, in addition to a mode in which a latent image pattern is confirmed by transmitted light, for example, by using an infrared functional material, the infrared light is irradiated and the transmitted light is irradiated with the characteristics of the functional material. The latent image pattern is acquired by the discriminating device suitable for determining whether the image is authentic. FIG. 1 is a view showing an example of the authenticity determination formed body (1) of the present invention. The true / false discrimination formed body (1) of the present invention has different regions on the same surface of the base material (2) as shown in FIG. 1 (a) or the front and back sides of the base material as shown in FIG. 1 (b). Are provided with a first region (5) and a second region (6). In addition, as shown in FIG. 2, the 1st area | region (5) and the 2nd area | region (6) may be formed on the separate base material. The details of the case where they are formed in different areas will be described later.

  About the base material which forms the 1st field (5) and the 2nd field (6), intaglio printing, gravure printing, screen printing, flexographic printing, letterpress printing, or ink jet printing is possible for paper, plastic, metal, etc. There is no particular limitation as long as it is a base material or a base material that can be subjected to laser processing or penetration. Note that the entire base material may be the above-described material, but only the first region and the second region where the latent image pattern is formed may be the above-described material. Furthermore, when the substrate itself is transparent or translucent, each element (described later) formed in the first region and the second region is formed with colored ink. For example, the substrate is made of metal. In the case of such a low light-transmitting material, it is formed by a method such as processing the substrate thinly or drilling a hole by drilling or cutting.

In the first region (5), as shown in FIG. 3 (a), a plurality of first elements (7) are arranged in a single line with a first pitch (P ₁ ). In the region (6), as shown in FIG. 3 (b), a plurality of second elements (8) are arranged in a line at a second pitch (P ₂ ). The first area and the second area in which the first element and the second element are arranged in a line shape may have a simple line pattern as shown in FIG. It may be formed as meaningful information using a pattern or the like.

In the present embodiment, the first pitch (P ₁ ) and the second pitch (P ₂ ) are described as the same pitch, but the first pitch (P ₁ ) and the second pitch (P ₂ ) The relationship does not necessarily have to be the same pitch, and the elements formed in the other region should be arranged so that each element formed in the other region can be applied when they are overlapped with each other. It ’s fine. Therefore, the pitch need not be regular, but the pitch of each element in the other region is preferably an integral multiple of the pitch of each element in one region. Further, the first element (7) and the second element (8) are convex or concave as shown in FIG. 3C, which is a cross-sectional view taken along line YY ′ of FIG. . Note that the first pitch _{(P 1)} and a second pitch _{(P 2),} is formed in the range of 50～1200Myuemu, preferably 500 [mu] m ± 300 [mu] m approximately.

  In FIG. 3, the first element (7) and the second element (8) are formed by drawing lines, but are not limited to straight lines, and are shown by dotted lines or wavy lines as shown in FIG. It may be, and is not limited to an image line, and may be formed by halftone dots, pixels, graphics, or characters as shown in FIG. When each element is formed by halftone dots, pixels, figures, or characters as shown in FIG. 4B, the adjacent interval is about 30 to 60 μm so that one element can be visually recognized as a single line by the naked eye. It is preferable that In addition, as shown in FIG. 4 (c), the first element (7) and the second element (8) have different shapes, for example, image lines, halftone dots, pixels, figures, or characters of each element. , The first element (7) may be formed by an image line, and the second element (8) may be formed by a halftone dot. Also, as shown in FIG. Each element may be formed by a combination of an image line, a halftone dot, a pixel, a figure, or a character. Furthermore, as shown in FIG. 4 (e), it may be formed by a combination of an image line, a halftone dot, a pixel, a figure, or a character in one element among a plurality of arranged elements. In the following description of the present embodiment, it is assumed that the first element (7) and the second element (8) are formed by image lines (straight lines).

  The authenticity determination formed body (1) of the present invention is bent at the position of XX ′ in FIG. 1 (a), and the first area (5) and the second area (6) are shown in FIG. 5 (a). When superposed, the first latent image (9) shown in FIG. 6 (a) can be confirmed. When the first latent image (9) shown in FIG. 6 (a) is shifted in the first direction, the second latent image shown in FIG. 6 (b) is obtained. An image (10) can be confirmed. In addition, as shown in FIG. 1B, when the first region and the second region are respectively formed on the front and back of the same base material, the base material is rounded as shown in FIG. What is necessary is just to overlap | superpose 1 area | region and 2nd area | region. Since the first element and the second element of the present invention have a concave shape or a convex shape, each element functions as a rail when the elements are overlapped. The concave shape or the convex shape becomes a wall and is difficult to shift in the opposite direction. Therefore, the first direction in the present invention refers to a direction that is easy to shift, that is, a direction that is parallel to each of the arranged elements. In addition, the latent image that can be confirmed when superposed is mostly observed by the transmitted light through the superposed base material. For example, when the base material is a transparent or translucent base material, Even if it is not seen through, the latent image may be confirmed at the stage of superimposition.

Next, the configuration of each latent image is shown below. FIG. 7 is a diagram illustrating details of the first element (7) and the second element (8) for forming the first latent image (9) and the second latent image (10). is there. First, in the first region (5), as described above, a plurality of convex or concave first elements (7) are arranged in a single line at a first pitch (P ₁ ). In the second region (6), as in the first element (7), a plurality of convex or concave second elements (8) are arranged at a second pitch (P ₂ ) in a line shape. Has been placed. In the present embodiment, the first pitch (P ₁ ) and the second pitch (P ₂ ) are the same as described above. Since the depth of the concave shape depends on the thickness of the base material itself, it is formed to a depth in the range of 20 to 80 μm from the base material surface not provided with the concave shape, and the height of the convex shape is Since there is a limit to the ink build-up state, when a convex shape is imparted with ink, it is preferably formed with a height in the range of 20 to 80 μm from the substrate surface.

  About the shape of this 1st element (7) and 2nd element (8), when making it into a concave shape, it is formed by embossing, laser processing, or penetration into a base material, and it makes it a convex shape In order to form by applying ink by printing, intaglio printing, gravure printing, screen printing or flexographic printing is used. In addition, it is possible to use letterpress printing or ink jet printing, but in that case, it is necessary to use an ink whose thickness is formed by the action of the ink rising, such as foamed ink.

  The foamed ink is an ink in which at least a foaming agent is blended in the ink. When heated, the foaming agent blended is foamed and the ink layer is raised. Examples of the foamed ink include plastisol ink, water-based ink, organic solvent-type ink, and the like. However, in the present invention, the type of ink used is not particularly limited because the ink may be raised to form a convex shape.

  The first element (7) is divided into a latent image forming part (11) and a background part (12) by partially varying the phase or varying the area ratio within the same range. In the first region (5), a latent image forming unit (15) for the first latent image and a latent image forming unit (17) for the second latent image are formed. . The latent image forming unit for each latent image formed in the first area (5) is overlapped with the latent image forming unit for each latent image in the second area (6). Sometimes, each latent image is formed, so that only the latent image forming part formed in each region is meaningless information.

  For example, the latent image shown in FIG. 6A, in this case, the letter “A” is arbitrarily divided into two parts, with one having the shape shown in FIG. 7A and the other shown in FIG. 7C. The shape is Similarly, the second latent image, here the letter “B”, is arbitrarily divided into two, and one is shaped as shown in FIG. 7B, and the other is shaped as shown in FIG. 7D. And Therefore, in the first region (5), the first element (7) is used to form the shape of FIG. 7A, which is a part of the letter “A”, and at the same time, a part of the letter “B”. A certain shape of FIG. 7B is formed. Further, the shape of FIG. 7C, which is the remaining part of the character “A”, is formed in the second area (6), and FIG. 7D, which is the remaining part of the character “B”. ) Shape.

  In addition, about the line width of the 1st element (7) and the 2nd element (8), although it forms in the range of 30-1000 micrometers, when a line width is made too thick, it may become a strange feeling pattern, Since the latent image forming unit itself is confirmed, it is preferable to form the image with a line width of 250 ± 150 μm, that is, about half the so-called pitch.

  As an effect of the present invention, the second latent image (10) is confirmed by shifting the substrate in the first direction by a predetermined distance from the position where the first latent image (9) is confirmed. In each region, the latent image forming unit for the first latent image and the latent image forming unit for the second latent image are located at a predetermined distance in the first direction. Need to be formed. The predetermined distance may be at least 500 μm, and the upper limit is not limited as long as it is within the range of each region. However, if the region is too wide on the substrate, it is not preferable in terms of design. The purpose of the present invention is to confirm another second latent image (10) from the position where the first latent image (9) can be confirmed by slightly rubbing the fingertip slightly. Actually, it is preferably 10 mm or less because it is possible.

  Moreover, since the 1st element (7) and the 2nd element (8) have comprised the concave shape or the convex shape as above-mentioned, the authenticity determination formation body (1) of this invention is 1st. When the region (5) and the second region (6) are overlapped, as shown in the cross-sectional view of FIG. The convex portions of the second region (6) composed of the second elements are combined, and conversely, the convex portions of the first region (5) composed of the plurality of first elements are from the plurality of second elements. When the second latent image (9) is shifted from the position where the first latent image (9) can be confirmed to the position where the second latent image (10) can be confirmed, The uneven shape serves as a rail, and smooth shifting is possible in the first direction, which is a position where the second latent image (10) can be confirmed. In addition, the recessed part and convex part of the 1st area | region and the recessed part and convex part of the 2nd area | region formed the 1st element and the 2nd element with the convex-shaped element, for example, ink, as shown in FIG. In this case, the convex portion indicates a portion raised by ink, and the concave portion indicates a base material portion located between adjacent inks, and is formed by further denting the base material itself. It does not indicate that. When the element is formed in a concave shape, conversely, the concave portion becomes a concave portion, and the base material itself becomes a convex portion. Needless to say, the shapes of the first element (7) and the second element (8) serving as the rails are also major feature points for confirming the two latent image images of the present invention.

  Next, how the latent image forming unit (11) is formed in the first element (7) and the second element (8) will be described. FIG. 9 is an enlarged view of the latent image forming part (11) of the first element (7) and the second element (8) as viewed from above with respect to the substrate. First, the case where the latent image forming part (11) is formed by changing the area ratio of a part of each element will be described with reference to FIG.

  Differentiating the area ratio of a part of each element indicates a state in which the line area ratios in the same range (Z) are different in the same line as shown in FIG. 9A. In FIG. 9A, since the elements are formed by the image lines, different image area ratios mean that the image line widths are different. Accordingly, the image line widths are differentiated to divide the latent image forming unit (11) and the background unit (12).

  In FIG. 9A, the latent image forming unit (11) has a larger line width than the background (12), but conversely, as shown in FIG. 9B, the latent image forming unit. In (11), the image line width may be narrower than that of the background portion (12). When the element is a halftone dot or a pixel, it is divided into a latent image forming part (11) and a background part (12) by forming as shown in FIG. 9C.

  Next, a case where the latent image forming unit (11) is formed by changing the phase of each element will be described. Differentiating the phases of the elements indicates a state in which a part of the same element is raised in one direction as shown in FIG. 10 (a). As this raised image line, an image line shape generally known as a relief image line can be used. The raised direction of the relief image line may be on the upper side as shown in FIG. 10A, or on the lower side. However, if the protruding directions of the first element (7) and the second element (8) are not the same direction, the latent image is unclear, which is not preferable. Further, the relief image line is not limited to the above-described relief image line, and may have a stepped shape as shown in FIG. 10B. Furthermore, as shown in FIG. ) And the element of the background portion (12) may not be in contact with each other.

  In addition, as a method of forming the latent image forming part and the background part using each element, it has been explained that the area ratio of a part of the element is different or the phase of the element is different. All elements may be divided into a latent image forming part and a background part by the same method, or may be divided into a latent image forming part and a background part by using a different method for each element.

  As described above, the shape of each element may be any of an image line, a halftone dot, a pixel, a figure, or a character. However, the same applies when the phases are different, for example, FIG. Needless to say, such a formation may be used.

  Since the first element (7) and the second element (8) have a concave shape or a convex shape, the true / false discrimination formed body (1) according to the present invention has a concave shape or a convex shape. As already described with reference to FIG. 8, it has already been explained with reference to FIG. 8 that the convex portions with respect to the concave portions formed in the region and the concave portions with respect to the convex portions serve as rails to facilitate confirmation of each latent image. In order to make it easy to confirm the image image, a reference portion for forming each latent image may be provided in each region or in the vicinity of each region. Next, the reference part will be described.

  As shown in FIG. 11A, the reference portion is a portion formed in the first region (5) as the first reference portion (13), and the second portion is in the first region (5). When the region (6) is overlapped, the portion formed in the second region (6) at the position corresponding to the first reference portion (13) is changed to the second region as shown in FIG. The reference part (14). Here, the first reference portion (13) and the second reference portion (14) will be described with reference to FIG.

  FIG. 12A shows the state of the first reference portion (13) and the second reference portion (14) when the first element (7) and the second element (8) are overlapped from above. FIG. In the first element (7), a first specific portion (19) serving as a reference for forming the first latent image (9) is formed in part. Further, the second latent image (10) is shifted from the first specific part (19), which is the position where the first latent image (9) is formed, in the first direction (S). ) Is formed at a position where the second specific portion 20 is formed. At this time, the second reference portion (14) is formed for the second element (8) corresponding to the first element (7) on which the first reference portion (13) is formed. By forming the second reference portion (14), the first specifying portion (19) becomes a stopper of the second reference portion (14), and the second reference portion (14) is the first specifying portion. The first latent image (9) is clearly formed at the position in contact with (19). In addition, the second reference portion (14) is moved from the position in the first direction (S) as shown in FIG. Is in a position in contact with the second specific portion (20), the second specific portion (20) becomes a stopper, and a load is applied in the direction of shifting. The latent image (10) is formed and can be clearly confirmed.

  In the present embodiment, the first reference portion (13) including the first specifying portion (19) and the second specifying portion (20) is formed in the first region (5), and the second region ( 6), the second reference portion (14) is formed. Conversely, the first reference portion (19) and the second specification portion (20) are formed in the second region (6). The part (13) may be formed, and the second reference part (14) may be formed in the first region (5). In FIG. 12, the first reference portion (13) and the second reference portion (14) are formed in contact with the respective elements, but are formed separately as shown in FIG. 13 (a). Alternatively, as shown in FIG. 13B, it may be formed of halftone dots or pixels having a shape different from that of the first element (7).

  Further, the first reference portion (13) and the second reference portion (14) have been described as being formed by the respective elements in the first region (5) and the second region (6). However, as shown in FIG. 14, the respective reference portions may be formed outside the respective regions. However, since the reference portion has a role as a reference for forming each latent image, if the reference portions are too far away from the respective areas where the latent image is formed, the mutual reference portions will be Even if they are combined, the latent image forming part (11) may not be overlaid in an appropriate state. Therefore, each reference part is preferably formed in the vicinity of each area. The vicinity in this case is preferably about 5 to 20 mm because it is necessary to have a positional relationship in which the respective regions are firmly overlapped when the reference portion is overlapped and pressed with a finger.

  As shown in FIG. 14, when the reference portion is formed in the vicinity of each region, the first reference portion (13), which is one reference portion, includes the first specifying portion (19) and the reference portion. Since it is necessary to have the second specific portion (20), a portion serving as a stopper is provided for the second reference portion (14). Therefore, for example, in the case of a shape like the reference portion of FIG. 14, the portions at both ends serve as the specific portion. As for the reference part, as described above, if the first reference part (13) which is one reference part has the first specifying part (19) and the second specifying part (20), 15, any shape may be used, but the second reference portion (14) is changed from the first specification portion (19) to the second specification portion (20) when the base material is always displaced. The shape must be able to move smoothly. In addition, the first region (5) and the second region (6) do not need to be formed in a pair of minimum units, and the first region (5) and the second region on the front and back of the same base material as appropriate. It is possible to provide a plurality of regions (6). Even in that region, the first element (7) and the second element (8) are not made of either a concave shape or a convex shape, and the element is composed of both a concave shape and a convex shape. Is also possible.

  As described above, in the authenticity determination formed body (1) of the present invention, the first region (5) and the second region (6) are formed on the same substrate, but as shown in FIG. In the present invention, the first region (5) and the second region (6) can be formed on separate substrates. When forming the first area (5) and the second area (6) separately, for example, one is a valuable printed matter such as banknotes, securities or gift certificates distributed in the market, and the other is simplified. As a discriminating tool, it may be kept at the place where the counter service is contracted. Another example is that one area is formed on a 10,000 yen bill, and the other area is set at a different amount of 5,000 yen. By forming it on a yen bill, the consumer can easily determine the authenticity by using the bill on hand.

  In the above description, two regions of the first region (5) and the second region (6) are formed in different regions on the same base material. However, the first region (5) , The third area is provided in another area, and two new latent image images different from the two latent image images formed in the first area (5) and the second area (6), so-called Needless to say, the third latent image and the fourth latent image can be formed using the third region. In this case, the first latent image and the second latent image are formed in the first region (5) by being superimposed on the second region by the first element (7). A part of the third latent image and a part of the fourth latent image to be formed by overlapping with the third region may be formed together.

  If this concept of forming the third region is used when forming on the different base materials described above, the first region is formed on a 10,000 yen bill and the second region is formed on a 5,000 yen bill. However, by forming the third area on the thousand yen bill, the consumer can easily determine the authenticity for each ticket type.

  Further, by changing the area ratio or the phase of a part of the first element (7) forming the first region (5), a latent image for forming a part of the latent image is formed. The formation of the image image forming unit has been described, but unlike the latent image forming unit, it is also possible to form the first pattern as meaningful information in the first region (5). . The first pattern may be formed as meaningful information in the first element (7) other than the latent image forming unit by changing the area ratio or the phase of a part of the elements. The same applies when the second pattern is formed in the second region (6). However, when forming the first pattern and the second pattern, it is necessary not to interfere with the action of the reference portion to be formed in order to easily form a latent image.

  Next, the authenticity determination method using the functional material according to another aspect of the present invention will be described. By forming the concave or convex first element (7) and second element (8) from a functional material, particularly a material having infrared absorption characteristics, authenticity determination using infrared light is also possible. It becomes possible. As a method for imparting this infrared absorption characteristic to a substrate, each element has an infrared absorption characteristic for embossing, laser processing and squeezing having a concave shape by using a special device only in the region where each element is formed. Although it is possible to apply the material by spraying or the like, it is difficult to apply the material uniformly. Therefore, it is preferable that the material is convex as an ink by intaglio printing, gravure printing, screen printing, flexographic printing, letterpress printing or ink jet printing. Give to shape. However, when each element is formed by letterpress printing or ink jet printing, as described above, the ink to be used is an ink whose thickness is formed by the action of the ink rising, such as foamed ink.

  Irradiation of infrared light in a state where the first region (5) and the second region (6) are superposed on the authenticity determination formed body (1) in which each region is formed with ink having infrared absorption characteristics. The first latent image (9) can be confirmed at a predetermined position, and the second latent image (10) can be confirmed by shifting from the position in the first direction. If these latent image images can be confirmed, it can be determined as a genuine product. In this case, the same confirmation is possible even under visible light, so much functional material is used. Does not play the effect.

  Therefore, in order to improve the accuracy of authenticity determination, it is also possible to perform authenticity determination using a determination device (not shown). For example, a storage unit for placing a target product, an irradiation unit capable of irradiating a predetermined light source suitable for discrimination of a functional material such as infrared light, and the irradiated predetermined light from the product A detection unit having at least a light receiving unit that receives reflected or transmitted light, and two latent image images detected from the target product are temporarily stored, and the two detected in advance for the genuine product of the authenticity determination formed body. A discriminating device having a storage unit that stores one latent image as a reference pattern and a determination unit that compares two latent image images detected from a target product with a reference pattern to determine authenticity is used.

  A method of determining authenticity using the determination device having the above-described configuration will be described with reference to the flowchart of FIG. First, a target product is bent at a predetermined position (S1) and placed in the storage unit in a state where the first region (5) and the second region (6) are overlapped (S2). At this time, in the state as it is, the first region and (5) the second region (6) may be separated or misaligned, so a pressing member that does not interfere with a predetermined light source, for example, transparent glass It is also possible to hold it down with a means or the like, or to provide a holding means on the discrimination device (S3). In a state where the first region (5) and the second region (6) of the target product are appropriately overlapped, a predetermined light source is irradiated. In the present invention, since each element is formed using ink having infrared absorption characteristics, infrared light is irradiated from the irradiation unit, and transmitted light from the target product is received by the light receiving unit. (S4), the first latent image (9) was detected as a pattern (S5). The detected first latent image pattern is temporarily stored in the storage unit (S6). Furthermore, as to whether or not the first latent image (9) is formed, an appropriate latent image image pattern can be detected by providing a display unit for displaying the detection pattern on the discrimination device. It is.

  A second latent image (10) is formed by shifting in the first direction from the position where the first latent image (9) is detected (S7). In this state, the first latent image (9) ) Is detected, the infrared light is irradiated, the transmitted light is received (S8), the pattern of the second latent image (10) is detected (S9), The latent image pattern is temporarily stored (S10).

  As described above, the storage unit stores the genuine first latent image pattern and the second latent image pattern as reference patterns, and determines the reference pattern and the two detected latent image patterns. If both the latent image pattern matches the reference pattern, it is determined that the target product is authentic, and if it does not match, it is determined as a counterfeit product. As for pattern matching, a complete latent image may not be formed depending on how both areas are overlapped. Therefore, if the degree of similarity is greater than a certain threshold, it is determined that they are the same latent image. A standard may be set. Here, the threshold value may be set as appropriate.

  In addition, for the authenticity determination body using the functional material described above, the authenticity determination by the pattern matching of the image pattern has been described, but it is simply indicated that the functional material is given to the region. On the other hand, authenticity determination may be performed only by detecting a specific wavelength. For example, when each region is formed of a material having infrared absorption characteristics, particularly ink, the appearance state of the latent image is to be performed under visible light, and in order to further improve the accuracy of authenticity determination, It only detects whether or not it is made of a material having infrared absorption characteristics at the time of design. In this case, since the appearance state of the latent image is not detected, there is no need to bend the discriminating device at a predetermined position, the target product is passed through the discriminating device as it is, and the light source A determination is made by detecting the state of the wavelength in reflection or transmission of light from the light. Thereby, in addition to confirming the appearance state of the latent image under visible light, it can be confirmed that the latent image is formed of a predetermined functional material.

  As described above, when a functional material is used for confirming a latent image under visible light and performing further authenticity determination, the functionality is not limited to infrared absorption characteristics. A material that reflects or transmits with infrared light, a material that emits light with ultraviolet light, a dichroic thermochromic material that changes color depending on temperature, or a material that develops color due to stress may be used.

  Hereinafter, the authenticity determination formed body according to the present invention will be described in detail with reference to examples. However, the present invention is not limited to the following examples, and any technical category described in the claims can be used. Needless to say, the present invention can be appropriately modified.

  As Example 1, a latent image was formed in two areas printed on the lower part of both ends of the authenticity determination forming body (21) which is a gift certificate shown in FIG. The first area (22) was formed at the center of the colored pattern printed on the lower left, and the second area (23) was formed at the center of the colored pattern printed on the lower right. In both areas, intaglio printing is used, and the first element (28) and the second element (29) are arranged in a single line with an image line width of 200 μm and an image line pitch of 500 μm as shown in FIG. Has been. The image line height of each element is 50 μm.

  As the latent image, the first latent image is “1000 yen” as shown in FIG. 18A, and the second latent image is “OK” as shown in FIG. 18B. It is a letter.

  The first region (22) includes a part of the first latent image as shown in FIG. 20A and a part of the second latent image as shown in FIG. The second region (23) is formed with the first latent image formed in the first region (22) and the second latent image and the second region (23). The remaining portions of the latent image, the shapes shown in FIGS. 20B and 21B, were formed by partially varying the line width of the second element (29). In the first region (22), the first reference portion (30) is formed by the first element (28) by varying the line width, and in the second region (23). The second reference portion (31) is formed by changing the image line width by the second element (29). The first specifying portion (32) and the second specifying portion (33) of the first reference portion (30) have a height (h) of 100 μm from the image line of the basic first element (28). And a width (w) of 200 μm. Similarly, the second reference portion (31) also has a height (h) of 100 μm and a width (w) of 200 μm from the image line of the basic second element (29). ing. In addition, as shown in FIG.19 (c), the height and width of each reference | standard part said here correspond to the line width of the reference | standard part which protrudes with respect to the 1st element, for example. In addition, it is h in the figure, and the width corresponds to the length of each reference portion and is w in the figure. The interval between the first specifying portion (32) and the second specifying portion (33) in the first reference portion (30) is the interval at which the first latent image and the second latent image are formed. The same distance is 1.5 mm.

  FIG. 20 shows only the latent image forming unit for the first latent image extracted from the first region (22) and the second region (23) shown in FIG. FIG. 20A shows the latent image forming unit (24) for the first latent image formed by the first element, and FIG. 20B shows the first image formed by the second element. The latent image forming unit (25) for the latent image is shown. FIG. 21 shows only the latent image forming unit for the second latent image extracted from the first region (22) and the second region (23) shown in FIG. FIG. 21A shows the latent image forming unit (26) for the second latent image formed by the first element, and FIG. 21B shows the second image formed by the second element. The latent image forming unit (27) for the latent image is shown.

  At the position where the gift certificate (21) of the first embodiment is folded and the chromatic pattern in the first area and the chromatic pattern in the second area are overlapped with each other so that both reference parts are in contact with each other. The first latent image (34) as shown in FIG. 20 (c) can be confirmed by the transmitted light, and the same parallel direction (the first direction in which the image lines as the respective elements are arranged in parallel from the position. 21), the base material is slightly shifted (1.5 mm) with the fingertip, and when the fingertip feels that the second reference portion (31) is in contact with the second specific portion (33), FIG. A second latent image (35) as shown in FIG.

  Next, a second embodiment of the present invention will be described. The gift certificate (36) in the second embodiment uses only the colored pattern on the lower left as shown in FIG. 22 (a) in the authenticity determination body (21) that is the gift certificate of the first embodiment. The first region of the first region (38) is formed by halftone dots, and the second region (39) is formed by drawing lines on another substrate as shown in FIG. 22 (b). .

  As for the gift certificate (36) of the second embodiment, the chromatic pattern having the first area (38) is printed mainly by the convex image line by screen printing, and as described above, the first area (38) is printed. ) Only consists of halftone dots. The line width of the chromatic pattern was 80 μm, and the height of the line was about 10 μm. The halftone dot of the first element had a diameter of 200 μm and the image line height was 50 μm. The second area (39) formed in the discriminator (37) has an image line width of 200 μm and an image line height of 50 μm by intaglio printing, and the first area (38) and the second area ( 39) are arranged at a pitch of 400 μm. Further, in each region, the latent image forming unit is formed by changing the phase within the element corresponding to the same one.

  Also in the second embodiment, a reference portion is provided in each region, but unlike the first embodiment, a plurality of reference portions are formed by each element. The first reference portion in the first region (38) is formed by a halftone dot similarly to the halftone dot which is the first element, and the halftone dot diameter is also equal to the halftone dot diameter of the other first element. Similarly, it was set to 200 μm, and the distance from the first specific part to the second specific part was set to 2 mm (not shown). Further, the second reference portion was formed with a height of 50 μm and a width of 200 μm with respect to the image line as the second element. Each reference portion is arranged at a random position in each region.

  The first area (38) arranged in the pattern of the gift certificate (36) of the second embodiment and the second area (39) of the discriminator (37) are overlapped, and both The first latent image (34) can be confirmed by transmitted light at a position where the reference portion is in contact with the reference portion, and the image lines and halftone dots as elements are arranged in parallel from that position. The second latent image (35) can be confirmed when the fingertip feels that the second reference portion is in contact with the second specific portion by slightly shifting the base material in the parallel direction with the fingertip (2 mm). It was. In this embodiment, since a plurality of reference portions are arranged, the position for forming the latent image is more easily specified.

  Next, a third embodiment of the present invention will be described. For Example 3, the same design (including the configuration of each element) and printing method as the gift certificate (21) of Example 1 are the same, and the difference is that the intaglio ink has infrared absorption characteristics Is included. Therefore, the description overlapping with the first embodiment is omitted.

  As described above, the colored pattern including each of the first region (22) and the second region (23) is printed with an intaglio ink in which a material having infrared absorption characteristics is blended. In the third embodiment, generally known carbon black is used as the material having the infrared absorption characteristics, but the material is not limited to this.

  The gift certificate (21) printed with the intaglio ink having the infrared absorption characteristics described above is folded in two and the both colored patterns are overlapped, and the detection unit, the storage unit, and the determination unit having the storage unit, the irradiation unit, and the light receiving unit And a position at which the first latent image (34) can be confirmed while irradiating infrared rays from the irradiating unit while irradiating infrared rays from the irradiating unit. Then, at the position where the first latent image (34) could be confirmed, a transparent glass plate was placed and fixed on the gift certificate (21), and the infrared absorption pattern was temporarily stored in the storage unit.

  Once the transparent glass plate was removed and the first latent image (34) was identified, the base material was pinched with the fingertips in parallel to each element, and the fingertips felt that the reference portions were in contact with each other. By the way, whether or not the second latent image (35) can be confirmed is similarly identified while looking at the image display unit of the discriminating device, and again at the position where the second latent image (35) can be confirmed. A transparent glass plate was placed on the gift certificate (21) and fixed, and the infrared absorption pattern was stored in the storage unit.

  Since the infrared absorption patterns of both the first latent image and the second latent image are stored, it is determined whether to compare the first latent image and the reference pattern of the second latent image stored in advance. Since it was performed by pattern matching at the part and the degree of similarity was not less than the set threshold value, it was determined that the gift certificate (21) is a genuine product.

1, 21 Authenticity discrimination forming body 2 Base material 3, 36 One formation body of authenticity discrimination forming body pair (gift certificate)
4, 37 The other formed body (discriminator) of the authenticity formed body pair
5, 22, 38 First area 6, 23, 39 Second area 7, 28 First element 8, 29 Second element 9, 34 First latent image 10, 35 Second latent image DESCRIPTION OF SYMBOLS 11 Latent image formation part 12 Background part 13, 30 1st reference | standard part 14, 31 2nd reference | standard part 15, 24 1st latent image image latent image formation part 16, 25 in 1st area | region 2nd The latent image forming units 17 and 26 of the first latent image in the first region The latent image forming units 18 and 27 of the second latent image in the first region The second latent image of the second latent image in the second region Latent image forming unit 19, 32 First specifying unit 20, 33 Second specifying unit P First pitch S First direction

Claims (17)

Two areas of concave and / or convex elements are formed on the same surface and / or different surfaces of the substrate, and two latent image images can be visually recognized when the two areas are overlapped. A true / false discriminator,
The region composed of the concave and / or convex elements has a latent image formed by partially varying the phase of the concave and / or convex elements or by changing the area ratio within the same range. It is divided into an image forming part and a background part,
Of the two regions, the first region has a plurality of the first elements having the concave shape and / or the convex shape arranged in a line at a first pitch,
Of the two regions, the second region has a plurality of concave and / or convex second elements arranged in a line at a second pitch,
A part of the first latent image and a part of the second latent image are formed at positions separated by a predetermined distance by the latent image forming unit of the first region. The latent image forming unit forms a portion other than a part of the first latent image formed by the latent image forming unit in the first region and the latent image forming unit in the first region. Other than the part of the second latent image that is formed at a position separated by the same distance as the predetermined distance,
A first specifying unit that specifies a reference position for forming the first latent image in one of the first region and the second region and / or in the vicinity of the one region. And a first reference portion including a second specifying portion that specifies a position serving as a reference for forming the second latent image is formed in the other region and / or in the vicinity of the other region, A second reference portion corresponding to the first reference portion is formed.
The first region and the second region are overlapped so that the second reference portion fits between the first specifying portion and the second specifying portion in the first reference portion. When the first specific part and the second reference part are in contact with each other, the first latent image is formed by the latent image forming part for forming the first latent image and can be visually recognized; When the second specific portion and the second reference portion are in contact with each other, the second latent image is formed and visible by the latent image forming portion for forming the second latent image. Characteristic authenticity formation body. 2. The authenticity determination formed body according to claim 1, wherein the first pitch and the second pitch are the same pitch or a pitch that is a positive integer multiple of the other pitch with respect to one pitch. The first reference portion is formed by the first element in the first region or by the second element in the second region, and the second reference portion is formed by the second element. When one reference portion is formed in the first region, the second element is formed in the second region, and the first reference portion is formed in the second region. 3. The authenticity determination formed body according to claim 1, wherein the authenticity determination formed body is formed by the first element in the first region. The first reference portion is formed by a concave and / or convex element in the vicinity of the first region or the second region, and the second reference portion is formed by the first reference portion. When formed in the vicinity of the first area, it is formed by a concave and / or convex element in the vicinity of the second area, and the first reference portion is formed in the vicinity of the second area. 3. The true / false discrimination formed body according to claim 1, wherein the authenticity determination formed body is formed of a concave and / or convex element in the vicinity of the first region. The plurality of arranged first elements, the plurality of arranged second elements, the first reference portion, and the second reference portion are any one of an image line, a halftone dot, a pixel, a figure, and a character. The authenticity determination formed body according to any one of claims 1 to 4 , characterized in that it consists of one or a combination thereof. The first element and / or the second element may be any one of an image line, a halftone dot, a pixel, a figure, and a character in one element among a plurality of elements arranged in a line. It consists of the above combination, The authenticity determination formation body in any one of the Claims 1 thru | or 4 characterized by the above-mentioned. When the first element and the second element are formed by any one of intaglio printing, screen printing, gravure printing, flexographic printing, letterpress printing, and ink jet printing, the first element and the second element are printed with ink having infrared absorption characteristics. The authenticity determination formed body according to any one of claims 1 to 6, wherein A method for determining the authenticity of a true / false discrimination formed body according to claim 7 ,
In a state where the base material is bent at a predetermined position and the first region and the second region are overlapped, the authenticity determination formed body is irradiated with infrared light, and the first latent image is Check whether it appears,
Confirming whether or not the second latent image appears when shifted to the position separated by the predetermined distance in the first direction;
A true / false determination method for a true / false determination formed body, wherein authenticity determination is performed based on whether or not the appearance of both the first latent image and the second latent image can be confirmed. A method for determining authenticity of the authenticity determination formed body according to claim 7 by a determination device having at least a detection unit including a storage unit, an irradiation unit, and a light receiving unit, a storage unit, and a determination unit,
The base material is bent at a predetermined position, and the first region and the second region are overlapped to form the first latent image, and inserted into the storage unit of the determination device.
The substrate is irradiated with infrared light from the irradiation unit, infrared transmission light is received by the light receiving unit, and the infrared absorption pattern of the first latent image is detected by the detection unit using the received infrared transmission light. ,
An infrared absorption pattern of the detected first latent image is temporarily stored in the storage unit,
In the state in which the second latent image is formed by shifting the predetermined distance in the first direction from the position where the infrared absorption pattern of the first latent image is detected, the substrate from the irradiation unit Infrared light is irradiated to the infrared light to be received by the light receiving unit, and the infrared absorption pattern of the second latent image is detected by the detection unit by the received infrared transmitted light,
The infrared absorption pattern of the detected second latent image is temporarily stored in the storage unit,
Infrared absorption patterns of both the first latent image and the second latent image once stored in the storage unit, and the first latent image and the second latent image previously stored in the storage unit A true / false discrimination method for a true / false discrimination formed by comparing a reference pattern in infrared absorption of an image by pattern matching to perform true / false discrimination. A pair of true / false discriminating bodies composed of two formed bodies each having two regions where two latent image images appear by overlapping each other,
In one of the two formed bodies, a plurality of first elements having a concave shape and / or a convex shape are arranged in a first line on the substrate at a first pitch,
The first element is partially divided in phase or is divided into a latent image forming part and a background part by changing the area ratio within the same range,
Of the two formed bodies, the other formed body has a plurality of concave and / or convex second elements arranged in a second line on the base material at a second pitch,
The second element is divided into a latent image forming part and a background part by partially changing the phase or making the area ratio different within the same range,
A part of the first latent image and a part of the second latent image are formed at positions separated by a predetermined distance by the latent image forming unit of the first region. The latent image forming unit forms a portion other than a part of the first latent image formed by the latent image forming unit in the first region and the latent image forming unit in the first region. Other than the part of the second latent image that is formed at a position separated by the same distance as the predetermined distance,
A first specifying unit that specifies a reference position for forming the first latent image in one of the first region and the second region and / or in the vicinity of the one region. And a first reference portion including a second specifying portion that specifies a position serving as a reference for forming the second latent image is formed in the other region and / or in the vicinity of the other region, A second reference portion corresponding to the first reference portion is formed.
The first region and the second region are overlapped so that the second reference portion fits between the first specifying portion and the second specifying portion in the first reference portion. When the first specific part and the second reference part are in contact with each other, the first latent image is formed by the latent image forming part for forming the first latent image and can be visually recognized; When the second specific portion and the second reference portion are in contact with each other, the second latent image is formed by the latent image forming portion for forming the second latent image, and can be visually confirmed. True / false discriminator pair that characterizes. 11. The authenticity determination formed body pair according to claim 10, wherein the first pitch and the second pitch are the same pitch or a pitch obtained by multiplying one pitch with a positive integer multiple of the other pitch. . The first reference portion is formed by the first element in the first region or by the second element in the second region, and the second reference portion is formed by the second element. When one reference portion is formed in the first region, the second element is formed in the second region, and the first reference portion is formed in the second region. The true / false discrimination formation pair according to claim 10 or 11 , wherein the pair is formed by the first element in the first region. The first reference portion is formed of a concave and / or convex element in the vicinity of the first region or the second region, and the second reference portion is the first reference portion. Is formed in the vicinity of the first region, it is formed by a concave and / or convex element in the vicinity of the second region, and the first reference portion is in the vicinity of the second region. The true / false discrimination formed body pair according to claim 10 or 11, wherein, when formed, the pair of authenticity determination formed by concave and / or convex elements in the vicinity of the first region. The plurality of arranged first elements, the plurality of arranged second elements, the first reference portion, and the second reference portion are any one of an image line, a halftone dot, a pixel, a figure, and a character. The true / false discriminator pair according to any one of claims 10 to 13 , characterized in that it consists of one or a combination thereof. The first element and / or the second element may be any one of an image line, a halftone dot, a pixel, a figure, and a character in one element among a plurality of elements arranged in a line. The authenticity-determining body pair according to any one of claims 10 to 13 , comprising the above combination. When the first element and the second element are formed by any one of intaglio printing, screen printing, gravure printing, flexographic printing, letterpress printing, and ink jet printing, the first element and the second element are printed with ink having infrared absorption characteristics. The true / false discrimination formation pair according to any one of claims 10 to 15 . The true / false discrimination method of the true / false discrimination formation pair according to claim 16 ,
In the state where the first region of the one formed body and the second region of the other formed body are overlapped, the authenticity determining formed body is irradiated with infrared light, and the first latent body is irradiated. Check if the image appears,
After confirming the appearance of the first latent image, whether or not the second latent image appears when either one of the formed bodies is shifted the predetermined distance in the first direction. Check
An authenticity determination method for authenticity determination formed body pairs, wherein authenticity determination is performed based on whether the appearance of both the first latent image and the second latent image can be confirmed.

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