JP2005001345A - Formative body for distinguishing the truth from the false - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a formative body for distinguishing the truth from the false, which is applied to precious printed matter requiring prevention from forgery and prevention from counterfeiting of a bank bill, atraffic pass a passport, a card and the like. <P>SOLUTION: The formative body for distinguishing the truth from the false comprises a pixel group (2a) formed by one side or both of a void pixel and a semitransparent pixel (3a) on one side (1a) of a substrate having light transmissibility, and a latent image pixel group (2C) formed by one side or both of the void pixel and the semitransparent pixel (3c) on the other side surface (1c) of the substrate having light transmissibility. Then, each pixel position of a pixel group formed by one side or both of the void pixel and the semitransparent pixel (3c) which form the latent image picture (2c) is arranged corresponding to each pixel position of the pixel group formed by one side or both of the void pixel and the semitransparent pixel (3a) on one side surface of the substrate. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a true / false discriminating body applied to a valuable printed matter that requires prevention of counterfeiting and falsification of banknotes, passports, passports, cards and the like.
[0002]
[Prior art]
Due to the nature of valuable printed matter such as banknotes, passports, passports, cards, etc., it is required that they are not easily counterfeited or altered. As a preventive measure, there is a known technique for authenticating the latent image by recognizing the latent image by observing the printed material, and the latent image is expressed using a convex image line of the intaglio printed material. Examples thereof include a latent image formed on the front and back surfaces of the substrate using a regular line pattern and a hologram.
[0003]
In order to express a latent image using a regular line pattern on the front and back of the base material, various patterns are printed with lines, pixels, etc. on either the front or back side of the substrate to transmit light, and the other side. Prints various patterns consisting of lines that have a pattern that should be a latent image on lines, pixels, etc., so that the printing positions match each other, and when this printed matter is seen through with light, the patterns on the front and back are combined, A front and back pattern composite printed material in which a latent image appears as a continuous tone image is disclosed (for example, see Patent Document 1).
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 5-139022 (page 2, Fig. 1-3)
[0005]
Furthermore, in the decorative sheet in which stripes with stripes parallel to each other at a predetermined pitch are provided on the front and back of a thick transparent sheet, at least one stripe of stripes on the front and back is color-coded, and at least on the front and back One striped pattern is disclosed as a decorative sheet that forms a pattern by shifting the pitch of the streaks (see, for example, Patent Document 2).
[0006]
[Patent Document 2]
Japanese Patent No. 2802484 (page 1-3, Fig. 1-3)
[0007]
[Problems to be solved by the invention]
In general, the above-described conventional techniques generally recognize the latent image by inclining and observing the printed material so that the authenticity determination is performed by expressing the latent image using the convex image line of the intaglio printed material. It was a hologram or the like that expressed a latent image using a regular line pattern on the front and back of the substrate. A hologram that expresses a latent image using a convex image line of an intaglio print has a high cost due to advanced technology and equipment, and is not suitable for small-scale production. Japanese Patent Laid-Open No. 5-139022 discloses that a latent image appears when observed with transmitted light, and does not cause a latent image to appear by tilting the base material. could not. Similarly, in Japanese Patent No. 2802484, a plurality of latent image images could not be formed.
[0008]
In view of the above, the present invention aims to solve the above-described problems. A light shielding layer is provided on one surface of a light-transmitting substrate, and the light shielding on one surface of the substrate is performed. A pixel group formed of light transmissive pixels in the layer and a light shielding layer provided on the other surface of the light transmissive substrate, and formed of the light transmissive pixels in the light shielding layer on the other surface Each pixel position of the pixel group formed by the light-transmitting pixels forming the latent image is composed of a latent image formed of the pixel group, and the pixel group formed by the light-transmitting pixels on one surface of the substrate When an image is tilted and observed with transmitted light, the appearance of a clear latent image, the appearance of a different latent image from multiple directions, and the appearance of a latent image having a color are displayed. The present inventors have found that a stereoscopic latent image appears. Therefore, the present invention proposes a true / false discrimination forming body having a high authenticity discrimination effect and an effect of preventing falsification and duplication.
[0009]
In addition, a light shielding layer is provided on the first base material having light transmittance, and a pixel group formed of light transmitting pixels in the light shielding layer of the first base material, and a second group having light transmittance. The substrate is provided with a light shielding layer, and is composed of a latent image formed of a pixel group formed by light transmissive pixels in the light shielding layer of the second substrate. The first substrate and the second substrate are The individual pixel positions of the pixel group formed by the light transmissive pixels that are stacked and form the latent image correspond to the individual pixel positions of the pixel group formed by the light transmissive pixels on the first substrate. When the image is tilted and viewed with transmitted light, the appearance of a clear latent image, the appearance of a different latent image from multiple directions, the appearance of a latent image having a color, and the appearance of a three-dimensional latent image I found out that it would appear. Therefore, the present invention proposes a true / false discrimination forming body having a high authenticity discrimination effect and an effect of preventing falsification and duplication.
[0010]
[Means for Solving the Problems]
The present invention provides a light shielding layer on one surface of a light-transmitting substrate, a pixel group formed of light-transmitting pixels in the light shielding layer on one surface of the substrate, and a light transmitting property. A light shielding layer is provided on the other surface of the base material having a latent image formed of a group of pixels formed by light transmissive pixels in the light shielding layer on the other surface, and the latent image is formed. Each pixel position of the pixel group formed by the light transmissive pixel is formed on one surface of the base material corresponding to each pixel position of the pixel group formed by the light transmissive pixel. Is the body.
[0011]
According to the present invention, a light shielding layer is provided on one surface of a light transmissive substrate, and a pixel group formed of light transmissive pixels in the light shielding layer on the one surface of the substrate. A light shielding layer is provided on the other surface of the substrate having transparency, and a latent image is formed of a pixel group formed of light transmitting pixels in the light shielding layer on the other surface of the substrate. The individual pixel positions of the pixel group formed by the light transmissive pixels forming the image image are arranged corresponding to the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate. Each pixel position of the pixel group formed by the light-transmitting pixels forming the latent image is formed on one surface of the base material by the light-transmitting pixels. The center position of each pixel in the pixel group is used as a reference and deviated from the reference by a specific direction and a specific distance. A authenticity discrimination formed body characterized by being location. When the authenticity determination forming body is tilted from the vertical direction and observed with transmitted light, the latent image formed of the pixel group is visually recognized.
[0012]
According to the present invention, a light shielding layer is provided on one surface of a light transmissive substrate, and a pixel group formed of light transmissive pixels in the light shielding layer on the one surface of the substrate. A light shielding layer is provided on the other surface of the transmissive substrate, and at least two latent image images comprising a group of pixels formed by light transmissive pixels are formed in the light shielding layer on the other surface of the substrate. Each pixel position of the pixel group formed by the light transmissive pixels forming the at least two latent image images is the individual pixel position of the pixel group formed by the light transmissive pixels on one surface of the substrate. Each of the pixel positions of the pixel group formed by the light-transmitting pixels forming the at least two latent image images is one of the base materials. Based on the center position of each pixel of the pixel group formed by light transmissive pixels on the surface. And then, disposed offset by a specific direction and a specific distance from the reference, and a authenticity discrimination formed body, wherein the specific direction is a different direction for each of the latent image. When this authenticity determination formed body is tilted in a different direction from the vertical direction with respect to the base material and observed with transmitted light, at least two latent image images composed of pixel groups are visually recognized. Depending on the design method, the latent image is visually recognized as a moving image by tilting the authenticity determination forming body and rotating it with transmitted light for observation.
[0013]
According to the present invention, a light shielding layer is provided on one surface of a light transmissive substrate, and a pixel group formed of light transmissive pixels in the light shielding layer on the one surface of the substrate. A light shielding layer is provided on the other surface of the substrate having transparency, and is composed of at least two latent image images composed of pixel groups formed by light transmitting pixels in the light shielding layer on the other surface of the substrate. The individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate. Each of the pixels of the pixel group formed by the light-transmitting pixels forming the first latent image, of the at least two latent images. The position of the pixel group formed by the light transmissive pixels on one surface of the base material The center position of each pixel is used as a reference, and is shifted from the reference by a specific direction and a specific distance, and at least one latent image other than the first latent image is selected from the at least two latent images. Each pixel position of the pixel group formed by the light transmissive pixel to be formed is based on the center position of each pixel of the pixel group formed by the light transmissive pixel on one surface of the substrate, A true direction and a specific distance that are shifted from the reference, and are shifted by the same specific direction and a different specific distance as the individual pixel positions forming the first latent image. It is a false discrimination formation. When this authenticity determination formed body is gradually tilted in the same direction from the vertical direction with respect to the substrate and observed with transmitted light, at least two latent image images formed by the latent image formed of the pixel group are visually recognized. Is done. Depending on the design method, the latent image is visually recognized as a moving image by gradually inclining the authenticity determination forming body in the same direction and observing with transmitted light.
[0014]
According to the present invention, a light shielding layer is provided on one surface of a light transmissive substrate, and a pixel group formed of light transmissive pixels in the light shielding layer on the one surface of the substrate. A light shielding layer is provided on the other surface of the transmissive substrate, and at least one latent image formed of a pair of pixels formed by light transmissive pixels in the light shielding layer on the other surface of the substrate. Each pixel position of the pair of pixel groups formed by the light-transmitting pixels forming the at least one latent image is the pixel group formed by the light-transmitting pixels on one surface of the substrate. An authenticity determination forming body arranged corresponding to each pixel position, wherein each individual pixel group of the pair of pixel groups formed by the light transmissive pixels forming the at least one latent image The pixel position is an image formed by a light transmissive pixel on one surface of the substrate. The center position of each pixel of the group is used as a reference, and is shifted from the reference by a specific direction and a specific distance, and each pixel position of the other pixel group of the pair of pixel groups is one of the base materials With respect to the center position of each pixel of the pixel group formed by the light transmissive pixels on the surface, the pixel is arranged with a specific direction and a specific distance away from the reference, and in a direction different from the one pixel group. It is arranged in a specific direction, and the pair of pixel groups is arranged at a position where a pixel group formed on one surface of the light-transmitting base material is a parallax barrier. Authenticity discriminator. When the authenticity determination formed body is observed with transmitted light from a direction perpendicular to the base material, at least one latent image formed by the pair of pixel groups is visually recognized in three dimensions.
[0015]
The present invention also provides a pixel group in which a light shielding layer is provided on a first base material having light transparency, and light-transmissive pixels are formed in the light shielding layer of the first base material. A light shielding layer is provided on a second base material having a latent image formed of a pixel group formed by light transmissive pixels in the light shielding layer of the second base material, and the first base material is provided. And the second base material are stacked, and individual pixel positions of a pixel group formed by the light transmissive pixels forming the latent image are formed by the light transmissive pixels on the first base material. It is a true / false discrimination forming body arranged corresponding to each pixel position of the pixel group.
[0016]
The present invention also provides a pixel group in which a light shielding layer is provided on a first base material having light transparency, and light-transmissive pixels are formed in the light shielding layer of the first base material. A light shielding layer is provided on a second base material having a latent image formed of a pixel group formed by light transmissive pixels in the light shielding layer of the second base material, and the first base material is provided. And the second base material are stacked, and individual pixel positions of a pixel group formed by the light transmissive pixels forming the latent image are formed by the light transmissive pixels on the first base material. A true / false discrimination formation body arranged corresponding to each pixel position of the pixel group, wherein each pixel position of the pixel group formed by the light-transmitting pixels forming the latent image is the first pixel position Based on the center position of each pixel of a pixel group formed of light transmissive pixels on the base material of the substrate, a specific direction from the reference It is authenticity discrimination forming body, characterized in that are arranged offset by finely certain distance. When the authenticity determination forming body is tilted from the vertical direction and observed with transmitted light, the latent image formed of the pixel group is visually recognized.
[0017]
The present invention also provides a pixel group in which a light shielding layer is provided on a first base material having light transparency, and light-transmissive pixels are formed in the light shielding layer of the first base material. A light shielding layer is provided on a second substrate having a light shielding layer, and the light shielding layer of the second substrate comprises at least two latent image images composed of pixel groups formed by light transmissive pixels. The base material and the second base material are laminated, and individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are light transmissive to the first base material. A true / false discriminating body arranged corresponding to each pixel position of the pixel group formed by the sexual pixel, the pixel group formed by the light transmissive pixel forming the at least two latent image images Each pixel position is an individual pixel group formed of light transmissive pixels on the first base material. A true / false discriminating body characterized in that the center position of the pixel is used as a reference, the specific direction is shifted from the reference by a specific direction and a specific distance, and the specific direction is different for each latent image. is there. When this authenticity determination formed body is tilted in a different direction from the vertical direction with respect to the base material and observed with transmitted light, at least two latent image images composed of pixel groups are visually recognized. Depending on the design method, the latent image is visually recognized as a moving image by tilting the authenticity determination forming body and rotating it with transmitted light for observation.
[0018]
The present invention also provides a pixel group in which a light shielding layer is provided on a first base material having light transparency, and light-transmissive pixels are formed in the light shielding layer of the first base material. A light shielding layer is provided on a second substrate having a light shielding layer, and the light shielding layer of the second substrate comprises at least two latent image images composed of pixel groups formed by light transmissive pixels. The base material and the second base material are laminated, and individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are light transmissive to the first base material. A true / false discrimination forming body arranged corresponding to each pixel position of a pixel group formed by sex pixels, wherein the light that forms a first latent image of the at least two latent images The individual pixel positions of the pixel group formed by the transmissive pixels are the light transmissive pixels on the first substrate. The center position of each pixel of the formed pixel group is used as a reference, and is shifted from the reference by a specific direction and a specific distance. Of the at least two latent image images, other than the first latent image image The individual pixel positions of the pixel group formed by the light transmissive pixels forming at least one latent image are the centers of the individual pixels of the pixel group formed by the light transmissive pixels on the first substrate. The position is used as a reference, the position is deviated from the reference by a specific direction and a specific distance, and the position is shifted by the same specific direction and a different specific distance as each pixel position forming the first latent image. This is a true / false discrimination formation. When this authenticity determination formed body is gradually tilted in the same direction from the vertical direction with respect to the substrate and observed with transmitted light, at least two latent image images formed by the latent image formed of the pixel group are visually recognized. Is done. Depending on the design method, the latent image is visually recognized as a moving image by gradually inclining the authenticity determination forming body in the same direction and observing with transmitted light.
[0019]
The present invention also provides a pixel group in which a light shielding layer is provided on a first base material having light transparency, and light-transmissive pixels are formed in the light shielding layer of the first base material. Comprising a light shielding layer on a second base material having a light shielding layer, and comprising at least one latent image formed of a pair of pixels formed by light transmissive pixels in the light shielding layer of the second base material, The first base material and the second base material are laminated, and individual pixel positions of a pair of pixel groups formed by the light transmissive pixels forming the at least one latent image are defined by the first base material. A true / false discrimination forming body disposed corresponding to each pixel position of a pixel group formed of light transmissive pixels on a material, and formed by the light transmissive pixels forming the at least one latent image. Each pixel position of one pixel group of the pair of pixel groups is transparent to the first base material. The center position of each pixel of the pixel group formed by the element is used as a reference, and is shifted from the reference by a specific direction and a specific distance, and each pixel position of the other pixel group of the pair of pixel groups is The one pixel group is arranged with a specific direction and a specific distance shifted from the reference with reference to the center position of each pixel of the pixel group formed by the light transmissive pixels on the first substrate. The pair of pixel groups is arranged at a position where the pixel group formed on the first base material is a parallax barrier. It is a false discrimination formation. When the authenticity determination forming body is tilted from the vertical direction and observed with transmitted light, the latent image formed of the pixel group is visually recognized.
[0020]
Further, the present invention is the authenticity determination formed body, wherein the latent image has a color.
[0021]
Further, the present invention is the authenticity determination formation body, wherein the at least one latent image or the at least two latent images are different in at least one of color and density for each latent image.
[0022]
Further, the present invention is characterized in that at least one light-transmitting base material is provided between the light-transmitting first base material and the light-transmitting second base material. It is a false discrimination formation.
[0023]
Further, in the present invention, at least one light-transmitting substrate provided between the light-transmitting first substrate and the light-transmitting second substrate has a color. It is a true / false discriminating body.
[0024]
Further, according to the present invention, there is provided a group in which at least one light-transmitting substrate provided between the light-transmitting first substrate and the light-transmitting second substrate emits light by ultraviolet rays. A true / false discrimination formed body characterized by being a material.
[0025]
Further, the present invention is the true / false discrimination forming body characterized in that the pixels constituting the pixel group and the pixels constituting the latent image are arranged at equal pitches.
[0026]
Further, the present invention is the true / false discrimination formation body characterized in that the diameter of the pixel is 50 μm to 1000 μm.
[0027]
Further, the present invention is the authenticity determination formed body, wherein the shape of the pixel is at least one of a circular shape, a polygonal shape and a special shape.
[0028]
The latent image may be at least one of a character, a number, a symbol, and a picture.
[0029]
In addition, the present invention is a true / false discrimination formed body in which the first substrate having light transmittance and the second substrate having light transmittance are bonded and laminated.
[0030]
In addition, the present invention provides a true / false discrimination formed body in which the light-transmitting first base material, the intermediate layer, and the light-transmitting second base material are bonded and laminated. It is.
[0031]
The light blocking layer described above
Further, FIG. 36A shows an explanatory diagram of the specific direction and the specific distance described above. Here, the specific direction is a direction in which the pixel (3c) is formed with respect to the pixel (3a). The specific distance is a distance at which the pixel (3c) is formed with respect to the pixel (3a).
[0032]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the authenticity determination forming body according to the present invention will be described with reference to the drawings. A feature of the true / false discrimination formed body of the present invention is that a light shielding layer is provided on one surface of a light-transmitting base material, and is formed by a light-transmitting pixel in the light shielding layer on one surface of the base material. A latent image formed of a pixel group and a pixel group formed of a light transmissive pixel in the light shielding layer on the other surface of the light transmissive substrate. The individual pixel positions of the pixel group formed by the light transmissive pixels forming the image image are arranged corresponding to the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate. Thus, the latent image can be observed from a specific observation direction with transmitted light. In addition, a light shielding layer is provided on the first base material having light transmittance, and a pixel group formed of light transmitting pixels in the light shielding layer of the first base material, and a second group having light transmittance. The substrate is provided with a light shielding layer, and is composed of a latent image formed of a pixel group formed by light transmissive pixels in the light shielding layer of the second substrate. The first substrate and the second substrate are The individual pixel positions of the pixel group formed by the light transmissive pixels that are stacked and form the latent image correspond to the individual pixel positions of the pixel group formed by the light transmissive pixels on the first substrate. Accordingly, the latent image can be observed from the specific observation direction with the transmitted light. An intermediate layer may be provided between the light-transmitting first base material and the light-transmitting second base material. The light transmissive pixel of the present invention is a white pixel and / or a semitransparent pixel whose peripheral region is formed by a light blocking layer, that is, the pixel is a non-printing region and / or a thin print that transmits light. It becomes an area. White pixels and translucent pixels need to be able to transmit light from the pixel region. The light blocking layer is a region in which the peripheral region of the light transmissive pixel is filled, and blocks light such as solid printing or metal deposition.
[0033]
FIG. 1 is a diagram showing an image (2a) formed by white pixels and / or translucent pixels (3a) in which a peripheral region is filled on one surface (1a) of a light-transmitting substrate and its XX 'sectional drawing is shown. It is necessary to make a solid image (Z) that hardly transmits light in the peripheral portion of the white pixel and / or translucent pixel (3a) in which the peripheral region is filled. In this case, the solid image (Z) is printed on the entire area other than the pixel (3a), but it may be only the peripheral area of the pixel (3a). FIG. 2 is a view showing a latent image (2c) formed by white pixels and / or translucent pixels (3c) in which the peripheral region is filled on the other surface (1c) of the light-transmitting substrate. And the XX 'sectional drawing is shown. The peripheral portion of the white pixel and / or the translucent pixel (3c) in which the peripheral region is filled may or may not be a solid image (Z) that hardly transmits light. The image (2a) formed by the white pixels and / or translucent pixels (3a) shown in FIG. 1 is applied to one surface of the substrate, and the white pixels and / or translucent shown in FIG. The latent image (2c) formed by the pixel (3c) is applied to the other surface of the base material to form the authenticity discrimination formed body (4a). FIG. 3 shows a true / false discrimination formed body (4a) and its XX ′ sectional view. As shown in FIG. 4, the white pixels and / or translucent pixels (3c) representing the latent image (2c) are white pixels and / or half that represent the image (2a). The center position of each pixel of the transparent pixel (3a) is used as a reference, and a latent image is formed by regularly arranging the reference peripheral positions separated from the reference by a specific direction (V) and a specific distance (W). There is a need to. That is, the white pixels and / or translucent pixels (3c) representing the latent image (2c) are white pixels and / or translucent pixels (3c) representing the image (2a). The center position of each pixel in 3a) is used as a reference, and there is a deviation. In this case, the white pixels and / or translucent pixels (3c) representing the latent image (2c) are the white pixels and / or translucent pixels representing the image (2a). The pixels (3a) are regularly arranged in a certain direction (right part), but may be arranged regularly in the left part, upper part, lower part, or the like.
[0034]
FIG. 5 shows a case where the authenticity determination formed body (4a) is observed with reflected light from the surface on which the image (2a) is formed, or the surface on which the authenticity determination formed body (4a) forms the image (2a). The figure at the time of observing with transmitted light from the perpendicular direction is shown. As shown in FIG. 5, the area of one surface (1a) of the white pixels and / or translucent pixels (3c) forming the latent image (2c) forms the image (2a). Since it is expressed (printed) as a solid image (Z) that hardly transmits light in the peripheral area, it cannot be observed with reflected light or transmitted light from the vertical direction. The area of the other surface (1c) of the white pixel and / or the translucent pixel (3a) representing the image (2a) is the peripheral area forming the latent image (2c). Since it is expressed (printed) as a solid image (Z) that hardly transmits light, it cannot be observed with reflected light or transmitted light from the vertical direction. Therefore, when observing with reflected light or transmitted light from a direction perpendicular to the substrate, the observer recognizes only the solid image (Z).
[0035]
FIG. 6 shows a view in which the authenticity discrimination formed body (4a) is observed with the transmitted light tilted in the X direction where the transmitted light shown in FIG. 4 can be observed from the surface representing the image (2a). . As shown in FIG. 6, the latent image (2c) formed by the white pixels and / or the translucent pixels (3c) can be clearly seen (in this case, the number 1). This is because the white pixels and / or translucent pixels (3c) constituting the latent image (2c) provided on the substrate (1c) constitute the image (2a) provided on the substrate (1a). With reference to the center position of each pixel of the white pixel and / or the translucent pixel (3a) as a reference, the pixel is regularly arranged in a fixed direction at a reference peripheral position that is separated from the reference by a specific direction and a specific distance. Therefore, by observing from the direction in which the transmitted light can be observed as shown in FIG. 4, white pixels and / or translucent pixels (3a) and white pixels and / or translucent pixels ( 3c), the amount of transmitted light is strong from the region visually recognized as overlapping, and there are white pixels and / or translucent pixels (3a) and white pixels and / or translucent pixels (3c). The amount of transmitted light is hardly recognized from the non-overlapping area. Because, the difference in contrast, it is possible to visually recognize a latent image (2c), as shown in FIG.
[0036]
Regarding the observable direction, as shown in FIG. 7, the white pixels and / or translucent pixels (3c) that form the latent image (2c), and the white pixels that form the image (2a) and Depending on the arrangement rule with the translucent pixel (3a). That is, as shown in the XX ′ cross-sectional view of FIG. 7, the latent image (2c) is formed on the white pixels and / or translucent pixels (3a) that form the image (2a). When white pixels and / or translucent pixels (3c) are regularly arranged on the Y1 side, it is necessary to incline in the X1 direction and observe with transmitted light, and regularly arranged on the Y2 side. In such a case, it is necessary to incline in the X2 direction and observe with transmitted light.
[0037]
Next, FIG. 10 shows the authenticity determination formed body (4b) in which different latent image images can be seen from four different directions with transmitted light. An image provided with the image shown in FIG. 1 is used on one surface of a light-transmitting substrate. In order to make it possible to visually recognize different latent image images from four different directions with transmitted light, white pixels and / or translucent pixels that form the latent image and white pixels that form the image. It is necessary to provide regularity to the translucent pixels. For example, as shown in FIGS. 8A to 8D, four latent image images, that is, a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4). When these four images are desired to appear, it is necessary to synthesize these four images to form a latent image (2c) on the other surface (1c) of the substrate having optical transparency as shown in FIG. The white pixels and / or translucent pixels (3c) forming the latent image (2c) provided on the other surface (1c) of the light-transmitting substrate represent the image (2a). The latent image is arranged regularly at a reference peripheral position that is separated from the reference by a specific direction and a specific distance with reference to the center position of each of the white pixels and / or translucent pixels (3a). An image needs to be formed. That is, the white pixels and / or translucent pixels (3c) representing the latent image (2c) are white pixels and / or translucent pixels (3c) representing the image (2a). The center position of each pixel in 3a) is used as a reference, and there is a deviation. As shown in FIG. 10, the white pixel and / or translucent pixel (3c) that formed the latent image (2c) is in the Y1 position with respect to the white pixel and / or translucent pixel (3a). Are regularly arranged (in this case, the latent image 2c1), it is necessary to incline in the X1 direction and observe with transmitted light, and regularly arranged at the Y2 position (in this case, the latent image 2c2). ), It is necessary to observe the transmitted light tilted in the X2 direction, and when it is regularly arranged at the Y3 position (in this case, the latent image 2c3), the transmitted light is tilted in the X3 direction. If it is regularly arranged at the Y4 position (in this case, the latent image 2c4), it is necessary to incline in the X4 direction and observe with transmitted light.
[0038]
The authenticity determination formation body (4b) provided with the latent image (2c1), the latent image (2c2), the latent image (2c3), and the latent image (2c4) obtained by combining the latent image (2c4) is reflected. When observed with light or when observed with transmitted light from the vertical direction, it is recognized as a solid image (Z) in the same manner as the authenticity discrimination formed body (4a), and as shown in FIG. In the case of observing with transmitted light tilted in the X1 direction, the latent image (2c1) (2 in this case) regularly arranged in Y1 is visually recognized, and as shown in FIG. When observing with transmitted light tilted in the X2 direction shown, the latent image (2c2) (3 in this case) regularly arranged in Y2 is visually recognized, and as shown in FIG. In the case of observing with transmitted light inclined in the X3 direction shown in FIG. 3) (4 in this case) is visually recognized, and as shown in FIG. 11D, in the case of observing with transmitted light tilted in the X4 direction shown in FIG. 10, the latent image image regularly arranged in Y4 (2c4) (5 in this case) is visually recognized. That is, four different images can be visually recognized by tilting from four different directions with transmitted light.
[0039]
In the authenticity discrimination formation body (4b), four images have appeared. Needless to say, two or three images can also appear. Further, the four images of the latent image (2c1), the latent image (2c2), the latent image (2c3), and the latent image (2c4) are represented by white pixels and / or translucent pixels (3a). On the other hand, it is regularly arranged vertically and horizontally, but may be regularly arranged in an oblique direction. In this case, white pixels and / or translucent pixels regularly arranged vertically and horizontally It is also possible to arrange 8 pixels by arranging regularly and diagonally and semi-transparent pixels diagonally. Further, by using such a plurality of latent image images, a part of each latent image is differentiated in a moving image to produce a true / false discriminating body, which is tilted by transmitted light, and an authenticity discriminating body. By rotating and observing, the latent image can move and be observed like a moving image. The four images of the latent image (2c1), the latent image (2c2), the latent image (2c3), and the latent image (2c4) are all different images, but the same image is used. Either the same image or different images may be combined.
[0040]
As described above, when the authenticity determination formed bodies (4a) and (4b) are put together, a latent image formed of white pixels and / or translucent pixels formed on the other surface of the light-transmitting substrate is obtained. It is composed of white pixels and / or translucent pixels obtained by synthesizing n latent image images, and the white pixels and / or translucent pixels constituting the first latent image image have light transmittance. Based on the center position of each of the white pixels and / or translucent pixels constituting an image composed of white pixels and / or translucent pixels on one surface of the substrate One of the base materials having light transmissivity, wherein white pixels and / or translucent pixels constituting n latent image images are regularly arranged at a reference peripheral position separated by a specific direction and a specific distance. A white area that forms an image with white and / or translucent pixels on the surface The center of each of the white pixels and / or translucent pixels expressing the image other than the area where the n-1 latent image is provided for the pixels and / or translucent pixels It is necessary to form a latent image by regularly arranging the positions at the reference peripheral positions that are separated from the reference by a specific direction and a specific distance.
[0041]
Next, when the image is continuously tilted in the same direction from the vertical direction, that is, as the authenticity determination body tilts, the image continuously moves and can be viewed when viewed with transmitted light, or different latent images. The case where an image image can be visually recognized is shown. The one shown in FIG. 1 is used for one surface of the substrate having light permeability. The other side of the substrate having light transmittance so that the image continuously moves when viewed with transmitted light while being tilted continuously in the same direction from the vertical direction, or a different latent image can be viewed. It is necessary to provide regularity to the white pixels and / or translucent pixels formed on the surface. For example, as shown in FIG. 12, when it is desired to continuously display four latent image images, that is, a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4). These four images need to be combined to form a latent image (2c) on the other surface of the light-transmitting substrate as shown in FIG.
[0042]
When combining the latent image (2c1), the latent image (2c2), the latent image (2c3), and the latent image (2c4), in order to prevent the transmitted image from being visually recognized from the vertical direction. As shown in FIG. 14 (a), they are arranged so as not to overlap with white pixels and / or translucent pixels formed on one surface of a light-transmitting substrate. Next, with reference to the center position of each pixel of the white pixel and / or the semitransparent pixel (3a1), the white pixel and / or the semitransparent pixel (3c1) that forms the latent image (2c1). ) Are regularly arranged at a reference peripheral position separated from the reference by a specific direction and a specific distance. Next, a white pixel and / or a semitransparent pixel (3c2) for forming a latent image (2c2) is formed adjacent to a white pixel and / or a semitransparent pixel (3c1). Next, a white pixel and / or a semitransparent pixel (3c3) for forming a latent image (2c3) is formed adjacent to a white pixel and / or a semitransparent pixel (3c2). Next, a white pixel and / or a semitransparent pixel (3c4) for forming a latent image (2c4) is formed adjacent to a white pixel and / or a semitransparent pixel (3c3). In this case, “adjacent” may be partially overlapped, slightly separated, or touched. The latent image (2c1), the latent image (2c2), the latent image (2c3), and the latent image (2c4) are combined on the other surface of the light-transmitting substrate. The white pixels and / or translucent pixels that form 2c) are the white pixels and / or translucent pixels (3a1) that are formed on one side of the light-transmitting substrate. And / or between the translucent pixels (3a2), that is, between the regions (S) as shown in FIGS. The true / false discrimination formed body (4c) thus formed is recognized as a solid image (Z) in the same manner as the true / false discrimination formed body (4a) when observed with reflected light or when observed with transmitted light from the vertical direction. Is done.
[0043]
As shown in FIG. 15, in the case of observing with transmitted light while continuously tilting in the Y ′ direction from the Y direction shown in FIG. 14, the latent image (2c1), the latent image (2c2), and the latent image (2c3) ) And the latent image (2c4) in this order.
[0044]
In such a case, the authenticity determination formed body (4c) is configured such that the latent image provided on the other surface of the light-transmitting substrate has white pixels and / or a composite of n latent image images. The latent image formed by the translucent pixels has the light-transmitting pixels and / or translucent pixels that form the first latent image provided on the other surface of the light-transmitting substrate. In contrast to the white pixels and / or translucent pixels that form the image provided on the substrate having the property, the pixels are regularly arranged in the peripheral area of the white pixels and / or translucent pixels that form the image. An image in which white and / or translucent pixels forming n latent image images provided on the other surface of the light-transmitting substrate are provided on one surface of the light-transmitting substrate. N-1 latent image images for white and / or translucent pixels forming White pixels and / or translucent pixels that form n latent image images with regularity at positions separated by the same direction and different distances from the positions of the white pixels and / or translucent pixels to be formed Need to be arranged in order.
[0045]
Next, a case where a three-dimensional image can be visually recognized when observed with transmitted light from a vertical direction with respect to a light-transmitting substrate is shown. The one shown in FIG. 1 is used for one surface of the substrate having light permeability. In order to make it possible to visually recognize a three-dimensional image when observed with transmitted light from a vertical direction with respect to a substrate having light transparency, white pixels and / or semi-transparent that form a latent image are formed. It is necessary to provide regularity in pixel arrangement. As shown in FIG. 16, a latent image formed by a pair of white pixels and / or translucent pixels (3c1, 3c2) forming a latent image is a white pixel expressing the image (2a). And / or symmetrically arranged with respect to the center position of each of the translucent pixels (3a) as a reference, and regularly arranged at a specific direction and a specific distance from the reference to form a latent image. There is a need. Further, the position where the latent image is formed by the pair of white pixels and / or the translucent pixels (3c1, 3c2) needs to be arranged at a position considering binocular parallax (FIG. 17). That is, the white pixels and / or translucent pixels (3a) representing the image (2a) and the pair of white pixels and / or translucent pixels (3c1, 3c2) forming the latent image. ) Must be in a parallax barrier relationship.
[0046]
The authenticity determination formed body (4d) produced by arranging the image (2a) and the latent image (2c1, 2c2) in this way is perpendicular to the authenticity determination formed body (4d) as shown in FIG. When observed with transmitted light from the direction, the left eye of the observer has white pixels provided on the right side of the white pixels and / or translucent pixels (3a) that form the image (2a), and The latent image formed by the semi-transparent pixel (3c1) is visually recognized, and is provided on the left side of the white pixel and / or the semi-transparent pixel (3a) forming the image (2a) on the right eye of the observer. Further, the latent image formed by the white pixels and / or the translucent pixels (3c2) is visually recognized, so that the latent image (2c) formed by the white pixels and / or the translucent pixels is viewed three-dimensionally. Is done. That is, the pair of latent image images (2c1, 2c2) needs to be arranged at a position where the image (2a) is a parallax barrier.
[0047]
Next, FIG. 33 shows a true / false discriminating body (4e) having a different configuration from the true / false discriminating body (4b) and in which different latent image images can be seen from four different directions with transmitted light. An image provided with the image shown in FIG. 1 is used on one surface of a light-transmitting substrate. In order to be able to visually recognize different latent image images from four different directions with transmitted light, white pixels and / or semi-transparent pixels forming the latent image and white pixels forming the image and It is necessary to provide regularity to translucent pixels. For example, as shown in FIG. 31A to FIG. 32D, four latent image images, that is, a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4). When these two images are desired to appear, it is necessary to combine these four images to form a latent image (2c) on the other surface (1c) of the light-transmitting substrate as shown in FIG. The latent image (2c1), the latent image (2c2), the latent image (2c3), and the latent image (2c4) must be formed with at least one of different colors and densities for each latent image. . Further, the white pixels and / or translucent pixels (3c) that form the latent image (2c) provided on the other surface (1c) of the light-transmitting substrate represent the image (2a). It is necessary to form a latent image by regularly arranging the pixels inside or partially inside the white pixels and / or translucent pixels (3a). The white pixel and / or translucent pixel (3c) forming the latent image (2c) is located at the Y1 position with respect to the white pixel and / or translucent pixel (3a) as shown in FIG. Are regularly arranged (in this case, the latent image 2c1), it is necessary to incline in the X1 direction and observe with transmitted light, and regularly arranged at the Y2 position (in this case, the latent image 2c2). ), It is necessary to observe the transmitted light tilted in the X2 direction, and when it is regularly arranged at the Y3 position (in this case, the latent image 2c3), the transmitted light is tilted in the X3 direction. If it is regularly arranged at the Y4 position (in this case, the latent image 2c4), it is necessary to incline in the X4 direction and observe with transmitted light. FIG. 36 (b) shows an explanatory diagram of the above-described intrinsic or partial intrinsic. In the above description, the internal state means that the pixel (3c) is formed in the pixel (3a), and the partial internal state means that a part of the pixel (3c) is overlapped in the pixel (3a).
[0048]
The authenticity determination formation body (4e) provided with the latent image (2c1), the latent image (2c2), the latent image (2c3), and the latent image (2c4) obtained by combining the latent image (2c4) is reflected. Although each latent image is difficult to see when observed with light or when viewed with transmitted light from the vertical direction, as shown in FIG. 34 (a), observed with transmitted light tilted in the X1 direction shown in FIG. In this case, the latent image (2c1) (2 in this case) regularly arranged in Y1 is visually recognized, and as shown in FIG. 34 (b), it is tilted in the X2 direction shown in FIG. When observing, the latent image (2c2) (3 in this case) regularly arranged in Y2 is visually recognized, and transmitted light is tilted in the X3 direction shown in FIG. 33 as shown in FIG. 34 (c). When observing with, the latent image (2c3) (4 in this case) regularly arranged at Y3 is visually recognized. As shown in FIG. 34D, when observing with transmitted light tilted in the X4 direction shown in FIG. 33, a latent image (2c4) (in this case, 5) regularly arranged in Y4 is visually recognized. The That is, four different images can be visually recognized by tilting from four different directions with transmitted light. The effect of the present invention can also be achieved with the configuration as shown in FIG.
[0049]
The white pixels and / or translucent pixels of the present invention are formed by non-printing areas or printing, and the size is preferably 50 to 1000 microns. The size of the white pixels and / or the translucent pixels is related to the resolution and the number of images to be expressed as the thickness of the light-transmitting substrate. Of course, when a high-resolution image is expressed in a specific area, white pixels and / or translucent pixels having the smallest possible diameter are necessary. In addition, when a large-diameter white pixel and / or a semi-transparent pixel is used, an image that can be expressed becomes rough. The printing method is not particularly limited.
[0050]
In the authenticity determination formed body (4e) of the present invention, the degree to which the pixels forming the latent image are included or partially included in the pixels forming the image is about 50% of the diameter of the pixels forming the image. Is preferred.
[0051]
The light-transmitting substrate used in the present invention is not particularly limited, and paper sheets, films, plastics and the like can be used. Further, the thickness of the light-transmitting substrate is not particularly limited, but is preferably about 0.1 mm to 1.0 mm.
[0052]
The shape of the white pixel and / or translucent pixel of the present invention is not particularly limited, and it is necessary to form at least one of a circular shape, a polygonal shape, and a special shape. By using polygonal or special-shaped white pixels and / or translucent pixels, it becomes difficult to duplicate, and thus the forgery prevention effect is improved.
[0053]
The latent image formed on the other surface of the light-transmitting substrate of the present invention is composed of at least one of letters, numbers, symbols, and patterns, so that it can be determined whether the image is tilted with transmitted light. The effect is improved.
[0054]
The solid image described above is formed by solid printing, but any solid image such as a metal foil or hologram can be used.
[0055]
The latent image of the present invention can be provided with colors. Furthermore, since each latent image of at least one latent image or each latent image of at least two latent images has a different color for each latent image, authenticity determination is improved.
[0056]
An image composed of a pixel group formed by one or both of a white pixel and a semitransparent pixel and a latent image image composed of a pixel group formed by one or both of a white pixel and a semitransparent pixel are formed. The latent image is clarified by arranging the pixels at equal pitches.
[0057]
By forming the latent image or / and the image with at least one of the density, size and arrangement of the pixels of the present invention, gradation can be imparted to the latent image or / and the image.
[0058]
On the other surface of the light-transmitting substrate and the image formed with the white pixels and / or translucent pixels that form the image provided on one surface of the light-transmitting substrate in the above configuration FIG. 18 schematically shows the arrangement relationship of the latent image formed by the white pixels and / or translucent pixels provided. The pixel (3c) may be white or may have a color that transmits light.
[0059]
Although the above-described authenticity determination formed bodies (a) to (e) are formed on one base material, the present invention is not limited to this, and the effects of the present invention can be achieved by the following configurations. be able to. As shown in FIGS. 28A to 28C, a two-layer structure in which a first base material and a second base material are provided may be used. In FIG. 28A, white pixels and / or translucent pixels (3a) constituting the image (2a) are provided on the surface of the first substrate, and a latent image ( 2c) is provided with white pixels and / or translucent pixels (3c). In FIG. 28B, white pixels and / or translucent pixels (3a) constituting the image (2a) are provided on the back surface of the first base material, and a latent image ( 2c) is provided with white pixels and / or translucent pixels (3c). FIG. 28C shows white pixels and / or translucent pixels (3a) constituting the image (2a) on the surface of the first substrate, and a latent image ( 2c) is provided with white pixels and / or translucent pixels (3c). The first substrate and the second substrate are bonded with an adhesive or the like.
[0060]
Further, as shown in FIGS. 29A to 29D, a structure of three or more layers provided with a first base material, a second base material, and a third base material may be used. In FIG. 29 (a), white pixels and / or translucent pixels (3a) constituting the image (2a) are provided on the surface of the first base material, and a second base material is provided in the intermediate layer. This is a configuration in which white pixels and / or translucent pixels (3c) constituting the latent image (2c) are provided on the back surface of the three layers. In FIG. 29B, white pixels and / or translucent pixels (3a) constituting the image (2a) are provided on the back surface of the first base material, a second base material is provided in the intermediate layer, 3 is a configuration in which white pixels and / or translucent pixels (3c) constituting the latent image (2c) are provided on the back surface of the substrate 3. In FIG. 29 (c), white pixels and / or translucent pixels (3a) constituting the image (2a) are provided on the surface of the first base material, a second base material is provided in the intermediate layer, 3 is a configuration in which white pixels and / or translucent pixels (3c) constituting the latent image (2c) are provided on the surface of the substrate 3. In FIG. 29 (d), white pixels and / or translucent pixels (3a) constituting the image (2a) are provided on the back surface of the first base material, and a second base material is provided in the intermediate layer. 3 is a configuration in which white pixels and / or translucent pixels (3c) constituting the latent image (2c) are provided on the surface of the substrate 3. In FIGS. 29B and 29C, white pixels and / or translucent pixels (3a) constituting the image (2a) are provided on the back surface of the first base material, which is an intermediate layer. You may provide the white pixel and / or translucent pixel (3a) which comprise the image (2a) on the surface of a 2nd base material. In addition, in FIGS. 29C and 29D, white pixels and / or translucent pixels (3c) constituting the latent image (2c) are provided on the surface of the third substrate. You may provide the white pixel and / or translucent pixel (3c) which comprise a latent image (2c) in the back surface of the 2nd base material used as an intermediate | middle layer. The first substrate, the second substrate, and the third substrate are bonded with an adhesive or the like.
[0061]
In the multilayer structure shown in FIGS. 28 and 29, the first base material, the second base material, and the third base material need to be bonded with an adhesive or the like. Thus, you may provide a 1st base material, a 2nd base material, and a 3rd base material in a booklet.
[0062]
At least one light-transmitting substrate may be provided between the light-transmitting first substrate and the light-transmitting second substrate, and the light-transmitting first substrate. The anti-counterfeiting effect is improved by providing at least one light-transmitting substrate provided between the first substrate and the light-transmitting second substrate by providing a color or a substrate that emits light by ultraviolet rays. . In addition, the first substrate having optical transparency and the second substrate having optical transparency may be laminated with an adhesive, and the first substrate having optical transparency, the intermediate layer, and the optical transparency. A second base material having a layer may be laminated by an adhesive layer.
[0063]
【Example】
EXAMPLES Hereinafter, although this invention is demonstrated further in detail using an Example, the content of this invention is not limited to the range of these Examples.
[0064]
(Example 1)
A film with a thickness of about 0.15 mm is prepared, and on the surface of the film, white pixels (3a) in which a peripheral area with a diameter of 0.1 mm is filled are screened in a grid pattern at regular intervals of 0.8 mm. The pattern (A) was applied by a printing machine (see FIG. 19A). In addition, on the back surface of the film, a white image (3c) in which a peripheral region having a diameter of 0.1 mm was painted was subjected to a latent image pattern (B) by a screen printer at a constant interval of 0.8 mm (see FIG. 19 (b)). At this time, the white pixels of the pattern (A) applied to the surface of the film and the white pixels forming the latent image pattern (B) applied to the back surface of the film are the white pixels of the pattern (A). A true / false discrimination formed body (C1) was created by regularly arranging the pixels on the left side with respect to the center position of each pixel (see FIG. 20). When the authenticity determination formed body (C1) is observed with reflected light or when observed with transmitted light from the vertical direction, only the solid image (Z) is visually recognized, and the transmitted light is viewed from the direction indicated by the arrow in FIG. When observed, the latent image (B) was visible as shown in FIG.
[0065]
(Example 2)
A film with a thickness of about 0.15 mm is prepared, and on the surface of the film, white pixels (3a) in which a peripheral area with a diameter of 0.1 mm is filled are screened in a grid pattern at regular intervals of 0.8 mm. The pattern (A) was applied by a printing machine. In addition, on the back surface of this film, white pixels (3c) having a peripheral area of 0.1 mm in diameter are filled with four latent image patterns (B1) and latent images that are different by a screen printer at a constant interval of 0.8 mm. A latent image (B) on which an image design (B2), a latent image design (B3), and a latent image design (B4) were formed was applied (see FIG. 22). At this time, the white pixels of the pattern (A) applied to the surface of the film and the white pixels forming the latent image pattern (B1) applied to the back surface of the film are the white pixels of the pattern (A). The white pixels forming the latent image (B2) are arranged on the left side (upper side) and regularly arranged on the right side (90 degrees when the upper side is 0 degree) with respect to the center position of each pixel. When the angle is set to 0 degree, the pixels are regularly arranged at 270 degrees, and the white pixels forming the latent image (B3) are regularly arranged at the lower side (180 degrees when the upper side is set to 0 degree). , And the white pixels forming the latent image (B4) are regularly arranged on the upper side (0 degree when the upper side is 0 degree) to create a true / false discrimination formed body (C2) did. When this authenticity determination formed body (C2) is observed with reflected light or observed with transmitted light from the vertical direction, only the solid image (Z) is visually recognized and observed with transmitted light from the X1 direction shown in FIG. In this case, the latent image (B1) can be visually recognized as shown in FIG. 23 (a), and when viewed from the X2 direction shown in FIG. 22 with transmitted light, the latent image (B1) is shown in FIG. 23 (b). When the image image (B2) can be visually recognized and observed with the transmitted light from the X3 direction shown in FIG. 22, the latent image (B3) can be visually recognized as shown in FIG. When observed from the X4 direction shown, the latent image (B4) was visible as shown in FIG.
[0066]
Example 3
A film with a thickness of about 0.15 mm is prepared, and on the surface of the film, white pixels (3a) in which a peripheral area with a diameter of 0.1 mm is filled are screened in a grid pattern at regular intervals of 0.8 mm. The pattern (A) was applied by a printing machine. In addition, on the back surface of this film, white pixels (3c) having a peripheral area of 0.1 mm in diameter are filled with four latent image patterns (B1) and latent images that are different by a screen printer at a constant interval of 0.8 mm. A latent image (B) on which an image design (B2), a latent image design (B3), and a latent image design (B4) were formed was applied. Make sure that the white pixels (3a) of the pattern (A) on both sides of the film and the white pixels (3c) forming the latent image pattern (B) on the back of the film do not overlap, With respect to the white pixel (3a) of the pattern (A), the white pixel forming the latent image (B1) is regularly on the lower side (180 ° when the upper side is 0 °). The white pixels forming the latent image (B2) are regularly arranged on the lower side of the white pixels forming the latent image (B1). The white pixels forming the latent image (B4) are regularly arranged below the white pixels forming the latent image (B2). A true / false discrimination formed body (C3) is created in such a manner that the white pixels that form the latent image (B3) are regularly arranged on the lower side. Was (see FIG. 24). When the laminate (C3) capable of authenticating authenticity is observed with reflected light or when viewed from the vertical direction with transmitted light, only the solid image (Z) is visually recognized, and as shown in FIG. When observed by tilting the transmitted light gradually in the Y ′ direction, as shown in FIG. 26, the latent image (B1), latent image (B2), and latent image (B3) latent image forming a continuous moving image are displayed. Appeared in the order of the image (B4) and was visible. The white pixels forming the latent image (B4) from the latent image (B1) are on the lower side (180 degrees when the upper side is 0 degree) with respect to the white pixels on the pattern (A). However, the positions of the 360 ° -degree white pixels forming the latent image (B4) from the latent image (B1) with respect to the white pixels of the pattern (A). Even so, the effect of the present invention can be achieved by arranging them continuously.
[0067]
(Example 4)
A film with a thickness of about 0.15 mm is prepared, and on the surface of the film, white pixels (3a) in which a peripheral area with a diameter of 0.1 mm is filled are screened in a grid pattern at regular intervals of 0.8 mm. The pattern (A) was applied by a printing machine. In addition, a white image (3c1, 3c2) in which a pair of peripheral areas having a diameter of 0.1 mm are painted on the back surface of the film is transferred to a latent image (B) by a screen printer at a constant interval of 0.8 mm. gave. At this time, a pair of white pixels (3a) forming a pattern (A) applied to the surface of the film and a pair of white pixels (B) forming a latent image pattern (B) applied to the back surface of the film ( 3c1, 3c2) are regularly arranged with a shift of 0.4 mm on the left and right sides from the center of the white pixel (3a) of the pattern (A) to create a true / false discrimination formed body (C4) (FIG. 27). . When this true / false discrimination formed body (C4) is observed with reflected light, only the solid image (Z) is visually recognized, and is about 300 mm away from the substrate having light transparency with transmitted light from the vertical direction. When observed from a distance, a white pixel (3c1) and a white pixel (3c2) can be seen in the left eye and the right eye, respectively, so that a three-dimensional latent image (B) can be visually recognized. It was.
[0068]
(Example 5)
Two transparent PVC sheets with a thickness of 0.2 mm are prepared, and a peripheral area of 0.3 mm in diameter, which is arranged in a grid at regular intervals of 1.4 mm, is painted on one side of this transparent PVC sheet. The pattern (A) was applied by a screen printer with white pixels (3a). In addition, the upper side (3c1), the lower side (3c2), the lower side (3c2), and the left side of the pixel (3c1) are formed by dividing one side of a transparent PVC sheet by a diagonal of a 1.5 mm square. 3c3), screen printing of the latent image design (B) in which two different latent image designs (B1) and latent image design (B2) are formed in a grid pattern with a regular interval of 1.75 mm on the right side of the pixel (3c4) It was given by machine. The latent image pattern (B1) is composed of the upper pixel side (3c1) and the lower pixel side (3c2). The upper pixel side (3c1) is the latent image pattern of the latent image pattern (B1) in yellow, and the others The lower part (3c2) of the pixel is painted in cyan in the latent image pattern (B1), and the other part is painted in yellow. The latent image pattern (B2) is composed of the pixel left side (3c3) and the pixel right side (3c4). The pixel left side (3c3) is the latent image pattern of yellow color in the latent image pattern (B2), The portion is painted in cyan, and on the right side of the pixel (3c4), the latent image pattern of the latent image pattern (B2) is painted in cyan, and the other portions are painted in yellow. A transparent PVC sheet with a pattern (A) and a transparent PVC sheet with a pattern (B), two transparent PVC sheets with a thickness of 0.2 mm provided in the intermediate layer, and a white area in which the peripheral area is filled Laminate contact was made so that the center of the uncovered pixel (3a) and the point shared by the four triangular pixels overlapped, and a printed matter (C5) capable of determining authenticity was produced (see FIG. 37). When this printed matter (C5) capable of authenticating is observed with reflected light or transmitted light from the vertical direction, only the pattern (A) can be confirmed as shown in FIG. 38, and the transmitted light is observed from the X4 direction shown in FIG. In this case, as shown in FIG. 39 (a), the latent image (B1) can be confirmed in yellow, and when viewed from the X2 direction shown in FIG. 37 with transmitted light, it is shown in FIG. 39 (b). Thus, when the latent image (B1) can be confirmed in cyan and is observed from the X3 direction shown in FIG. 37 with transmitted light, the latent image (B2) is in yellow as shown in FIG. 39 (c). When it was observed from the X1 direction shown in FIG. 37 with transmitted light, the latent image (B2) was confirmed in cyan as shown in FIG. 39 (d).
[0069]
Although the present invention has been described based on the embodiment of the present invention, the present invention is not limited to this embodiment, and various other implementations are possible within the scope of the technical idea described in the claims. Possible forms.
[0070]
【The invention's effect】
A light shielding layer is provided on one surface of a light-transmitting substrate, a pixel group formed of light-transmitting pixels in the light shielding layer on one surface of the substrate, and a light-transmitting substrate A light shielding layer is provided on the other surface, and the latent image is composed of a pixel group formed by light transmissive pixels in the light shielding layer on the other surface. When the individual pixel positions of the selected pixel group are arranged corresponding to the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate, and are observed with the transmitted light tilted The appearance of a clear latent image, the appearance of different latent images from multiple directions, the appearance of latent images with colors, and the appearance of a three-dimensional latent image are made. Can be a true / false discriminator with anti-duplication effect, such as banknotes, passports, passports, cards, etc. Forgery, copying, can be applied to valuable printed matter with the need to prevent tampering.
[0071]
In addition, a light shielding layer is provided on the first base material having light transmittance, and a pixel group formed of light transmitting pixels in the light shielding layer of the first base material, and a second group having light transmittance. The substrate is provided with a light shielding layer, and is composed of a latent image formed of a pixel group formed by light transmissive pixels in the light shielding layer of the second substrate. The first substrate and the second substrate are The individual pixel positions of the pixel group formed by the light transmissive pixels that are stacked and form the latent image correspond to the individual pixel positions of the pixel group formed by the light transmissive pixels on the first substrate. By arranging them, the appearance of a clear latent image when tilted and observed with transmitted light, the appearance of different latent images from multiple directions, the appearance of latent images with colors, and the three-dimensional latent image Therefore, banknotes can be a true / fake discriminator with high falsification effect, falsification and anti-duplication effect. Ticket, passports, counterfeit cards or the like, copying can be applied to valuable printed matter with the need to prevent tampering.
[0072]
In terms of design, the latent image can appear in a plurality of different observation directions, and anyone can determine authenticity on the spot without using an authenticity determination device or the like. In addition, when the device is counterfeited or altered, white pixels and / or translucent pixels formed on one surface of the light-transmitting base material and the other of the light-transmitting base material It is necessary to faithfully reproduce the positional relationship between white pixels and / or translucent pixels formed on the surface, and not only the reproduction of fine white pixels and / or translucent pixels themselves, but also their arrangement. It will be very difficult to reproduce even this.
[0073]
[Brief description of the drawings]
FIG. 1 is a diagram in which an image (2a) is formed by white pixels and / or translucent pixels (3a) on one surface (1a) of a light-transmitting substrate and its XX ′ sectional view FIG.
FIG. 2 is a diagram in which a latent image (2c) is formed with white pixels and / or translucent pixels (3c) on the other surface (1c) of a light-transmitting substrate and its XX ′ It is a figure which shows sectional drawing.
FIG. 3 is a view showing a true / false discrimination formed body (4a) and its XX ′ cross-sectional view.
FIG. 4 shows white and / or translucent pixels (3c) representing a latent image (2c) and white and / or translucent pixels representing an image (2a). It is a figure explaining the regularity of a pixel (3a).
FIG. 5 is a view showing a case where the authenticity determination formed body (4a) is observed with reflected light or observed with transmitted light from the vertical direction.
6 is a view showing a case where the authenticity determination formed body (4a) is observed with transmitted light tilted in the X direction shown in FIG. 4; FIG.
FIG. 7 is an explanatory diagram of directions that can be observed.
FIG. 8 is a diagram showing four latent image images of a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4).
FIG. 9 shows a latent image (2c) created by synthesizing four latent images: a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4). FIG.
FIG. 10 is an explanatory diagram of a true / false discrimination formed body (4b) and an observable direction.
FIG. 11 is a view when the authenticity determination formed body (4b) is tilted in the X1, X2, X3, and X4 directions by transmitted light.
FIG. 12 is a diagram showing four latent image images of a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4).
FIG. 13 shows a latent image (2c) created by synthesizing four latent images: a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4). FIG.
FIG. 14 shows white pixels and / or translucent pixels (3c1 to 3c4) representing a latent image, and white pixels and / or translucent pixels (3a1 to 3c4) representing an image. It is a figure explaining the regularity of 3a2).
15 is a view showing a case where the authenticity determination formed body (4c) is observed with transmitted light while being continuously tilted from the Y direction shown in FIG. 14 to the Y ′ direction.
FIG. 16 shows a pair of white pixels and / or translucent pixels (3c1 to 3c2) representing a latent image, and white pixels and / or translucent pixels (3c1 to 3c2) representing an image. It is a figure explaining the regularity of 3a).
FIG. 17 is a diagram illustrating the principle by which a stereoscopic image of a true / false discrimination formed body (4d) is visually recognized.
FIG. 18 shows an image formed with white and / or translucent pixels forming an image provided on one surface of a light-transmitting base material and provided on the other surface of the light-transmitting base material. The figure which arranged the arrangement | positioning relationship of the latent image formed with a white pixel and / or a semi-transparent pixel simply notionally is shown.
FIG. 19 is a diagram showing a pattern (A) given by white pixels and a latent image design (B) given by white pixels on the film.
FIG. 20 is a view showing a true / false discrimination formed body (C1).
21 is a view of the true / false discrimination formed body (C1) observed from the direction indicated by the arrow in FIG. 20 with transmitted light.
FIG. 22 shows a pattern (A) made by white pixels, a latent image design (B1), a latent image design (B2), a latent image design (B3), and a latent image design (B4) made by white pixels. It is a figure which shows the authenticity discrimination | determination formation body (C2) which consists of the latent image pattern (B) which synthesize | combined.
FIG. 23 is a view showing a case where the authenticity determination formed body (C2) is observed with transmitted light after tilted in the X1, X2, X3, and X4 directions with transmitted light.
FIG. 24 is composed of a latent image symbol (B) obtained by synthesizing a latent image symbol (B1), a latent image symbol (B2), a latent image symbol (B3), and a latent image symbol (B4) applied by white pixels. It is a figure which shows a genuineness discrimination formation body (C3).
FIG. 25 is a view showing a true / false discrimination formed body (C3).
FIG. 26 is a diagram showing a case where observation is performed by gradually tilting with transmitted light from the Y direction to the Y ′ direction.
FIG. 27 is a diagram showing a true / false discrimination formed body (C4).
FIG. 28 is a diagram in the case where a true / false discrimination formed body is created with two layers.
FIG. 29 is a diagram in the case where a true / false discrimination formed body is formed with three layers.
FIG. 30 is a diagram in the case where the authenticity determination formed body is provided in the booklet.
FIG. 31 is a diagram showing four latent image images of a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4).
FIG. 32 shows a latent image (2c) created by synthesizing four latent images: a latent image (2c1), a latent image (2c2), a latent image (2c3), and a latent image (2c4). FIG.
FIG. 33 is an explanatory diagram of a true / false discrimination formed body (4e) and an observable direction.
FIG. 34 is a view when the authenticity determination formed body (4e) is tilted in the X1, X2, X3, and X4 directions by transmitted light.
FIG. 35 is a diagram showing another configuration of the authenticity determination formed body (4e).
FIG. 36 is an explanatory diagram of a specific direction, a specific distance, an inherent or partial inherent.
FIG. 37 is a view showing a true / false discrimination formed body (C5).
FIG. 38 is a diagram showing a case where the authenticity determination formed body (C5) is observed with transmitted light.
FIG. 39 is a diagram showing a case where the authenticity determination formed body (C5) is observed with transmitted light after tilted in the X1, X2, X3, and X4 directions with transmitted light.
[Explanation of symbols]
1a One side of a light-transmitting substrate
1c The other surface of the light-transmitting substrate
2a image
2c, 2c1, 2c2, 2c3, 2c4 latent image
3a, 3a1, 3a2, 3c, 3c1, 3c2, 3c3, 3c4 White pixels and / or translucent pixels
4a, 4b, 4c, 4d, 4e Authenticity discriminator
A design
B, B1, B2, B3, B4 Latent image design
C1, C2, C3, C4, C5 Authenticity discriminator
V Specific direction
W Specific distance
Z solid image

Claims (15)

A light shielding layer is provided on one surface of a light-transmitting substrate, a pixel group formed of light-transmitting pixels in the light shielding layer on one surface of the substrate, and a light-transmitting substrate A light-shielding layer is provided on the other surface of the light-shielding layer, and comprises a latent image formed of a pixel group formed of light-transmitting pixels in the light-shielding layer on the other surface.
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the latent image correspond to the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate. Authenticity discriminator to be placed. A light shielding layer is provided on one surface of a light-transmitting substrate, a pixel group formed of light-transmitting pixels in the light shielding layer on one surface of the substrate, and a light-transmitting substrate A light-shielding layer is provided on the other surface of the substrate, and comprises a latent image formed of a pixel group formed of light-transmitting pixels in the light-shielding layer on the other surface of the substrate.
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the latent image correspond to the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate. A true / false discriminator disposed,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the latent image are the center positions of the individual pixels of the pixel group formed by the light transmissive pixels on one surface of the substrate. A true / false discriminating body, characterized in that it is arranged with a specific direction and a specific distance from the reference as a reference. A light shielding layer is provided on one surface of a light-transmitting substrate, a pixel group formed of light-transmitting pixels in the light shielding layer on one surface of the substrate, and a light-transmitting substrate A light shielding layer is provided on the other surface of the base material, and the light shielding layer on the other surface of the base material comprises at least two latent image images composed of pixel groups formed by light transmissive pixels,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate. A true / false discriminator arranged correspondingly,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are the positions of the individual pixels of the pixel group formed by the light transmissive pixels on one surface of the substrate. A true / false discrimination forming body characterized in that a center position is used as a reference, and the specific direction is shifted from the reference by a specific direction and a specific distance, and the specific direction is different for each latent image. A light shielding layer is provided on one surface of a light-transmitting substrate, a pixel group formed of light-transmitting pixels in the light shielding layer on one surface of the substrate, and a light-transmitting substrate A light shielding layer is provided on the other surface of the substrate, and the light shielding layer on the other surface of the substrate comprises at least two latent image images composed of pixel groups formed by light transmissive pixels. The individual pixel positions of the pixel group formed by the light transmissive pixels forming the image image are arranged corresponding to the individual pixel positions of the pixel group formed by the light transmissive pixels on one surface of the substrate. A true / false discriminator,
Among the at least two latent image images, each pixel position of the pixel group formed by the light transmissive pixels forming the first latent image is formed by light transmissive pixels on one surface of the substrate. The center position of each pixel of the formed pixel group is used as a reference, and is shifted from the reference by a specific direction and a specific distance,
Among the at least two latent image images, individual pixel positions of a pixel group formed by the light transmissive pixels forming at least one latent image image other than the first latent image are The center position of each pixel of the pixel group formed of light transmissive pixels on one surface is used as a reference, and is shifted from the reference by a specific direction and a specific distance, and forms a first latent image. A true / false discriminating body characterized by being arranged by being shifted by the same specific direction and different specific distance from each pixel position. A light shielding layer is provided on one surface of a light-transmitting substrate, a pixel group formed of light-transmitting pixels in the light shielding layer on one surface of the substrate, and a light-transmitting substrate A light shielding layer on the other surface of the substrate, and comprising at least one latent image composed of a pair of pixels formed by light transmissive pixels in the light shielding layer on the other surface of the substrate,
The individual pixel positions of the pair of pixel groups formed by the light transmissive pixels forming the at least one latent image are the individual pixels of the pixel group formed by the light transmissive pixels on one surface of the substrate. A true / false discriminating body arranged corresponding to a position,
Each pixel position of one pixel group of the pair of pixel groups formed by the light transmissive pixels forming the at least one latent image is formed by the light transmissive pixels on one surface of the substrate. The center position of each pixel of the pixel group is used as a reference, and the pixel position is shifted from the reference by a specific direction and a specific distance, and the individual pixel position of the other pixel group of the pair of pixel groups is Based on the center position of each pixel of a pixel group formed of light transmissive pixels on one surface as a reference, the pixel group is shifted from the reference by a specific direction and a specific distance, and is different from the one pixel group. Further, the pair of pixel groups is arranged at a position where the pixel group formed on one surface of the light-transmitting base material is a parallax barrier. A true / false discriminator. A light shielding layer is provided on a first base material having light transparency, a pixel group formed of light transmissive pixels in the light shielding layer of the first base material, and a second base material having light transparency. The material is provided with a light shielding layer, and is composed of a latent image formed of a pixel group formed by light transmissive pixels in the light shielding layer of the second base material,
The first base material and the second base material are laminated,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the latent image correspond to the individual pixel positions of the pixel group formed by the light transmissive pixels on the first base material. Authenticity discriminator to be placed. A light shielding layer is provided on a first base material having light transparency, a pixel group formed of light transmissive pixels in the light shielding layer of the first base material, and a second base material having light transparency. A light shielding layer is provided on the material, and a latent image formed of a pixel group formed of light transmissive pixels in the light shielding layer of the second base material,
The first base material and the second base material are laminated,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the latent image correspond to the individual pixel positions of the pixel group formed by the light transmissive pixels on the first base material. A true / false discriminator disposed,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the latent image are based on the center positions of the individual pixels of the pixel group formed by the light transmissive pixels on the first substrate. And a true / false discriminator formed by being shifted from the reference by a specific direction and a specific distance. A light shielding layer is provided on a first base material having light transparency, a pixel group formed of light transmissive pixels in the light shielding layer of the first base material, and a second base material having light transparency. The material is provided with a light shielding layer, and is composed of at least two latent image images composed of pixel groups formed by light transmissive pixels in the light shielding layer of the second base material,
The first base material and the second base material are laminated,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are the individual pixel positions of the pixel group formed by the light transmissive pixels on the first substrate. A true / false discriminator arranged correspondingly,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are the centers of the individual pixels of the pixel group formed by the light transmissive pixels on the first substrate. An authenticity determination forming body, wherein a position is used as a reference, and the specific direction is shifted from the reference by a specific direction and a specific distance, and the specific direction is different for each latent image. A light shielding layer is provided on a first base material having light transparency, a pixel group formed of light transmissive pixels in the light shielding layer of the first base material, and a second base material having light transparency. The material is provided with a light shielding layer, and is composed of at least two latent image images composed of pixel groups formed by light transmissive pixels in the light shielding layer of the second base material,
The first base material and the second base material are laminated,
The individual pixel positions of the pixel group formed by the light transmissive pixels forming the at least two latent image images are the individual pixel positions of the pixel group formed by the light transmissive pixels on the first substrate. A true / false discriminator arranged correspondingly,
Of the at least two latent image images, individual pixel positions of the pixel group formed by the light transmissive pixels forming the first latent image are formed by the light transmissive pixels on the first base material. The center position of each pixel of the pixel group is used as a reference, and is shifted from the reference by a specific direction and a specific distance,
Among the at least two latent image images, individual pixel positions of a pixel group formed by the light transmissive pixels that form at least one latent image image other than the first latent image are the first pixel image Individuals that are arranged with a specific direction and a specific distance from the reference, and that form a first latent image, with the center position of each pixel of a pixel group formed of light transmissive pixels on a substrate as a reference A true / false discriminant formed by being shifted by the same specific direction and a different specific distance as the pixel position of. A light shielding layer is provided on a first base material having light transparency, a pixel group formed of light transmissive pixels in the light shielding layer of the first base material, and a second base material having light transparency. A light shielding layer is provided on the material, and comprises at least one latent image formed of a pair of pixels formed by light transmissive pixels in the light shielding layer of the second substrate;
The first base material and the second base material are laminated,
The individual pixel positions of the pair of pixel groups formed by the light transmissive pixels forming the at least one latent image are the individual pixels of the pixel group formed by the light transmissive pixels on the first substrate. A true / false discriminating body arranged corresponding to a position,
Each pixel position of one pixel group of the pair of pixel groups formed by the light transmissive pixels forming the at least one latent image is a pixel formed by the light transmissive pixels on the first base material. The center position of each pixel of the group is used as a reference, and the pixel position is shifted from the reference by a specific direction and a specific distance, and the individual pixel position of the other pixel group of the pair of pixel groups is the first base Based on the center position of each pixel of a pixel group formed of light transmissive pixels on the material as a reference, the pixel is arranged with a specific direction and a specific distance away from the reference, and specified in a direction different from the one pixel group A true / false discrimination formation body, wherein the pair of pixel groups is arranged at a position where the pixel group formed on the first base material is a parallax barrier. 11. The authenticity determination formed body according to claim 1, wherein the latent image has a color. 11. The at least one latent image or the at least two latent images differ in at least one of color and density for each latent image. True / false discrimination formation. 9. A substrate having at least one layer of light transmittance is provided between the first substrate having light transmittance and the second substrate having light transmittance. , 9 or 10 authenticity discrimination formation body. The pixels constituting the pixel group and the pixels constituting the latent image are arranged at equal pitches, respectively. The authenticity determination formed body according to 10, 11, 12, or 13. 15. The true / false discrimination formation according to claim 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 or 14, wherein the pixel has a diameter of 50 μm to 1000 μm. body.

Images