JP2004148712A - Printed matter to which forgeryproof treatment is applied and manufacturing method for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To apply a forgeryproof treatment by which the probability, in which a forgery (counterfeiting) preventive pattern behind a variable information data becomes the same, hardly occurs, in printed matter in which the variable information data such as a drawing number or the like is printed within a plurality of printed frames. <P>SOLUTION: In the printed matter applied with a forgeryproof treatment with oblique lines 20 printed arranged in irregular intervals under the variable information data over the entire face of a substrate 5 where one face 3, in which the variable information data such as the lottery number 12 or the like is printed within the plurality of printed frames 10, is arranged in a multi-face way, the printed matter is applied with the forgeryproof treatment, in which the oblique lines 20 arranged at irregular intervals are printed by being shifted longitudinally to the running direction P, and the oblique lines 20 arranged at irregular intervals are printed in a special ink which is not visible under visible light. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a printed matter on which a forgery prevention measure has been applied, and more particularly to a printed matter on which a forgery prevention measure for preventing falsification of a winning number or a winning pattern in a lottery ticket or the like is applied.
[0002]
[Prior art]
In the past, for example, scratch lots that concealed variable information data such as winning numbers or “winning”, “off”, and corresponding patterns with ink of concealment and scratch-off (ease of scratching) have been known, and instant lottery Widely used for tickets, lottery game cards, and printed materials.
[0003]
However, in the printed matter such as a lottery ticket on which variable information data such as a winning number and a pattern corresponding to the winning number is printed, not limited to the scratch 籤, for example, as shown in FIG. 10) In the case of the lottery printed matter (2) that is selected when “1”, “2”, and “3” are arranged in order as the variable information data (12), the variable information as shown in FIG. The data (12) is cut out including “2” in the print frame (10) at the right end of the lottery printed matter (2), which is an outlier in the order of “1”, “2”, “2”. The variable information data (12) as shown in FIG. 8 (c) is in the print frame (10) at the left end of the lottery printed matter (2), which is a missed ticket arranged in the order of “3”, “2”, “2”. To the right of the printed matter with lottery (2), which is a release ticket shown in FIG. A lottery printed matter (1), “2” and “3” are arranged in order in the variable information data (12) as shown in FIG. Many problems of tampering with 2) occurred.
[0004]
For example, as shown in FIG. 9 (a), three printing frames in which “1”, “2”, and “3” are printed as variable information data (12) are provided as measures for preventing forgery by such alteration. In (10), the printed matter (1) is provided with a forgery prevention measure in which a fine pattern (14) made up of random patterns is printed under the variable information data (12). When trying to falsify the printed matter (1) on which the forgery prevention measures are taken, for example, as shown in FIG. 9 (a), “1” as variable information data (12) in three print frames (10), respectively. In the case of the printed matter (1) on which the anti-counterfeiting measure is selected when “2” and “3” are arranged in order, the variable information data (12) as shown in FIG. 9B is “1”, “2 ”,“ 2 ”in order, printed matter with anti-counterfeit measures ( ) Including “2” in the print frame (10) on the right end and the thin strip pattern (14) around it, and variable information data (12) as shown in FIG. , “2”, “2” and “3” in the leftmost printing frame (10) of the printed matter (1) on which the counterfeit prevention measures are applied, and strip patterns (14) surrounding the printed matter (14). 9a and is attached to the right end printing frame (10) of the printed matter (1), which is a slip-off ticket shown in FIG. 9 (b), as shown in FIG. 9 (a). The variable information data (12) is a printed matter (1) on which anti-counterfeiting measures are applied, which is a winning ticket in which “1”, “2”, and “3” are arranged in order. The winning ticket shown in FIG. When the printed matter (1) on which the forgery prevention measure that should have been taken is observed closely, it is cut from the left end of FIG. 9 (c) in the right end print frame (10). And the thin strip pattern (14) around the variable information data (12) composed of “3” and the thin strip pattern (14) pasted on the outside thereof are discontinuous and disconnected. The printed matter (1) is provided with a forgery prevention measure determined to be counterfeit by such a discontinuous fine pattern (14).
[0005]
However, even in the printed matter (1) in which the anti-counterfeit measure is applied with the fine pattern (14) in the print frame (10), in the case of a simple fine pattern, the same or extremely similar fine pattern is provided. By cutting and pasting the variable information data (12) to which the pattern (14) is applied, it is possible to make the thin pattern (14) continuous, and what is a forgery prevention measure by complete tampering? There was a problem of not becoming.
[0006]
Further, the above problem lies in applying a fine pattern using a printing plate, that is, only a few tens of patterns can be formed, and for example, a printing plate on which a total of 20 surfaces of 4 × 5 × 5 are imposed. When 1000 sheets with 20 impositions are printed using 1000, 1000 out of 20,000 surfaces having the same fine pattern pattern are generated. In other words, one printed sheet with the same fine pattern at the rate of one sheet per 20 sheets will be generated, and more will be generated when extremely similar thin patterns are combined. There was a problem that there was a risk of more frequent occurrences.
[0007]
In addition, although not shown in the drawing, in a printed matter in which a fine pattern is applied in the print frame and a forgery prevention measure is applied, if the cut pattern is cut and pasted for each print frame provided with the fine pattern, the thin pattern is continuous. There is a problem that it cannot be a forgery prevention measure by falsification.
[0008]
[Problems to be solved by the invention]
The present invention solves the problems of the prior art, and the object of the present invention is to have a plurality of print frames, and the information means (lottery number, etc.) with high security is provided in the print frames. In a printed matter on which variable information data is printed, a printed matter on which anti-counterfeiting measures have been taken so that almost no pattern having the same pattern for preventing falsification (forgery) due to rewriting in the background of the variable information data is generated. It is in providing the manufacturing method.
[0009]
[Means for Solving the Problems]
In order to achieve the above object in the present invention, first, in the invention of claim 1, there is a variable that has a plurality of printing frames on one side of the traveling substrate and serves as a highly secure information means in the printing frame. One surface on which information data is printed is arranged with multiple impositions, and under the variable information data printed with the multiple impositions, diagonal lines formed at unequal intervals on the entire surface of the substrate to be imprinted or deformation thereof Printed with anti-counterfeiting measures in which pattern lines are printed continuously one by one, and at least one of the slash lines or their deformed pattern lines printed at unequal intervals is printed. An anti-counterfeiting measure characterized in that diagonal lines or distorted pattern lines that are within the frame and at irregular intervals are printed shifted one after the other in the running direction. It was a printed product that was given That.
[0010]
According to the first aspect of the present invention, variable information data serving as high-security information means (for example, winning or losing number) is printed in a plurality of print frames, and below this, the entire surface of the substrate is unequally spaced. A slanted line or an image of its deformation pattern is printed, and at least one of them is in the print frame. The variable information data is cut and pasted (replaced) in the print frame or for each print frame. (Forgery) Printed material with anti-counterfeiting measures in which the hatched lines where the parts that have been replaced are unevenly spaced or the image of the deformed pattern loses continuity with the surrounding area, and tampering is revealed Under the variable information data printed with multi-page imposition, diagonal lines or distorted pattern lines with irregular intervals are applied to the entire surface of the multi-page imprint This is printed continuously, and the oblique lines with irregular intervals or the image of the deformation pattern are printed shifted one after the other in the running direction to prevent falsification due to re-sticking. Therefore, it is possible to provide a printed matter on which a forgery prevention measure is applied so that almost the same pattern is not generated.
[0011]
The invention according to claim 2 is characterized in that the slash lines formed at unequal intervals or the image lines of the deformation pattern are printed with special ink that is not visible under visible light. It is a printed matter on which anti-counterfeiting measures have been taken.
[0012]
According to the second aspect of the invention, the oblique lines formed at irregular intervals or the image lines of the deformation pattern are printed with the special ink that is not visible under visible light. Because it is not noticed by the user, the anti-counterfeiting effect is improved and the variable information data etc. are not affected under visible light, so the printed matter should have anti-counterfeiting measures that give freedom to its design. Can do.
[0013]
According to a third aspect of the present invention, there is provided a counterfeit prevention measure according to the first or second aspect, wherein a thin pattern is provided under the variable information data and in the print frame. It is a printed matter.
[0014]
According to the third aspect of the present invention, since the fine pattern is provided under the variable information data and in the print frame, the falsification by the oblique lines having the unequal intervals or the image lines of the deformation pattern is performed. In addition to the prevention effect, the printed matter can be provided with a forgery prevention measure that further improves the effect.
[0015]
According to a fourth aspect of the present invention, one side of a running base material has a plurality of printing frames, and one side on which variable information data serving as high security information means is printed in the printing frame. Are arranged under the variable information data printed by the multi-page imposition, and the whole surface of the base material is provided with diagonal lines or distorted pattern lines at unequal intervals, and at least one of the lines is printed. A manufacturing method of a printed matter that has been put in a frame and has been printed with a forgery prevention measure printed on either side of the substrate with respect to the running direction of the substrate, wherein the diagonal lines or unequal intervals or Manufacture of printed matter with anti-counterfeit measures characterized in that printing is performed by shifting the rotation of the printing plate cylinder on which the image of the deformation pattern is applied to the traveling base material either forward or backward for each rotation. It is a method.
[0016]
According to the fourth aspect of the present invention, variable information data serving as high security information means (for example, winning or losing number) is printed in a plurality of print frames, and under this, the entire surface of the substrate is unequally spaced. A hatched line or its deformed pattern image is printed, and at least one of them is placed in the print frame. Cut or paste (change) the variable information data in the print frame. Then, the production of printed matter with anti-counterfeiting measures in which the diagonal lines where the pasted parts are unevenly spaced or the lines of the deformation pattern disappears from the continuity and the tampering action is easily revealed Under the variable information data printed with multiple impositions, a printing plate cylinder with oblique lines or distorted pattern lines formed at irregular intervals on the entire surface of the substrate can be rotated. By printing on the traveling base material by shifting to the front or back for each rotation, the oblique lines with irregular intervals or the image of the deformation pattern are shifted to the front or back for each sheet in the traveling direction. Therefore, it can be set as the manufacturing method of the printed matter with which the forgery prevention measure in which the pattern which becomes the same as a pattern which prevents the alteration by the pasting hardly occurs was taken.
[0017]
According to a fifth aspect of the present invention, forgery prevention according to the fourth aspect is characterized in that the oblique lines formed at unequal intervals or the image lines of the deformed pattern are printed with special ink that is not visible under visible light. This is a method for manufacturing a printed matter to which measures are taken.
[0018]
According to the invention of claim 5 above, a person who intends to falsify by re-printing by printing the slash lines formed at unequal intervals or the image of the deformation pattern with special ink that is not visible under visible light. The anti-counterfeiting effect is improved because it is not noticed, and the variable information data is not affected under visible light. can do.
[0019]
Furthermore, in the invention of claim 6, a printed matter with anti-counterfeit measures according to claim 4 or 5, wherein a fine pattern is formed in the print frame under the variable information data. It is a method.
[0020]
According to the sixth aspect of the present invention, since the fine pattern is provided under the variable information data and in the print frame, the falsification is prevented by the oblique lines formed at unequal intervals or the image lines of the deformation pattern. In addition to the effect, it is possible to provide a method for producing a printed matter in which a forgery prevention measure that further improves the effect is applied.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
For example, as shown in the front view of FIG. 1, the printed matter on which the anti-counterfeit measure of the invention according to claim 1 has three print frames (10) on one side of the substrate, 10), information means with high security, for example, variable information data (12), which is a lottery number such as “1”, “2”, “2”, is printed, and the variable information data (12) Below is a printed matter (1) on which anti-counterfeit measures have been taken, in which diagonal lines (20) with unequal intervals are printed on the entire surface of the substrate.
[0022]
In the printed matter (1) on which the anti-counterfeiting measures with the slashes (20) at unequal intervals are applied, for example, as shown in FIG. 5 (a), the variable within the three print frames (10) In the case of the printed matter (1) on which the anti-counterfeiting measure is selected when the information data (12) is arranged in the order of “1”, “2”, and “3”, the tampering action in this case is shown in FIG. ), The variable information data (12) at the right end of the printed matter (1) on which the forgery prevention measure is applied, which is a slip-off ticket in the order of “1”, “2”, “2”. ) Is cut out along with diagonal lines (20) with unequal intervals in the print frame (10), and variable information as shown in FIG. 5 (c). Printing on which data (12) has been counterfeited as a slip-off ticket in the order of “3”, “2”, “2” Each print frame (10) including “3” which is variable information data (12) at the left end of (1) is cut out along with oblique lines (20) formed at unequal intervals in the print frame (10). The variable information as shown in FIG. 5 (a) is attached to the right end printing frame (10) of the printed matter (1), which is the cut-off ticket shown in FIG. The data (12) is a printed matter (1) on which anti-counterfeit measures are taken, which is a winning ticket in which “1”, “2”, and “3” are arranged in order. The winning shown in FIG. If you carefully observe the printed matter (1) on which a counterfeit prevention measure that should have been a ticket is taken, the variable “3” is cut out from the left end of FIG. 5 (c) in the right end print frame (10) and pasted together. Unequally spaced diagonal lines (20) below the information data (12) and unequally spaced outside the print frame (10). The printed matter (1), which has no continuity with the line (20) and has been forged, and has been subjected to anti-counterfeit measures that are determined to be forged by the oblique lines (20) having such discontinuous unequal intervals. It will be.
[0023]
For example, as shown in the front view of FIG. 2, as a modification of the pattern of the slashes (20) with unequal intervals that serves as a measure for preventing tampering (forgery), the check pattern (22) intersects with the slashes with unequal intervals. The printed matter (1) on which anti-counterfeit measures have been taken can also be used, and as shown in the front view of FIG. 3, for example, a geometric pattern (24) in which straight lines, curves, circles, etc., which are unequally spaced are gathered. In addition, for example, as shown in the front view of FIG. 4, a round / elliptical pattern (a set of circles and ellipses with unequal intervals) (see FIG. 4). It can also be the printed matter (1) on which the forgery prevention measure described in 26) is applied. Further, the oblique lines (20) having the unequal intervals, the check pattern (22) intersecting the oblique lines having the unequal intervals, the geometric pattern (24) in which straight lines, curves, circles, etc., unequal intervals are gathered, and the inequality. Any of circles and ellipse patterns (26) consisting of circles with intervals and a set of ellipses can be made with a set of micro characters.
[0024]
Furthermore, in the invention according to the first aspect, as shown in the front view of FIG. 6B, for example, three pieces as shown in the front view of FIG. 1 side (3) on which variable information data (12) serving as highly secure information means (lottery number consisting of “1”, “2”, “3”) is printed in the printing frame (10) As shown in FIG. 6 (b), the array is arranged in 20 pages, which is 4 vertical surfaces × 5 horizontal surfaces, and as shown in FIG. 6 (c), the printed variable information data (not shown). No.) and diagonal lines (20) with unequal intervals are printed on the entire surface of the base material (5) to be multifaceted, and this printing is continuously printed for each sheet. Printed matter (1) on which anti-counterfeiting measures have been taken, characterized by a small number in the oblique lines (20) formed at unequal intervals. 1 is also included in each printing frame (not shown), and the diagonal lines (20) with unequal intervals are printed with a deviation from either the front or the back of the running direction (P). It is what.
[0025]
In this way, one surface (3) is arranged with 20 faces, which is 4 vertical surfaces × 5 horizontal surfaces, and diagonal lines (20) with unequal intervals are formed on the entire surface of the substrate (5). ), The printed material (1) is printed with a forgery prevention measure that is shifted to the front or back for each sheet. For example, when the vertical width of the base material (5) is 254 mm Assuming 254 mm / 360 mm, when 1000 sheets are printed on the base material (5) on which a total of 20 surfaces of 4 vertical surfaces × 5 horizontal surfaces are imposed, 1000 printed materials having diagonal lines (20) with the same unequal spacing Medium 1000/360 will be generated. In other words, a printed matter having a diagonal pattern (20) with the same unequal spacing at a ratio of 2.8 to 20,000 is produced, and falsification by cutting and pasting both within the print frame and every print frame (forgery) Can be a printed matter (1) on which anti-counterfeit measures are almost impossible.
[0026]
Further, in the invention according to claim 2, for example, the diagonal lines (20) having unequal intervals shown in FIG. 5 (a) are provided with a forgery prevention measure printed with special ink that is not visible under visible light. A person who intends to tamper with reprinting when the slashes (20) with unequal spacing are printed with special ink that is not visible under visible light. Since it is not noticed, the anti-counterfeiting effect is improved and, under visible light, the variable information data (12) and the fine pattern (14) in the print frame (10) are not affected. It can be set as the printed matter (1) to which the forgery prevention measure which gives a freedom degree to design property, such as the oblique line (20) itself and this fine pattern (14) which become this unequal space | interval, was given.
[0027]
Examples of the special ink that is not visible under visible light include fluorescent ink or infrared absorbing ink. The former fluorescent ink is a printing ink using an organic fluorescent pigment made of a fluorescent dye and a synthetic resin solid solution. Examples of the fluorescent dye include brilliant sulfoflavin FF, thioflavine, basic yellow, and fluorescein that exhibit yellow in daylight and green to yellow-green in black light. Synthetic resins that serve as carriers for these fluorescent dyes Examples include polymethacrylic acid ester, urea, formalin resin, melamine / formalin resin, vinyl chloride, vinyl chloride-vinyl acetate copolymer, alkyd resin, and their modified ones.
In addition, the former fluorescent ink includes a printing ink using a heat-resistant inorganic fluorescent pigment made of Zn2SiO4 / Mn, CaWO4, etc. that emits light only in the wavelength range of 200 to 300 nm, and the organic fluorescent pigment Alternatively, inorganic fluorescent pigments are dispersed in respective printing ink vehicles (for gravure, screen, and offset) to make fluorescent printing inks for each, and oblique lines (20) or their A deformation pattern can be formed.
[0028]
In addition, the latter infrared absorbing ink is an ink that is prepared by dissolving and dispersing an infrared absorbing material that absorbs only the infrared light wavelength region with a binder resin and a solvent, etc. to match the printing method. For example, phosphoric acid crystal powder containing phosphorus pentoxide as a main component and containing iron oxide or copper oxide or both, glass-based powder containing phosphorus pentoxide as a main component and containing Fe 2+ or Cu 2+ ions, metal complex infrared absorber, cyanine, Infrared absorbing dyes such as phthalocyanine, naphthalocyanine, anthraquinone, colonic methine, azuleoniome, pyrylium, etc. are mentioned, and binders thereof include polyvinyl chloride, vinyl acetate-vinyl chloride copolymer, polyacrylic. Resin such as polystyrene, polyamide, etc., and the solvent is linseed fat, tung fat Examples include alcohols such as toluene, acetone, isopropyl alcohol, methyl ethyl ketone, ethylene glycol, etc. The binder and solvent are selected according to the printing method (gravure, flexo, offset, etc.), and viscosity, transferability, and drying properties are selected. It is possible to make an infrared absorbing ink by adjusting in consideration of the above.
[0029]
The PCS density of the oblique lines (20) having the unequal interval or the image line of the deformation pattern is preferably 0.2 or less, and if it exceeds 0.2, there is a risk of being visually recognized under visible light. Is preferably in the range of 50 to 500 μm, and if it is less than 50 μm, the reproducibility of the image line is lost (thinned), and if it exceeds 500 μm, it can be seen that some printing is performed (visible). ) It is not preferable because of fear.
[0030]
In the case of the former fluorescent ink, the black light is installed in the case of the presence of the oblique lines (20) at irregular intervals made of the above fluorescent ink or infrared absorbing ink or the presence of the image of the deformation pattern and the determination of discontinuity due to tampering. In the case of the latter infrared absorbing ink, the latter is identified as a positive pattern on a white background by an infrared camera, and authenticity can be determined.
[0031]
In the invention according to claim 3, for example, as shown in FIG. 5A, a thin pattern (14) is provided under the variable information data (12) and in the print frame (10). The printed matter (1) is provided with a forgery prevention measure.
[0032]
As described above, in addition to the oblique lines (20) having unequal intervals, the thin print pattern (14) is provided in each print frame (10), so that, for example, the right end print frame as shown in FIG. (10) In addition to the anti-counterfeit effect due to the discontinuity of the oblique lines (20) formed at irregular intervals when the whole is replaced and falsified, for example, the variable in the print frame (10) at the right end as shown in FIG. The printed data (1) is provided with anti-counterfeit measures that are effective in preventing counterfeiting by replacing and tampering with the information pattern (12) "3" and the strip pattern (14) below and around it. Can do.
[0033]
Further, as described above, a fine pattern (14) is formed in the print frame (10) in addition to the oblique lines (20) formed at irregular intervals made of special ink such as fluorescent ink that cannot be visually recognized under the visible light applied to the entire surface of the substrate. By applying, for example, as shown in FIG. 5 (a), the one to be tampered with is mistaken that it has been completely successfully tampered with the rightmost printing frame (10) (actually visible under visible light) There is also an effect that slant lines (20) which cannot be evenly spaced are discontinuous inside and outside the print frame (10).
[0034]
The fine pattern (14) can be obtained by any of offset printing, gravure printing, letterpress printing, or flexographic printing, and for the color of the variable information data (12) applied thereon (mostly black). It is preferable to use a color with little influence (for example, green, orange, red, blue, etc.).
[0035]
The variable information data (12) can be printed by, for example, a thermal transfer method using numbers or symbols with a thermal head, a toner transfer method using laser irradiation, an ink jet method, a dot impact method, or the like. In this case, as shown in the laminated sectional view of FIG. 7A, a transparent ink receiving image is formed on the strip pattern (14) on the substrate (5) and the oblique lines (20) formed at unequal intervals thereon. Generally, a layer (30) is provided and variable information data (12) is printed on the ink image-receiving layer (30) by an ink jet method.
[0036]
Furthermore, in the invention according to the fourth aspect, for example, as shown in FIG. 6A, one surface (3) on which variable information data (12) is printed in three printing frames (10) is provided. As shown in FIG. 6B, 20 pages are arranged on 4 vertical surfaces × 5 horizontal surfaces. As shown in FIG. 6C, under the variable information data printed with the 20 surfaces. And it is a manufacturing method of the printed matter by which the forgery prevention measure which applied the diagonal line (20) which becomes unequally-spaced to the whole surface of a base material (5) and shifted for every sheet with respect to the running direction (P) of a base material was given. The shifting of the oblique lines (20) with unequal intervals is, for example, continuous over the entire surface of the cylindrical printing plate cylinder on which the oblique lines (20) with unequal intervals rotate (without seams to the image lines). The rotation of the printing plate cylinder is shifted to either the front or back for each rotation with respect to the substrate (5) that travels (rotation is rotated). It is intended to be made from time to time to shift) it.
[0037]
If the rotation of the printing plate cylinder is shifted by 1 ° for each rotation using, for example, a printing plate cylinder on which a total of 20 surfaces of 4 vertical surfaces × 5 horizontal surfaces are imposed, FIG. 1 side (3) as shown is the same when 1000 diagonal lines (20) printed at unequal intervals are printed on the entire surface of the base material (5) arranged in a 20-sided layout with 4 vertical sides and 5 horizontal sides The base material (5) on which the oblique lines (20) having unequal intervals are printed will generate 1000/360 sheets out of 1000 sheets. In other words, a printed material having one surface with a diagonal line pattern with the same unequal spacing at a ratio of 2.8 to 20,000 surfaces can be produced, and tampering by cutting and pasting both within the printing frame and every printing frame. It can be set as the manufacturing method of printed matter (1) in which the forgery prevention measure in which (forgery) was almost impossible was taken.
[0038]
As the printing plate cylinder, it is necessary to apply oblique lines with irregular intervals or image lines of the deformation pattern to the entire surface of the cylindrical printing plate cylinder continuously (without joints to the image lines). In the case of the check pattern (22) where the oblique lines (20) having unequal intervals as shown in FIG. 2 and the check pattern (22) intersecting with the oblique lines having unequal intervals as shown in FIG. 2 intersect, gravure printing or flexographic printing is relatively easy. Plate making for printing is possible, but for example, a geometric pattern (24) in which straight lines, curves, circles and the like having unequal intervals shown in FIG. 3 are gathered, and a set of circles and ellipses in unequal intervals shown in FIG. In the case of the round / elliptical pattern (26), it is not impossible but very difficult to apply the entire surface of the printing plate cylinder continuously (without a joint to the image line). 20) or a check where crossed diagonal lines intersect. It is preferable that a pattern (22).
[0039]
The printed matter (1) on which the forgery prevention measures as described above are applied can be used for, for example, an instant lottery ticket, a lottery game card, a printed matter, and the like. Specifically, as shown in FIG. An orange striped pattern (14) is printed on a high-quality paper having a basis weight of 150 to 200 g / m2 as a base material (5) by an offset printing method, and then on the whole surface of the base material (5) by a flexographic printing method. Formed oblique lines (20) with unequal intervals using fluorescent ink, and further coated thereon a transparent ink-receiving layer (30) mainly composed of polyacetal resin by gravure method, and ink jet method thereon Black variable information data (12) is printed, and then an easy peeling layer (32) is formed by applying a release varnish in which about 5% of silicon is added to polyurethane acrylic resin by a gravure method. Scratch ink in which aluminum powder is added to SBR resin can be formed into a scratch mask (7) by forming a scratch concealment layer (34) by a screen printing method. When the scratch concealing layer (34) is scratched off from the surface of the easy-peeling layer (32), etc., the variable information data (12) can be visually recognized, and "winning", "disengagement", etc. can be confirmed. Moreover, as shown in FIG.7 (b), it can also be set as the scratch scissors (7) by which the anti-counterfeit measure which applied the thin pattern (14) on the oblique line (20) which becomes unequally spaced is applied. .
[0040]
【The invention's effect】
Since this invention is the above structure, there exist the following effects.
That is, in the first aspect of the present invention, the one surface of the traveling substrate has a plurality of print frames, and the variable information data serving as high security information means is printed in the print frames. Are arranged with multiple impositions, and under the variable information data printed with the multiple impositions, the diagonal lines or the deformation patterns thereof are formed on the entire surface of the substrate to be imprinted at unequal intervals. In a printed matter that has been continuously printed and forgery-preventing measures are taken, at least one of the slash lines at irregular intervals or one of the lines of the deformation pattern is within the print frame. If you try to tamper (forge) the variable information data for each print frame by cutting and pasting (replacing) it, the pasted part will be shown as an oblique line with unequal intervals or an image of its deformation pattern and its surroundings. It is possible to make a printed matter with anti-counterfeiting measures that eliminates continuity and the tampering action can be easily determined, and under the variable information data printed in multiple imposition, the entire surface of the substrate to be imprinted in multiple imposition The diagonal lines with irregular intervals or the image lines of the deformation patterns are printed continuously for each sheet, and the diagonal lines with irregular intervals or the image lines of the deformation pattern are printed one by one with respect to the traveling direction. Therefore, it is possible to provide a printed matter on which a forgery prevention measure is applied so that almost the same pattern as a pattern for preventing falsification due to replacement is not generated.
[0041]
Further, in the invention according to the second aspect, since the oblique lines having the unequal intervals or the image lines of the deformation pattern thereof are printed with special ink that is not visible under visible light, tampering by re-sticking is attempted. Because it is not noticed by those who want to improve the anti-counterfeiting effect and does not affect the variable information data etc. under visible light, the degree of freedom in design such as variable information data and oblique lines with unequal intervals It can be set as the printed matter in which the forgery prevention measure which provides is applied.
[0042]
Further, in the invention according to claim 3, since the thin pattern is provided under the variable information data and in the print frame, the oblique lines formed at unequal intervals or the image lines of the deformation pattern thereof. In addition to the falsification preventing effect due to the above, it is possible to obtain a printed matter on which an anti-counterfeit measure for improving the effect is applied.
[0043]
In the invention according to claim 4, the one surface of the traveling substrate has a plurality of printing frames, and the variable information data serving as information means with high security is printed in the printing frames. Are arranged in a multi-sided manner, and under the variable information data printed by the multi-sided surface and on the entire surface of the base material, oblique lines or distorted patterns thereof are formed at unequal intervals, and at least one of the lines is provided. In a printing frame, and a method of manufacturing a printed matter with anti-counterfeiting measures in which printing is performed by shifting the sheet to the front or back of each sheet with respect to the running direction of the substrate, where the part that has been pasted is not It is possible to provide a method for producing printed matter with anti-counterfeiting measures in which diagonal lines with equal intervals or the lines of the deformation pattern thereof are not continuous with the surrounding area, and tampering is easily detected. Can be printed with Under the information data, the rotation of the printing plate cylinder on which the diagonal lines with irregular intervals or the lines of the deformation pattern are applied on the entire surface of the substrate is shifted either forward or backward with respect to the traveling substrate. By printing, the diagonal lines at irregular intervals or the image lines of the deformation pattern are printed shifted one after the other with respect to the running direction, so that the same pattern can be used to prevent falsification due to reattachment. It can be set as the manufacturing method of the printed matter in which the forgery prevention measure in which what becomes is hardly generated is taken.
[0044]
Further, in the invention according to claim 5, the oblique lines formed at unequal intervals or the image lines of the deformed pattern are printed with special ink that is not visible under visible light, thereby attempting to tamper with the replacement. The anti-counterfeiting effect is improved because it is not noticed by those who do it, and it does not affect the variable information data etc. under visible light, so the production of printed matter with anti-counterfeit measures that increase the degree of freedom in its design It can be a method.
[0045]
Furthermore, in the invention according to the sixth aspect, since a thin pattern is provided under the variable information data and in the print frame, the oblique lines formed at unequal intervals or the image lines of the deformation pattern thereof. In addition to the effect of preventing falsification due to the above, it is possible to provide a method for producing a printed matter on which a forgery prevention measure for further improving the effect is applied.
[0046]
Therefore, the present invention exerts an excellent practical effect as a printed matter on which an anti-counterfeiting measure for preventing falsification of a winning number or a winning picture in an instant lottery ticket, a lottery game card, a printed matter, or the like is applied.
[Brief description of the drawings]
FIG. 1 is a front view showing an embodiment of a printed matter on which a forgery prevention measure of the present invention has been applied, with oblique lines formed at unequal intervals formed thereon.
FIG. 2 is a front view showing an embodiment of a printed matter on which a forgery prevention measure of the present invention has been applied, and in which an example of a hatched deformation pattern having unequal intervals is formed.
FIG. 3 is a front view showing another embodiment of the printed matter on which the forgery prevention measure of the present invention has been applied, in which another example of the oblique line deformation pattern formed at unequal intervals is formed.
FIG. 4 is a front view showing another embodiment of a printed matter on which a forgery prevention measure of the present invention has been applied, in which another example of a hatched deformation pattern formed at unequal intervals is formed.
FIG. 5 shows an embodiment of a printed matter to which the forgery prevention measure of the present invention is applied,
(A) is a front view of a tampered printed material,
(B) is a front view of the printed material to be tampered with,
(C) is a front view of the printed matter used for falsification.
FIG. 6 shows an example of a production process of a printed matter to which the forgery prevention measure of the present invention is applied, (a) is a front view showing one side to be multifaceted;
(B) is a front view showing a substrate to be multifaceted,
(C) is the front view in which the diagonal line which consists of an unequal space | interval was formed in the base material to be multifaceted.
FIG. 7 shows a printed matter on which the anti-counterfeit measures of the present invention are applied,
(A) is a laminated sectional view showing an example of the case,
(B) is a laminated sectional view showing another example.
FIG. 8 explains an embodiment of a conventional printed matter with lottery,
(A) is a front view of a tampered printed material,
(B) is a front view of the printed material to be tampered with,
(C) is a front view of the printed matter used for falsification.
FIG. 9 is a diagram for explaining an embodiment of a printed matter on which a conventional forgery prevention measure is applied;
(A) is a front view of a tampered printed material,
(B) is a front view of the printed material to be tampered with,
(C) is a front view of the printed matter used for falsification.
[Explanation of symbols]
1. Printed material with anti-counterfeit measures
2. Printed matter with lottery
3. One side with variable information data printed
5 ... Base material to be multifaceted
7. Scratch 籤
10 ... Print frame
12. Variable information data
14 ... Fine pattern
20...
22 ... Check pattern with diagonal lines intersecting at unequal intervals
24 ... Geometric pattern in which straight lines, curves, circles, etc. are formed at unequal intervals
26 ... Circle / oval pattern consisting of a set of circles and ellipses with unequal spacing
30 ... Ink receiving layer
32 ... Easy peeling layer
34 Scratch concealment layer
P ... Direction of substrate travel

Claims (6)

On one side of the traveling substrate, one side on which variable information data serving as information means with high security is printed in a plurality of printing frames is arranged in a multi-sided manner. There is an anti-counterfeiting measure in which diagonal lines or irregular lines with irregular intervals are continuously printed on the entire surface of the variable information data printed on the surface of the multi-faced substrate. The printed matter is applied, and at least one of the slash lines of the unequal interval or the image of the deformation pattern is included in each print frame, and the image of the slash line or the deformation pattern of the unequal interval is provided. A printed matter on which a forgery prevention measure is applied, wherein the line is printed with being shifted to the front or back of each sheet in the running direction. 2. The printed matter with anti-counterfeit measures according to claim 1, wherein the oblique lines formed at unequal intervals or the image lines of the deformation pattern thereof are printed with special ink that is not visible under visible light. 3. A printed matter on which a forgery prevention measure according to claim 1 or 2 is applied, wherein a fine pattern is provided under the variable information data and in the print frame. One side of a traveling substrate that has a plurality of printing frames and on which variable information data serving as information means with high security is printed is arranged in a multi-sided layout, and printing is performed with the multi-sided printing. Underneath the variable information data that is applied, and the entire surface of the base material is provided with slanted lines or distorted patterns thereof at irregular intervals, and at least one of the image lines is placed in each print frame, and the base material A method of manufacturing a printed matter on which a forgery prevention measure is applied that is shifted to the front or back of each sheet with respect to the traveling direction of the sheet, wherein the diagonal lines or the deformation patterns thereof are formed at unequal intervals. A method for producing a printed matter on which a forgery prevention measure is applied, wherein printing is performed by shifting the rotation of the printing plate cylinder, either forward or backward, for each rotation with respect to the traveling substrate. 5. The method for producing printed matter with anti-counterfeit measures according to claim 4, wherein the oblique lines formed at irregular intervals or the image lines of the deformation pattern thereof are printed with special ink that is not visible under visible light. . 6. The method for producing a printed matter with anti-counterfeit measures according to claim 4 or 5, wherein a fine pattern is formed under the variable information data and in the print frame.

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