JP4734616B2 - Special latent image pattern former - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a special latent image pattern formed body used for a banknote, a passport, a securities, a card, a valuable printed matter and the like that are required to be prevented from forgery and tampering.
[0002]
[Prior art]
Banknotes, passports, securities, cards, valuable printed materials, and the like are required to be difficult to forge and tamper by nature. As a technique for applying anti-counterfeiting measures, there are generally known techniques such as a paper layer thickening / thinning, a paper with a concavo-convex image, a paper with a special substance.
[0003]
The present inventors print a printed image line in parallel or inclined with respect to the unevenness on a substrate having an uneven image line such as a line pattern formed by squeezing or embossing, and a specific angle with respect to the substrate. A patent has already been obtained for a special latent image pattern formed body that can recognize specific characters, designs, and the like that become latent images when viewed from the direction (see Japanese Patent No. 2615401).
[0004]
An outline of this conventional example will be described with reference to FIGS. Emboss the white paper 4 with the intaglio or letterpress surface (see FIG. 4). A line pattern 1 (see FIG. 1 (a)) or a relief pattern 3 (see FIG. 1 (c)) representing a pattern is formed by partially changing the angle by this embossing. On the surface of the embossed convex side, a line drawing line 2 (FIG. 1B) composed of straight lines with a predetermined interval is printed with colored ink, thereby forming a special latent image pattern formed body.
[0005]
As shown in FIG. 2, this special latent image pattern formed body A can recognize only the colored line drawing line 2 as shown in FIG. 2. However, when observed from an oblique direction, the special latent image pattern formed body A has a partially different angle. Different stripes occur at different angles between the line pattern 1 and the line drawing line 2 shown, and the line pattern (see FIGS. 3A and 3B) representing the pattern or the relief pattern (see FIG. 5) can be easily confirmed.
[0006]
[Problems to be solved by the invention]
The above-described generally known forgery prevention means of the conventional technique cannot discriminate a scraped image or the like unless it is viewed through the paper, and can be pseudo-squeezed with a varnish or the like. It has become difficult to become a perfect counterfeiting measure.
[0007]
Further, in the patent relating to the special latent image pattern, the effect of preventing forgery is great in that the special latent image pattern appears by changing the observation angle with respect to the substrate. However, since the print lines to be given to develop the latent image effect are monotonous designs such as lines, wavy lines, etc., it is easy to copy the print lines, limited to banknotes, securities, etc. If the anti-counterfeiting technology is applied to the area, the area where the special latent image pattern can be applied becomes smaller, and it is difficult to effectively express the latent image that is a feature of the special latent image pattern printed matter and the special latent image pattern formation body. .
[0008]
The present invention aims to solve the above-mentioned conventional problems, and is basically an invention for improving the special latent image pattern formed body of Japanese Patent No. 2615401. By diversifying the shape, color, etc. of the printed image line, including its width, size, type, etc., it is possible to give special effects or tangible designs to the printed image line. It is an object of the present invention to realize a special latent image pattern forming body that is diversified by imparting gradation to an image pattern and is difficult to forge, alter, and tamper with enhanced anti-counterfeit effect.
[0009]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially different angles. The printed image line representing the design by changing the image line width is printed in parallel or inclined with respect to the portion constituting the concavo-convex image line other than the portion constituting the pattern of the concavo-convex image line. A special latent image pattern formed body is provided. The printed image line may be configured to represent a design by changing the image line width stepwise. The printed image line may be configured to represent a pattern by continuously changing the image line width.
[0010]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On the top, the printed image line representing the pattern by the density of the dot array arranged in a line is parallel or inclined with respect to the portion constituting the concavo-convex image line other than the portion constituting the pattern of the concavo-convex image line. A special latent image pattern formed body is provided.
[0011]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On the top, the printed image line representing the pattern by the size of the dot sequence arranged in a line is parallel or inclined with respect to the portion constituting the concavo-convex image line other than the portion constituting the pattern of the concavo-convex image line. A special latent image pattern formed body is provided.
[0012]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. Above, the printed image line representing the pattern by the density and size of the dot sequence arranged in a line is parallel or inclined with respect to the portion constituting the concavo-convex image line other than the portion constituting the pattern of the concavo-convex image line. There is provided a special latent image pattern formed body characterized by printing with a pattern.
[0013]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On top of the above, the print lines of minute characters arranged in a line are printed in parallel or inclined with respect to the portions constituting the concavo-convex image lines other than the portions constituting the pattern of the concavo-convex image lines. A special latent image pattern formed body is provided.
[0014]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On the upper side, the print lines of white micro-characters arranged in a line are printed in parallel or inclined with respect to the portions constituting the concavo-convex image line other than the portions constituting the pattern of the concavo-convex image line. A special latent image pattern formed body is provided.
[0015]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. Change the line width of the minute character partially or continuously on the minute character arranged in a line, the white minute character arranged in a line, or both the minute character and the white minute character. A special latent image pattern in which a printed image line representing a pattern is printed in parallel or inclined with respect to a portion constituting the concavo-convex image line other than a portion constituting the pattern of the concavo-convex image line. A formed body is provided.
[0016]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On top of each other, by changing the character height of the minute characters, partially or continuously, in a minute character arranged in a line, a white character arranged in a line, or both a minute character and a white minute character A special latent image pattern formation characterized in that a printed image line representing a pattern is printed parallel to or inclined with respect to a portion constituting the concavo-convex image line other than a portion constituting the pattern of the concavo-convex image line. Provide the body.
[0017]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On top of each other, the line width of the minute characters is changed partially or continuously for the minute characters arranged in a line, the white minute characters arranged in a line, or both the minute character and the white minute character, In addition, the printed image line representing the design by changing the character height is printed parallel to or inclined with respect to the portion constituting the concavo-convex image line other than the portion constituting the pattern of the concavo-convex image line. A special latent image pattern formed body is provided.
[0018]
The above-described print line of the special latent image pattern formed body is printed with a colored ink other than the color of the substrate, a colored luminescent ink other than the color of the substrate, or a colorless transparent or luminescent ink of the substrate color. It is characterized by that. And when printing with these inks, you may make it print a printed image line changing the color partially or continuously.
[0019]
When the color is changed partially or continuously, the printed image line is printed on the partial plate consisting of only the area corresponding to the color for each color when printed with the color partially changed. After assembling them into the same collective plate, all the inks may be transferred to the printing plate surface at the same time, and the color may be partially changed for printing.
[0020]
When printing with transparent luminescent ink, it is good also as a structure by which a tint block image line is printed with colored inks other than the color of a base material on or under the printing image line.
[0021]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On top of the printed line consisting of a line with a constant interval, a line-like dot line, or both a line and a line-like dot line, A special latent image pattern formed body is provided, which is printed by changing the color continuously with parallel or inclined with respect to a portion constituting the. The printed image line may be configured to be printed with colored ink other than the color of the substrate or colored luminescent ink other than the color of the substrate.
[0022]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On top of the printed line consisting of a line with a constant interval, a line-like dot line, or both a line and a line-like dot line, A special latent image pattern formed body is provided, in which printing is performed while partially changing the color so as to be parallel or inclined with respect to a portion constituting the image forming portion. The printed image line may be configured to be printed with colored ink other than the color of the substrate or colored luminescent ink other than the color of the substrate.
[0023]
Furthermore, in order to solve the above-mentioned problems, the present invention provides a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern, which represents the pattern by partially varying the angle. On the top and bottom of the concavo-convex image other than the portion constituting the pattern of the concavo-convex image line, a printed image line consisting of a line having a constant interval, a line-like dot sequence, or both a line and a line-like dot sequence. Provided is a special latent image pattern formed body which is printed with a colorless and transparent light-emitting ink so as to be parallel or inclined with respect to a portion constituting a line. In this case, on a substrate having a line pattern, a relief pattern, or a concavo-convex image of both the line pattern and the relief pattern representing the pattern by partially different angles, a line having a constant interval, A print line consisting of a line-like dot sequence or both a line and a line-like dot sequence is parallel to a portion constituting the concavo-convex image line other than a portion constituting the pattern of the concavo-convex image line or A configuration may be adopted in which printing is performed with an inclination, and a tint block image line is printed above or below the print image line.
[0024]
The base material of the above-described special latent image pattern formed body is a creped paper, and the concavo-convex image line may be formed by crease, or is formed of paper or other material, and the concavo-convex image line is formed. Is good also as a structure currently formed in the said base material by embossing.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of a special special latent image pattern forming body according to the present invention will be described with reference to the drawings based on examples after describing a basic configuration.
[0026]
(Basic configuration)
The special latent image pattern formed body according to the present invention is basically a line pattern or a relief pattern that represents a pattern by partially varying the angle, or a concavo-convex image line of both patterns (a cross-sectional concavo-convex shape). In the present specification, the image line is referred to as “uneven image line”.) A base material such as a creped paper formed by squeezing or paper formed by embossing is used. This is a special latent image pattern forming body formed by printing a printing line such as a dot sequence and characters.
[0027]
6-8 is a figure explaining the basic composition of the special latent image pattern formation body based on this invention. In FIG. 6, the basic element of the special latent image pattern formed body 18-1 is composed of a multi-line pattern concavo-convex image line 7 formed on the surface of the substrate 5 and the concavo-convex image line 7 from its upper surface. It is composed of printed line-shaped printed image lines 10 (line-line image lines).
[0028]
The concavo-convex image line 7 is a concavo-convex image line of a line pattern, a relief pattern, or a pattern of both formed by embedding or embossing on the surface of the substrate 5. In the case of forming by squeezing, a concavo-convex image line is imparted by a relief printing plate having a line pattern, a relief pattern or both patterns during papermaking. When forming by embossing, embossing is performed on a base material such as white paper by an intaglio plate surface or a relief printing plate surface.
[0029]
The concavo-convex image line 7 formed in this manner is formed on the flat surface 8 of the base material 5 with the ridges 9 (convex ridges. This type will be described in the description of the configuration and examples of the present invention described later. ) May be formed, or a groove (dented groove, not shown) may be formed on the flat surface 8 of the substrate 5.
[0030]
Further, the concavo-convex image line 7 represents a pattern by partially varying the angle with respect to the longitudinal direction. In the example of FIG. 6, the concavo-convex image line 7 includes a basic straight portion 7 ′ and left and right bent portions (the bent portions correspond to “parts having different angles” of the present invention) 6. And an upper straight part 6 '. The portions 6 having different angles in FIG. 6 are appropriately arranged in the entire area to which the latent image pattern is applied in the special latent image pattern forming body 18-1, and a pattern (the entire area) is formed as the entire area. The symbol itself is not shown).
[0031]
The printed image line 10 includes a portion 6 having a partially different angle in the line pattern of the uneven image line 7, and the pattern of the uneven image line 7 is constituted by this portion 6. A print image line 10 is printed in parallel to a portion (a straight line portion 7 ′ of the uneven image line 7) constituting the uneven image line 7 other than the portion 6 having a partially different angle. A configuration in which the print image line is printed not with the straight line portion 7 ′ but with an inclination is also conceivable.
[0032]
The operation of the special latent image pattern forming body 18-1 will be described. FIG. 7 is a diagram for explaining the operation, and FIG. 8 is a diagram showing a special latent image pattern 11 that can be seen as a result of observation from an oblique direction. 7, cross sections AA, BB, and CC of the concavo-convex image line 7 shown in FIG. 7A are shown in FIGS. 7B to 7D, respectively. In FIGS. 7B to 7D, the dimension w sandwiched between the pair of arrows shown in the upper right of the printed image line 10 when the special latent image pattern formed body 18-1 is observed obliquely, as will be described later. This indicates the visible line width (apparent line width) (the same applies to FIGS. 10, 13 and 16).
[0033]
Now, when the special latent image pattern formed body 18-1 is observed from the front (in FIG. 7 (a), the front of the paper with respect to the paper surface), the concavo-convex image line 7 cannot be seen and is shown in FIG. 8 (a). In this way, the printed image line 10 in the same state as in FIG.
[0034]
And this special latent image pattern formation body 18-1 is a direction orthogonal to the direction (partially different direction of the angle in FIG. 6; the left-right direction in FIG. 6) in which the uneven image line 7 extends as a whole. Observation from a direction oblique to the surface on which the special latent image pattern is formed (in this specification, this is referred to as “observation from an oblique direction. In FIG. 7 (a), the observation is performed from the lower front, FIG. 7 (b) ˜ In (d), it is observed from the upper right of the drawing.) Then, in the region of the printed image line 10 showing the cross section in FIG. Disappears.
[0035]
In the area of the printed image line 10 showing the cross section in FIG. 7C, the printed image line 10 is over the ridge 9 of the uneven image line 7, and the printed image line 10 can be visually recognized depending on the length direction of the printed image line 10. Different line widths w are different. In the area of the printed image line 10 showing a cross section in FIG. 7D, the printed image line 10 is completely visible, but since it is observed from an oblique direction, the visually recognizable image line width w is slightly small.
[0036]
Eventually, when this special latent image pattern formed body 18-1 is observed obliquely, the printed image line 10 will appear as shown in FIG. 8B. However, since the printed image line 10 itself is extremely thin, the image line width cannot be recognized when actually observed by a person, and the density change of the printed image line 10 (this is shown in FIG. 8C). , “Apparent density change”). Thus, when the special latent image pattern formed body 18-1 is observed obliquely, the special latent image pattern formed body 18-1 has a striped pattern with gradation as a whole due to the apparent density change of the printed image line. The special latent image pattern 11 can be visually recognized.
[0037]
(Structure and operation of the invention)
The special latent image pattern formed body according to the present invention has developed the basic configuration as described above, and in particular, the printed image line 10 printed on the concavo-convex image line 7 of the line pattern is a simple line image. Instead of lines, the shapes (width, dot sequence, characters, etc.), colors, and printing methods are diversified and devised to create a design that is meaningful when viewed from the front, and from diagonally. In this case, the present invention is characterized in that a more complex gradation is added to generate a diversified latent image and the authenticity determination effect and the forgery prevention function can be further enhanced.
[0038]
As described above, in the present invention, the anti-counterfeit function of the conventional special latent image pattern formed body is further improved by making the print image line special. Therefore, the print image line will be described below, but the whole will be reviewed below.
[0039]
(1) A print image line representing a design is formed by variously combining a plurality of print image lines having different image line widths. Further, a print image line representing a design is formed by changing the image line width of each of the plurality of print image lines stepwise or continuously.
(2) A printed image line representing a pattern is formed by the density of a series of dots arranged in the form of lines, or by both density and size.
(3) The character is represented by the line width, the character height, or both the line width and the character height of the minute characters arranged in a line, the minute void characters, or both the minute characters and the void minute characters. Form a print line.
(4) The print image line is printed with the following ink as follows.
(1) Colored ink other than the color of the substrate
(2) Colored luminescent ink other than the color of the substrate
(3) Colorless transparent or luminescent ink of the same color as the base material
(5) Further, the print image line is printed as follows.
(1) Continuous color change. This is a configuration in which different colors continuously change in the longitudinal direction of one print image line, or a configuration in which different colors continuously change over a plurality of print image lines.
(2) Partial color change. In this case, the print image line is composed of partially different colors. This is because the image line portions of different colors are in contact with each other, and the color is partially different along the image line, and the part of the color that is partially filled only with the area corresponding to the color is the same. There is a configuration in which all the inks are transferred to the printing plate at the same time after being assembled in the collecting plate, and the color is partially changed.
[0040]
In this way, by combining diversified printed image lines with the uneven image lines formed on the base material, a special latent image pattern formed body having a more excellent authenticity determination effect and anti-counterfeit effect is configured. The The configuration and operation will be described in detail with reference to FIGS. In this description, in order to simplify the description, an example will be described in which a non-uniform diversified print image line is printed with the width of the print image line being different or changing with respect to the uneven image line 7. .
[0041]
FIGS. 9 to 11 are diagrams illustrating the configuration and operation of the special latent image pattern forming body in which the image line width of the print image line 12 is wider than the print image line 10 illustrated in FIG. 6. In FIG. 9, in the special latent image pattern formed body 18-2, the same uneven image line 7 as that in FIG. 6 is formed on the substrate 5. A printed image line 12 having a width wider than the printed image line 10 shown in FIG. 6 is printed so as to cross the uneven image line 7 and cross over the portion 6 having a partially different angle.
[0042]
The operation of the special latent image pattern forming body 18-2 will be described. FIG. 10 is a diagram for explaining the operation, and FIG. 11 is a diagram showing a special latent image pattern 13 that can be seen as a result of observing the special latent image pattern formed body from an oblique direction. 10, cross sections AA, BB, and CC of the concavo-convex image line 7 shown in FIG. 10A are shown in FIGS. 10B to 10D, respectively. Now, when the special latent image pattern formed body 18-2 is observed from the front, as shown in FIG. 11 (a), the printed image line 12 can be seen in the same state as in FIG. 10 (a).
[0043]
When the special latent image pattern formed body 18-2 is observed from an oblique direction, in the region of the printed image line 12 showing a cross section in FIG. A small portion of the printed image line 12 is visible because the width is large compared to FIG.
[0044]
In the area of the print image line 12 showing a cross section in FIG. 10C, the print image line 12 is over the ridge 9 of the concavo-convex image line 7, and the print image depends on the length direction of the print image line 12. Although the visible width of the line 12 is different, the image line width is wider than the image line width of the printed image line 10 in FIG. 6, so that a larger portion can be seen as compared with FIG. In the area of the print image line 12 showing a cross section in FIG. 10D, the print image line 12 is completely visible but is observed from an oblique direction, so that the viewable image line width w is slightly smaller than that viewed from the front. . However, the line width looks wider than in the case of FIG.
[0045]
Eventually, when the special latent image pattern formed body 18-2 is observed obliquely, the printed image line 12 appears as shown in FIG. However, since the printed image line 12 itself is extremely thin, the image line width cannot be recognized when actually observed by a person. As shown in FIG. 11C, an apparent density change ( (Gradation change).
[0046]
In this way, the special latent image pattern forming body 18-1 having the narrow print image line 10 as shown in FIG. 6A and the special latent image having the wide print image line 12 as shown in FIG. 9A. When the image pattern forming body 18-2 is observed from an oblique direction, the density changes of the printed image lines are different from each other, and the special latent image pattern forming body that can be observed has a striped pattern latent image having different gradation changes as a whole. The pattern is visible.
[0047]
By utilizing this, a plurality of printed image lines having different widths are printed on the concavo-convex image line 7 formed on the base material 5, thereby making the special latent image pattern 11 more complicated tones. It is also possible to enhance the authenticity discrimination effect and the forgery prevention effect.
[0048]
12-14 is a figure explaining the structure which changed the line width of the printing image line of the special latent image pattern formation body in steps, and its effect | action. In FIG. 12, in this special latent image pattern formed body 18-3, the same uneven image line 7 as that in FIG. 6 is formed on the substrate 5. Then, a printed image line 14 in which the image line width in which the wide width portion and the narrow width portion are combined is changed stepwise so as to cross the uneven image line 7 and cross over the portion 6 having a partially different angle. Is printed.
[0049]
FIG. 13 is a diagram for explaining the operation of the special latent image pattern formed body, and FIG. 14 is a view showing a special latent image pattern 15 that is seen as a result of observing the special latent image pattern formed body 18-3 from an oblique direction. is there. The cross sections AA, BB, CC, DD, and EE of the concavo-convex image line 7 shown in FIG. 13A are shown in FIGS. 13B to 13F, respectively. Now, when the special latent image pattern formed body is observed from the front, the concavo-convex image line 7 cannot be seen, and as shown in FIG. 14 (a), the print image line 14 can be seen in the same state as FIG. 13 (a). .
[0050]
Then, when the special latent image pattern formed body 18-3 is observed obliquely, in the region of the print image line 14 showing the cross section in FIG. 13B, the print image line is shaded by the ridges 9 of the uneven image line 7. 14 cannot be seen. In the area of the print image line 14 showing a cross section in FIG. 13C, the print image line 14 is slightly visible due to the shade by the ridges 9 of the uneven image line 7.
[0051]
In the area of the print image line 14 showing a cross section in FIG. 13D, the print image line 14 is over the ridge 9 of the concavo-convex image line 7, and the print image depends on the length direction of the print image line 14. The visible line width of the line 14 is different. In the region of the print image line 14 showing a cross section in FIG. 13 (e), the print image line 14 is partially over the ridge portion 9, and the print image line 14 is formed of the partial ridge portion 9. The entire surface can be observed, including the part that is on top.
[0052]
In the area of the printed image line 14 showing a cross section in FIG. 13 (f), the printed image line 14 is not hidden by the ridge 9 of the concavo-convex image line 7, but the image line width appears to be narrower by the amount observed from an oblique direction. . In the case of FIG. 13 (e), the portion on the observation side that is partially covered on the ridges 9 can be seen entirely, so that the line width of the printed image line is larger than in the case of FIG. 13 (f). Looks wide.
[0053]
Eventually, when the special latent image pattern formed body 18-3 is observed obliquely, a latent image 15 as shown in FIG. However, since the printed image line 14 itself is extremely thin, it is not possible to recognize the change in the image line width w when actually observed, and the density of the printed image line 14 as shown in FIG. Visible as a change.
[0054]
As a result, as shown in FIG. 12, when the line width of the print image line 14 of the special latent image pattern formed body 18-3 is changed in a stepwise manner, the image line width of the print image line is compared to a case where the image line width of the print image line is single. Further, the density change of the printed image line 14 becomes complicated, and the latent image pattern 15 having a unique striped pattern with complicated gradation can be visually recognized, so that the authenticity determination effect and the forgery prevention effect can be further enhanced.
[0055]
FIGS. 15 to 17 are diagrams for explaining the configuration in which the line width of the print line of the special latent image pattern formed body is continuously changed and the operation thereof. In FIG. 15, in the special latent image pattern formed body 18-4, the same uneven image line 7 as that in FIG. 6 is formed on the substrate 5. Then, a printed image line 16 is printed in which the image line width is continuously changed from a thick part to a narrow part so as to cross the uneven image line 7 and cross over the part 6 having a partially different angle. ing.
[0056]
FIG. 16 is a diagram for explaining the operation of the special latent image pattern formed body 18-4. FIG. 17 shows the special latent image pattern 17 that is seen as a result of observing the special latent image pattern formed body 18-4 from an oblique direction. FIG. Cross sections AA, BB, CC, DD, EE, and FF of the concavo-convex image line 7 shown in FIG. 16A are shown in FIGS. 16B to 16G, respectively. Show. Now, when the special latent image pattern formed body is observed from the front, the uneven image line 7 cannot be seen, and as shown in FIG. 17A, the printed image line 16 can be seen in the same state as FIG. .
[0057]
When the special latent image pattern formed body 18-4 is observed from an oblique direction, the printed image line 16 appears differently depending on the ridges 9 of the uneven image line 7 for each region. The mechanism of the observation and appearance is the same as that shown in FIG. 13 and is omitted here. In short, as shown in FIGS. In each of the regions, the whole or a part is visible behind the ridges 9 of the concavo-convex image line 7, or the entire width is visible but the visible width is reduced by observing obliquely, or the ridges are visible. The part on the observation side riding on the part 9 can be seen entirely. And the image line width (apparent image line width) that can be visually recognized in the longitudinal region of the print image line 16 is as shown by the dimension w shown in the upper right of FIGS.
[0058]
Eventually, when the special latent image pattern formed body is observed from an oblique direction, the printed image line 16 looks as shown in FIG. However, since the printed image line 16 itself is extremely thin, it cannot be recognized until the person actually observes the change in the image line width w, and the density of the printed image line 16 as shown in FIG. Visible as a change.
[0059]
Accordingly, as shown in FIG. 15, when the line width of the print image line 16 of the special latent image pattern forming body 18-4 is continuously changed, the image line width of the print image line is compared with a case where the image line width of the print image line is single. Further, the density change of the printed image line 16 becomes more complicated, and a unique striped latent image pattern 17 accompanied by a complicated gradation change can be visually recognized, thereby further improving the authenticity discrimination effect and the forgery prevention effect.
[0060]
As described above, the configuration for giving a more complicated gradation to the special latent image pattern by changing the image line width of the print image line has been described. However, the configuration for changing the image line width of the print image line shown in FIGS. By combining them, the special latent image pattern can be a predetermined pattern and can have a complicated gradation. Accordingly, the true / false discrimination can be easily performed by observing the special latent image pattern forming body 18 from obliquely forward and confirming the special latent image pattern.
[0061]
By the way, in the above description, for the base material and the printed image line, as a relatively easy-to-understand example, it is assumed that the base material 6 has a concavo-convex image line of a line pattern, and for the printed image line, the image line width is stepped. It was explained as a printed image line representing a design by changing the pattern.
[0062]
However, as the base material, a base material formed by embedding or embossing a relief pattern or an uneven image line of both the line pattern and the relief pattern may be used. Further, as the print image line, in addition to the line image line, a print image line composed of a sequence of dots, characters, etc. arranged in a line shape may be used. Even in such a case, a specific description is omitted, but when viewed from an oblique direction, a printed line of a pattern such as a line-like dot sequence, a character, or the like, the relief of the base material and / or the unevenness of the line pattern As the printed image line intersects the image line, a gradation pattern with gradation is generated, and depending on the shape of each part of the printed image line, it may be partially visible or invisible. The image pattern can be recognized, resulting in a forgery prevention function.
[0063]
Examples of the special latent image pattern formed body according to the present invention will be described below. These examples are special latent image pattern formed bodies obtained by printing the above-mentioned print image lines on a creped paper on which a concavo-convex image line of a line pattern is formed as a base material.
[0064]
Example 1
FIG. 18 is a diagram illustrating Example 1 of the present invention. The surface of the crease paper 19 as a base material is provided with a rugged pattern line (not shown) having the same line pattern as that shown in FIG. As shown in FIG. 18, the printed image line (line image line) 21 representing the pattern by changing the image line width 20 step by step is the unevenness of the line pattern other than the portion constituting the pattern of the uneven image line. The image is printed in parallel with the image line (specifically, the straight line portion 7 ′ in FIG. Thereby, the special latent image pattern forming body 22 is formed.
[0065]
When the special latent image pattern formed body 22 of Example 1 is observed from the front, the same pattern as the printed image line 21 as in FIG. 18 is seen, but when observed from an oblique direction, the image line width of the printed image line shown in FIG. As described in the step-by-step configuration, an invisible portion of the printed image line 21 is generated by the ridge portion of the uneven image line, and the size of the invisible portion is increased or decreased due to a difference in the width of the printed image line 21. Occurs. As a result, an apparent density difference occurs in the printed image line 21 as described with reference to FIG. 14, and a predetermined special latent image pattern composed of a striped pattern having gradation as a whole can be recognized.
[0066]
In this way, by observing the special latent image pattern forming body 22 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. In Example 1 described above, the concavo-convex image line having a line pattern other than the portion constituting the concavo-convex image line pattern (corresponding to 7 ′ in FIG. 6 in the basic configuration. This point is described below. In the example, the print image line 21 is printed in parallel. However, the special latent image pattern formed body may be formed by printing the print image line with an inclination instead of being parallel.
[0067]
(Example 2)
FIG. 19 is a diagram illustrating Example 2 of the present invention. The surface of the crease paper 19 as a base material is provided with a rugged pattern line (not shown) having the same line pattern as that shown in FIG. The second embodiment is substantially the same as the first embodiment, but is characterized in that the image line width of the print image line 23 is continuously changed. As a result, the print image line 23 representing the gradation image (the graphic having gradation) is printed in parallel to the concavo-convex image line of the line pattern other than the portion constituting the concavo-convex image pattern, and the special latent image pattern A formed body 24 is formed.
[0068]
When the special latent image pattern formed body 24 of Example 2 is observed from the front, the printed image line 23 shown in FIG. 19 is seen, and when observed from an oblique direction, the image line width of the printed image line shown in FIG. 15 is continuously different. As described in the configuration, a portion where the printed image line 23 cannot be seen is generated by the ridges of the uneven image line, and the visible image line width varies depending on the width of the printed image line 23. As a result, an apparent density difference occurs in the printed image line 23, and a predetermined special latent image pattern composed of a striped pattern having gradation as a whole can be recognized.
[0069]
In this way, by observing the special latent image pattern forming body 22 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. In the second embodiment, the printed image line 23 is printed in parallel to the uneven line of the line pattern other than the portion constituting the pattern of the uneven line. However, the printed image line 23 is not parallel but inclined. You may form a special latent image pattern formation body by printing a printing image line.
[0070]
(Example 3)
FIG. 20 is a diagram for explaining a third embodiment of the present invention. The surface of the crease paper 19 as a base material is provided with a rugged pattern line (not shown) having the same line pattern as that shown in FIG. As shown in FIG. 20, a printed image line 26 that represents a pattern by the density of the dot array 25 arranged in a line is applied to a portion that forms a concavo-convex image line other than a portion that forms a pattern of the concavo-convex image line. The special latent image pattern forming body 27 is formed by printing in parallel.
[0071]
When the special latent image pattern formed body 27 of Example 3 is observed from the front, a printed image line 26 representing a pattern can be seen due to the density of the point sequence 25 shown in FIG. When this is observed from an oblique direction, as in the first embodiment, a portion where the printed image line 26 cannot be seen is generated due to the protruding portion of the uneven image line, and this appearance is caused by a difference in the density state of the dot sequence of the printed image line 26. The size of the non-existing part is large or small. As a result, an apparent density difference occurs in the printed image line 23, and a predetermined special latent image pattern composed of a striped pattern having gradation as a whole can be recognized.
[0072]
In this way, by observing the special latent image pattern forming body 27 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. In Example 3 described above, the printed image line 26 representing the pattern was printed in parallel with the uneven pattern line of the line pattern by the density state of the point sequence, but the uneven image line other than the portion constituting the pattern of the uneven line image. The special latent image pattern formed body may be formed by printing with an inclination with respect to the portion constituting the.
[0073]
Example 4
FIG. 21 is a diagram illustrating Example 4 of the present invention. The surface of the crease paper 19 as a base material is provided with a rugged pattern line (not shown) having the same line pattern as that shown in FIG. As shown in FIG. 21, a printed image line 29 that represents a pattern by the size of a series of dot lines 28 arranged in a line-like manner is shown with respect to a portion that constitutes a concavo-convex image line other than a portion that constitutes a concavo-convex image line. The special latent image pattern forming body 30 is formed by printing in parallel.
[0074]
When the special latent image pattern formed body 30 of Example 4 is observed from the front, a printed image line 29 representing a pattern as shown in FIG. 21 can be seen. When this is observed from an oblique direction, a portion where the printed image line 29 cannot be seen is generated by the ridges of the concavo-convex image line as in the first embodiment, and this visual recognition is caused by the difference in the size of the dot sequence 28 of the printed image line 29. The size of the possible line width is large or small. As a result, an apparent density difference occurs in the printed image line 29, and a predetermined special latent image pattern composed of a striped pattern having gradation as a whole can be recognized.
[0075]
In this way, by observing the special latent image pattern forming body 30 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. In Example 4 described above, the printed image line 29 representing the pattern is printed in parallel to the uneven line of the line pattern depending on the size of the point sequence 28. However, the uneven line of the pattern other than the portion constituting the pattern of the uneven line is shown. The special latent image pattern forming body 30 may be formed by printing with an inclination with respect to the portion constituting the.
[0076]
(Example 5)
FIG. 22 is a diagram for explaining a fifth embodiment of the present invention. The surface of the crease paper 19 as a base material is provided with a rugged pattern line (not shown) having the same line pattern as that shown in FIG. As shown in FIG. 22, a printed image line 32 that represents a pattern by both the density and the size of the dot sequence 31 arranged in a line shape is a part that constitutes an uneven image line other than the part that constitutes the pattern of the uneven image line. Are printed in parallel to form a special latent image pattern forming body 33.
[0077]
When the special latent image pattern formed body 33 of Example 5 is observed from the front, a printed image line 32 representing a pattern can be seen by both the density and the size of the dot sequence shown in FIG. When this is observed from an oblique direction, a portion where the printed image line 32 cannot be seen is generated by the ridges of the concavo-convex image line as in the first embodiment, and the difference between the density and the size of the dot of the printed image line 32 is caused by this difference. The size of the visible line width is large or small. As a result, an apparent density difference occurs in the printed image line 32, and a predetermined special latent image pattern consisting of a striped pattern having gradation as a whole can be recognized.
[0078]
In this way, by observing the special latent image pattern forming body 33 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. In Example 5, the printed image line 32 representing the pattern by the combination of the density and the size of the dot sequence 31 with respect to the uneven image line of the line pattern, and the uneven image line other than the portion constituting the pattern of the uneven image line. Printed in parallel to the parts to be formed, but formed a special latent image pattern formation by printing with an inclination to the parts that make up the uneven line other than the parts that make up the pattern of the uneven line May be.
[0079]
(Example 6)
FIG. 23 is a diagram illustrating Example 6 of the present invention. The surface of the crease paper 19 as a base material is provided with a rugged pattern line (not shown) having the same line pattern as that shown in FIG. As shown in FIG. 23, the printed image lines 34 of minute characters (NIPPON) arranged in a line are printed in parallel on the portion constituting the uneven image line on the surface of the creased paper, and a special latent image is obtained. An image pattern forming body 35 is formed.
[0080]
When the special latent image pattern-formed body 35 of Example 6 is observed from the front, a print line 34 of minute characters shown in FIG. 23 can be seen. When this is observed from an oblique direction, a portion in which the printed image line 34 cannot be seen is generated by the ridges of the concavo-convex image line, as in Example 1, and as a result, as described in the basic configuration shown in FIG. An apparent density difference occurs in the image line 34, and a predetermined special latent image pattern composed of a striped pattern with gradation as a whole can be recognized.
[0081]
In this way, by observing the special latent image pattern forming body 35 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. Then, when the printed image line 34 of the minute character is copied on the uneven image line in this way, the minute character is crushed. In particular, the portion where the printed image line 34 intersects the uneven image line is caused by the protruding portion of the uneven image line. Small characters are not copied by irregular reflection. Therefore, the forgery prevention effect is extremely high.
[0082]
In Example 6 above, the printed image line 34 of minute characters was printed in parallel to the uneven line of the line pattern, except for the portion constituting the pattern of the uneven line, but it was inclined. You may form a special latent image pattern formation body by printing a printing image line.
[0083]
(Example 7)
FIG. 24 is a diagram illustrating Example 7 of the present invention. The surface of the creased paper 19 that is the base material is provided with the same rugged pattern line as shown in FIG. As shown in FIG. 24, a printed image line 36 of white minute characters arranged in a line is printed in parallel on the portion of the surface of the creased paper 19 that forms the uneven image line. An image pattern forming body 37 is formed.
[0084]
When the special latent image pattern formed body 37 of Example 7 is observed from the front, the printed image lines 36 of white minute characters arranged in a line as shown in FIG. 24 can be seen. When this is observed obliquely, as in Example 1, a portion where the printed image line 36 is not visible is generated by the ridges of the uneven image line, and as a result, as described in the basic configuration shown in FIG. An apparent density difference occurs in the printed image line 36, and a predetermined special latent image pattern composed of a striped pattern with gradation can be recognized as a whole.
[0085]
In this way, by observing the special latent image pattern formation body 37 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. In the seventh embodiment, as in the sixth embodiment, even if a copying machine is used, minute characters are not accurately copied.
[0086]
In Example 7 described above, the printed image lines 36 of white micro-characters arranged in parallel to the concavo-convex image line of the line pattern were printed in parallel, but the portions other than the portions constituting the pattern of the concavo-convex image line were printed. The special latent image pattern forming body may be formed by printing the printed image line with an inclination with respect to the uneven line of the line pattern.
[0087]
(Example 8)
FIG. 25 is a diagram for explaining an eighth embodiment of the present invention. The surface of the crease paper 19 as a base material is provided with a rugged pattern line (not shown) having the same line pattern as that shown in FIG. As shown in FIG. 25, minute characters arranged in a line are partially or partially formed on the surface of the crease paper 19 other than the portion constituting the pattern of the concavo-convex image line. A special latent image pattern forming body 39 is formed by printing in parallel a print image line 38 representing a pattern by continuously changing the image line width of minute characters.
[0088]
When the special latent image pattern forming body 39 of the eighth embodiment is observed from the front, the minute characters arranged in a line shape shown in FIG. 25 are partially or continuously changed by changing the line width of the minute characters. A printed image line 38 representing the above can be seen. When this is observed from an oblique direction, a portion where the printed image line 38 cannot be seen is generated due to the ridges of the concavo-convex image line, as in Example 1, and the difference in the image line width of the minute characters of the printed image line 38 causes this. The size of the visible line width is large or small. As a result, an apparent density difference is generated in the printed image line 38, and a predetermined special latent image pattern consisting of a striped pattern having gradation as a whole can be recognized.
[0089]
In this way, by observing the special latent image pattern forming body 39 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. Also, in the eighth embodiment, similarly to the sixth embodiment, even if a copying machine is used, minute characters are not accurately copied.
[0090]
In the above-mentioned embodiment 8, printing is performed by changing the line width of minute characters partially or continuously by changing minute lines arranged in a line with respect to the uneven line of the line pattern. A special latent image pattern forming body is printed by printing the printed lines with an inclination with respect to the concavo-convex lines of the line pattern other than the parts constituting the pattern of the concavo-convex lines. May be formed.
[0091]
In the eighth embodiment, a print line representing a pattern is adopted by changing the line width of minute characters partially or continuously for minute characters arranged in a line. It is also possible to make the printed fine lines representing the design by partially or continuously changing the fine line width of the fine characters, or the fine characters of both the fine characters and the fine white characters arranged in a row. .
[0092]
Example 9
FIG. 26 is a diagram illustrating Example 9 of the present invention. The surface of the creased paper 19 that is the base material is provided with the same rugged pattern line as shown in FIG. The character height is changed partially or continuously with respect to the portion constituting the uneven image line other than the portion constituting the pattern of the uneven image line on the surface of the paper 19. By doing so, the print image lines 40 representing the design are printed in parallel, and the special latent image pattern forming body 41 is formed.
[0093]
When the special latent image pattern forming body 41 of Example 9 is observed from the front, the printed image line 40 representing the design by changing the character height of the minute characters arranged in a line shape partially or continuously. appear. When this is observed from an oblique direction, as in the first embodiment, a portion where the printed image line 40 cannot be seen is generated due to the ridges of the uneven image line, and this visual recognition is caused by the difference in the height of minute characters in the printed image line 40. The size of the possible line width is large or small. As a result, an apparent density difference occurs in the printed image line 40, and a predetermined special latent image pattern consisting of a striped pattern having gradation as a whole can be recognized.
[0094]
In this way, by observing the special latent image pattern forming body 39 from an oblique direction, it is possible to determine whether the special latent image pattern is generated or not. In the ninth embodiment, as in the sixth embodiment, even if a copying machine is used, minute characters are not accurately copied.
[0095]
In the ninth embodiment, a printed image line 40 representing a design by partially or continuously changing the character height of minute characters arranged in a line with respect to the uneven line of a line pattern. Are printed in parallel, but a special latent image pattern forming body is formed by printing the print lines with an inclination with respect to the uneven lines of the line pattern other than the parts constituting the pattern of the uneven lines. May be.
[0096]
Note that in Example 9, a print line representing a design by changing the character height of minute characters arranged in a line in a partial or continuous manner is used. The arranged white micro characters or the micro characters of both the micro characters and the white micro characters may be printed image lines representing a design by changing the height of the micro characters partially or continuously.
[0097]
(Example 10)
Although not shown, an embodiment of the present invention will be described. The surface of the creased paper, which is the base material, is provided with the same uneven pattern line as shown in FIG. The fine characters arranged in a line-like manner are partially or continuously drawn on the line width (figure on the part constituting the uneven line other than the part constituting the pattern of the uneven line on the surface of the perforated paper. 25) and the character height (see FIG. 26) are changed to print the print lines representing the design in parallel to form a special latent image pattern formed body. In short, the special latent image pattern-formed body of Example 10 corresponds to a high character height character of FIG. Therefore, description will be made below with reference to FIG.
[0098]
When the special latent image pattern formed body of Example 10 is observed from the front (see FIG. 26), minute characters arranged in a line are partially or continuously changed by changing the line width and character height. You can see the print line representing the design. When this is observed from an oblique direction, a portion where the printed image line cannot be seen is generated by the ridges of the uneven image line, as in Example 1, and this visible image may be formed depending on the image line width and character height of minute characters. The line width is large or small.
[0099]
As a result, an apparent density difference occurs in the printed image line 40 (see FIG. 26), and a predetermined special latent image pattern composed of a striped pattern with gradation as a whole can be recognized, and authenticity determination can be performed. Similarly to the sixth embodiment, the tenth embodiment also has an excellent effect of preventing forgery because minute characters are not accurately copied even if a copying machine is used.
[0100]
In Example 10 described above, the fine characters arranged in a line shape with respect to the concavo-convex image line of the line pattern are represented by changing the line width and the character height of the fine character partially or continuously. Although the print lines were printed in parallel, a special latent image pattern formed body was formed by printing the print lines with an inclination with respect to the uneven lines of the line pattern other than the parts constituting the design. May be.
[0101]
In Example 10, a micro character arranged in a line is adopted as a print image line representing a design by changing the line width and character height of the micro character partially or continuously. Representing a design by changing the line width and height of a small character, partially or continuously, for a small character arranged in a line or a small character of both a small character and a white character It may be a printed image line.
[0102]
In Examples 1 to 10 above, an example of forming a concavo-convex image line of a line pattern on a substrate and printing a print image line on the substrate was given. A configuration in which a printed image line is printed on a substrate in which a relief pattern uneven line is formed on a base material, or in which both a line pattern and a relief pattern are formed.
[0103]
In this way, when the relief pattern or the uneven line of both the line pattern and the relief pattern is formed on the substrate, the pattern generated by the uneven line and the printed line is the case of the line pattern. Although different, the anti-counterfeiting function is basically the same as the case where the concavo-convex image line having a line pattern is formed, and thus description thereof is omitted.
[0104]
Moreover, in the said Examples 1-10, although it demonstrated by the structure using the penetration paper which formed the uneven | corrugated image line of the line pattern as a base material as a base material, bases, such as white paper etc. which were unevenly formed by embossing A configuration using a material may be used, and in this case, the same effect is produced.
[0105]
The above Examples 1 to 10 are examples based mainly on the characteristics of the shape of the printed image printed on the crease paper having the concavo-convex image such as the line pattern as the base material. An embodiment based on the print color of the print image line and the characteristics of the print technique will be described.
[0106]
(Example 11)
27A and 27B are diagrams for explaining an eleventh embodiment of the present invention. FIG. 27A is a plan view and FIG. 27B is a DD cross-sectional view thereof. A line-shaped uneven image line 43 representing a pattern by partially varying the angle on a part or the entire surface of the base material 42 is formed by filling or embossing to form a special latent image pattern forming body 44. Has been.
[0107]
On this base material 42, the print image line 45 is printed by changing the color continuously in parallel to the portion 47 constituting the concavo-convex image line other than the portion 46 constituting the design. FIG. 27A shows an example in which a print image line 45 in which the density of one color (for example, blue) is continuously changed is printed in the longitudinal direction of each print image line.
FIG. 27C shows an example in which printing is performed by continuously changing the density of one color (for example, blue) over a plurality of print lines.
[0108]
When the special latent image pattern-formed bodies 44 and 44 'of Example 11 are observed from the front, as shown in FIGS. 27 (a) and 27 (c), the printed image lines 45 arranged in parallel lines with continuously changing colors. , 45 'is visible. When viewed from an oblique direction, as described in FIG. 7, the printed image lines 45 and 45 ′ are shadows of the ridges and cannot be partially seen. As a result, in addition to a continuous color change, a special latent image pattern with an apparent density change can be observed. By observing this pattern, it is possible to determine authenticity.
[0109]
In Example 11, the printed image lines 45 and 45 ′ were printed in parallel to the portions constituting the concavo-convex image lines other than the portions constituting the design with respect to the concavo-convex image lines of the line pattern. It is good also as a structure printed with an angle instead.
[0110]
In the eleventh embodiment, the configuration in which the colors continuously change for the print image lines 45 and 45 'has been described. The print image lines of both of the dot sequences may be printed by changing the color continuously with parallel or inclined with respect to the portion constituting the uneven image line.
[0111]
Note that the configuration in which the color of the print image line shown in Example 11 is continuously changed may be applied to printing of the print image line in Examples 1 to 10. According to this, a color feature is added in addition to the shape feature of the print image line, so that the print image line can be diversified, and the effect of preventing forgery is further improved.
[0112]
(Example 12)
FIG. 28 is a diagram for explaining Example 12 of the present invention. FIG. 28 (a) shows a plan view thereof, and its EE cross section is shown in FIG. 28 (b). The concavo-convex image line 43 having a line pattern is formed by filling or embossing, and a special latent image pattern forming body 48 is formed.
[0113]
On the base material 42, in the special latent image pattern forming body 48 shown in FIG. 28 (a), the print image line 49 is partially parallel to the portion constituting the uneven image line other than the portion constituting the design. It is printed with different colors. Further, in the special latent image pattern formed body 48 ′ shown in FIG. 28C, the printed image line 49 ′ is partially changed in a plurality of colors (for example, red, green, yellow, and blue) on the base material 42. Printed.
[0114]
When the special latent image pattern formed bodies 48 and 48 'of Example 12 are observed from the front, partially changed print image lines 49 and 49' can be seen as shown in FIGS. When viewed obliquely, the printed image line is partially shaded and cannot be seen, and a striped pattern formed by the uneven image line and the printed image lines 49 and 49 'is generated. As a result, in addition to the intermittent color change, a special latent image pattern with an apparent density change can be observed. This special latent image pattern can be observed. By observing this pattern, it is possible to determine authenticity.
[0115]
In Example 12 (a), the print image line was printed in parallel to the portion constituting the concavo-convex image line other than the portion constituting the design. However, as shown in FIG. 22 (c), the print image line was printed. The lines 49 and 49 ′ may be printed not at parallel but at an angle.
[0116]
In the twelfth embodiment, the configuration in which the colors of the printed image lines 49 and 49 ′ partially change has been described. The printing of both of the dot sequences may be configured such that the color is partially changed and printed with a parallel or inclined shape with respect to the portion constituting the concavo-convex image line.
[0117]
Note that the configuration for printing by partially changing the color of the print image line shown in the twelfth embodiment may be applied to printing of the print image line in the first to tenth embodiments. According to this, a color feature is added in addition to the shape feature of the print image line, the print image line can be diversified, and the forgery prevention effect is further improved.
[0118]
Since the printing color of the printed image line in the above Examples 1 to 12 is colorless and transparent or cannot be identified if it is the same as the color of the base material, such a color is excluded. However, about Examples 1-10, even if it is colorless and transparent or the same color as a base material, if it emits light by irradiating UV light, it can identify and can show the authenticity determination effect of this invention.
[0119]
Considering this, the print image lines in Examples 1 to 12 are printed with the following ink.
(1) Colored ink other than the color of the substrate
(2) Colored luminescent ink other than the color of the substrate
Furthermore, about Examples 1-10, the luminescent ink of colorless and transparent or the same color as a base material can be utilized.
[0120]
In (3), when printing the print image line with a colorless and transparent light-emitting ink color, if the copy-forgery-inhibited pattern line is printed above or below the print image line, the attention to the copy-forgery-inhibited pattern increases, and instead the light-emitting ink The forgery prevention effect by the colorless and transparent printed image line is improved.
[0121]
The embodiments of the present invention have been described based on the embodiments. However, the present invention is not limited to the above-described embodiments, and various embodiments are within the scope of the technical matters described in the claims. It goes without saying that there is.
[0122]
【The invention's effect】
Since the special latent image pattern formed body according to the present invention is configured as described above, it is observed obliquely by variously devising the shape, design, color, etc. of the printed image line that intersects the uneven image line. The special latent image pattern generated in the above can be diversified, for example, by imparting gradation, thereby making it difficult to counterfeit, alter, alter, etc., and increase the forgery prevention effect.
[0123]
The present invention provides specific characters and designs only when observing from a certain direction when authenticating valuable print products that require publicity and reliability, such as banknotes, passports, securities, and cards. And the like, and a special latent image pattern forming body capable of recognizing the presence or absence of a specific character or design very easily.
[0124]
In addition, forgery by a color copying machine and a photoengraving method cannot be used to extract characters, patterns, etc., because uneven shapes cannot be extracted and only colored printed lines can be copied. This latent image pattern formed body has a relatively large pattern and is used for securities having a large use area, and the one by scratching is particularly effective for use in valuable printing products manufactured in large quantities.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a conventional technique.
FIG. 2 is a diagram illustrating a conventional technique.
FIG. 3 is a diagram illustrating a conventional technique.
FIG. 4 is a diagram illustrating a conventional technique.
FIG. 5 is a diagram illustrating a conventional technique.
FIG. 6 is a diagram illustrating a basic configuration of the present invention.
7 is a diagram for explaining the operation of the configuration shown in FIG. 6; FIG.
FIG. 8 is a diagram for explaining the operation of the configuration shown in FIG. 6;
FIG. 9 is a diagram illustrating a configuration of the present invention.
10 is a diagram for explaining the operation of the configuration shown in FIG. 9; FIG.
11 is a diagram for explaining the operation of the configuration shown in FIG. 9; FIG.
FIG. 12 is a diagram illustrating a configuration of the present invention.
13 is a diagram for explaining the operation of the configuration shown in FIG. 12;
14 is a diagram for explaining the operation of the configuration shown in FIG. 12;
FIG. 15 is a diagram illustrating a configuration of the present invention.
16 is a diagram for explaining the operation of the configuration shown in FIG.
FIG. 17 is a diagram for explaining the operation of the configuration shown in FIG. 15;
FIG. 18 is a diagram illustrating Example 1 of the present invention.
FIG. 19 is a diagram illustrating Example 2 of the present invention.
FIG. 20 is a diagram illustrating Example 3 of the present invention.
FIG. 21 is a diagram illustrating Example 4 of the present invention.
FIG. 22 is a diagram illustrating Example 5 of the present invention.
FIG. 23 is a diagram illustrating Example 6 of the present invention.
FIG. 24 is a diagram illustrating Example 7 of the present invention.
FIG. 25 is a diagram illustrating Example 8 of the present invention.
FIG. 26 is a diagram for explaining Example 9 of the present invention, and is a diagram for reference in Example 10.
FIG. 27 is a diagram illustrating Example 11 of the present invention.
FIG. 28 is a diagram illustrating Example 12 of the present invention.
[Explanation of symbols]
10,000 lines
20,000 line drawing line
3 Relief pattern
4 paper
5, 42 Base material
6, 46 Parts with different angles (bent parts)
7, 43 Uneven image line
8 flat surface
9 ridges
10, 12, 14, 16, 21, 23, 26, 29, 32, 34, 36, 38, 40, 45, 45 ', 49, 49'
11, 13, 15, 17 Special latent image pattern
47 Parts other than parts with partially different angles
18-1, 18-2, 18-3, 18-4, 22, 24, 27, 30, 33, 35, 37, 39, 41, 44, 44 ', 48, 48' Special latent image pattern formed body
19 Plow paper
25, 28, 31 point sequence

Claims (6)

On a substrate having a line pattern, a relief pattern, or a concavo-convex image line of both the line pattern and the relief pattern representing the pattern by partially different angles,
i) By changing the image line width, a printed image line representing a pattern having a shading pattern is formed,
ii) A printed image line representing a pattern having a shading pattern is formed according to the density and / or size of the point sequence arranged in a line.
iii) By changing the line width and / or character height of the minute characters partially or continuously from the minute characters arranged in a line and / or the white characters arranged in a line, a shading pattern is formed. Forming a print line representing the design
The printed image line formed by any one of the above i) to iii) is parallel or inclined with respect to the portion constituting the concavo-convex image line other than the portion constituting the pattern of the concavo-convex image line. A special latent image pattern formed body that is printed by holding it,
When the special latent image pattern formed body is observed from the front, the pattern having the shading pattern applied by the printed image line is confirmed, and when viewed from an oblique direction, the pattern of the uneven image line having a density difference can be confirmed. Special latent image pattern forming body. 2. The special latent image pattern formed body according to claim 1, wherein the printed image line represents a pattern by changing the image line width stepwise or continuously . The printed image line is printed with a colored ink other than the color of the base material, a colored light emitting ink other than the color of the base material, a colorless transparent light emitting ink, or a light emitting ink of the base color. 3. The special latent image pattern formed body according to 1 or 2. In the case where the printed image line is printed with the colorless transparent light emitting ink or the light emitting ink of the color of the base material,
4. The special latent image pattern formed body according to claim 3, wherein a tint block image line is printed with colored ink other than the color of the substrate on or below the print image line. The special latent image pattern formed body according to any one of claims 1 to 4 , wherein the printed image line is printed with a continuous color change or a partial color change . The special latent image pattern formed body according to any one of claims 1 to 5 , wherein the concavo-convex image line is formed by penetration or embossing .

Images