JP2018192671A - Forgery prevention printed matter - Google Patents

Abstract

To provide a forgery prevention printed matter with a print ink film having tactile thickness printed thereon, the forgery prevention printed matter difficult to be forged even if a print ink film with no thickness and embossment treatment are utilized, and easy to be distinguished from a counterfeit even if it is forged.SOLUTION: The forgery prevention printed matter has a print ink film printed on a top face of a base material sheet and a glossy layer laminated on a bottom side thereof. If observed from the bottom side, the forgery prevention printed matter appears uniformly glossy with reflection light reflected regularly by the glossy layer. Meanwhile, if a counterfeit is produced using a print ink film with no thickness and embossment treatment, a recess is made on the glossy layer by the embossment treatment. By reflection light reflected by the recess, the bottom face appears not as a uniform glossy surface but in a pattern state having light/dark portions.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an anti-counterfeit printed matter in which a printing ink film having a thickness that can be sensed by touch is printed on a base sheet.

  An anti-counterfeit printed matter obtained by printing intaglio printing ink thickly on a substrate sheet such as paper is known. In this anti-counterfeit printed matter, by tracing the surface with a fingertip, it is possible to sense unevenness due to the printing ink film and to feel a rough feel.

  In general, since the printing ink film does not have such a thickness, the authenticity of the printed matter can be determined by the presence or absence of the tactile sensation.

  On the other hand, in order to print such a thick printing ink film, a printing ink with a low fluidity is required, and a special intaglio printing machine capable of printing a printing ink with a low fluidity is required. To do. Such inks and printing presses are special, and it is difficult to reproduce and forge them. For this reason, this anti-counterfeiting technology is only used for limited printed matter. For example, particularly valuable securities and banknotes.

  Further, there is also known a forgery prevention technique that can apply this technique to determine authenticity with the naked eye (Patent Document 1). As shown in FIG. 3, in the printed matter 200 using this forgery prevention technology, the thickness of a part of the printing ink film 12b out of the printing ink on the base sheet 11 ′ is made larger than the thickness of the other printing ink film 12a. Is. The printed material 200 is the same as a normal printed material printed with a printing ink film having no thickness when observed from the front. However, when observed from an oblique direction close to the paper surface of the printed matter, the thick printing ink film 12b appears to float from the thin printing ink 12a. For this reason, for example, when the thick printing ink film 12b is arranged so as to constitute a character, when the printed matter is observed from a direction close to the horizontal, the character appears to rise from the surroundings. Of course, also in the case of this printed matter, a rough tactile sensation can be sensed by tracing the upper surface with a fingertip.

Japanese Patent Laid-Open No. 03-53970

  As described above, in order to print such a thick printing ink film, a special intaglio printing technique is required. However, even without such a special printing technique, it is possible to forge a printed matter similar to this forgery-preventing printed matter.

  This technique utilizes a printing ink film and embossing with no thickness. That is, as shown in FIG. 4, first, the printing ink film 14 'is formed by printing on the base sheet 11'. This printing ink film 14 'is formed by printing by ordinary offset printing or gravure printing, and has substantially no thickness.

And this is pinched | interposed by the male type | mold 21 and the female type | mold 22 from the upper and lower sides, and an unevenness is formed by pressing. The counterfeit product 200 ′ thus obtained is as shown in the cross-sectional explanatory view of FIG. 5. In some cases, a flat back plate may be used instead of the female die 22 for embossing.

  In the counterfeit product 200 ′, the thickness of the genuine printing ink coatings 12 a and 12 b is reproduced by embossing the male mold 21 and the female mold 22. Further, a printing ink film 14 'is provided on the convex portions 12'a, 12'b by this embossing. As a result, when the counterfeit product 200 ′ is viewed, a printed pattern similar to the genuine product can be seen. When the surface is traced with a fingertip, a rough tactile sensation can be felt by the embossed convex portions 12 ′ a and 12 ′ b like the genuine product. Also, like the genuine printing ink coatings 12a and 12b, since some of the convex portions 12'b are higher than the other convex portions 12'a, when observed from an oblique direction close to the paper surface, The high convex portion 12'b appears to float from the low convex portion 12'a. For this reason, this counterfeit product is difficult to distinguish from a genuine product.

  As shown in the figure, a concave portion x ′ is formed by embossing the male mold 21 and the female mold 22 on the opposite side of the counterfeit product 200 ′, while the concave portion x ′ is formed in the genuine product 200. not exist. However, even if it is the authentic product 200, when the base sheet 11 is made of high-quality paper or the like, the surface has fine irregularities due to the fibers. Even in this case, it is difficult to distinguish counterfeits by distinguishing the fine irregularities based on the material of the base material sheet 11 of the genuine product 200 and the embossments of the counterfeit product 200 ′.

  The present invention has been made based on such technical reasons. Forgery-preventing printed matter printed with a printing ink film having a thickness that can be sensed by tactile sensation, even if the printing ink film without thickness and embossing are used, forgery is achieved. It is an object of the present invention to provide a forgery-preventing printed matter that can be easily detected even if it is counterfeited.

That is, the invention according to claim 1 is a printed matter that is configured by printing printing ink on the upper surface of a base sheet, and the printing ink film has a thickness that can be sensed by touch.
The anti-counterfeit printed matter is characterized in that a gloss layer is laminated on the lower surface of the base sheet.

  Next, the invention according to claim 2 is the forgery-preventing printed matter according to claim 1, wherein the base sheet is made of paper.

  The invention according to claim 3 is the forgery-preventing printed matter according to claim 2, wherein the paper is high-quality paper.

  Next, the invention according to claim 4 is the anti-counterfeit printed matter according to claims 1 to 3, wherein the printing ink is an intaglio printing ink.

  In the anti-counterfeit printed matter of the present invention, a gloss layer is laminated on the lower surface. For this reason, when this anti-counterfeit printed matter is observed from the lower surface side, the reflected light regularly reflected by the gloss layer can be observed. Since the surface of the gloss layer is smooth, the specularly reflected light is emitted uniformly in the same direction, so this surface also appears to have a uniform gloss.

On the other hand, when a counterfeit product is manufactured using a printing ink film having a small thickness and embossing, a concave portion is also formed in the glossy layer by the embossing. Since the reflected light reflected by the recess is emitted in various directions according to the shape of the recess, when the counterfeit product is observed from the lower surface side, the brightness corresponding to the shape of the recess can be observed. That is, when the counterfeit product is observed from the lower surface side, it looks not like a uniform glossy surface but a pattern with light and dark.

  For this reason, if the printed material is observed from the lower surface side and looks like a pattern with light and dark, it can be determined as a counterfeit product.

  For this reason, the forgery-preventing printed matter of the present invention is difficult to counterfeit even if a printing ink film having a thin thickness and embossing are used, and the counterfeit can be easily detected even if counterfeiting is performed.

FIG. 1 is a cross-sectional explanatory view showing a specific example of the forgery-preventing printed material of the present invention. FIG. 2 is a cross-sectional explanatory view showing an example of a forged product obtained by forging the printed matter of the present invention. FIG. 3 is a cross-sectional explanatory view showing a specific example of a conventional anti-counterfeit printed matter. FIG. 4 is a cross-sectional explanatory view showing a conventional method for forging a forgery-preventing printed matter. FIG. 5 is an explanatory cross-sectional view showing an example of a forged product obtained by forging a conventional printed matter.

  Hereinafter, specific examples of the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional explanatory view showing a specific example of a forgery-preventing printed matter 100 of the present invention.

  As shown in FIG. 1, the forgery-preventing printed matter 100 includes a base sheet 11, printing ink films 12 a and 12 b, and a gloss layer 13 as essential components.

  The base sheet 11 may be a sheet made of an arbitrary material, but when the base sheet 11 is made of paper, the features of the present invention are particularly utilized. Typically fine paper.

  The printing ink coatings 12 a and 12 b are formed by printing on one side of the substrate sheet 11. In this specification, the surface on which the printing ink coatings 12a and 12b are formed is referred to as an “upper surface”. The “lower surface” is the opposite surface.

  The printing ink coatings 12a and 12b need to have a thickness that can be sensed by the printing ink coatings 12a and 12b when the top surface of the substrate sheet 11 is traced with a fingertip. For example, the thickness is 10 to 100 μm.

  The printing ink films 12a and 12b may have the same thickness in all the printing ink films 12a and 12b, but the thickness of some printing ink films 12b is larger than the thickness of other printing ink films 12a. You can also For example, a thick printing ink film 12b is arranged so that a character is constituted by the whole of the printing ink film 12b, and a thin printing ink film 12a is arranged around the printing ink film 12b so that a character background (background) is formed. It can be.

  A method for printing and forming such thick printing ink coatings 12a and 12b is known. For example, it is possible to use an intaglio printing ink with low fluidity and perform printing by using a dedicated intaglio printing machine.

  Note that the printing ink coating 12b may have any color. Examples of the ink for forming such thick printing ink coatings 12a and 12b include, for example, Taiyo Ink Manufacturing Co., Ltd .: Intaglio Yellow, Toyo Ink Manufacturing Co., Ltd .: EG7015 Red B, Toyo Ink Manufacturing Co., Ltd. Manufactured by: EG7036 Asagi, etc. Of course, these inks may be mixed and used.

  Next, the gloss layer 13 needs to be printed and formed on the opposite side of the surface on which the printing ink coatings 12 a and 12 b are formed, that is, on the lower surface side of the base sheet 11.

  The gloss layer 13 may be solidly printed on the entire surface of the substrate sheet 11, but it is sufficient to partially print and form the printing ink coatings 12 a and 12 b and the periphery thereof.

  The gloss layer 13 can be formed with any printing ink. This is because an ink film obtained by printing an ink generally used for printing, excluding mat ink, has a glossy surface. The color is arbitrary, and transparent ink, chromatic color ink, and achromatic color ink can also be used. The printing method is also arbitrary, and printing may be performed by a method such as offset printing or gravure printing. Moreover, it can also print by a bar-coat method or can be printed using a hand roller.

  Since the anti-counterfeit printed matter 100 obtained in this way has thick printing ink coatings 12a and 12b on the upper surface thereof, by tracing the upper surface with a fingertip, the unevenness due to the printing ink coating is sensed and a rough feel is felt. be able to. On the other hand, a simple counterfeit product in which a printing ink film having substantially no thickness is printed cannot detect irregularities even by tracing with a fingertip. For this reason, it can be easily recognized that it is a counterfeit product.

  Further, when the anti-counterfeit printed matter 100 has a thickness of a part of the printing ink film 12b larger than the thickness of the other printing ink film 12a, the anti-counterfeit printed matter 100 is viewed from an oblique direction close to the paper surface of the printed matter 100. When observed, the thick printing ink film 12b appears to float from the thin printing ink 12a. On the other hand, in a simple counterfeit product in which a printing ink film having substantially no thickness is printed and formed, a part of the printing ink film does not appear to rise even when observed from an oblique direction close to the paper surface. For this reason, it can be easily recognized that the product is a counterfeit product by this method.

  Next, when a counterfeit product is manufactured using both a printing ink film having a small thickness and embossing, as shown in the cross-sectional explanatory view of FIG. 2, embossing is performed on the lower surface side of the counterfeit product 100 ′. A recess x is formed. Even when embossing is performed using a male mold and a female mold, a slight concave portion x is formed even in the case of idling embossing. And even if this recessed part x is traced with a finger | toe, it is difficult to distinguish from the fine unevenness | corrugation based on the material of the base material sheet 11. FIG. However, when the genuine anti-counterfeit printed matter 100 is observed from the lower surface side, the regular reflection light from the gloss layer 13 can be observed. Since the surface of the gloss layer 13 is smooth, the specularly reflected light is emitted in a uniform direction according to the incident angle. As a result, the gloss layer 13 can be observed with a uniform gloss. On the other hand, in the counterfeit product 100 ′, the reflected light reflected by the concave portion x is emitted in various directions according to the shape of the concave portion x. The light and dark can be observed. That is, when the counterfeit product is observed from the lower surface side, it looks not like a uniform glossy surface but a pattern with light and dark. For this reason, this counterfeit product can also be easily identified.

Example 1
Quality paper was used as the base sheet. Three types of inks were mixed and used as printing ink coating inks. That is, Taiyo Ink Manufacturing Co., Ltd .: Intaglio Yellow, Toyo Ink Manufacturing Co., Ltd .: EG7015 Crimson B, Toyo Ink Manufacturing Co., Ltd .: EG7036 Asagi. In addition, an ultraviolet curable transparent gloss varnish (FD OLP multicolor OP varnish MC7 manufactured by Toyo Ink Manufacturing Co., Ltd.) was used as the gloss layer ink.

  First, an ultraviolet curable transparent gloss varnish (FD OLP multicolor OP varnish MC7 manufactured by Toyo Ink Manufacturing Co., Ltd.) was printed on one surface (lower surface) of the base sheet to form a gloss layer. This glossy layer was printed solid on the entire surface of the base sheet. The printing method was performed by a hand roller.

  Next, the mixed ink was intaglio-printed on the upper surface of the base sheet to form a printing ink film. All printing ink coatings have the same thickness, which is about 20 μm.

  When the upper surface of the printed matter thus obtained was traced with a finger, roughness due to the thickness of the printing ink film could be detected. Next, when the lower surface was observed, the entire surface had a uniform gloss.

(Example 2)
A printed matter was produced in the same manner as in Example 1 except that an orange mixed ink obtained by mixing two types of ink was used as the glossy layer ink. The two types of inks are FD OL DKB resistant yellow manufactured by Toyo Ink Manufacturing Co., Ltd., and FD Carton X Red manufactured by Toyo Ink Manufacturing Co., Ltd. (please enter the manufacturer name).

  When the upper surface of the obtained printed matter was traced with a finger, roughness due to the thickness of the printing ink film could be detected. Further, when observed from the lower surface, the entire surface appeared orange with uniform gloss.

(Comparative Example 1)
This Comparative Example 1 is for comparison with Example 1.

  That is, first, as the base sheet, high-quality paper was used as in Example 1. Further, the ink for the glossy layer was an ultraviolet curable transparent gloss varnish as in Example 1.

  And first, like Example 1, the ultraviolet curable transparent gloss varnish was printed on the single side | surface (lower surface) of the base material sheet, and the glossy layer was formed. This glossy layer was printed solid on the entire surface of the base sheet. The printing method was performed by a hand roller.

  Next, a convex portion having a height of about 20 μm was formed on the upper surface side in the same manner as the thickness of the printing ink film of Example 1 by performing embossing embossing. Along with this, a concave portion was formed on the lower surface side.

  When the upper surface of the printed matter thus obtained was traced with a finger, it was possible to detect roughness due to the convex portion. Next, when the lower surface was observed, light and dark corresponding to the concave portions were observed in a pattern.

(Comparative Example 2)
Comparative Example 2 was for comparison with Example 2. A printed matter was produced in the same manner as Comparative Example 1 except that an orange mixed ink obtained by mixing two types of ink was used as the gloss layer ink. . The two types of inks are FD OL DKB resistant yellow manufactured by Toyo Ink Manufacturing Co., Ltd. and FD Carton X Red manufactured by Toyo Ink Manufacturing Co., Ltd.

  When the upper surface of the printed material was traced with a finger, the roughness due to the convex portion could be detected. Next, when the lower surface was observed, light and dark corresponding to the concave portions were observed in a pattern.

100: Anti-counterfeit printed matter 11: Substrate sheet 12a, 12b: Printing ink film 13: Glossy layer

Claims (4)

Printed with printing ink on the upper surface of the substrate sheet, and this printed ink film has a thickness that can be sensed by touch,
An anti-counterfeit printed matter, wherein a gloss layer is laminated on the lower surface of the base sheet.   The anti-counterfeit printed matter according to claim 1, wherein the base sheet is made of paper.   The forgery-proof printed matter according to claim 2, wherein the paper is high-quality paper.   The anti-counterfeit printed matter according to claim 1, wherein the printing ink is an intaglio printing ink.