WO2014065704A1

WO2014065704A1 - Counterfeit-protected data carrier and method for manufacturing same

Info

Publication number: WO2014065704A1
Application number: PCT/RU2013/000600
Authority: WO
Inventors: Аркадий Владимирович ТРАЧУК; Андрей Борисович КУРЯТНИКОВ; Алексей Михайлович ГОНЧАРОВ; Александр Георгиевич ПИСАРЕВ; Георгий Валентинович КОРНИЛОВ; Елена Михайловна ФЕДОРОВА; Александр Игоревич МОЧАЛОВ; Игорь Васильевич ПАВЛОВ; Галина Сергеевна БАРАНОВА; Анна Менашевна РЫТИКОВА; Александра Александровна ТОРГАШОВА; Алексей Борисович СОРОКИН; Марина Эдуардовна СНЕГИРЁВА
Original assignee: Федеральное Государственное Унитарное Предприятие "Гознак" (Фгуп "Гознак")
Priority date: 2012-10-23
Filing date: 2013-07-12
Publication date: 2014-05-01
Also published as: EP2913197B1; EP2913197A4; EP2913197A1; RU2503767C1

Abstract

The invention relates to counterfeit-protected data carriers and methods for protecting printed products from counterfeit. The data carrier has a transparent portion with graphic elements disposed on both sides thereof in the form of a high resolution line screen, said graphic elements forming an array, wherein the mutual arrangement of the elements is such that they form an image which is hidden when viewed in reflected light and visible when viewed in transmitted light; furthermore, when viewed from a different direction in transmitted light, the image changes from positive to negative and vice versa, and/or the colour of the image changes completely or partially, and/or the effect of the movement of monochrome or multi-coloured moire fringes is produced. The method for manufacturing the data carrier involves applying graphic elements to both sides of a transparent portion of the carrier by printing. The data carrier retains its flatness after printing. The invention provides for the increased protection of items and the production of a novel optically variable effect and/or the effect of movement, as well as increasing the manufacturability and reducing the cost of the protective element.

Description

INFORMATION PROTECTED MEDIA AND METHOD FOR ITS MANUFACTURE

Technical field

The invention relates to information media protected against counterfeiting, and methods of protection against counterfeiting of printing products, such as securities, banknotes, identification cards, both on paper and on a polymer basis.

State of the art

A known method of manufacturing securities DE 3208204 A1, the invention relates to the protection against unauthorized copying by offset printing. As the information carrier, transparent paper or other transparent carrier material is used with periodic or almost periodic patterns consisting of dots or lines applied to it on both sides. For application, the exact combination of images on the front and back sides of the media is used, made on machines for duplex printing. Therefore, a periodic structure of lines is proposed, which when correctly correlated in transmitted light has the appearance of thin lines, and with a slight displacement of the structure in the case of a fake, moire images are obtained. The disadvantage of this technical solution is the need to maintain accurate register of the front and back side elements, which complicates the manufacturing process, as it forces manufacturers to use only equipment for double-sided printing, and increases the likelihood of a marriage. It should also be noted that the use of double-sided printing, due to the nature of the technology, does not allow the use of images with a line width of less than 40 microns.

A similar technical solution is presented in US 6494491 B1, 12/17/2002, in which, to obtain a latent image, the graphic elements forming the protective element are arranged in such a way that some of the elements have a slight offset relative to the rest of the elements. To display the latent image, a transparent material is used, on which a grid is applied, corresponding to the position of graphic elements that do not have an offset. When this material is applied to the medium, the lattice elements cover the graphic elements of the medium that do not have an offset, and the latent image appears as positive. When applying a transparent material with a shift, so that the lattice elements cover the elements having an offset, the latent image appears as negative. The disadvantage of this technical solution is the need to combine without distortion of the transparent material with the sealed area, which complicates the identification of the protective element by an unskilled user.

Closest to the claimed technical solution is the invention described in patent RU 2386544 C1, 04/20/2010, which proposed a protective element for printing products containing a multilayer transparent polymer film with the first rasterized image made on the upper surface of the upper layer of the film with a resolution of the same order both the film thickness and the second rasterized image made on the lower surface of one of the underlying layers of the polymer film and / or on the surface of the protected product, on the protective element is located, the second rasterized image being positioned in such a way that when observing the images for reflection at different angles or in the clearance, the observed image smoothly changes from positive to negative or vice versa, while the first and second rasterized images are made transparent and / or translucent and / or reflective and / or luminescent and / or embossed. A method of manufacturing a protective element includes applying images on the surface of the film layers by local carbonization and / or engraving using a laser beam in the surface layers of the film with a thickness of 1-10 microns, and / or by methods of thermal diffusion copying.

The disadvantage of this technical solution is the limitation on the method of forming the raster elements, namely the impossibility of creating such elements without the use of laser processing, which significantly limits the scope of application in secure printing products.

Disclosure of invention

The problem solved by the invention is to increase the security of products through the use of high-resolution images not available for digital printing devices and commercial printing, as well as obtaining a new optically variable effect and / or motion effect, as well as improving manufacturability and reducing the cost of the protective element due to forming a raster in a printing way.

This problem is solved due to the features set forth in the claims. Preferred options for the storage medium and methods for its manufacture are presented in the dependent claims. The information carrier protected from forgery has at least one transparent portion, on both sides of which graphic elements are arranged in the form of a linear raster, forming a high-resolution periodic structure, according to the invention, the graphic elements are formed by the printing method, and after passing through the printing process, the medium information retains its flatness, the thickness of the applied paint layer varies in the range from 3 to 10 microns, and the relative position of these elements is such that о they form an image that is latent when viewed in reflected light and visible when viewed in light, and when the viewing direction changes in light, the image changes from positive to negative and vice versa and / or its color changes in whole or in part, and / or an effect occurs movements of one-color or multi-color moire stripes. The width of the named graphic elements and the clearance between them must be less than or equal to the thickness of the medium, this leads to the use of graphic elements and high-resolution images, since the thickness of the transparent section of the information medium can vary from 10 to 40 microns.

The transparent section of the information carrier can be made: in the form of a single-layer or multi-layer polymer films transparent or partially colored in bulk or surface; or specially impregnated paper; or filigree watermark.

The image can be formed by broken or curved lines, or dots, or strokes, or graphic primitives, or a combination thereof.

A method of manufacturing a fake-protected information carrier involves applying at least one transparent portion of the carrier of graphic elements in the form of a linear raster forming a periodic structure, according to the invention, the graphic elements are applied by printing methods to one or both sides of the carrier, and their relative position is that they form an image with an optically variable effect.

Graphic elements are applied by metallographic printing, and the following conditions must be met: the stroke depth of the engraving must not exceed 14 microns, and the width of the graphic elements must correspond to the order of the thickness of the information carrier. The information carrier thus obtained should retain its flatness, and the thickness of the paint layer should be in the range from 3 to 10 microns.

In particular, for the formation of graphic elements on one or both sides of the medium can be used partial removal method using laser technology previously applied, respectively, on one or both sides of the carrier layer of the metal. Brief Description of the Drawings

The list of figures of graphic images.

In FIG. 1 shows the structure of a transparent portion during manufacture.

In FIG. 2-3 shows the layout of graphic elements on the front and back sides of the transparent area.

In FIG. 4 shows a variant of the structure of the transparent portion in the manufacture and the latent image formation scheme.

In FIG. Figure 5-8 shows the image acquisition scheme when viewing the carrier in the light at various angles of inclination.

In FIG. Figure 9 shows a variant of the structure of the transparent region in the manufacture using special paints.

In FIG. 10 shows the structure of the transparent portion during manufacture.

In FIG. 1 shows an embodiment of the structure of a transparent portion of a carrier obtained by the first method. On the transparent part of the information carrier 1, graphic elements 2,3 are printed. In FIG. 2 shows a variant of the image of one of the sides of the information carrier containing the background image. It consists of straight lines of constant width, arranged with equal pitch.

In FIG. 3 shows a variant of the image of one of the sides of the storage medium. It consists of straight lines of constant width. In contrast to FIG. 2, part of the lines forming the background image 4 and part of the lines forming the latent image 5 are displaced relative to each other.

In FIG. 4 shows a variant of the structure of the transparent portion of the carrier obtained by the first method, and a negative image formation scheme when viewing the carrier in the light at an appropriate angle to the surface of the carrier.

A part of the graphic elements 5 on the front side of the medium has an offset relative to the other elements forming the background 4. When viewing the medium through the a angle to the surface of the medium, the observer sees a dark background 4a and a bright image 5a.

In FIG. 5 shows a view of the image obtained, on which additional information when viewing the carrier in the light is visible, and the viewing angle is such that the elements of the back side of the gaps overlap between the elements the front side, located without bias, which ensures the formation of a bright image on a dark background.

In FIG. 6 shows a view of the obtained image, in which the angle of inclination of the carrier provides overlapping elements of the reverse side of the gaps between the front side elements located with offset, which leads to the formation of a dark image on a light background.

In FIG. 7-8 show a view of the obtained image at various angles, on which the graphic elements of the front and back sides are located at an angle relative to each other. Which leads to the formation of a moire pattern. Changing the angle of inclination of the carrier provides the movement of the moire pattern in the element.

In FIG. 9 shows a view of the resulting image under the influence of UV or IR radiation.

In FIG. 10 shows a variant of the structure of the transparent portion of the carrier 6 obtained by the third method. On the front side 8, the graphic elements are printed, and on the reverse side 7, no printing is made, the graphic elements are created by partial demetallization in the thickness of the transparent material. The best example of carrying out the invention

The claimed invention is illustrated by the following examples.

Example 1 (Fig. 1, 2, 3, 4, 5, 6, 7, 8, 9.

The information carrier protected from falsification (Fig. 1) contains a transparent section 1, on which graphic elements 2 and 3 are applied by printing. Graphic elements 2 contain a background image (Fig. 2), and graphic elements 3, applied on the other hand, contain hidden 4 and background 5 images (Fig 3).

When viewing the carrier in reflected light, a uniformly colored field is observed. When viewed through the gap, as shown in FIG. 4, at different angles, the image changes from positive to negative and to turnover (Figs. 5 and 6).

If the graphic elements (Figs. 2, 3) are applied at an angle to each other, then when viewed through the lumen at different angles, movement of the moire stripes is observed, as shown in FIG. 7 and 8.

If any special inks were used when printing graphic elements on the front or back side (Fig. 2, 3), then under the influence of UV or IR radiation, coloring of at least some part of the element is observed, as shown in FIG. 9. Example 2 (Fig. 10).

The anti-counterfeit information carrier obtained by the second method comprises a transparent portion 11 in which a portion of the graphic elements 12 is created by partial demetalization in the thickness of the transparent material, and the graphic elements 13 are printed onto the information carrier.

Thus, the storage medium of the invention provides a new optically variable effect. Information reproduced on the surface of the transparent portion is latent in reflected light and visible in the light. This allows both machine-readable verification of media authenticity and visual control, with a significant increase in the effectiveness of visual control.

The advantage of the proposed method of manufacturing a tamper-resistant information carrier is the use of high-resolution graphic elements not available for digital printing devices and commercial printing, when printing these elements, it is not necessary to control the accuracy of combining the front and back sides, as well as improving the processability by refusing additional operations, in particular, laser engraving, which leads to a decrease in the cost of the information carrier protected from falsification. Application graphic elements using traditional printing technologies do not require unnecessary technological operations and additional pieces of equipment. Industrial applicability

The invention is applicable in the field of protection against counterfeiting of printing products, such as securities, banknotes, identification cards, both on paper and on a polymer basis, which makes it possible to more effectively control the authenticity of the information carrier both visually and using equipment.

Claims

CLAIM

1. The information carrier is protected from fake, having at least one transparent section, on both sides of which there are graphic elements in the form of a linear raster of high resolution, forming a periodic structure, characterized in that the relative position of these elements is such that they form an image that is latent when viewed in reflected light and visible when viewed in clearance, moreover, when the viewing direction changes in transparency, the image changes positively of the negative and vice versa, and / or its color changes in whole or in part, and / or the effect of movement of single-color or multi-color moire stripes occurs, the width of the graphic elements and the clearance between them being commensurate with the thickness of the information carrier, and the thickness of the paint layer is 3 up to 9 microns, while after printing the storage medium must retain its flatness.

2. The storage medium according to claim 1, characterized in that the transparent portion of the storage medium can be made: in the form of a single-layer or multilayer polymer film, transparent or partially colored in bulk or superficially or partially demetallized; or specially impregnated paper.

3. A storage medium according to any one of claims 1 or 2, characterized in that the image is formed by broken or curved lines, or dots, or strokes, or graphic primitives, or a combination thereof, subject to the use of high resolution.

4. The storage medium according to any one of claim 1 or 2, characterized in that the said graphic elements of the front and back side have machine-readable properties in at least some areas.

5. A storage medium according to any one of claims 1 or 2, characterized in that said front and back graphic elements have machine-readable properties and / or luminescence under the influence of UV radiation and / or IR metamerism (identical optical parameters in daylight and different absorption under the influence of IR radiation), at least in some areas.

6. A method of manufacturing a tamper-resistant carrier described in any one of paragraphs. 1-5, including the application, at least on both sides of the transparent portion of the media of graphic elements in the form of a linear raster, forming a periodic structure, characterized in that the graphic elements formed by the printing method, and after passing through the printing process, the storage medium retains its flatness, and the relative position of the graphic elements is such that they form an image having an optically variable effect on the lumen. At the same time, the depth of the printing elements of the engraving should not exceed 14 microns, and the thickness of the ink layer on the transparent section of the information carrier fluctuate in the range from 3 to 10 microns.

7. The method according to p. 6, characterized in that the graphic elements on one of the sides of the transparent layer are formed by partial removal using laser technology of the previously applied metallized layer.

8. The method according to p. 6, characterized in that when applying graphic elements to the front or back, special paints are used having machine-readable properties and / or luminescence under the influence of UV radiation and / or IR metamerism (the same optical parameters in daylight and various absorption under the influence of infrared radiation).