RU2344045C1 - Protection element for counterfeit protection, protected printed production and method of protected printed production - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention concerns protection elements for counterfeit protection of printed production. Protection element of counterfeit protection includes at least one printed graphic image with half-tone areas made on offset, typo-offset or relief print substrate. Printed graphic image has at least one half-tone area without structural raster elements, printed by one printing plate in one substrate skip in the image printing process. Half-tine area of printed image does not have mutual disruptions and displacements in any printed image areas. Invention also claims protected print production featuring described protection element. Method of protected print production involves inking in inking system with further ink layer transfer to a plate to form image on substrate. Inking is performed by including at least one inking roll into inking system to adjust ink layer thickness by supplying the roll with areas transferring and not transferring ink.

EFFECT: enhanced potential protection of offset, typo-offset and relief print at minimum production cost growth.

10 cl, 5 dwg

Description

The invention relates to security elements for protection against counterfeiting of secure printing products, for example, securities and documents, banknotes, excise stamps, packaging materials, etc., as well as to methods for manufacturing secure printing products.

For reliable protection of printing products, special types of printing are used, such as metallographic printing, Oryol printing and iris printing. These printing methods require special expensive equipment, thereby significantly increasing the cost of production.

At the same time, almost all known printing methods are used in the production of valuable documents and other secure products. The color background and background grids are printed mainly by offset or type-offset printing methods in several colors, while the linear structures are rolled up in different colors segment by segment. Background printing is performed with a high degree of accuracy of combining inks among themselves.

Offset printing is widespread among manufacturers of printing products, has high adaptability and allows you to produce high quality products. At the same time, offset printing, because of its affordability, cannot be widely used for the production of secure products without additional protective techniques, which sometimes significantly increase the cost of production and bring it closer to products made using special printing methods. At the same time, one of the drawbacks of offset, type-offset, and high printing methods is the impossibility of sealing individual sections with one color tone, but with different optical density without screening printing plates or applying the same ink.

The proposed technical solution will increase the protective potential of offset, type-offset and letterpress printing with a minimum increase in production costs.

The invention can be used in printing to obtain various monochromatic and multicolor images without screening printed forms, in particular when printing securities and other protected multicolor products.

Printing techniques are known in the art for reproducing halftone images without screening printing plates.

Lithography is the oldest direct flat printing method for which a printing plate is made on a flat lithographic stone. The drawing on the form is applied with bold special paint using a pen (to create subtle strokes) or a brush (for dies). A grayscale image is applied to the granular surface of the stone with a lithographic pencil. The change in tone intensity is achieved by different pressure forces or by applying additional pencil strokes. After drawing the surface of the stone should be treated with a moisturizing solution to form white space elements. For this purpose, colloidal solutions of nitric acid and gum arabic or dextrin are used. The granular surface structure of the lithographic stone is a prototype of the modern stochastic raster and allows the possibility of using various inks without the risk of moire when printing halftone images. Currently, lithography has no practical use.

Phototype is a non-raster method of direct flat printing. In the manufacture of the phototypic form, copying is carried out from a halftone negative photoform to submerge a layer of chrome gelatin. The greatest depth of undersizing (up to 100 microns) will be under the transparent layers of the negative. The exposed form is washed in water so that the phototypic layer selectively swells and acquires a granular surface. Grains of the maximum size are formed in places corresponding to the dark areas of the original, and grains of the minimum size on light ones. During printing, the most ruined areas perceive and transmit a greater amount of ink. This printing method is expensive and time-consuming, the forms can withstand no more than five thousand prints with very low productivity (120 prints per hour).

Metallography is an intaglio printing method in which a printing form is made by engraving or etching on a flat metal plate. The image on the print is characterized by the presence of a tangible relief. Metallography is a rasterless intaglio printing method. Changing the saturation of the color tone and the height of the relief on the print is achieved by changing the depth of the printing elements on the form.

In other printing methods, grayscale images are reproduced on the print due to the screening of the printing forms.

According to UK patent No. 1138011 of 1968, a color original is divided into color-divided grayscale images, rasterized and the resulting rasterized images are used to obtain printing forms.

Patent RU 2166202 of 2001 proposes a method for rasterizing color grayscale images by using guilloches as rasters, the pattern of which is different for each grayscale image of a certain color.

In the patent RU 2236950 of 2000, the company SANDY SKRIN AG proposes to change the shape of the printing element of the raster structure in order to simulate the rasterless lithography and reproduce a milder character of grayscale gradations.

In the patent application RU 2005106840 of the company Gieseke und Devrient GMBH (EP 03/08544 from 2003) it is proposed to obtain grayscale gradations due to lines of variable width. The required tone gradation is transmitted by appropriate modulation of the line width.

Image prints obtained by the above printing methods have various characteristic features.

Imprints obtained by lithography have a granular structure resembling a raster.

Imprints obtained by phototype method also have a granular structure. Grains of maximum size are formed in dark places, grains of smaller size - in bright places (halftones).

Metallographic prints are distinguished by the presence of relief.

The halftone imaging methods listed in the patents are based on screen printing and are easily recognized.

In 1881, Georg Meisenbach laid the foundations for rasterization and obtained a reproducible raster structure using a periodic lattice and, thus, carried out the transmission of halftones. The basics of this process are used in offset printing to date, while in offset and type-offset printing, the thickness of the ink layer on the surface of the printed material is the same at all points, not counting small technological deviations in the printing process.

However, to date, various attempts have been made to create new methods for transmitting halftones when printing various multi-color images. So, in the patents of the Russian Federation No. 2143342 and 2143344 methods of forming a multi-color pattern of the Oryol print are disclosed, in which a smooth transition of colors in continuously colored lines is achieved. As you know, the Oryol multi-color printing method is based on rolling up a prefabricated printed form with paint using colorful patterns. The prefabricated printing form and colorful templates are mounted respectively on the plate cylinder and on the template rollers, and the essence of this printing consists in the formation of individual colorful layers on color-separated forms, their transfer to the prefabricated form and from here to the receiving surface. The image is formed by creating a continuously colored line with a transition of colors. Here, by the transition of colors of such a line, we mean the coloring of its various sections in the corresponding colors. Moreover, the boundary of the transition of the line section of one color to the line section of another color is characterized by the absence of mixing zones for these inks in the indirect Oryol press and the presence of a minimal zone for mixing inks in direct Oryol printing. Thus, all colorful patterns, when applied to a prefabricated printing plate, completely cover the entire area of the pictorial field of the prefabricated form without imposing various separate colorful areas from each other. The border zone of the colorful template is mainly increased due to the introduction of a decreasing in area of filling, continuous or stepwise raster scale, the linear dimensions and gradation characteristics of which determine the length of the zone and the smooth transition of the colors, and which is made point or linear, while the lineature of the raster of the said scale lies in the range values of 8-40 lines / cm. The gradation characteristic of a stepped raster scale corresponds to the areas of filling the fields of the raster cell 80, 60, 40 and 20%, and to create three optical densities within one of the main colors of a continuously colored line, use a raster scale with a filling area of the fields of the raster cell 10, 40 and 80% .

The closest analogue is a method of manufacturing a secure printing product with a security element containing offset printing (type-offset or letterpress) made on a substrate, at least one graphic printed image with halftone sections made using a raster (see "Fundamentals of the examination of money signs ”, Methodological manual of the CBRF, IIC“ Europeum-press ”, 1998, pp. 30-33).

A limitation of this technical solution is the insufficient degree of security of printing products with an image made by the method of offset printing (including type-offset and letterpress printing) using rasterization, since such an image is quite easy to fake.

The objective of the proposed invention is to increase the degree of security of printed products and the possibility of using existing technical means with a slight refinement to obtain a technical result in the manufacture of multi-color images, which consists in the possibility of forming within one ink areas with different optical densities without the use of screening.

To achieve the indicated result, in a counterfeit security element comprising offset, type-offset, or letterpress printing on a substrate, at least one graphic printed image with halftone sections, according to the invention, the graphic printed image has at least one halftone section without structural elements of the raster, made from one printing plate in one run of the substrate in the process of printing the image, while the grayscale portion of the printed image does not have reciprocal zryvov and displacements in all areas of the printed image.

In the security element, sections of different optical density of the graphic printed image are separated, and / or border, and / or superimposed on each other.

In the security element, the graphic printed image is made in the form of contour or direct nets, and / or guilloche patterns, and / or sockets, and / or borders, and / or frames, and / or geometric shapes, and / or text.

The difference in optical densities of the grayscale sections of the graphic printed image is from 5 to 50% of the maximum value in the printed image.

When the difference in optical densities is from 5 to 10%, the graphic printed image is made in the form of a machine-readable hidden feature.

When the difference in optical densities is from 10 to 50%, the graphic printed image is made in the form of a visually determined feature.

Graphic printed image containing halftone sections, made in the area of the iris transition of colors.

Protected printing products are made with a protective element.

To obtain a technical result in a method of manufacturing a secure printing product, including ink roll in an ink-roll system with subsequent transfer of the ink layer to a form for forming at least one graphic printed image with halftone sections on the substrate, offset, type offset or letterpress, according to of the invention, the ink is rolled by introducing at least one rolling roller into the ink-jet system to adjust the thickness of the ink layer due to the execution on the specified roller sections, transmitting and not transmitting ink, while forming at least one grayscale section without structural elements of the raster, made at least one ink from one printing form and for one run of the substrate in the process print image.

A graphic printed image containing halftone portions is performed in the iris transition region of the inks.

The invention is illustrated by the following illustrations.

Figures 1-4 show various embodiments of a security element.

Figure 5 - presents one of the layout options of the rolling system of the printing machine, through which the claimed method is implemented.

Protected printing products contain, on a paper or polymer substrate, offset, type-offset or letterpress printing, at least one security element in the form of a graphic printed image. A graphic printed image has at least one halftone portion 1 without structural elements of the raster. The grayscale portion of the printed image does not have mutual discontinuities and offsets in all sections of the printed image.

Figure 1 presents a fragment of the image of the protective element on the direct (negative) grid 2, containing a grayscale section 1.

Figure 2 presents a fragment of the image of the protective element on the contour (positive) grid 2, containing halftone section 1.

Figure 3 presents a fragment of the image of the protective element on the direct (negative) grid 2, containing several halftone sections 1 of different optical density, which can be located at a distance from each other.

Figure 4 presents a fragment of the image of the protective element on the direct (negative) grid 2, containing several halftone sections 1 of different optical density, which overlap each other or can border each other.

The difference in optical densities of the grayscale portions of the graphic printed image is preferably from 5 to 50% of the maximum value in the printed image.

When the difference in optical densities is from 5 to 10%, the graphic printed image can be used in the form of a machine-readable hidden feature, and when the difference in optical densities is from 10 to 50%, the graphic printed image can be used in the form of a visually determined feature.

Figure 5 presents one of the layout options of the rolling-rolling system of the inking apparatus of the printing machine, through which the claimed method of manufacturing a secure printing product with a protective element is implemented. The printing machine comprises a plate cylinder 3, roll cylinders 4, roll rollers 5, roll rollers 6 and a pattern roll 7. The roll-up system comprises a transfer roll 8 and a duct cylinder 9. The dashed lines indicate the rollers of the humidifier.

The claimed method is implemented in practice as follows. The ink apparatus delivers the printing ink from the reservoir using the duct cylinder 9, uniformly rolling it and applying to the form in the form of an ink layer of a certain thickness. In the process of transferring ink from the tank to the printing plate and then to the print, multiple splitting of the ink layer occurs. For uniform application of paint on the form, up to four knurling rollers 6 of different diameters are used. The main spray flow is directed to the front rolling rollers, and the smaller spray flow to the rear rollers. To form sections with different optical densities along the axis of the plate cylinder, a template roll 7 is installed, the working surface of which is made in the form of a combination of dies or dies with a printing surface alternating around the circumference and sections with a space element in the form of various geometric shapes, the configuration of which is specified by the required pattern of the printed image .

Obtained in the printing process areas with different optical density repeat the configuration of the dies and white space elements on the roller. A graphic printed image can be made in the form of contour or direct nets, and / or guilloche patterns, and / or sockets, and / or borders, and / or frames, and / or geometric shapes, and / or text.

A graphic printed image containing halftone sections can also be made in the iris transition area of the inks. In this case, it is possible to obtain not only a single-color grayscale image, but also a multi-color image with a smooth transition of colors and halftone bezrastnyh sections that do not have gaps and offsets in all areas of the printed image.

The claimed method provides the following.

In the case when the circumference of the rolling roller is a multiple of the circumference of the plate cylinder, sections with lower optical density with a constant location are formed on the form and on the print at each revolution of the plate cylinder.

In the case when the circumference of the rolling roller is not a multiple of the circumference of the plate cylinder, sections with lower optical density are formed on the form and on the print and their location changes with each revolution of the plate cylinder.

Prints of images with halftone areas have the characteristic features of the used method of offset or type-offset printing.

At the same time, a printed image with halftone sections obtained without screening of printing forms has its own characteristic features:

- the complete absence of raster elements on the printed elements;

- printing from one printing plate in one run of the substrate forms an image consisting of graphic elements made without discontinuities and displacements at the transition boundary from dark tone sections to light halftone sections in all directions of the boundary transition;

- the presence of a "boundary" effect (a thicker layer of ink) on the printed areas of the border zone of separation of light halftone and dark tone graphic elements;

- the presence of secondary traces of blank areas from offset rubber on image prints and having a lower optical density, remaining from the previous revolution of the plate cylinder and mismatched images with blank areas applied to the shape of the plate cylinder, and therefore to the offset rubber, followed by a turn cylinders.

The proposed method may find application in the manufacture of various types of secure printing products. This manufacturing technology allows you to get a new security element, convenient for authenticating products and providing reliable protection against counterfeiting.

Claims (10)

1. A security element for counterfeiting, comprising offset, type-offset or letterpress printing on a substrate, at least one graphic printed image with halftone sections, characterized in that the graphic printed image has at least one halftone section without structural raster elements made from one printing plate in one run of the substrate in the process of printing the image, while the grayscale portion of the printed image does not have mutual discontinuities and offsets in all areas of the printing deleterious pictures. 2. The protective element according to claim 1, characterized in that the sections of different optical density of the graphic printed image are separated, and / or border, and / or superimposed on each other. 3. The security element according to claim 1, characterized in that the graphic printed image is made in the form of contour or direct nets, and / or guilloche patterns, and / or sockets, and / or borders, and / or frames, and / or geometric shapes , and / or text. 4. The protective element according to claim 1, characterized in that the difference in optical density of the grayscale sections of the graphic printed image is from 5 to 50% of the maximum value in the printed image. 5. The security element according to claim 4, characterized in that when the difference in optical densities is from 5 to 10%, the graphic printed image is made in the form of a machine-readable hidden feature. 6. The security element according to claim 4, characterized in that when the difference in optical densities is from 10 to 50%, the graphic printed image is made in the form of a visually-defined sign. 7. The security element according to claim 1, characterized in that the graphic printed image containing halftone sections is made in the iris transition zone of the inks. 8. Protected printing products made with a protective element according to any one of claims 1 to 7. 9. A method of manufacturing a secure printing product, including ink roll in an ink-and-roll system with subsequent transfer of the ink layer to a form for forming on the substrate offset, type-offset or letterpress printing, at least one graphic printed image with halftone sections, characterized in that paint is rolled by introducing at least one rolling roller into the color-rolling system to adjust the thickness of the paint layer by performing on the specified roller parts, transmitting and not transmitting ink, at the same time form at least one half-tone section without structural elements of the raster, made at least one ink from one printing form and for one run of the substrate during image printing. 10. The method according to claim 9, characterized in that the graphic printed image containing halftone sections, perform in the area of the iris transition of paints.

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