RU2661591C1 - Method for decoration and/or protection of printing products - Google Patents

Abstract

FIELD: printing industry.

SUBSTANCE: invention relates to the field of printing products production and can be used for their decoration and/or counterfeit protection purposes. First, a printed part of the formed volumetric image is produced on the workpiece to be processed. After that, the printed part is covered with a transparent polymeric layer, which can be formed by lamination in the form of a film or varnishing in the form of a varnish layer. Then, in the film thus obtained, or in the varnish, a microlens part of the volumetric image is formed by mechanical or thermomechanical action with a cliche of the necessary configuration.

EFFECT: provides the possibility to decorate and/or protect various printing products by obtaining a volume effect on any part of the surface of the workpiece.

3 cl, 3 dwg

Description

The invention relates to the production of printing products and can be used for decoration and protection against counterfeiting.

In the printing technique, the phenomenon of the moire effect, i.e. the effect that occurs when two periodic mesh structures are superimposed and form an apparent image in the eyes of the observer. To obtain the moire effect, two visible raster structures are needed. If one of such raster structures is printed by the printing method (hereinafter the printed part of the product) containing the volumetric effect, and the other is a microlens raster (further the microlensed part of the product) containing the volumetric effect, then the interaction of such structures allows us to observe the effect of volume.

Such solutions are used in practice, in particular, to protect against counterfeiting banknotes, see, for example, http://en.tonglioptech.com/products_detail/productld=45.html.

The analogues of the present invention are known which use only special films as carriers, since they are technologically limited by the use of film materials.

In particular, using Rolling Optics (RO) http://www.rollingoptics.com/brand-protection/inspiration/ the use of film as an image carrier is due to the fact that in order to create a three-dimensional image, it is necessary to combine a microlens raster and printed text or characters in a certain way . For this purpose, the microlens portion of the three-dimensional image is located on one side of the film, and the print portion on the other. The formation of a microlens raster and printed text and symbolic information occurs within the framework of a single technological process. Due to this feature, any opaque material, for example paper, is not applicable in the framework of this technology.

A solution of the company Grapac (Japan) is known, see http://www.grapac.co.jp/eng_hals/, which is based on a microlens raster made on a carrier made of transparent plastic. To obtain a volumetric effect, it is necessary to combine this microlens portion of the image with the printed portion of the image. In this case, printing of an image combined with a microlens raster can be carried out both on film and on paper. A microlens raster is formed on the surface of a plastic carrier using screen printing by transparent varnish. Drops of varnish with a diameter of several tens (up to two hundred) microns are applied through a special mesh screen, after which they are exposed to UV radiation. As a result of exposure, due to a certain value of viscosity and surface tension forces, drops take the form of spherical lenses. With this technology, the entire surface of the sheet is coated with a microlens raster. The main limitations in the application of this technology are its high cost, as well as the inability to produce a microlens raster with a carrier with a total thickness of less than 200 microns. As a result, the inability to use labels and other thin products in the manufacture

From the sources of patent information, a layered product on a paper or polymer basis with an optically variable structure characterizing its authenticity is known, see RF patent No. 2516474 containing a coating in the form of a printed raster and a three-dimensional raster, characterized in that the coating is made on one side of the base, and a three-dimensional raster is applied on the other side of the base, the field of the printed or three-dimensional raster is divided into two or more sectors offset from each other, each sector being colored in such a way that when the angle changes the color of the sectors in the image changes, the three-dimensional raster is made in the form of elements with a symmetric and / or asymmetric profile with the formation of a relief on both sides of the base and is so located relative to the printed raster that at least partially the three-dimensional raster is located above the printed raster, while the width of the lines of the printed raster is from 50 to 200 microns, the width of the lines of the three-dimensional raster is from 100 to 600 microns, the angle between the elements of the printed and three-dimensional rasters is from 0 ° to 10 °, while they form ovoe image which when viewed information carrier at a right angle is hidden, and when the data carrier is viewed at an acute angle becomes visible. Another variant of this technical solution is a layered product on a paper or polymer basis with an optically variable structure characterizing its authenticity, containing a coating in the form of a printed raster and a three-dimensional raster, characterized in that the printed raster is applied on both sides of the base, and the three-dimensional raster is applied with one side of the base, and the three-dimensional raster is made in the form of elements with a symmetric and / or asymmetric profile with the formation of a relief on both sides of the base and so is located relative to the furnace dividing raster, that at least partially a three-dimensional raster is located above the printing raster, while the line width, the distance between the lines of the printed and three-dimensional rasters and the relative orientation of the rasters are selected so that they form a moire image, which when viewed from a medium at a right angle is hidden, and when viewing the information carrier at an acute angle it becomes visible, while the elements of the printed raster deposited on opposite sides of the base coincide in the lumen, forming an additional element t protection controlled by clearance. A method of manufacturing such laminated products on a paper or polymer basis, comprising applying at least one portion of the base of the graphic elements in the form of a printed raster and then applying a three-dimensional raster, characterized in that the printed raster is applied by printing to one side of the substrate, and three-dimensional the raster is applied to the other side of the base, and the pressure on the base when applying a three-dimensional raster is such that it leads to the formation of a reverse relief, and the relative position of the rasters is chosen so at the same time that they form an image with an optically variable effect.

A known information carrier with an optically variable structure characterizing its authenticity, according to the patent of the Russian Federation No. 2440248, which contains a coating made in the form of a printed raster, and a three-dimensional raster. The three-dimensional raster is so positioned with respect to the coating that it is at least partially located on the coating. Moreover, the width of the lines and the distance between the lines of the printed and three-dimensional rasters and the relative orientation of the rasters are chosen so that they form a moire image, when viewing the media at right angles to the surface, the coating is completely distinguishable, and the moire image is hidden. When viewed at an acute angle, the part of the coating located on the surfaces of the three-dimensional raster located parallel to the direction of observation or closed from the observer by the elements of the three-dimensional raster is not distinguishable, but the part of the coating located on the surfaces of the three-dimensional raster facing the observer and not closed from the observer by the elements of the three-dimensional raster, as a result of which the moire image becomes visible, and the border of the two colors of the printed raster is mainly located on inclined sections ah three-dimensional raster. When the angle of inclination of the carrier changes, the effect of movement of the boundaries of the colored bands on the carrier is observed. The invention allows to improve the security feature with the moire effect by obtaining a dynamic effect that facilitates control of the authenticity of the medium by a non-qualified user.

A data carrier with an optically variable structure, with a three-dimensional raster, is known according to the patent of the Russian Federation No. 2235021, which is so positioned with respect to the coating that various optical effects, including variables, occur at different viewing angles. The three-dimensional raster and the coating, made in the form of a printed raster, are oriented relative to each other so that the rectilinear elements of the printed raster are located at an acute angle, preferably from 0.3 to 10 °, to the rectilinear elements of the three-dimensional raster. Preferably, the step between the rectilinear elements of the printed raster is different from the step between the same rectilinear elements of the three-dimensional raster and is not a multiple of it in a cross section perpendicular to the rectilinear elements of the three-dimensional raster. When examining the information carrier at right and acute angles in the surface, an optical effect is observed in the form of moire - a smooth color change, tint and overflow of colors, which is suitable for determining the authenticity of the information medium, but cannot be reproduced using copying technology at all or not in accordance with the original. These features provide reliable protection against forgery of the information carrier by simple means.

This technical solution, as the closest to the declared technical essence and the achieved result, was adopted as its prototype

The disadvantage of this device, as well as all other known solutions, is the inability to form a three-dimensional microlens raster on an arbitrarily selected surface area. Within these solutions, a three-dimensional microlens raster covers the entire surface of the product, which limits the printing and finishing processes for the product. In addition, in the known solution, the elements of a three-dimensional microlens raster are linear in shape, which excludes the possibility of obtaining a volumetric effect.

The objective of the invention is the ability to cover a three-dimensional microlens raster of any desired surface area of the workpiece, to obtain a volumetric effect and thereby expand the functionality of the claimed technology.

The essence of the claimed technical solution is expressed in the following set of essential features, sufficient to achieve the above technical result provided by the invention.

According to the invention, the method of decorating and / or protecting printing products, comprising forming on the surface of the decorated and / or protected product a three-dimensional image, resulting from the combination of the printed part of this image applied by the printing method, and its micro-lens part, characterized in that the micro-lens part of the three-dimensional image form after its printed part is printed, while the micro-lens part is formed in a transparent polymer layer, which covers the printed part, while the thickness and physicomechanical properties of the polymer layer are selected from the condition of their compliance with the parameters of the microlens part, which is formed in the polymer layer by mechanical or thermomechanical action using a cliche of the required configuration.

In addition, the claimed technical solution is characterized by the presence of a number of additional optional features, namely:

- a transparent polymer layer can be formed by lamination;

- a transparent polymer layer can be formed by varnishing.

The claimed combination of essential features ensures the achievement of a technical result, which consists in the fact that the elements obtained by the claimed technology of the microlens raster are not linear, but round in shape, which makes it possible to obtain a volumetric effect on any part of the surface of the workpiece, which expands the possibilities of decoration and / or protection of various printing products.

The invention is illustrated by drawings, where in FIG. 1 conventionally shows the operation of applying a printed raster to the workpiece; FIG. 2 - applying a transparent polymer layer by lamination (Fig. 2a) or varnishing (Fig. 2b), in FIG. 3 - formation of a microlens raster in a transparent polymer layer from a film (Fig. 3a) or from varnish (Fig. 3b).

The claimed method is implemented as follows.

First, the printed part of the generated volumetric image on the workpiece is manufactured. After that, the printing part is covered with a transparent polymer layer, which can be formed by lamination in the form of a film or varnishing in the form of a varnish layer. Then, in the film thus obtained or in varnish, the microlens portion of the three-dimensional image is formed by mechanical or thermomechanical action using a cliche of the required configuration.

The thickness and physicomechanical properties of the transparent polymer layer are selected from the condition of their compliance with the parameters of the microlens part for their best overlay and the formation of a clear decorative or protective pattern on printing products.

The claimed technical solution is implemented using well-known technical and technological means and provides decoration and / or protection of various printing products by obtaining a volumetric effect on any surface area of the processed product.

Claims (3)

1. A method of decorating and / or protecting printing products, comprising forming on the surface of the decorated and / or protected product a three-dimensional image, resulting from the combination of the printed part of this image applied by the printing method, and its micro-lens part, characterized in that the micro-lens part of the three-dimensional image form after its printed part is printed, while the micro-lens part is formed in a transparent polymer layer, which covers the printed part, while Well, the physical and mechanical properties of the polymer layer are selected from the condition of their compliance with the parameters of the microlens portion, which is formed in the polymer layer by mechanical or thermomechanical action using a cliche of the necessary configuration. 2. The method according to p. 1, characterized in that the transparent polymer layer is formed by lamination. 3. The method according to p. 1, characterized in that the transparent polymer layer is formed by varnishing.

Images