RU2510438C1 - Polymer sandwich element for paper, which has optically variable effect - Google Patents

Abstract

FIELD: textile, paper.

SUBSTANCE: polymer sandwich element for paper, which has optically variable effect, is made in the form of a sandwich polymer structure containing at least one layer with microraster relief structure. It has an additional layer with printed or embossed raster of microimages, which is spatially combined with microraster relief structure. Microraster structure is made in the form of raster of spherical transparent polymer lenses or prisms or raster of Fresnel diffraction polymer structures. Printed microimages located in nodes of the printed raster consist of elements of different colours with diametre of 20-100 mcm, which are located at the distance of 40-400 mcm from each other. Mutual location of colourful elements in nodes of the printed raster is discernible in different places of a representational printed field. Inside the defined areas the mutual location of colourful elements differs from mutual location of elements outside the defined areas.

EFFECT: invention allows increasing protection degree of products with protective elements without any increase in prime cost of their production process.

3 cl, 4 dwg, 1 ex

Description

The invention relates to the field of manufacturing paper with hidden elements, such as hidden security elements, i.e. detected or becoming apparent only when using a special check or methods or devices for intervention, i.e. to security paper.

In the modern paper industry, thin-film transparent and reflective elements made in the form of polymeric thin-film elements: protective threads, windows, laminating films and flat polymer inclusions-applications are widely used for security printing. Such polymer elements make it possible to form various hard-forged security features in them. One of the interesting and sought-after areas is the formation of transparent, translucent and reflective relief raster structures in thin-film polymer protective elements. Such structures in combination with printed and embossed bitmap images create original hard-to-simulate protective effects.

An example is the well-known Motion ™ security concealed paper elements from Crane & Co., Inc. (RU 2420411 C2, 06/10/2011), "HALS ™" company GRAPAC Japan Co. Inc. (EP 2172340 A1, 04/07/2010), MOVE ™ by Gieseke & Devrient GmbH (RU 2395842 C2, 07.27.2010).

Closest to the proposed technical solution is a protective multilayer paper element with an optically variable effect, made according to the MOVE ™ technology, described in RU 2395842 C2, 07.27.2010. According to this technology, a multilayer security element is formed on the surface of a paper or polymer medium by printing, by offset or flexographic printing method, a color raster of color images in the form of equally spaced elements, such as spots or dots. Elements of printed rasters can have a complex configuration, and their internal areas can vary not only in color, but also in texture. Color images are located in the nodes of a flat raster. A spatial raster of transparent polymer elements in the form of lenses or prisms is formed above the raster of printed images by embossing, UV inkjet printing, or by any other method. The spatial periods and orientation of image rasters and polymer elements coincide. Within certain regions having the configuration of some symbols, the spatial phase of the microlens or image raster changes by a quarter of the spatial period. There is no phase shift in the background region, but inside the symbols the phase shift of the rasters is equal to a quarter of the spatial period of the raster lattices. This leads to the fact that when observing the surface of the protective element at small angles, the selected areas will have different color shades compared to the surrounding areas. The presence of such a color contrast, which changes when the protective element is rotated in its plane, is a protective sign.

The disadvantages of the known security feature include the practically visible contour of the latent image when viewing the security element at a right angle, which leads to a decrease in the security of the marking of the product with the security element.

The technical result of the invention is to increase the degree of security of products with protective elements without increasing the cost of their manufacture.

The technical result is achieved in that the polymer multilayer paper element having an optical variable effect, made in the form of a multilayer polymer structure containing at least one layer with a micro-raster relief structure and an additional layer with a printed or embossed raster of micro-images, spatially combined with a micro-raster relief structure, characterized in that the micro-raster relief structure is made in the form of a raster of spherical transparent polymer lenses or prisms or ra a country of Fresnel diffractive polymer structures, printed microimages located in the nodes of the printed raster, consist of elements of different colors with a diameter of 20-100 μm, spaced from each other at a distance of 40-400 μm, and the relative position of the colored elements in the nodes of the printed raster is different of a fine print field, namely, inside the selected areas, the relative position of the colored elements differs from the relative position of the elements outside the selected areas, as a result of which washed images, indistinguishable when observed at right angles to the plane of the protective element and visible at sharp viewing angles.

In addition, additionally selected areas can be in the form of geometric figures, or letters, or numbers, or symbols, and a micro-raster relief structure can be made in the form of a micro-tubercle raster with a spatial period coinciding with the spatial period of the image raster made by embossing on the surface of the carrier of the latter .

This is achieved by the fact that the protective element is a multilayer polymer structure. It contains at least one layer with a micro-raster relief structure and an additional layer with a printed or embossed raster of micro-images spatially aligned with the micro-raster relief structure, according to the invention, the printed micro-images located in the nodes of the printed raster consist of elements of different colors with a diameter of 20-100 μm located from each other at a distance of 40-400 microns, and the relative position of the colored elements in the nodes of the printed raster is different in different places of the image of the printing field, namely, within the selected areas, the relative position of the colored elements differs from the relative positions of the elements outside the selected areas, resulting in the formation of latent images that are indistinguishable when observed at right angles to the plane of the protective element and visible at sharp viewing angles.

Thus, in the claimed invention proposed in the selected areas to change the relative position of the colored elements. The parameters of the relief raster remain unchanged over the entire surface of the protective element. In this case, when observing the surface of the protective element in the direction perpendicular to the plane of the element, the selected areas become much less noticeable, and when observing at small angles, their color contrast is preserved. Moreover, it should be noted that changing the characteristics of the elements of the printed raster is easier than changing the parameters of the embossed polymer rasters on the surface of the paper.

Selected areas can take the form of geometric shapes, or letters, or numbers, or symbols.

The micro-raster relief structure is mainly made in the form of a raster of spherical transparent polymer lenses or prisms. The micro-raster relief structure can be made in the form of a raster of Fresnel diffractive polymer structures. Instead of a raster of transparent polymer lenses, you can use a raster from extruded fossae or tubercles. The observed effect will be similar.

Such an invention can be used in the manufacture of banknotes, securities, passports, excise stamps, identification documents. The complexity of manufacturing such security elements is determined by the complexity of forming printed and embossed rasters with periods of the order of 100 microns or less and making them uniform over the entire surface of the protected object. Moreover, printing a printing raster, as a rule, for special printing industries, is a proven operation, and on the other hand, is difficult to accomplish for partners who do not have special printing equipment.

Figure 1 shows a photograph of the combined lens and printing rasters made using the MOVE ™ technology on advertising banknotes of Giesecke & Devrient. Colored spots - micro-images of the printed raster (1) are located under the microlenses (2) of the lens raster. Figure 2 shows the layout of the lens and printed rasters on advertising banknotes of the company "Giesecke & Devrient". Figure 3 and figure 4 shows variants of the layout of the lens and printed rasters of the protective element in accordance with the claimed invention.

Comparative example. In the well-known security element of the company "Giesecke & Devrient" (figure 2), the spatial periods and orientation of the image rasters 1 and polymer microlenses 2 coincide. There is no phase shift in the region of background 3, and inside the selected regions 4, the spatial phase of the microlens raster changes by a quarter of the spatial period.

An example of a specific implementation of the protective element (Figure 3, Figure 4) in printing products can serve as documents on the surface of which are printed micro-rasters, in the nodes of which are colored elements 1, consisting of three dots of different colors. A raster of transparent polymer elements in the form of lenses 2 is formed above the raster of printed images. Background regions 3 and latent image regions 4 are shown on the surface of the document. In the selected regions forming latent images 4, colored elements in the raster nodes change their orientation or location relative to the raster nodes. In Fig. 3, in the inner regions of the latent images 4, the color elements of the printing raster 1 are shifted half a period relative to the nodes of this raster, and in Fig. 4, the color elements 1 change their orientation. In both cases, when observing the proposed protective elements in a direction perpendicular to the plane of the elements, the latent images will not differ, while when observing at an angle to the surface of the protective elements, they will be distinguishable. The color of the hidden visualized images will change when the viewing direction changes.

Claims (3)

1. Polymer multilayer paper element having an optically variable effect, made in the form of a multilayer polymer structure containing at least one layer with a micro-raster relief structure and an additional layer with a printed or embossed raster of micro-images, spatially combined with a micro-raster relief structure, characterized in that the micro-raster relief structure is made in the form of a raster of spherical transparent polymer lenses or prisms or a raster of Fresnel diffraction polymer lenses patterns, printed microimages located in the nodes of the printed raster, consist of elements of different colors with a diameter of 20-100 microns, spaced from each other at a distance of 40-400 microns, and the relative position of the colored elements in the nodes of the printed raster is different in different places of the printed image field, namely, within the selected areas, the relative position of the colored elements differs from the relative position of the elements outside the selected areas, resulting in the formation of latent images that are indistinguishable when observed and at right angles to the plane of the shielding member and at acute angles visible observation. 2. The polymer multilayer element according to claim 1, characterized in that the selected areas are in the form of geometric shapes, or letters, or numbers, or symbols. 3. The polymer multilayer element according to any one of claims 1 or 2, characterized in that the micro-raster relief structure is made in the form of a micro-tubercle raster with a spatial period coinciding with the spatial period of the image raster made by embossing on the surface of the latter.

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