RU41909U1 - IDENTIFICATION PROTECTIVE SIGN - Google Patents

Abstract

The utility model relates to means of marking products and can be used in identification protective signs to confirm the authenticity of the goods and protect it from fakes. An identification security sign containing a transparent film-like polymer carrier, on the back surface of which there is a protected information field, which is a microrelief reflective layer in the form of a prismatic holographic grating with a reflective metal coating deposited on it, forming a visible image when illuminated by visible rays, and an adhesive layer on top metal coating. The protected information field includes at least two topographic carriers of hidden information in the form of nanoimages with a characteristic size of 20-40 microns, and the main visible image is the background for the carriers of hidden information. The utility model provides an increased degree of security against unauthorized use of an identification protective sign.

Description

The utility model relates to means for marking products and can be used in identification protective signs to protect packages from illegal opening, to confirm the authenticity of goods and to protect them from fakes, as well as for other cases of identification of goods.

Currently, the most protected characters are characters with a holographic image, since a copy cannot be removed from a holographic image without distorting the picture.

An identification security mark is known containing a diffractive copy protection element in the form of a holographic image (see certificate of the Russian Federation for utility model No. 13440, G 09 F 3/00, 10.04.2000). In this sign, the holographic image is the background, and all other information elements are made by printing, which reduces the degree of protection of the sign from unauthorized use.

An identification security sign is also known, which is a multilayer card having two external transparent layers, between which layers with marking elements are placed, one of which is a diffraction grating that forms a holographic image (see patent of the Russian Federation for invention No. 2182371, G 09 F 3 / 10, 05/10/2002). In this sign, the holographic image is only a small element of the sign, and all other inscriptions have a lesser degree of protection.

The closest to the claimed utility model for the combination of essential features is an identification security sign containing a transparent film polymer carrier, on the back surface of which there is a protected information field, which is a microrelief reflective layer in the form of a prismatic holographic grating with a reflective metal coating deposited on it, and an adhesive layer over metal

coatings (see the patent of the Russian Federation for the invention No. 2142165, G 09 F 3/10, 32 V 7/06, C 09 J 7/02, 11/27/1999). In this sign, the entire information field is covered by a holographic image and any attempt to remove the protective sign will lead to a violation of the holographic image, which provides a high degree of protection against unauthorized opening of the package. However, this mark can be reproduced by third parties using industrial means of manufacturing a holographic image and used to mark their own products, i.e. This mark does not protect against the possibility of fake goods being released.

The task to which the claimed utility model is directed is to create an identification protective sign, the structure of which cannot be determined by visual inspection, which gives an increased degree of protection against unauthorized use of this sign.

The technical task is solved as follows. An identification sign containing a transparent polymeric film carrier, on the back surface of which there is a protected information field, which is a microrelief reflective layer in the form of a prismatic holographic grating with a reflective metal coating deposited on it, forming a visible image when illuminated by visible rays, and an adhesive layer over a metal coating, according to a utility model, a protected information field includes at least va latent holographic information carrier in the form nanoizobrazheny with a characteristic size of 20-40 microns, and the main visible image is a background for the hidden information carrier.

The first holographic carrier of hidden information is a prismatic holographic lattice in the form of a closed strip bordering the holographic lattice of the main visible image and forming its own visible image

when illuminated by the rays of the visible spectrum and hidden information in the form of a microtext nanoimage embedded in its own visible image.

In addition, the second holographic carrier of hidden information is placed in the field of the main visible image and is a prismatic topographic lattice that forms two different intrinsic images, one of which becomes visible when illuminated by the rays of the visible spectrum, and the second image carries hidden information and becomes visible when illuminated with ultraviolet light or infrared rays.

In this case, the second image is a nanoimage in the form of microtext.

In addition, the adhesive layer is closed externally with a technological protective layer.

The utility model is based on multi-stage protection of an identification mark using hidden images in it with various ways to identify them. In this case, the first degree of protection is ensured by the presence of a common protected information field, which is a microrelief reflective layer in the form of a prismatic holographic grating with a reflective metal coating deposited on it, which forms the main visible image when illuminated by the rays of the visible spectrum. This hologram is inherent in the prototype and can be used as a distracting element of the sign, creating the illusion of a potential intruder that the sign can be faked by making a hologram with the same image. Against the general background, two or more holographic carriers of hidden information are not distinguished, since they are elements of the main visible image, and the hidden information is presented in the form of nanoimages with a size of 20-40 microns and its direct detection is difficult. To identify hidden information and its reading it is necessary to use additional means, which complicates the unauthorized use of the mark and

complicates the manufacture of identification marks for marking counterfeit products.

In the proposed sign, the first holographic carrier of hidden information is a prismatic holographic lattice in the form of a closed strip bordering the holographic lattice of the main visible image, and forming its own visible image when illuminated by the rays of the visible spectrum and hidden information in the form of a microtext nanoimage embedded in its own visible image. Visually, the strip is perceived as an element of the main visible image, and in the presence of other extended image elements in the main visible image, it is impossible to say unambiguously which element of the visible image is the carrier of hidden information. The use of microtext for hidden information expands the information capabilities of the identification mark, since any additional information about the product and its quality can be given in the form of microtext.

In the proposed sign, the second holographic carrier of hidden information is placed in the field of the main visible image and is a prismatic holographic lattice that forms two different intrinsic images, one of which becomes visible when illuminated by the rays of the visible spectrum, and the second image carries hidden information and becomes visible when illuminated with ultraviolet light or infrared rays, provides an additional degree of protection, since one of the carriers of hidden information cannot be outward in the rays of the visible spectrum.

The use of nano-images in the form of microtext for hidden information also expands the information capabilities of the identification mark, since in the form of microtext any additional information about the product and its quality is not available for direct observation.

The presence of a technological protective layer that covers the adhesive layer from the outside makes it possible to produce an identification mark in specialized production using high-performance and high-precision equipment with the removal of the technological protective layer immediately upon sticker labeling. At the same time, the personnel engaged in the manufacture of the goods and the identification mark are not informed about the features of the hologram, which reduces the possibility of obtaining information about the mark by third parties.

Figure 1 shows one of the options for the identification of a protective sign in accordance with the claimed utility model; figure 2 - layout of the layers in the identification security sign; figure 3 - a place in figure 2; figure 4 is an embodiment of the main visible image; 5 to 9 are some of the possible elements of the latent image. The images in FIGS. 2 and 3 are not shown to scale.

The identification security sign is a flat multilayer element 1 of any geometric shape. In the illustrated example, the sign is a stylized pentagon. The protected information field occupies the entire area of the sign and includes a central field 2, on which the main visible image is placed. The central field is bordered by a closed strip 3. The central field contains visible textual information for any purpose: product name, name of the applicant organization, trademark, etc. One of the image elements is extended elements 4 and 5, which can form any pattern, for example, an image of a star (element 4), or arcs (element 5), or be randomly located on the area of the main visible image.

Element 1 includes a transparent polymeric film carrier 6. The protected information field is located on the back surface of the carrier and is a microrelief reflective layer in the form of a prismatic holographic grating 7 with a reflective metal coating 8. It is applied over a metal

the adhesive layer 9 is applied to the coating. In the identification mark made, the adhesive layer 9 is closed by a hard technological protective layer 10, which can be made of any materials, in particular, paper, which is removed when the sign is sticker on the product or packaging.

The prismatic holographic grating 7, located in the central field 2, forms a visible image when illuminated by the rays of the visible spectrum. The image itself can be of any type, but it is advisable to have a guilloche protective grid in its composition, as shown in Fig. 4. Additionally, in the main visible image, you can include any effects, for example, rainbow, as well as small-scale protective elements such as "lens" 11 - diameter of 300 microns (figure 5), type "double lens" 12 - diameter of 600 microns (figure 6), microtext 13c with a letter height of 200-220 microns (Fig.7), as well as any other small-scale protective elements with a characteristic size of 200 microns or more.

In the given example of execution, the protected information field includes two holographic carriers of hidden information, and the main visible image is the background for carriers of hidden information.

The first hidden information is placed in a closed strip 3 bordering the central field 2. Its holographic carrier is a prismatic holographic lattice in the form of a closed strip bordering the holographic lattice of the main visible image and forming its own visible image (strip 3 in the form of separate segments 14) under illumination rays of the visible spectrum. Hidden information is embedded in the strip in the form of a holographic nanoimage of microtext 15 embedded in its own visible image.

The second hidden information is placed in the field of the main visible image on any of its elements, for example, on an extended element 4, forming the contour of the star, as shown in the embodiment of the identification protective sign in figure 1. Its holographic carrier is a prismatic holographic lattice forming

two different intrinsic images, one of which becomes visible when illuminated by the rays of the visible spectrum - an extended element 4, and the second image carries hidden information and becomes visible when illuminated with ultraviolet or infrared rays. In the considered example of execution, the second image is a nano-image (abbreviation of the name of the Russian Federation) in the form of microtext and becomes visible when looking at the sign in infrared rays - white letters on a dark background, as shown in Fig. 9.

As the polymeric carrier, the mylar film 18-36 microns thick manufactured by Centrographika (Italy) or any other similar polymer films can be used. Aluminum and its alloys, copper and copper alloys, silver, gold and other metals and alloys can be used to spray onto the surface of a prismatic holographic grating. For the adhesive layer, adhesives from Clay-Esomelt (USA) or double-sided adhesive films are used. As a protective layer can be used bisiliconized calender paper with a density of at least 65 g / m ² , for example, the company "Grafimeks" (RF).

The characteristics of the matrix for the manufacture of a prismatic holographic lattice are calculated according to the methods developed by the Russian company Concern Russian Security Technologies.

Using the adhesive layer 9, the identification mark is glued to the surface of the product or to the packaging. When you try to remove the sign, the adhesive layer is destroyed and with it the reflective metal coating is destroyed, as well as the prismatic holographic lattice and the identification mark cannot be restored. When checking the authenticity of products, the identification mark is examined at a magnification of, for example, 100 times, which allows revealing hidden information, including microtexts, visible when illuminated by the rays of the visible spectrum. For additional verification, the identification mark is examined in infrared or ultraviolet rays with the activation of a second holographic carrier of hidden information with an image magnification of 100 times.

The inventive utility model can be implemented in production using known materials and technologies, which confirms its industrial applicability.

Claims (5)

1. An identification security mark containing a transparent film-like polymer carrier, on the back surface of which is a protected information field, which is a microrelief reflective layer in the form of a prismatic holographic grating with a reflective metal coating deposited on it, forming a visible image when illuminated by visible rays, and an adhesive layer over a metal coating, characterized in that the protected information field includes at least two goals graphic media of hidden information in the form of nanoimages with a characteristic size of 20-40 microns, and the main visible image is the background for carriers of hidden information. 2. The sign according to claim 1, characterized in that the first holographic carrier of hidden information is a prismatic holographic lattice in the form of a closed strip bordering the holographic lattice of the main visible image and forming its own visible image when illuminated by the rays of the visible spectrum and hidden information in the form of microtext nanoimages embedded in your own visible image. 3. The sign according to claim 1, characterized in that the second holographic carrier of hidden information is placed in the field of the main visible image and is a prismatic holographic lattice that forms two different intrinsic images, one of which becomes visible when illuminated by the rays of the visible spectrum, and the second image carries hidden information and becomes visible when illuminated with ultraviolet or infrared rays. 4. The sign according to claim 3, characterized in that the second image is a nanoimage in the form of microtext. 5. A sign according to any one of claims 1 to 4, characterized in that the adhesive layer is closed on the outside with a technological protective layer.