RU176237U1 - MULTILAYER LAMINATING STRUCTURE - Google Patents

Abstract

The utility model relates to printing and can be used for laminating valuable printing products in order to protect them from unauthorized opening and tampering. The proposed technical solution allows you to create a multilayer structure with high wear resistance of the embossed layer with a protective diffraction element, as well as the ability to easily separate this layer from the polymer base film. The laminating structure is a combination of a paper-polymer structure (block 2) and a polymer holographic structure (block 1) separated by a release layer 3. Block 1 includes a layer 4 of abrasion resistant UV varnish, a relief layer 5 with a hologram, and a layer 7 adhesive thermally activated glue. In this case, the hot melt adhesive layer 7 is applied only to that part of the embossed side of the block 1, which is intended for lamination. Part 8 of the embossed side of block 1 is left free of hot glue. The multilayer block 2 comprises a paper layer 9 coated with a silicone layer 10 and a polymer film layer 11 interconnected by a layer of hot-melt adhesive. Due to the presence of a hot-melt adhesive part 8 of the multilayer structure, as well as the fact that the paper-polymer base 2 has a significantly greater thickness than the thickness of block 1 with a hologram, there is an easy separation of the holographic laminate (block 1) and the paper-polymer base 2 according to release layer 3. As a result, on the protected object 13 there remains a multilayer polymer structure (block 1) with a protective hologram and abrasion resistant layer 4 on top of it.

Description

The utility model relates to printing and can be used for laminating securities and documents, as well as plastic cards to protect against unauthorized opening and counterfeiting.

Widely known methods of protecting documents and other objects from unauthorized opening, use or copying using various high-tech security elements, including embossed holographic or other diffractive structures. In the case of using such protection for objects with alphanumeric information printed on them, it is necessary that the entire protective structure (or part of it) be transparent enough so that the specified protected information can be seen through it. It is necessary to ensure the possibility of easy separation of the polymer layers with a protective structure from the base.

As an example, we can cite US patent No. 8562025, where a multilayer structure is proposed, including a base film, on one side of which a separation layer (release layer) is applied sequentially, a relief-receiving layer with a diffraction element formed on it, for example, a hologram, and a layer glue for fixing on the protected object. The structure contains an adhesive-free end of the polymer base film, which makes it easy to separate it from the hologram glued to the protected object.

The disadvantage of the described technical solution is that the external surface of the hologram is a relief layer, the wear resistance of which is quite small, therefore, this solution is not suitable for documents of long-term use, for example, passports.

The prototype of the utility model selected technical solution proposed in patent EP No. 2435255. A multilayer laminating structure is described herein, including a polymer base film, on one side of which a separating layer is applied sequentially, a relief layer with a hologram protective diffraction element coated with an abrasion resistant polymer layer, and an adhesive layer for fixing the structure to the protected object. This makes it possible to use such a structure for laminating valuable durable printing products. However, the release polymer layer-based base film has a small thickness, which makes it difficult to separate it from the hologram glued to the protected object and can lead to a violation of the integrity of the latter.

The proposed utility model solves the problem of creating a multilayer structure, possessing not only high wear resistance of the relief-receiving layer containing the protective diffraction element, but also the ability to easily separate this layer from the polymer base film.

The specified technical result is achieved in that a multilayer structure for laminating, including a base film, on one side of which a separation layer is sequentially applied, a relief-receiving layer with a protective diffractive element coated with a polymer layer, resistant to abrasion, and an adhesive layer for fixing the structure to the protected object, additionally contains a layer of siliconized paper, which is placed on top of the base film and connected with it, and a layer of glue is applied to the surface of the relief layer with a protective layer fractional element so that a portion of said surface left free of adhesive.

The applicant is not aware of any technical solutions having the same set of features as the claimed one. This allows us to conclude that the proposed utility model satisfies the condition of "novelty."

Due to the implementation of the distinctive features of the claimed technical solution in conjunction with the features common to the prototype, the claimed object has a new property — a paper-polymer structure formed in the object, as well as the presence of adhesive-free areas on the surface of the relief diffraction element, which allow easy separation of the glued to the protected object of a thin polymer layer with a protective element and a paper-polymer base for the release layer.

The essence of the claimed technical solution is illustrated by drawings, where in FIG. 1 shows the proposed multilayer structure and its position relative to the protected object, and in FIG. 2 shows a sectional view of a protected object, for example, a document page with a hologram located on it as a protective diffraction element.

The proposed structure consists of two main multilayer blocks 1 and 2, interconnected by a separation layer 3. Block 1 includes a layer 4 of abrasion-resistant UV varnish, a relief layer 5 with a hologram, on which a partially reflective coating 6 and a layer 7 of adhesive thermally activated adhesive are applied . In this case, the hot melt adhesive layer 7 is applied only to that part of the surface of the embossed side of the multilayer block 1, which is intended for lamination. Part 8 of the indicated surface of the embossed side of block 1 is left free of hot glue. The multilayer block 2 is a paper-polymer structure. It includes a paper layer 9 coated with a silicone layer 10 (total thickness 120 microns) and a polymer film layer 11 interconnected by a hot melt adhesive layer 12. The polymer film may be made of lavsan, polypropylene, polyethylene, acrylonitrile, polycarbonate and other similar polymers. In this particular example, it is a transparent lavsan film 20 microns thick.

On the laminating object 13, a protected area 14 is marked on which alphanumeric information 15 is located.

Thus, in this example, the claimed object is a polymer-paper structure in the form of a label, on the one hand of which a layer of silicone is applied on its entire surface, and on the other - a layer of hot-melt adhesive, applied so that one or more adhesive-free plots.

The proposed device operates as follows.

The label is applied to the protected object 13 in such a way that the area covered by hot-melt adhesive coincides with the protected area 14, on which the alphanumeric information 15 is located (see Fig. 1). When heated, the part of the laminate to which the hot-melt adhesive was applied is glued. Due to the presence of a hot-melt adhesive part 8 of the multilayer structure, as well as the fact that the paper-polymer base 2 has a significantly greater thickness than the thickness of block 1 with a hologram, there is an easy separation of the holographic laminate (block 1) and the paper-polymer base 2 according to release layer 3. As a result of separation of the paper-film base 2 on the protected object 13, a multilayer polymer structure 1 remains with a protective hologram and an abrasion resistant layer 4 on top of it (see Fig. 2). The thickness of the glued holographic laminate is from 10 to 15 microns. This, combined with a thin layer of abrasion-resistant UV varnish, enhances the protective properties of the proposed structure (such a structure is very difficult to separate from the protected object without violating its integrity).

Thus, the proposed multilayer structure for lamination in comparison with the prototype provides not only high resistance of the holographic laminate to abrasion, but also the ability to easily separate it with a paper-polymer base.

The possibility of implementing the inventive utility model using well-known technical means and technologies, according to the applicant, indicates the compliance of the claimed object with the condition of "industrial applicability".

Claims (1)

A multilayer structure for laminating, including a base film, on one side of which a separation layer is sequentially applied, a relief layer with a protective diffraction element coated with a polymer layer, resistant to abrasion, and an adhesive layer for fixing the structure to the protected object, characterized in that the structure additionally contains a layer of siliconized paper, which is placed on top of the base film and connected with it, and an adhesive layer is deposited on the surface of the relief-receiving layer with a protective diffractive element m so that part of the specified surface is left free of glue.

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