RU2509652C1 - Security element for valuable document composed of sandwiched polymer structure with magnetic ply and article with security element - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: set of inventions relates to security elements designed to protect documents, securities, polygraphic products etc, against counterfeit. Security element comprises outer transparent polymer base with transparent lacquer ply secured thereto and provided with micro relief with thin layers of reflecting and magnetic materials applied thereto. External transparent laminar ply is bonded to said layers with the help of adhesion layer. Depth of micro relief makes 0.01 mcm to 0.5 mcm. Micro relief represents a system of alternating magnetic strips. Security element cam additionally comprises transparent protective breakable ply. Sais security element can comprise two or more plies of magnetic material. Note here that latent info in every magnetic ply differs from latent info in other magnetic layers.

EFFECT: security element resistant to mechanical, chemical and thermal effects, reliable identification.

8 cl, 1 dwg

Description

The invention relates to paper technology, polymer structures, security elements used to protect against forgery of documents, securities, printing products and other products.

Protective elements in the form of thin-layer magnetic structures used for counterfeiting and counterfeiting are widely known (RU 2296678 C2, 04/10/2007). Known technical solutions for protective elements that allow both visual (RU 2299427 C2, 05.20.2007) and instrument control (RU 2326436 C1, 06/10/2008).

Closest to the proposed technical solution is the solution set forth in patent RU 2326436 C1, 06/10/2008, where it is proposed to use a security thread containing a thin magnetic layer in its structure. When registering and verifying the authenticity of the protective element, equipment is used to fix the magnetic fields of scattering from various sections of the protective thread. The disadvantage of this solution is the possibility of failures during registration due to uncontrolled movements of the banknote during its movement relative to the magnetic heads of the recording system.

The problem solved by the invention and the technical result is the creation of a protective element that is resistant to mechanical, chemical and temperature influences, as well as ensuring the stability of identification.

This is achieved by the fact that the security element for a valuable document in the form of a multilayer polymer structure with a magnetic layer containing hidden information recognized by electromagnetic devices is characterized in that it contains an external transparent polymer base with a transparent lacquer layer attached to it, on the surface of which a microrelief is made with applied thin layers of reflective and magnetic materials, to which an external transparent laminating layer is attached using an adhesive layer, the depth of the mic the relief is 0.01-0.5 microns.

Additionally, the result is achieved in that the microrelief is a periodic or quasiperiodic strip reliefs.

The security element for the valuable document may further comprise a transparent protective destructible layer located between the outer transparent polymer base and the lacquer layer.

The microrelief can be embossed, thin layers of reflective and magnetic materials can be deposited on the microrelief by vacuum deposition, a soft magnetic metal that serves as both a reflective and a magnetic layer can be contained as a reflective material.

The security element for a valuable document may contain two or more layers of magnetic material, wherein the hidden information contained in each magnetic layer is different from the hidden information contained in other magnetic layers.

The result is also provided by the product provided with a protective element made as described above.

The essence of the invention lies in the fact that the security element for a valuable document in the form of a multilayer polymer structure with a magnetic layer containing hidden information recognized by electromagnetic devices according to the invention contains an external transparent polymer base with a transparent lacquer layer attached to it, on the surface of which a microrelief is made with applied thin layers of reflective and magnetic materials, to which an external transparent laminating layer is attached using an adhesive layer, microrelief depth of 0.01 m - 0.5 m.

In particular, the microrelief may be a system of periodically arranged magnetic strips (gratings) with a spatial period from 0.1 μm to 100 μm. The protective element may further comprise a transparent protective destructible layer located between the outer transparent polymer base and the lacquer layer. The microrelief can be embossed, and thin layers of reflective and magnetic materials are applied to the microrelief by vacuum deposition.

In a particular case, the protective element as a reflective material may contain a layer of soft magnetic metal, which performs the function of both a reflective and a magnetic layer. The security element, in particular, may contain two or more layers of magnetic material, the hidden information contained in each magnetic layer being different from the hidden information contained in other magnetic layers.

The figure 1 shows a cross section of a protective element based on a periodic (trellised) relief.

In the claimed technical solution, it is proposed to change the magnetic characteristics of the magnetic layer by creating a micro- and nanoscale relief in the magnetic film. Depending on the configuration of the relief, the magnetic characteristics of the magnetic film change. Namely, local changes in planar magnetic anisotropy are formed. These changes are recorded by electromagnetic equipment analyzing the magnetization reversal fields of the magnetic film. Registration can be carried out remotely at distances of up to tens of centimeters. The equipment available today makes it possible to distinguish more than ten different configurations of the relief, which can record up to 2 ¹⁰ information states. The micro- and nanoreliefs created are difficult to reproduce, are not visually recognizable and are inside the protective elements. When trying to delaminate security elements to copy the structure of the relief, the magnetic layers are destroyed and copying is impossible.

During operation, the protective elements of the proposed type are resistant to mechanical, chemical and thermal influences, which ensures stability and reproducibility during operations to identify and recognize such protective elements.

The technology for the formation of the proposed reliefs is based on embossing processes and is suitable for mass production on equipment for the manufacture of rainbow (flat relief-phase) holograms and nanograms.

An example of the implementation of the proposed technical solution can serve as a protective element based on a thin layer flat relief phase-periodic or quasiperiodic strip relief structure (figure 1). On a thin transparent polyethylene terephthalate (PET) film 1, transparent polymer layers are formed. The transparent layer 2 serves to ensure the destruction of the protective element when trying to separate it from the protected product (in some cases, this layer may be absent). In a transparent polymer (lacquer) layer 3, a periodic or quasiperiodic relief is formed by embossing (hot stamping, pressing). To control the quasiperiodic relief, it is possible to visualize such reliefs by optical methods from the side of a PET film, for example, by observing a diffraction (holographic) pattern in reflected light due to spatially phase modulation of light passing through layer 3 and reflected at its boundaries. To increase the brightness, a thin reflective metal layer 4 with a high reflection coefficient is applied to the polymer layer 3 by vacuum spraying. It can be a layer of aluminum, silver or copper. Periodic structures are recorded in layers 1-2-3-4 by embossing. After recording images, the structure is duplicated (laminated) with a second PET film 5 or a paper base. Between layers 4 and 5 is located the adhesive layer 6 of the polymer interlayer adhesive composition. A magnetic relief layer is introduced into the structure by vacuum deposition onto layer 4 of a thin (10 nm - 100 nm) layer 7 of a soft magnetic material (for example, nickel or permalloy). It is also possible to use as a reflective layer 4 a layer of a magnetic metal, for example, nickel. In this case, the application of layer 7 is not required, layer 4 itself is magnetic. The periodic relief formed in the layer 3, while also forming in the magnetic layer 7 or, respectively, in the magnetic layer 4 for the latter option. The relief magnetic layer has a pronounced magnetic anisotropy, the orientation of which is determined by the orientation of the strokes of the periodic relief in the magnetic film. Using equipment for recording the values of the planar magnetic anisotropy constants in various directions in the plane of the magnetic film, we obtain a set of data characterizing a periodic magnetic relief. This set is a characteristic of the proposed security feature used for identification, recorded in the protective element of the periodic structure and, accordingly, protected with the help of the product.

Another example of the implementation of the proposed protective element involves the manufacture of a separate multilayer magnetic structure in the form of a thin layer structure based on a PET film with a magnetically soft layer deposited with planar anisotropy and periodic relief structures formed in it. The relief height of 0.01 μm is 0.5 μm, the period of 0.1 μm is 100 μm. The orientation of the strokes of the relief gratings can vary along the surface of the magnetic film. Such a magnetic film can be placed on the surface or inside the protected product, either by itself or in combination with other protective elements that do not contain magnetic inclusions. The security of the element from counterfeiting is increased.

Claims (8)

1. A security element for a valuable document in the form of a multilayer polymer structure with a magnetic layer containing hidden information recognized by electromagnetic devices, characterized in that it contains an external transparent polymer base with a transparent lacquer layer attached to it, on the surface of which a microrelief is made with thin layers applied reflective and magnetic materials to which an external transparent laminating layer is attached using an adhesive layer, the depth of the microrelief being 0.01-0.5 microns. 2. The security element for a valuable document according to claim 1, characterized in that the microrelief is a periodic or quasiperiodic strip reliefs. 3. The security element for a valuable document according to claim 1 or 2, characterized in that it further comprises a transparent protective destructible layer located between the outer transparent polymer base and the lacquer layer. 4. The security element for a valuable document according to claim 1 or 2, characterized in that the microrelief is made by embossing. 5. A security element for a valuable document according to claim 1 or 2, characterized in that thin layers of reflective and magnetic materials are applied to the microrelief by vacuum deposition. 6. A security element for a valuable document according to claim 1 or 2, characterized in that it comprises a soft magnetic metal as a reflective material, which performs the function of both a reflective and a magnetic layer. 7. The security element for a valuable document according to claim 1 or 2, characterized in that it contains two or more layers of magnetic material, and the hidden information contained in each magnetic layer is different from the hidden information contained in other magnetic layers. 8. The product is equipped with a protective element made in accordance with any one of claims 1 to 7.

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