RU87658U1 - PROTECTIVE LABEL (OPTIONS) - Google Patents

Abstract

1. A security label in the form of a multilayer film comprising a first polymer layer containing a latent polarization image, realized due to varying degrees of anisotropy of individual sections of this polymer layer and visualized using a polaroid, a second polymer layer with a reflective coating containing a latent image read by a laser, which is formed in the form of a flat optical element that provides a given directivity of scattering of laser radiation, and connecting these polymer layers of optical Eski transparent adhesive layer applied to the side of the reflective coating of said second polymeric layer. ! 2. The security label according to claim 1, characterized in that it is additionally equipped with a thermally activated adhesive layer or adhesive with residual adhesiveness for applying a security label to the surface of the product or media, for example paper, plastic. ! 3. The security label according to claim 1, characterized in that it is part of a document, label, security, control mark, ticket, packaging. ! 4. A security label (option) in the form of a multilayer film comprising a first polymer layer containing a latent polarization image, realized due to varying degrees of anisotropy of individual sections of this polymer layer and visualized using a polaroid, a second polymer layer with a reflective coating containing a latent image, readable by a laser, which is formed in the form of a flat optical element providing a given direction of dispersion of laser radiation, connecting these polymer layers optically transparent adhesive layer containing anti-stokes lumin

Description

The inventive utility model relates to devices used to authenticate products, in particular, security labels containing hidden images, and can be used to produce security labels applied to documents, securities, labels, excise stamps, etc.

Known security tags containing hidden images that are read using a laser (CLR image) (A.V. Goncharsky, A. A. Goncharsky, Computer Optics. Computer holography. - M., Moscow State University Publishing House, 2004) . The authors describe security labels in which these latent images are combined with holograms, and the presence of latent images allows expert instrument control of the authenticity of the mark, since it is difficult to visually verify the authenticity of the mark by the hologram, especially for the average consumer.

Protective labels containing latent polarization images are known (US Pat. No. 6,124,970, 2000, UK Patent 2,328,180, 1999). Protective labels are also described in which a latent polarization image realized due to a different degree of anisotropy of the polymer layers is combined with a hologram (Eurasian patent 004750, 2003, patent of the Republic of Belarus for utility model 1869, 2004). The authenticity of these protective labels, and, accordingly, of the products that are marked with them, is controlled using a visualizer, the main element of which is a circular polaroid. The role of the hologram as a security element in these security labels is limited, since the accuracy of visualization of the latent polarization image combined with the hologram depends on their location relative to each other. In addition, the high diffraction efficiency of the hologram prevents the visualization of latent polarization images.

The objective of this utility model is a security tag with a high level of protection against counterfeiting by imitation and copying, which provides an affordable and reliable way to control the authenticity of products marked with this tag.

The problem is solved by a security tag containing several security elements with a hidden image, the integrated use of which guarantees an increased level of protection against counterfeiting and simple, reliable control of the authenticity of products marked with the specified tag.

According to the claimed utility model, the protective label is a multilayer film comprising a first polymer layer containing a latent polarization image, realized due to varying degrees of anisotropy of individual sections of this polymer layer, and visualized using a polaroid, a second polymer layer with a reflective coating containing a latent image readable by a laser, which is formed in the form of a planar optical element providing a given direction of dispersion of laser radiation Ia, and joining said polymeric layer is optically transparent adhesive layer applied to the side of the reflective coating of said second polymeric layer.

According to a variant of the claimed utility model, the protective label is a multilayer film comprising a first polymer layer containing a latent polarization image, realized due to varying degrees of anisotropy of individual sections of this polymer layer, and visualized using a polaroid, a second polymer layer with a reflective coating containing a hidden image read by a laser, which is formed in the form of a flat optical element, providing a given direction of dispersion of the laser of radiation, and connecting said layers of optically transparent polymeric adhesive layer comprising the anti-Stokes fluorescent compound and applied by the reflecting coating of the second polymer layer.

In a preferred embodiment of the utility model, the multilayer film is additionally provided with a thermally activated adhesive layer or adhesive with residual stickiness for applying a protective mark on the surface of the product or carriers, for example, paper, plastic.

In accordance with the claimed utility model, the security label is part of a document, label, security, control mark, ticket, packaging, etc.

Latent polarization images in the polymer layer are produced in various ways, in particular by photochemical method, laser ablation, thermomechanical method, as described, for example, in US patent 6124970, 2000, UK patent 3238180, 1999, application WO 2006/005149 A2 . As polymers can be used polystyrene, cellulose ethers, copolymers of tetrafluoroethylene, polyethylene, polypropylene, copolymers of ethylene and vinyl acetate, epoxy resins and others.

The thickness of the polymer layer with a hidden polarizing image is 4-20 microns.

A polymer layer containing latent images read by a laser is formed by hot stamping using a hot stamping foil or a metallic lacquer stamping layer on a polyethylene terephthalate substrate (PET substrate). Embossing dies are made using electroforming. The original microrelief is formed using electron beam lithography.

To connect the polymer layers, an optically transparent adhesive is used, which is applied to the metallized polymer layer from the side of the sprayed metal. The thickness of the adhesive layer is 1-3 microns.

In the case of the manufacture of a security mark, in which the latent images read by the laser are obtained on the basis of a foil for hot stamping with metal spraying, polymer layers are used containing latent polarization images formed by laser ablation or photochemical method. These polymer layers are bonded with adhesive with residual stickiness, after which the PET foil substrate for hot stamping is removed and a layer of glue is applied for attaching to the protected product. For the manufacture of a security label in which latent images read by a laser are obtained on a polymer metallized varnish layer on a PET substrate, polymer layers containing latent polarization images formed by photochemical or thermomechanical methods can be used. These layers are connected using adhesive with residual stickiness, which may additionally contain anti-stokes compound. Then remove the PET substrate of the polymer layer containing latent polarization images.

Protective tags are formed either directly on the protected product or on a self-adhesive basis. For the hot or cold method of attaching tags to the marked product, a corresponding adhesive is applied from the side of the reflective layer. If necessary, a mark of the desired shape is made using a punching machine.

In the claimed variants of the security label, latent images formed in different polymer layers, fragments of which can be interconnected informationally or logically, are comprehensively used as security elements.

Operational control of the authenticity of the claimed security tags is carried out by a visualizer of latent polarization images, the main element of which is a circular polaroid. The security tag may be further provided with the indicated visualizer.

Expert monitoring is carried out using a hidden laser-readable image detector model CLR 02/06. The presence of anti-Stokes luminescent compound in the label is controlled using a special device containing a source of infrared radiation, for example, Regula 1013.

Figure 1 schematically shows a protective label.

Figure 2 schematically shows a variant of the security label,

According to figure 1, the claimed security label in its preferred embodiment is a multilayer film, which includes a polymer layer 1 with a hidden polarizing image and a polymer layer 2 made on the basis of a foil for hot stamping with metal spraying, containing latent images read by a laser. Layers 1 and 2 are connected by an adhesive layer with residual stickiness 3.

According to figure 2, the claimed variant of the security label in its preferred embodiment is a multilayer film that includes a polymer layer 1 with a hidden polarized image and a polymer layer 2 with a laser-readable hidden image made on a metallized polymer layer deposited on a PET substrate. The layers are connected by an adhesive layer 4 with a residual stickiness containing an anti-Stokes luminescent compound.

The following examples illustrate the claimed utility model, but do not limit it.

Example 1. Security label.

The polymer layer 2, containing the laser-readable latent images, is produced by hot stamping on a holographic foil of the EB-19-G-005M grade using a Dinuken HS-4 apparatus. The original stamp for stamping is made by electroforming using a relief image obtained by electron beam lithography on a ZBA installation using original software.

A polymer layer 1 containing latent polarization images is obtained using a 20 μm thick cellophane film impregnated with a solution of copper chloride (P). The image is formed by the photochemical method by irradiating the resulting film with UV light through a template.

Polymer layers containing latent images are bonded using an adhesive layer 3 with a residual stickiness Dexcole 541, which is applied to the holographic foil from the metal spraying side using a wire squeegee. After drying the adhesive layer, the holographic foil is rolled onto a cellophane film on a laminator at a temperature of 60-80 ° C. After rolling, the flake is removed from the topographic foil. Protective tags of the desired shape are cut down with a stamp. To fix the label to the product, depending on the conditions of planting, use heat-activated adhesive or adhesive with residual stickiness. The adhesive can be applied both to the protective label and to the marked product. The resulting security label contains a latent polarization image defined by the visualizer of latent polarization images and a latent image read by a laser.

Example 2. Protective label containing anti-Stokes compound (option).

The polymer layer 2 containing latent images read by a laser is made by hot stamping a metallized polymer layer deposited on a PET substrate with a thickness of 40 μm. A stamping stamp is made as described in example 1.

The polymer layer 1, containing latent polarization images, is made from a polymer solution by pouring onto a substrate, drying the polymer layer and then thermomechanically acting on the resulting layer. To do this, prepare a solution of polystyrene in ethyl acetate, which is then applied to a PET substrate with a thickness of 20 μm using a wire squeegee. The solvent is removed by blowing with a stream of air heated to a temperature of 80-100 ° C for 1-2 minutes. Get a uniform isotropic polystyrene layer with a thickness of 5-7 microns on a PET substrate. The image in the obtained polymer layer is formed using a plotter with a working element heated to 100 ° C, as a result of contact with the surface of the layer.

Polymer layers containing latent images are bonded using an adhesive layer 4 with a residual tack of Dexcole-541, to which an anti-stokes fluorescent compound of brand F (a) SD-546-2 is added in an amount of 1.5% by weight of the dry residue of the adhesive. The glue with anti-Stokes fluorescent additive is applied to the polystyrene layer on a PET substrate and dried at a temperature of 60-80 ° C. The specified layer is combined with a polymer layer containing latent images read by a laser using a laminator heated to 80 ° C. After rolling the layers, remove the PET substrate from the polystyrene layer. Protective marks of the required shape are cut down with a stamp. To fix the tag to the product, depending on the conditions of planting, use adhesive with residual stickiness or heat-activated adhesive. The glue is applied to a protective mark or to a marked product. The resulting label contains a latent polarization image and a latent image read by the laser, in addition, the label contains an anti-Stokes fluorescent compound, which can be detected as a green glow when irradiated with an IR laser.

Claims (6)

1. A security label in the form of a multilayer film comprising a first polymer layer containing a latent polarization image, realized due to varying degrees of anisotropy of individual sections of this polymer layer and visualized using a polaroid, a second polymer layer with a reflective coating containing a latent image read by a laser, which is formed in the form of a flat optical element that provides a given directivity of scattering of laser radiation, and connecting these polymer layers of optical Eski transparent adhesive layer applied to the side of the reflective coating of said second polymeric layer. 2. The security label according to claim 1, characterized in that it is additionally equipped with a thermally activated adhesive layer or adhesive with residual adhesiveness for applying a security label to the surface of the product or media, for example paper, plastic. 3. The security label according to claim 1, characterized in that it is part of a document, label, security, control mark, ticket, packaging. 4. A security label (option) in the form of a multilayer film comprising a first polymer layer containing a latent polarization image, realized due to varying degrees of anisotropy of individual sections of this polymer layer and visualized using a polaroid, a second polymer layer with a reflective coating containing a latent image, readable by a laser, which is formed in the form of a flat optical element providing a given direction of dispersion of laser radiation, connecting these polymer layers and an optically transparent adhesive layer containing anti-stokes luminescent compounds and deposited from the side of the reflective coating of the second polymer layer. 5. The security label according to claim 4, characterized in that it is additionally equipped with a thermally activated adhesive layer or adhesive with residual adhesiveness for applying a security label to the surface of the product or media, for example paper, plastic. 6. The security label according to claim 4, characterized in that it is part of a document, label, security, control mark, ticket, packaging.