EA008115B1 - Multi-layer material for manufacturing self-adhesive protective tags (embodiment) and method therefor - Google Patents

Abstract

The invention relates to materials for manufacturing protection tags used for certifying authenticity of documents, securities, packings etc, articles, in particular, to a multi-layer material, on the basis of which self-adhesive protective tags are manufactured, sensible to external responses and comprising hidden polarization displays and visible , including holographic displays. The invention is aimed at developing a multi-layer material for manufacturing self-adhesive protective tags, sensible to responses and not yielded to direct copying, and methods for manufacturing thereof. The invention describes a multi-layer material for manufacturing self-adhesive protective tags comprising successively applied a carrier layer from a biaxially-oriented polypropylene or polyvinylchloride with applied an adhesive layer on its inner side in the form of the given image, isotropic transparent heat-resistant polymer layer with at least 30% of crystallinity level, in which the hidden display is focused visualized in polarization light, an adhesive or glue film, a reflecting layer, a light-reflecting paint is used as the reflecting layer, a polygraphic foil or holographic foil comprising a hologram, a glue layer and a paper layer with anti-adhesive coating. In the inventive embodiment a visible image in the form, for example, a trade mark, logotype, manufacturer's description or good's description is applied on the outer side of the carrier layer by a polygraphic method. The inventive method for manufacturing multi-layer material comprises successively applied a carrier layer from a biaxially-oriented polypropylene or polyvinylchloride with applied an adhesive layer on its inner side in the form of the given image, isotropic transparent heat-resistant polymer layer with at least 30% of crystallinity level, in which the hidden display is focused visualized in polarization light, an adhesive or glue film, a reflecting layer, a light-reflecting paint is used as the reflecting layer, a polygraphic foil or holographic foil comprising a hologram, and a paper layer with an anti-adhesive coating and, if necessary, applying a visible image on the outer side of the carrier layer.

Description

The invention relates to materials for the manufacture of protective labels used to authenticate documents, securities, packaging, etc. objects, in particular, to a multilayer material, on the basis of which they produce sensitive self-adhesive protective labels, which contain hidden polarization images and visible, including holographic images.

At present, in order to prevent counterfeiting of manufactured products, they are supplied with various kinds of protective marks that are difficult to reproduce and are sensitive to effects. For the manufacture of sensitive labels, easily destructible materials based on synthetic paper made of polyvinyl chloride, polystyrene, etc. are used. with low tensile strength. Known multi-layer laminates containing a holographic image, which are irreversibly destroyed when trying to impact (UK patent 2211760, 1989).

Closest to the claimed material (prototype) is easily destructible self-adhesive material (US patent 4746556, 1988), which is used for the manufacture of seals, labels, etc.

The material consists of a carrier layer, which is a film of synthetic rubber or polyethylene, an anti-adhesive layer formed on the lower side of the specified film, a breakable layer formed by applying a layer of aluminum or silver on the adhesive layer, a second anti-adhesive layer applied on the layer to be destroyed, a coating layer, applied to the second release layer adhesive layer, pressure-sensitive, which is applied to the coating layer.

The manufacture of the described material includes the steps of applying an anti-adhesive layer on the carrier film on an offset machine and then drying, then applying a breakable layer in a vacuum deposition apparatus in the case of metal deposition, or on an offset machine in the case of using synthetic rubber with metallic powder or luminescent paints. The second anti-adhesive layer is applied over the layer to be destroyed on the offset machine. The coating layer is applied to the apparatus for lamination by rolling the coating layer on the second anti-adhesive layer. The adhesive layer is applied on the machine for lamination with release paper rolling.

Protective tags are made of the specified material by cutting on the finishing machine, followed by application to the protected product by application.

When exposed to a protective label formed using the described material, the layer to be destroyed is easily destructed, since its strength is significantly lower than the strength of the surface and coating layers. In this regard, the labels of the specified material can not be reused. However, it is possible to fake such marks by direct copying.

The present invention is to develop a multi-layered material for the manufacture of self-adhesive protective labels that are sensitive to the effects and are not amenable to direct copying, as well as in the method of its manufacture.

The problem is solved by the claimed material options, which is a multilayer film containing a latent image, visualized in polarized light, and a visible, including holographic, image, on the basis of which self-adhesive sensitive to the effects of protective labels are made, providing multi-level protection of the product that cannot be directly copying and not allowing reuse.

In accordance with the invention, the following material options are described.

According to the first embodiment of the invention, the multilayer material for the manufacture of self-adhesive protective labels consists of a successively connected base layer of biaxially oriented polypropylene or polyvinyl chloride with an adhesive layer deposited on its inner side in the form of a given pattern, an isotropic transparent heat-resistant polymer layer having a degree of crystallinity of at least 30%, which formed a latent image, visualized in polarized light, adhesive or adhesive layer, reflecting layer, which is used as a reflective paint, foil printing or foil topographic containing a hologram of the adhesive layer and a release coated paper layer.

As a second variant of the claimed material, a multilayer material is proposed for the manufacture of self-adhesive protective labels consisting of a series-connected base layer of biaxially oriented polypropylene or polyvinyl chloride coated with an adhesive layer on its inner side in the form of a given pattern, and on its outer side with a visible image, isotropic transparent heat-resistant polymer layer having a degree of crystallinity of at least 30%, in which the latent image is formed, the visual ziruemoe polarized light, the adhesive or adhesive layer, a reflective layer, which is used as a reflective paint, printing foil or a holographic foil having the hologram, an adhesive layer and a release coated paper layer.

The thickness of the carrier layer is 30-50 microns, preferably 40-50 microns. The adhesive layer is made in the form of a pattern applied with varnish, and has a thickness of 0.5-1.0 microns.

An isotropic transparent heat-resistant polymer layer having a degree of crystallinity not

- 1 008115 less than 30%, in which a latent image, visualized in polarized light, is formed, made on the basis of copolymers of the general formula:

[(SG ₂ -GG ₂ ) _n (CH ₂ -SG ₂ ) _t ] p, where t = 5-40, n = 95-60, p ~ 800-1000.

The thickness of the specified polymer layer is 2-4 mm.

The latent image in the information layer is formed using an IR laser.

The reflective layer of metallized paint is attached with an adhesive layer, and the reflective layer of printing foil or holographic foil - using a heat-activated glue or adhesive with residual stickiness.

For the adhesive layer using pressure sensitive glue. The thickness of the adhesive layer is 8-10 microns.

In the embodiment of the inventive multilayer material on a carrier layer of biaxially oriented polypropylene or polyvinyl chloride, partially covered with an adhesive layer in the form of a given pattern, a visible image is additionally printed on the outside by the printing method. The visible image is a specific pattern in the form of, for example, a trademark, logo or the name of the manufacturer of the goods or the name of the marked goods. The applied visible image enhances the protective qualities of the tag and additionally performs an advertising function.

A protective label of a given configuration is cut down from the formed multilayer material. The resulting security label is applied to the protected product by application.

Sensitivity to the impact of the material obtained is achieved due to the fact that the strength of adhesion of the information layer to the base film in places where the adhesive layer is present is greater than the force required for the destruction of the information layer and, in the case of exposure to the material deposited on the substrate, the base film separates and the information film layer. These irreversible changes when exposed are easily detected visually due to the violation of the information layer, the absence of a visible image, as well as with the help of a latent image visualizer, since removing the base film changes the color of the latent image.

Another object of the invention is a method of manufacturing a multilayer material, which is used for the manufacture of self-adhesive protective labels that are sensitive to effects that are not directly copyable and do not allow the reuse of labels.

The inventive method of manufacturing a multilayer material is applied to the carrier layer of biaxially oriented polypropylene or polyvinyl chloride adhesion layer of a given pattern, drawing from the side of the adhesive layer of an isotropic transparent heat-resistant polymer layer having a degree of crystallinity of at least 30%, forming in the specified layer of the hidden image, visualized a layer of the latent image, visualized in a layer of a latent image, rendered in a pattern. light, sequential application of the adhesive or adhesive layer and the reflective layer, which is used as comfort reflective paint, printing foil or a holographic foil having the hologram, and then attaching by adhesive release coated paper layer, followed by, if necessary, by applying to the outer side of the carrier layer is a visible image.

The formation of the latent image is carried out by local removal of the surface fragments of the polymer layer using an IR laser according to the method described in patent CB 23228180 1999.

The application of a reflective layer of reflective paint is carried out on the flexo section successively in two stages, including the application of varnish on the information layer and the application of metallic paint on the varnish.

The application of a reflective layer of printing foil or holographic foil for hot stamping is carried out on an adhesive machine with a laminator section by rolling the foil to the polymer layer using adhesive with residual adhesiveness or hot melt adhesive.

The application of the adhesive layer is carried out on an adhesive machine by applying an emulsion of adhesive on siliconized paper, followed by rolling the adhesive layer and siliconized paper to a carrier film with informational and reflective layers from the side of the reflective layer on the laminator section of the adhesive machine.

Applying a visible image on the resulting multilayer material is produced on the flexo-section from the side of the base film with subsequent cutting down of protective marks.

The manufacture of protective labels from the thus obtained multilayer self-adhesive material is carried out on the finishing machine with the cutting in the register, or on the cutting section of the flex machine after applying the visible image.

The following examples illustrate the invention without limiting its scope.

Example 1. The manufacture of material containing the hidden and visible images.

- 2 008115

I. The application of the adhesive layer on the carrier film base is carried out on a glue machine company KK RGS! Soa! 1p51gishsp15 with installed flexosection. The drying temperature in the chambers is 40, 60, 80 ° C, the application rate is 10-15 m / min. An adhesive layer of 0.8-1.0 microns is obtained. A polypropylene biaxially oriented film with a thickness of 35 μm is used as a film for the carrier layer. The adhesive layer is formed from varnish 8BT-00134. Viscosity is 28-30 s. Anilox roller with a specific pattern is used.

Ii. The application of the information polymer layer from the side of the adhesive layer is carried out on the glue machine using the doctor section. Drying temperature is 40, 60, 90 ° C. Squeegee shaft number 50. The deposition rate is 10-12 m / min. Get the thickness of the information layer 2-3 microns. Thickness measurements carried out on a micrometer. The information layer is applied from a solution of a polymer of the formula [(CP ₂ -CP ₂ ) _p (CH ₂ -CP ₂ ) _t ] p, where t-25, p-75, p = 800-1000. The solvent used is a mixture of acetone, butyl acetate and ethyl acetate composition (3: 3: 2.5). The viscosity of the polymer solution is 200-210 s.

Iii. The formation in the information layer of the latent image is carried out using an IR laser according to the method described in UK patent 2328180, 08/14/1997.

Iv. The application of the adhesive layer is carried out from the side of the information layer using a continuous anilox roller according to the procedure described in the paragraph of this example.

V. A continuous reflective layer is formed using metallized paints of the brand Sotchchagor co ΡΜ8877Ό, ΡΜ8873Ό, which are applied to the surface of the polymer layer coated with varnish 8BE-00134. The thickness of the paint layer should provide a high hiding power.

Vi. The application of the adhesive layer is carried out on the adhesive machine using the doctor section. Drying temperature 80 ° C. Squeegee number 12. Use water emulsion 8shso1, which is applied on siliconized paper, followed by rolling to the polypropylene carrier film with layers applied from the side of the reflective layer on the laminator section of the glue machine. The thickness of the adhesive layer is 7-10 microns. The thickness of siliconized paper - 90-100 microns.

VII. The visible image is applied to the obtained multilayer material from the side of the film on flexo-section using flexographic dye on polypropylene film.

Example 2. The manufacture of multilayer material containing hidden and visible images, using printing foil.

The steps are carried out as described in Example 1. The carrier base film is a biaxially oriented polypropylene film 40 microns thick. The adhesive and information layers, as well as the latent image form in example 1.

The formation of the reflective layer is carried out on a glue machine using printing foil brand OP. For the formation of a reflective layer on the polypropylene carrier film base with the applied adhesive and information layers from the side of the information layer using a doctor section of the glue machine, glue of the brand Ochso1 E518 is applied. Squeegee number 12, the drying temperature is 40, 60, 80 ° C. Then, on the laminator section of the glue machine, a printed foil is rolled onto the material obtained from the side of the applied glue, followed by separation of the flash. The temperature of the laminator is 80-90 ° C, the speed of stitching -10-15 m / min.

The application of the adhesive layer is carried out from the side of the applied reflective layer according to the item V! of example 1. The visible image is formed according to the om of example 1.

Example 3. The manufacture of material containing hidden and visible topographic images, using topographic foil.

The stages of the EHU are carried out according to Example 1. The carrier film base is a polypropylene biaxially oriented film with a thickness of 50 μm. The adhesive and information layer, as well as the latent image is formed in example 1. The reflective layer containing the holographic image is applied as in example 2, using a holographic foil with a holographic image instead of a printing foil.

The adhesive layer is applied similarly to the p. U! example 1 from the side of the layer containing the holographic image. Get self-adhesive material containing the hidden and visible holographic images.

The obtained multilayer self-adhesive materials can be used for the manufacture of sensitive protective labels with multi-level protection, containing hidden and visible holographic images that are not amenable to copying.

Claims (10)

CLAIM 1. A multilayer material for the manufacture of self-adhesive protective labels, consisting of a series-connected carrier layer of biaxially oriented polypropylene or polyvinyl chloride with an adhesive layer deposited on its inner side in the form of a predetermined pattern, an isotropic transparent heat-resistant polymer layer having a crystallinity of at least 30%, in which a latent image is formed, visualized in polarized light, of an adhesive or adhesive layer, a reflective layer, which is used as dissolved reflective coloring - 3 008115 ku, a printing foil or a holographic foil containing a hologram, an adhesive layer, a layer of paper with a release coating. 2. A multilayer material for the manufacture of self-adhesive protective labels, consisting of a serially connected carrier layer of biaxially oriented polypropylene or polyvinyl chloride with an adhesive layer deposited on its inner side in the form of a predetermined pattern, and on its outer side with a visible image, of an isotropic transparent heat-resistant polymer layer having degree of crystallinity of at least 30%, in which a latent image is formed, visualized in polarized light, of an adhesive or adhesive layer Reflecting layer, which is used as a reflective paint, printing foil or a holographic foil having the hologram, an adhesive layer, a paper layer with a release coating. 3. The multilayer material according to claim 1 or 2, characterized in that the thickness of the carrier layer is 30-50 microns, preferably 40-50 microns. 4. The multilayer material according to claim 1 or 2, characterized in that the adhesive layer is made in the form of a pattern applied by varnish and has a thickness of 0.5-1 microns. 5. The multilayer material according to claim 1 or 2, characterized in that the isotropic transparent heat-resistant polymer layer having a crystallinity of at least 30%, in which a latent image is visualized in polarized light, is made on the basis of copolymers of the general formula: [(SG _{2 —} SG ₂ ) _p (CH _{2 —} SG ₂ ) _m ] _p , where m = 5-40, n = 95-60, p ~ 800-1000. 6. The multilayer material according to claim 5, characterized in that the thickness of the polymer layer is 24 mm 7. The multilayer material according to claim 1 or 2, characterized in that the reflective layer of metallized ink is attached using an adhesive layer, and the reflective layer of printing foil or holographic foil is attached using thermally activated glue or adhesive with residual stickiness. 8. The multilayer material according to claim 1 or 2, characterized in that the thickness of the adhesive layer is 8-10 microns. 9. A method of manufacturing a multilayer material according to claims 1 and 2, which consists in applying to a carrier layer of biaxially oriented polypropylene or polyvinyl chloride an adhesive layer of a predetermined pattern, followed by applying an isotropic transparent heat-resistant polymer layer having a crystallinity of at least 30%, forming in the specified layer of a latent image visualized in polarized light, sequentially applying an adhesive or adhesive layer and a reflective layer, as using reflective paint, printing foil or a holographic foil having the hologram, and then attaching by adhesive paper layer with a release coating and optionally applying to the outer side of the carrier layer is a visible image. 10. The method according to claim 9, characterized in that the formation of a latent image is carried out by local removal of surface fragments of the polymer layer using an IR laser.