EA029156B1 - Method of manufacture of an optical polarized transparent security element and structure of the element manufactured by this method - Google Patents

Abstract

The invention is related to the field of securities and documents protection against forgery and to the field of their authenticity checking. A method of manufacture of an optical polarized transparent security element comprising application of a layer of transparent polymer composition to a substrate surface; structuring of at least one zone of the transparent polymer composition layer to provide optical anisotropy in at least one zone of the transparent polymer composition layer; preparation of a thermally activated, transparent adhesive composition having a refraction index equal to at least two units by introducing inorganic compounds having a refraction index of at least two units into the base of the transparent adhesive composition; application of the thermally activated, transparent adhesive composition containing inorganic compounds having a refraction index of at least two units to the transparent polymer composition. Further, the transparent polymer composition intended for application to the substrate may comprise polycarbonate, polystyrene, fluorine varnish, polyimide, polyvinyl alcohol, nitrocellulose, etc., and structuring of at least one zone of the transparent polymer composition layer is performed either by a mechanical method, or by a thermomechanical impact, or using a thermoprinter head, or by treatment with a heavy ion beam, or by laser beam treatment. Inorganic compounds having a refraction index of at least two units include titanium dioxide, zinc sulphide, tin (IV) oxide, etc., and films of polypropylene or polyethylene terephthalate are used as the substrate. As the base in the thermally activated, transparent adhesive composition, Thermodex is used. Also claimed is an optical polarized transparent security element manufactured by the method according to claims 1-6, comprising a substrate coated with a layer of transparent polymer composition structurized in at least one zone, and a layer of thermally activated, transparent adhesive composition containing a mixture of the base with inorganic compounds having a refraction index of at least two units that is applied to the layer of the transparent polymer composition.

Description

The invention relates to the field of protection of securities and documents from forgery, as well as to the field of verification of their authenticity. A method of manufacturing an optical polarization transparent protective element, comprising applying a layer of transparent polymer composition to the surface of the substrate; structuring at least one portion of the layer of the transparent polymer composition to provide optical anisotropy in at least one portion of the layer of the transparent polymer composition; preparing a thermally activated transparent adhesive composition with a refractive index of at least two units by introducing into the base a transparent adhesive composition of inorganic compounds whose refractive index is at least two units; application to the transparent polymer composition of a heat-activated transparent adhesive composition containing inorganic compounds with a refractive index of at least two units. In addition, polycarbonate, polystyrene, fluoro lac, polyimide, polyvinyl alcohol, nitrocellulose, etc. are used as a transparent polymer composition to be deposited on a substrate, and structuring a layer of a transparent polymer composition in at least one of its sections is carried out or mechanically in the way, or thermomechanical influence, or a thermal printer head, or processing by a beam of heavy ions, or processing by a laser beam. Moreover, inorganic compounds with a refractive index equal to at least two units include titanium dioxide, zinc sulfide, tin oxide (IV), etc., and films made of polypropylene or polyethylene terephthalate are used as a substrate. As a basis in thermo-activated transparent adhesive composition, Tiegshöyeh is used. Also stated is an optical polarization transparent protective element made according to the method according to claims 1-6, comprising a substrate coated with a layer of transparent polymer composition, at least in one part of which structuring is performed, and a layer of thermoactivable transparent adhesive composition is applied to the layer of transparent polymer composition, containing a mixture of bases with inorganic compounds, the refractive index of which is equal to at least two units.

029156

The present invention relates to the field of protection of securities and documents from forgery, as well as to the field of verification of their authenticity. In particular, for the manufacture and manufacture of optical security elements that carry a latent image that is invisible in natural light with the naked eye.

Currently, for protection against forgery and as marks (tags) identifying the authenticity of documents, securities, etc. use various means of printing protection watermarks, microtext, guilloche, etc., using magnetic, holographic, optical and other methods.

Among the protective elements with variable optical properties, the most difficult to reproduce are elements that contain latent images that are visible only in polarized light.

As a rule, hidden polarized images are obtained on the surface or in the volume of the polymer layer of the carrier of the latent image as a result of the formation of optical anisotropy in the local region of the above-mentioned polymer layer, namely changes in the birefringence value.

A local change in the birefringence can be achieved either by changing the magnitude and / or direction of the optical anisotropy of the transparent material in certain sections of it, or by changing the thickness of the transparent anisotropic material in certain areas of the layer.

These effects are achieved by mechanical, or chemical, or photophysical, or thermomechanical effects. In all these cases, the latent polarized image is formed in a previously prepared in a special way polymer layer, or on the surface of a solid substrate.

Known methods of making a latent image and a security element based on it assume the presence of a solid, usually polymer layer, carrying a hidden polarized image, on the reverse side of which adhesive is applied, after which the cutting is performed and the final product is obtained - self-adhesive labels and tags.

Labels and tags thus obtained are attached to the item to be protected, either manually or using an automatic applicator.

At the same time, in both cases, a sufficiently high rigidity of the layer carrying the latent image is necessary, which predetermines the possibility of reuse of the element.

A known method of manufacturing a latent image using local mechanical removal of solid anisotropic polymeric material from the surface of a rigid substrate [1].

However, the known method leads to the formation of a contrasting polarized image with the image outline clearly visible to the naked eye and does not guarantee protection against reuse.

The closest to the technical nature of the claimed as a method of manufacturing an optical protective element is an optical polarizing protective element and method of its manufacture [2].

The known method consists in applying a reflective layer to the substrate, imprinting the latent image, structuring the portion of the layer carrying the latent image to a predetermined depth with optical anisotropy in this structured portion of the layer, which causes the image to be invisible when observed with the naked eye and its clear contrast visibility when viewed in polarized light.

After that, a thin transparent protective layer is applied over the entire surface of the protective element. In this case, the refractive index of the protective layer essentially coincides with the refractive index of the portion of the layer carrying the latent image.

However, the known method has a significant disadvantage, namely, the reflective layer according to this invention is opaque to the electromagnetic rays of the visible range and when applying this protective element on the document from visual viewing hidden part of the document where the protective element, which reduces the protective function of the element, how this place cannot be located and, accordingly, protect the original signature, for example, the document holder or arrange the characters made with luminescent paints and that are visualized by the presence of, for example, ultraviolet radiation.

The objective of the method of manufacturing an optical polarizing transparent protective element proposed as inventions and the element design produced by this method is to eliminate the above disadvantage.

The problem is solved by the fact that in the present method of manufacturing an optical polarizing transparent protective element, the following steps are carried out:

put a layer of transparent polymer composition on the surface of the substrate; structure at least one portion of the layer of the transparent polymer composition to provide optical anisotropy in at least one portion of the layer of the transparent polymer composition; prepare heat activated transparent adhesive composition with a refractive index equal to at least

- 1 029156

at least two units, by introducing into the base a transparent adhesive composition of inorganic compounds whose refractive index is at least two units; A thermally activated transparent adhesive composition containing inorganic compounds with a refractive index of at least two units is applied to the transparent polymer composition.

In addition, in the claimed method, polycarbonate, polystyrene, fluoro lac, polyimide, polyvinyl alcohol, nitrocellulose, etc. are used as a transparent polymer composition to be deposited on a substrate, and structuring a layer of a transparent polymer composition in at least one of its parts , carried out either mechanically, or by thermomechanical treatment, or by a thermal printer head, or by processing a beam of heavy ions, or by processing a laser beam.

In addition, the method uses inorganic compounds with a refractive index equal to at least two units, which include titanium dioxide, zinc sulfide, tin (IV) oxide, etc., and films made of polypropylene or polyethylene terephthalate are used as a substrate; At the same time, ThermoTech is used as a thermoactivated transparent adhesive base.

The inventive method is as follows.

A substrate is made, which is made of polypropylene or polyethylene terephthalate with a thickness of 16-20 microns, and a layer of transparent polymer composition with a thickness of 1-3 microns is applied on one of its surfaces, which is based on optically transparent polymers from a series - polycarbonate, polystyrene, fluoride, polyimide. polyvinyl alcohol, nitrocellulose, etc.

The refractive index of these polymers is in the range of 1.5-1.6 units.

Then the layer of the transparent polymer composition is structured (processed), for example, mechanically, in at least one area, creating certain symbols.

Such structuring can be carried out not only mechanically (for example, by treatment with felt), but also by thermomechanical action with a needle-like plotter comb, or it can be treated with an ion beam or laser radiation.

Then proceed to the preparation of heat-activated transparent adhesive composition.

To this end, in the basis of the thermally activated glue, for example, a hardy, in an amount of 5-10% of its total mass, layered lamellar formations of high transparency, which are inorganic compounds with a refractive index equal to at least two units, namely: titanium dioxide, zinc sulfide, tin oxide (III). which, on thin plates of a transparent material of artificial or natural origin, for example, mica, which is part of a thermally activated transparent adhesive composition, form a layer 50–250 nm thick.

Direct transfer of these inorganic compounds to the polymer composition layer is possible.

The prepared thermo-activated transparent adhesive composition, including inorganic compounds with a refractive index of at least two units, is applied to the transparent polymer composition, creating a layer 4 ... 6 μm thick, which under normal conditions does not have adhesion.

The presented drawings (Figs. 1. and 2) not only explain the work of the method for producing a transparent protective element, which is declared as an invention, but also serves to understand the construction and use of the protective element itself.

An example of a specific implementation method.

A transparent polymer composition is applied onto a substrate 1 made of polyethylene terephthalate with a thickness of 16 μm, a layer 2 made of polycarbonate 2 μm thick forms isotropic areas 3 and anisatropic, structured areas 4. Then proceed to the preparation of a heat-activated transparent adhesive composition, layer 5 .

To do this, 7% by weight of the base, high transparency laminated lamellar formations, brand 103. China, are added to the base of the thermally activated transparent adhesive composition of the Tearbone Ε \ ν 143 κΚίη, and a suitable mixture of the base with layered lamellar formations is prepared, which is applied in a thickness of 5 μm, on the transparent polymer composition layer 2 and dried. After that, strips are cut into widths, for example, 8 mm, which are then applied onto paper by the roll-to-roll method on the machine, for example, ΌΚΕΝΤ OOEV under the following conditions: the temperature of the shaft cliché is 140 ° C, and the transfer rate is 40 m / min

Thus, an optical polarizing transparent protective element is obtained, the construction of which is explained by the positions indicated in FIG. one.

An optical polarization transparent protective element declared as an invention consists of a substrate covered with a layer of transparent polymer composition, at least in one section of which structuring is performed, and a layer of thermo-activated transparent adhesive composition containing a mixture of a base with inorganic compounds is applied to the layer of transparent polymer composition refraction which is equal to at least two units.

Solve the problem related to the visibility of symbols, signatures, etc., which are under the fabrication of 2 029156

By the above described method, an optical polarizing transparent protective element allows the design of the protective element claimed as an invention. In addition, it allows you to visualize hidden images contained in this security element.

FIG. 1 shows the design of an optical polarization transparent protective element, manufactured by the present method according to claims 1-6 of the claims;

in fig. 2 is a diagram associated with the use of an optical polarizing transparent security element to protect a document or security against reuse or forgery.

The design of the optical polarizing transparent security element of the invention shown in FIG. 1 includes a substrate 1, a layer 2 of a transparent polymer composition comprising optically isotropic sections 3 and structured (optically anisotropic) sections 4 made in the form of certain symbols, as well as a thermally activated transparent adhesive composition, layer 5 containing inorganic compounds with a refractive index equal to at least two units.

This is actually the optical transparent protective element.

The optical polarized transparent protective element claimed as an invention is used as follows (FIG. 2).

Using a metal cliche 7 heated to a temperature of 90-140 ° C, through the substrate 1, a layer 2 of a transparent polymer composition comprising optically isotropic sections 3 and structured (optically anisotropic) sections 4, made in the form of certain symbols, are transferred and fixed on document 6 s using a layer 5 of a heat-activated transparent adhesive composition containing inorganic compounds with a refractive index of at least two units.

In the specified temperature range, the adhesive composition (layer 5) acquires adhesive properties and fixes layer 2 on document 6. After which the substrate 1 is removed.

Without a polaroid in normal light, the symbols placed on the optically anisotropic regions 4 are not visible, since the human eye does not distinguish the polarization of light. A transparent security element allows you to see the part of the document or security paper 6 that is under the security element.

In the presence of a circular polaroid (not shown in the figures), the unpolarized light from the source passes the circular polaroid and receives circular polarization.

Optically isotropic areas 3 do not change the circular polarization of light and the light reaches a thermally activated transparent adhesive composition containing inorganic compounds with a refractive index of at least two units.

Optically anisotropic (structured) areas 4 due to birefringence change the circular polarization of light to elliptical and elliptically polarized light also reaches a thermally activated transparent adhesive composition containing inorganic compounds with a refractive index equal to at least two units.

If the thermally activated transparent adhesive composition did not include inorganic compounds with a refractive index of at least two units, then the polymer base of the thermally activated transparent adhesive composition would have a refractive index of 1.5-1.6 units, i.e. it would not differ from the refractive index of layer 2 of the transparent polymer composition.

In this case, according to the Fresnel formulas, the intensity of the reflected wave for parallel and perpendicular polarizations is minimal and insufficient for rendering latent images contained in layer 2.

As practice shows, to ensure a clear contrast of visual perception of latent images visualized using a circular polaroid contained in sections 4 (anisotropic), it is necessary that the reflection coefficient from u) = 1.5 and layer 5 is thermo-activated transparent The adhesive composition was at a perpendicular incidence of the light beam of at least 2%.

This is possible if the difference in the refractive indices of layers 2 and 5 is at least 0.5 units, i.e. layer 5 must have at least n ₂ = 2.0. Then, according to the Fresnel formula, when the beam is perpendicular to the interface between two media (layers 2 and 5, figs. 1, 2), the reflection coefficient K is equal to

(n ₂ -sch) - '(n ₂ + pts-'

0,53,5-’

_; = 0.0204 = 2%

The addition to the thermally activated transparent adhesive composition of inorganic compounds with a refractive index of at least two units, brings the reflection coefficient from the interface between layers 2 and 5 to the desired value. The change in the phase of the reflected wave is also important, and it changes by 180 ° for both polarizations as the angle of incidence increases above the Brewster angle.

If the above conditions are observed, we return to the analysis of the behavior of polarized light upon reflection from the interface between two dielectrics — a transparent polymer composition, i.e. layer 2 with optically isotropic regions 3 and optically anisotropic regions 4 (the exponent is 3 029156

breaking (ηι = 1.5) and heat-activated transparent adhesive composition, i.e. layer 5 (n ₂ = 2.0), containing inorganic compounds with a refractive index equal to at least two units.

Elliptically polarized light, obtained after passing through the anisotropic sections 4, is reflected from the boundary of layers 2 and 5 with sufficient intensity and leaves the polaroid, i.e. these areas where symbols are placed will be light.

Light with circular polarization, characteristic of isotropic sections 3, also reflects from the boundary of layers 2 and 5, but due to a 180 ° phase change, another direction of rotation of the electric intensity vector is obtained, which leads to the linear polarization after the passage of a quarter-wave plate of circular polaroid light does not coincide with the polaroid transmission plane.

Therefore, the isotropic regions 3, i.e. background are dark. Thus, hidden images (symbols) placed only on sections 4 are visualized by contrast.

Those. the problem is solved.

In this way, an optical polarizing transparent security element is obtained.

The technical solutions claimed as inventions relating to the method of manufacturing a polarizing transparent protective element and to the design of the element made by the claimed method are technically feasible and have a high technical level.

Sources of fame.

1. US patent No. 5284364.

2. EA patent No. 011838, IPC C09P 3/02, C02B 1/08 (prototype).

Claims (7)

CLAIM 1. A method of manufacturing an optical polarizing transparent protective element, including: a) applying a layer of transparent polymer composition to the surface of the substrate; b) structuring at least one portion of the layer of the transparent polymer composition to provide optical anisotropy in at least one portion of the layer of the transparent polymer composition; c) the preparation of a heat-activated transparent adhesive composition with a refractive index of at least two units by introducing into the base a transparent adhesive composition of inorganic compounds whose refractive index is at least two units; ) applying to the transparent polymer composition a thermo-activated transparent adhesive composition containing inorganic compounds with a refractive index of at least two units. 2. The method according to claim 1, in which polycarbonate, polystyrene, fluoro-lac, polyimide, polyvinyl alcohol, nitrocellulose, etc. are used as the transparent polymer composition to be deposited on the substrate. 3. The method according to claims 1, 2, in which the structuring of a layer of a transparent polymer composition in at least one of its sections is carried out either mechanically, or by thermo-mechanical action, or by a thermal printer head, or by processing a heavy ion beam, or by laser beam treatment. 4. The method according to claim 1, in which inorganic compounds with a refractive index equal to at least two units, include one of the group containing titanium dioxide, zinc sulfide and tin oxide (IV). 5. The method according to claim 1, in which films made of polypropylene or polyethylene terephthalate are used as a substrate. 6. The method according to claim 1, in which Tyettobeh is used as the basis in the heat-activated transparent adhesive composition. 7. Optical polarization transparent protective element made according to the method according to claims 1-6, comprising a substrate coated with a layer of transparent polymer composition, at least in one section of which a structuring was performed, and a layer of thermoactivated transparent adhesive composition was applied to the layer of transparent polymer composition, containing a mixture of bases with inorganic compounds, the refractive index of which is equal to at least two units. - 4 029156