RU2365609C1 - Method of identification device manufacturing - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to methods of manufacturing identification devices, intended for inclusion in substances and composition or for application on surfaces of objects, subjected to authenticity diagnostics. In method preliminarily given identification image is applied on one side of polymeric film; prepared is glue composition, in which one or several inorganic compounds, non-transparent in visible range of irradiation and intended each for following reliable recognition of identification image on polymeric film, are uniformly distributed; prepared glue composition is applied polymeric film side, on which before this identification image was applied; applied glue composition is hardened; identification devices are cut from polymeric film with applied and hardened glue composition.

EFFECT: ensuring reliability of identification information recognition with simplification of manufacturing.

12 cl, 2 dwg

Description

This invention relates to methods for manufacturing identification devices and can be used to manufacture identification devices that can be incorporated into substances and compositions or deposited on the surface of objects to be diagnosed with authenticity.

State of the art

Various methods are currently known for manufacturing an identification device suitable for placement on or in objects to be diagnosed with authenticity.

For example, in the application of Great Britain No. 2289150 (publ. 08/08/1995) and in the patent of the Russian Federation No. 2222829 (publ. January 27, 2004) it is disclosed that the surface of the object is deposited or placed in the object itself of a marking agent in the form of microparticles, and the presence of these particles is perceived by appropriate equipment . The complexity of this equipment is a significant drawback in the use of these identifiers.

In the patent of the Russian Federation No. 2260846 (published on April 20, 2005), a method is described in which a polymer is applied to objects containing a plurality of microdots that specify a unique identification number that is invisible to the eye but visible under ultraviolet radiation. A similar method of manufacturing such an identifier is disclosed in the Eurasian patent No. 008781 (publ. 31.08.2007). Any of these two objects can be selected as the closest analogue of the claimed method of manufacturing a device for identification. Both of these analogs provide a sufficient level of reliability in determining the authenticity of the object on which they are applied.

However, any of these analogues is not free from disadvantages, the main of which is as follows. Verification of the identification number is usually carried out by removing one of the many media with the identification number from the object and placing it under the microscope. In this case, the medium must certainly be placed on a special opaque substrate, otherwise it is extremely difficult to recognize the identification number printed on this transparent medium.

Therefore, there is a need to provide such a method of manufacturing such devices so that subsequently it is possible to provide reliable recognition of the identification information deposited on them without using any additional substrates.

SUMMARY OF THE INVENTION

To achieve the above goal and to obtain a technical result in the form of reliable recognition of identification information, a method for manufacturing an identification device is proposed that is intended to be placed on the surface or inside an object to be diagnosed with authenticity, namely that a predetermined identification is applied to one side of the polymer film image, prepare an adhesive composition in which one or more inorganically distributed uniformly compounds that are opaque in the visible range of radiation and each intended for subsequent reliable recognition of the identification image on the polymer film, apply the prepared adhesive composition to the side of the polymer film, on which the identification image is applied, the applied adhesive composition is cured, cut out of the polymer film with the applied and cured adhesive composition of an identification device.

A feature of this invention is that in the preparation of the adhesive composition one or more inorganic phosphors are uniformly distributed in it, each intended to provide additional diagnostics of authenticity and detection of the carrier of identification information on or in the object to be diagnosed with authenticity.

In this case, the identification image may be a fragment of a predetermined text, which can be repeatedly repeated in the identification image with a predetermined offset of the beginning of this fragment of text from line to line.

The identification image may be applied by any method selected from the group consisting of photo printing, laser printing, microprinting, or the holographic method.

Another feature of this invention is that the adhesive composition can be prepared on the basis of organic substances with a high level of adhesion to the material of said polymeric identification information carrier. Such a base can be, for example, acrylic varnish with ultraviolet or thermal curing.

Another feature of this invention is that at least one of the inorganic fillers can be selected from the group consisting of barium sulfate, lead sulfate, zinc sulfate, titanium dioxide, or a combination thereof.

Another feature of this invention is that each of the inorganic phosphors can be selected from the group consisting of compounds containing rare earth metals, or combinations thereof.

Another feature of this invention is that the polymeric carrier of identification information can be made as a microcarrier in the form of a polygonal or rounded element with an area of not more than 10 mm ² , and preferably not more than 1 mm ² .

Finally, another feature of the present invention is that the shape of the polygonal element can be selected from the group consisting of a triangle, square, rectangle, rhombus, trapezoid, hexagon, octagon.

Brief Description of the Drawings

The claimed invention is illustrated by drawings.

1 is a sectional view of an identification device of the present invention.

Figure 2 shows a possible embodiment of an identification information carrier when viewed from the side of the identification image.

Detailed Description of Embodiments

The claimed method of manufacturing a device for identification can be implemented as follows.

1 is a cross-sectional view of an identification device of the present invention. This device is a polymer identification information carrier 1, on one side of which a predetermined identification image is placed, then coated with a film 3 of the adhesive composition. In this case, a polyethylene terephthalate (PET) film was used as a polymeric carrier. In this case, the identification image is applied to the photosensitive gelatin layer 2 using a ShTS-600 silk-screen machine and then cured using ultraviolet radiation. However, this specific information is provided only to confirm the feasibility of the claimed device, and not to limit the scope of the invention.

Figure 2 shows one possible embodiment of the identification device of figure 1. As can be seen from figure 2, the identification device is a hexagon, on one side of which an identification image is applied. This identification image in this particular case consists of fragments of text repeated many times on the surface of the medium, and in each line of text these repeated fragments begin with their predetermined offset from the beginning of the line. In the text shown in figure 2, this offset in each line is the same, so that the same fragments of the printed text are arranged in the form of oblique stripes. However, this arrangement is not required. The predefined offset in each line can be, for example, arbitrary, and then the image of the text on the medium will be chaotic.

In the general case, the identification image can be applied to the surface of the medium not only in the form of text, but also in the form of repeatedly repeated graphic elements: stars, flowers, etc. Or, this identification image on each medium may be part of a larger image. In any case, it is important that the corresponding identification image 2 is printed on the carrier 1 on one side thereof.

The polymer identification information carrier is a polygonal or rounded element cut from a polymer film, which, as already noted, can be used polyethylene terephthalate (PET). The polygonal element mentioned may have any number of angles, i.e. it can be a triangle, square, rectangle, rhombus, trapezoid, hexagon (as shown in FIG. 2), an octagon, while, say, a triangle or hexagon can have unequal sides. A rounded element can be a circle, an oval, an ellipse. The area of the polygonal or rounded element, as a rule, does not exceed 10 mm ² , and in a preferred embodiment is not more than 1 mm.

The above-mentioned identification image may be applied to this base film in any known manner: by means of photo printing, laser printing, micro-printing or topographic method. The specific method of application is determined by the material of the base film (item 1 in figure 1). Identification information is applied to the base film before it is cut into separate media (microcarriers). In the embodiment shown in FIG. 2, the identification image in the form of text fragments repeating with a shift in each line is shown in “mirror” form, since in FIG. 2 the polymer carrier 1 is shown on the back side with the identification image 2 applied.

The side of the polymer carrier on which the identification image is applied is then coated with a film 3 of the adhesive composition, in which one or more inorganic compounds are opaque, opaque in the visible range of radiation and each intended for reliable recognition of the identification image. The implementation of such recognition is explained below.

The adhesive composition may have as its basis an organic substance with a high level of adhesion to the material of the polymer carrier of identification information. This can be, for example, acrylic varnish with ultraviolet or thermal curing. Any compound from the above-mentioned compounds that are opaque in the visible range for this adhesive composition can be selected from the group consisting of barium sulfate, lead sulfate, zinc sulfate, titanium dioxide, as well as a combination of these compounds.

In the film 3 of the adhesive composition, one or more inorganic phosphors are uniformly distributed, each intended to provide additional diagnostics of authenticity and to facilitate the detection of the polymer carrier 1 of identification information on or in the object to be diagnosed with authenticity. Any of these inorganic phosphors is selected from the group consisting of compounds containing rare earth metals. This may be, for example, compounds indicated in the aforementioned Eurasian patent No. 008781, or any other known phosphors or phosphors that will appear in the future, as well as combinations thereof.

It is clear that cutting the base film into microcarriers (cutting microcarriers, including using a perforated press) is already done after applying the identification image and coating it with a film with an adhesive base, in which the mentioned opaque compounds and phosphors are added.

The finished microcarrier can be placed on the surface of the object to be diagnosed with authenticity, for example, on the surface of the body or engine of a car, plane, other device, or it can be introduced into an object such as explosive, ammunition, etc. The presence of phosphors makes it possible to detect the identification device of the present invention by lighting it with an appropriate radiation source. For example, for phosphors in which the Stokes law is observed, irradiation can be carried out by a source of ultraviolet radiation so that the luminescence of the excited phosphor is visible to a person. On the contrary, for anti-Stokes phosphors, it is necessary to irradiate carriers, as a rule, with infrared radiation so that the luminescence appears in the visible range.

Of course, with accurate knowledge of the location of the devices of the present invention applied to the object, the above-mentioned radiation sources may not be used.

After the discovery of such devices (media) on or in the object, one of the carriers can be removed from the object and placed under the microscope with the adhesive layer down. However, in this case, the presence in the adhesive layer of compounds that are opaque in the visible optical range makes it possible to dispense with the removal of the device manufactured by the claimed method from the object and read with a microscope in reflected white light, i.e. the presence of such an adhesive base allows recognition of the identification image directly at the place of application of the device of the present invention using appropriate equipment. Thus, the presence of an adhesive composition with opaque compounds distributed in it ensures the achievement of the claimed technical result in the form of increasing the reliability of recognition without removing the device from its placement.

The exemplary embodiment presented in this description serves a purely illustrative purpose and in no way limits the scope of the present invention, which is determined by the appended claims taking into account equivalents.

Claims (12)

1. A method of manufacturing a device for identification, designed to be placed on the surface or inside the object to be diagnosed with authenticity, namely, that:
applying a predetermined identification image to one side of the polymer film;
preparing an adhesive composition in which one or more inorganic compounds are opaque, opaque in the visible range of radiation and each intended for subsequent reliable recognition of the identification image on said polymer film;
applying the prepared adhesive composition to the side of the polymer film, on which the above-mentioned identification image is applied;
curing the applied adhesive composition;
said identification devices are cut out from the polymer film with the applied and cured adhesive composition. 2. The method according to claim 1, characterized in that when preparing said adhesive composition, one or more inorganic phosphors are uniformly distributed in it, each intended to provide additional diagnostics of authenticity and detection of said carrier of identification information on or in said object to be diagnosed with authenticity. 3. The method according to claim 1 or 2, characterized in that the said identification image is a fragment of a predetermined text. 4. The method according to claim 3, characterized in that the said text fragment is repeatedly repeated in the identification image with a predetermined offset of the beginning of this text fragment from line to line. 5. The method according to claim 3, characterized in that said identification image is applied by a method selected from the group consisting of photo printing, laser printing, micro-printing or a holographic method. 6. The method according to claim 1 or 2, characterized in that the said adhesive composition is prepared on the basis of organic matter with a high level of adhesion to the material of the said polymeric identification information carrier. 7. The method according to claim 6, characterized in that the aforementioned basis of the adhesive composition is an acrylic varnish with ultraviolet or thermal curing. 8. The method according to claim 1 or 2, characterized in that the said inorganic non-transparent in the visible range compound is selected from the group consisting of: barium sulfate, lead sulfate, zinc sulfate, titanium dioxide or a combination thereof. 9. The method according to claim 1 or 2, characterized in that each of said inorganic phosphors is selected from the group consisting of compounds containing rare earth metals, or combinations thereof. 10. The method according to claim 1 or 2, characterized in that the said polymer identification information carrier is a microcarrier in the form of a polygonal or rounded element with an area of not more than 10 mm ² . 11. The method according to claim 10, characterized in that the said polygonal or rounded element has an area of not more than 1 mm ² . 12. The method according to claim 10, characterized in that the shape of said polygonal element is selected from the group consisting of a triangle, square, rectangle, rhombus, trapezoid, hexagon, octagon.

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