RU2572368C1 - Identification mark - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to methods for optical marking of articles with the subsequent identification of the mark in order to protect from forgery, and can be used for the copy-protection of bank documents, particularly credit cards and identification documents, in computer engineering for the protection of databases from unauthorised access, for the certification of artwork in order to prevent forgery, for the counterfeit protection of goods made of a wide variety of materials and for protecting paper documents from forgery. The identification mark comprises a set of randomly distributed particles which are attached to an article in the form of a plate which is moulded from a powder material with a refraction index greater than that of quartz.

EFFECT: high reliability of integrity during use.

4 cl, 3 dwg

Description

The invention relates to methods for optical marking of products with subsequent identification of the brand in order to protect against counterfeiting. The invention can be used in various fields of economic activity, for example, to protect against copying bank documents (plastic cards) and identification cards, in computer technology to protect against unauthorized access to databases, to certify works of art in order to prevent the appearance of falsified copies, for protection against falsification of goods made from a wide variety of materials, for the protection of paper documents from fakes.

An identification mark in the form of an embossed hologram is known (WO 9808691 [1]). The product identification process is reduced to lighting the brand, its visual inspection and identification based on the similarity of the observed image to the images on the marks of similar products of the same manufacturer or by instrumental decoding of the image restored by the hologram. In the case of a professional examination, hidden micro-inscriptions or conventional signs on a holographic mark are additionally identified by instrumental methods.

The disadvantage of marking products with embossed holograms is their insufficient degree of protection against counterfeiting, since embossed holograms can be reproduced and replicated using available and widely used technologies. In addition, the personification of a specific product sample, including an optical mark in the form of an embossed hologram, is impossible without the use of additional marking tools.

Known information identification tag, which is attached to the surface of the object by means of a transparent adhesive layer containing bacteriorhodopsin strain ET1001 (RU 2329155 [2]), for example, in the form of a hologram, company label or similar sticker with an optical effect. In this case, the information identification tag is made transparent, and the corresponding surface area of the protected object is made transparent or with a mirror-reflective coating. As the adhesive for the adhesive mass of the adhesive layer, any water-soluble adhesives can be used, for example, organic ones, such as casein, dextrin, gum arabic, polyvinyl alcohol based adhesives, silicate adhesives, as well as other adhesives that do not contain solvents or additives harmful to bacteriorhodopsin (for example using limiting hydrocarbons as solvents: hexane, heptane, etc.), in which bacteriorhodopsin fully retains all its photochromic properties, significantly changing the transmittance MDL layer in the absorption band at the visible light illumination.

A disadvantage of the known label is the complexity of its identification. For its implementation, the transparent portion of the protected object with an adhesive layer containing bacteriorhodopsin and a transparent information identifying label illuminate completely through the light source in the absorption band of the main BR570 state of bacteriorhodopsin. The light energy stream passing through the adhesive layer is fed to a photodetector, the signal from which is amplified and recorded by the recorder as a reference. Then, two light sources are illuminated simultaneously: the light source will be illuminated with additional illumination by the light source in the absorption band of the intermediate M412 state of bacteriorhodopsin. The signal from the photodetector is recorded by the recorder and the obtained value is compared with the reference value previously registered.

Closest to the claimed in its technical essence is the identification mark for authentication of securities described in JP 2007283741 [3]. A mark is a set of randomly distributed particles of metal, or glass, or sand, placed (deposited) on a selected area of a security. Accordingly, either the light reflected from them or transmitted will ensure the formation of a spatially modulated distribution of the radiation intensity of the working spectral range and the reading of information about the reflection of radiation or its passage, allows you to record a unique code inherent in this brand.

A disadvantage of the known identification mark is its low strength, which leads to the loss of some of the particles included in it, and this in turn leads to a change in the reflection or transmission pattern and leads to an erroneous conclusion about a fake security, although it actually remains genuine.

The inventive identification mark is aimed at ensuring its safety during operation.

This result is achieved by the fact that the identification mark contains a set of particles distributed randomly and fixed on the product in the form of a plate compressed from a material powder with a refractive index higher than that of quartz.

The indicated result is also achieved by the fact that the plate is coated on all sides with an optically transparent sealant.

The indicated result is also achieved by the fact that on the outer surface of the plate pressed from the powder a coating is applied that is transparent to the working spectral range used for identification.

The indicated result is also achieved by the fact that a coating transparent to the working spectral range used for identification is made of leucosapphire.

The formation of an optical brand, characterized by the presence of heterogeneities with a random spatial distribution and shape, allows you to create a brand with a unique, irreproducible combination of identifiable features, which eliminates the possibility of falsification. The performance of the brand by powder pressing provides reliable fixation of the particles included in it.

The implementation of the brand of particles with a refractive index higher than or equal to the refractive index of quartz is advisable for the following reason. The refractive index of the air gap between the particles of the pressed material is close to 1. Increasing the refractive index of the particles increases the coefficient of reflection of light from their surface, which increases their brilliance and optical contrast.

After pressing, it is advisable to fill the mark with an optically transparent sealant to protect against moisture penetration, which changes the optical characteristics of the gap between the pressed particles. In addition, the presence of sealant becomes an additional factor preventing the loss of individual particles from the body of the brand.

In addition, it is advisable after installing the brand on the product on its outer surface to install a transparent coating for the working spectral range to protect against mechanical stress. This will also increase its safety during operation.

The most optimal coating, transparent for the working spectral range used for identification, is made from leucosapphire. Firstly, leucosapphire has a wide transmission spectrum of optical radiation, and secondly, it is second only to diamond in strength. This will also increase its safety during operation.

The essence of the claimed identification mark is illustrated by examples of implementation and graphic materials. In FIG. 1 is a cross-sectional view of an article with an identification mark in the form of a plate attached to the article. In FIG. 2 is a cross-sectional view of an article with an identification mark in the form of a plate attached to the article, coated on all sides with an optically transparent sealant. In FIG. 3 is a cross-sectional view of an article with an identification mark in the form of a plate attached to the article, coated on all sides with an optically transparent sealant and coated on the outer surface, transparent for the operating spectral range used for identification.

Example 1. In the most general case (see Fig. 1), the identification mark 1 contains a set of randomly distributed particles fixed on the product 2, while the set of particles is made in the form of a plate pressed from a material powder with a refractive index higher than that of quartz . Oxides of metals and semiconductors can be used as such a material. The identification mark is used as follows. It is fixed by any of the known methods (glued, pressed in) on the product (banknote, plastic bank card). To identify the authenticity of the product, it is inserted into the appropriate identification device, providing a fixed position of the mark relative to the illuminator and the recording sensor. The mark is illuminated by optical radiation, the reflection from the mark is recorded and compared with the reference stored in the database

Example 2. In the particular case of implementation (see Fig. 2), the identification mark 1 contains a set of randomly distributed particles fixed to the product 2, while the set of particles is made in the form of a plate pressed from a powder of material with a refractive index higher than that of quartz . Before installing the brand on the product, it is coated on all sides with an optically transparent sealant 3. The identification mark is used in the same way as described in example 1.

Example 3. In the particular case of implementation (see Fig. 3), the identification mark 1 contains a set of randomly distributed particles fixed to the product 2, while the set of particles is made in the form of a plate pressed from a powder of material with a refractive index higher than that of quartz . Before installing the brand on the product, it is coated on all sides with an optically transparent sealant 3, and after installation, a coating 4 is applied that is transparent to the working spectral range used for identification. For example, it could be a leucosapphire plate. The identification mark is used in the same way as described in example 1.

Claims (4)

1. Identification stamp containing a set of randomly distributed particles fixed on the product, characterized in that the set of particles is made in the form of a plate, compressed from a powder of material with a refractive index higher than that of quartz. 2. The identification mark according to claim 1, characterized in that the plate is coated on all sides with an optically transparent sealant. 3. The identification mark according to claim 1, characterized in that on the outer surface of the plate pressed from the powder a coating is applied that is transparent to the working spectral range used for identification. 4. The identification mark according to claim 3, characterized in that the coating transparent to the working spectral range used for identification is made of leucosapphire.

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