RU2433919C2 - Unique material marking method and paint used for its implementation - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: material marking method consists in the fact that there made is paint consisting of binding agent and fine microparticles and/or microencapsulated microdrops having diameter of approximately 40 to 80 mcm. Then, the mark having surface area of about one square centimetre and containing serial registration number is printed on the product by using the above paint. The above mark is lit with the light and chaotic character of distribution, shape and sizes of fine microparticles and/or microencapsulated microdrops are fully flashed; due to which non-reproducible and distinctive background card for the introduced mark is created. And data reads composed of the above background card are subject to filtration by using stop-down lens serving for neutralisation and suppression of any possible reflection of distortion of and damage to patterns, and then the above data reads subject to filtration are identified by means of optic-digital video camera interrelated with software, and view finder. At that, video camera has the possibility of transmitting the data to registration database for further comparison and confirmation of authenticity of the product marked in such a manner.

EFFECT: marking method allows high degree of protection of the product against false fabrication and copying.

10 cl, 2 dwg, 1 ex

Description

The present invention relates to the field of means for identifying and combating counterfeits, and in a narrower sense, to a system for uniquely marking an article by applying an image that is unique and unreproducible. In accordance with this invention, this is possible provided that a new ink is used for marking, characterized in that it contains a binder, in which microparticles of various nature and / or microencapsulated coloring microdroplets are mixed, which, when printed, break down under pressure and create colored, fluorescent, phosphorescent and / or reflective spots or areas that are original, differ from each other in size and pattern and are randomly distributed over the printed area to form a background card, which is unique and unplayable due to the randomness of its composition.

BACKGROUND

Recently, due to the globalization of production and promotion of goods and due to the migration of people from one continent to another, there has been an exponential increase in fakes of both the products themselves and the most famous brands and trademarks, as well as personal identification documents. In response to this, a lot of new anti-counterfeiting systems and identification systems appear, such as, for example, magnetic marks, three-dimensional holograms, indelible paints, passports with built-in microchips, fingerprinting, scanning of the iris of the eyes, and also face biometry. These systems were implemented using innovative high-tech and integrated information processing and transmission tools, but were vulnerable due to their susceptibility to reproducibility, interceptability, or their composition, since they are usually produced on an industrial scale and belong to well-known and affordable technologies and can be copied in any case or identified using suitable equipment. In this regard, a simple and reliable method that can be applied at an industrial level is required, can provide a unique image (and therefore guarantee uniqueness), which can be easily applied to the product and easily identified by inspecting the product on which it can be applied .

OBJECT OF THE INVENTION

An object of the present invention is to provide a method for ensuring the uniqueness of any product by means of a distinguishable and irreproducible sign or marking for each individual fingerprint or input element. The indicated unique sign, which can be obtained at a low cost, must be able to function on each product on which it is applied, as a unique and identifying "fingerprint" (card or mark), which can be recognized even using a simple handheld computer at any time and in any place with the aim of checking ownership rights, which fully guarantees the authenticity of the product.

The objective of the invention is solved in that the indicated marking is carried out using paint, which includes finely divided particles and / or microencapsulated microdroplets of various nature, randomly dispersed in a suitable mainly binder. The specified paint is another object of the present invention.

In this way, a marking is obtained which is essentially unique in the sense that it is not possible to reproduce a “fingerprint” taken earlier and recorded because each finely divided microparticle and / or microencapsulated microdroplet that can be recognized is capable of imparting to each individual the printed image has a specific color and / or leave identifying spots that are original in terms of randomness and arbitrariness, both in terms of shape (size and pattern created on the edges), and in terms of distribution in a given space.

The unique marking representing the object of the present invention is the optimal solution to protect the product and the well-known trademark. This solution differs from conventional anti-counterfeiting methods in that it creates a unique and original character that cannot be reproduced and which, in the case of copying or imitation, is knowingly recognized as a fake.

The advantage of the proposed method for the unique marking, which is the object of the present invention, is not only that it is amazingly simple, cheap and applicable to any type of industrial production lines, but also that it can be recognized by the end user with suitable technical means for a wide variety of selling goods.

DESCRIPTION OF THE INVENTION

Further characteristics and advantages of the present invention will be apparent from the following detailed description with reference to the accompanying drawings, in which a preferred embodiment of the invention is shown and which do not limit its scope. In the drawings:

figure 1 schematically shows the operation of mixing ink for marking; but

figure 2 schematically shows the operation of printing and reading, as well as registration of signs printed on the product, which should be subjected to marking.

Figure 1 shows how, as a first step of a unique marking method applied in accordance with the present invention, a paint is made up of a suitable binder A, which is mixed with microencapsulated microdrops B and / or finely divided microparticles C, whose diameter is in range from 40 microns to 80 microns. During mixing, finely divided microparticles and / or microencapsulated microdroplets are randomly distributed in the main binder, thus creating a difference in background or background map D for each square centimeter, as shown in FIG. 2.

In the next step of the unique marking method in accordance with the present invention, a mark of approximately one square centimeter is printed on this product using a specific ink, which also includes a serial number, which will then be illuminated (figure 2) by natural light or by a beam or E beam of converging beams of white light, ultraviolet radiation, cold light, invisible or black radiation, gray radiation, anti-radiance, laser radiation, zodiac light, monochromatic radiation and polychromatic radiation, namely, radiation of different types superimposed on each other, and, through a number of suitable filters, made to illuminate the background map of the entered character. Illumination of the printed sign fully reveals the randomness of the distribution, as well as the shape and size of finely divided microparticles and / or microencapsulated microdrops, thus creating each time a unique and differentiated background map. Unique readable and registration data that can be obtained from the background map is represented by setting the color, size and location of several finely divided particles and / or microencapsulated microdrops within the entered character.

In particular cases, the background map can be obtained from the format, two-dimensionality, size, pattern, color spectrum, reflectivity, transparency, color dispersion, macro photography, numerical data, density, brightness and all those combinations that can specify unique data and which can be recognized by reading devices or optional lenses or filters.

The above read data is first filtered through a dark lens in order to neutralize and suppress any possible reflectance resulting from distortion or pattern disruption, and then it can be recognized by the optical digital camera F (FIG. 2), which is connected to the software and the viewfinder , which is configured to transmit the specified data to the database G database (figure 2) for subsequent comparison and authentication of the previously marked product.

Using the same process as described above, it is possible to remotely identify using the specially designed portable device the same data obtained earlier and compare them in real time in order to confirm the authenticity of their correspondence to the original matrix, called from the registration database due to alphanumeric coding.

In practice, in any case, there are possible variants of some features of the implementation of the proposed method, using well-known techniques, in order to better adapt it to a specific printing method, different materials and / or products (fabric, paper, metal wood, glass, various plastics), which should be stamped and / or the type of equipment by which the unique marking must be affixed and recognized.

For example, in the case of holographic markings that can be applied to paper documents, paint is made as the first step, for which a transparent phenolic-based binder and a 50-micron-thick polyester sheet are used, which can be stained with stains of a phosphorescent pigment that responds to light recognition, such as, for example, phosphorite, and then finely ground by known methods. Grinding leads to uneven destruction of the polyester film, resulting in the formation of microscopic particles with a diameter of approximately 80 μm, which are partially stained and are irregular both in terms of volume and in terms of the external perimeter, so that all particles become distinctive and unique.

At this stage, the process includes the input, recognition and registration of unique data on the product being marked. Finely ground microparticles are applied to the specified product by mixing with a basic transparent binder suitable for printing, which provides increased durability, as well as quick drying and the possibility of subsequent application of an image with a small sign in combination with an serial number. Then the sign is exposed to a flash of cold white light, which completely illuminates the geometric background of the bright map due to the reflective reflection of finely divided microparticles partially covered with specks of fluorine, and the random distribution of these particles. This background card is immediately recognized by the optical camera, which converts it into digital data and transfers them to the registration database for future comparison for uniqueness. If necessary, in the future to verify the authenticity of the product, on which the uniqueness mark is applied by the proposed method, a portable optical-digital reader can be used, which is capable of recognizing such background data and with the possibility of comparing these data with previously registered ones.

In this case, for example, when using offset or flexographic printing on paper or other media, as a first step, ink is made with a transparent or colored main binder of various origins in accordance with the printing characteristics, into which microencapsulated colored microdrops are mixed, to which, if possible finely ground microparticles of graphite from natural coal should be added. By pressing the paint-distributing rolls, the colored microencapsulated microdroplets randomly distributed in the binder are destroyed and colored areas of different colors and shapes are formed, which with the possible addition of finely divided microparticles of carbon graphite can create data with a background map that is unique, inimitable, visible to the eye and recognizable using the camera. The indicated data can be stored in digital format, processed and entered into the registration database using software for comparison for authenticity during a future remote reading operation. A background map can in any case be obtained from the format, two-dimensionality, size, pattern, color spectrum, reflectivity, transparency, color dispersion, macro photography, numerical data, density, brightness, and all those combinations that can specify unique data and which can be recognized using any reader or optional lenses or filters.

Another object of the present invention is represented by using the proposed method of unique marking described above in conventional processes of letterpress, flat printing, gravure printing, screen printing, flexographic printing, silk screen printing, airbrushing, pad printing, thermal printing, namely, all those methods that can be used for marking or marking.

The proposed unique method can be carried out using paint, which is another object of the present invention.

In particular, the proposed paint is prepared from an organic or inorganic binder, the use of which is known for printing and which can be liquid or pasty, colored or transparent, characterized by different types of resistance and drying in accordance with the type of product on which it must be applied and the type used print can be mixed with mineral oils, pigments, additives, alcohols, quick-drying varnishes, hydrocarbons, natural and synthetic resins, glycolides or other substance suitable for mixing, distributing finely divided microparticles and / or microencapsulated microdroplets and applying them to the various products. The above binder can be mixed:

a) finely divided microparticles, which can be obtained by known methods from carbon-graphite material, holographic materials, ebonite, inorganic oxides of iron, paper, various plastics, natural or artificial fibers, fluorescent, phosphorescent, luminescent, reflective and ultraviolet materials;

b) microencapsulated microdroplets of the dye, which can be obtained by known methods and which can be destroyed by exposure to normal pressure with the release and spread of this dye in the binder and, as a result, on the finely divided microparticles that may be present in it.

Another object of the present invention provides for the use of the specified paint for unique marking of the product.

The following is an example implementation of the proposed method of unique labeling, which does not limit the scope of the invention.

EXAMPLE

The following is a description of a method for uniquely labeling a label on a graphic print line.

In a first step, a graphic printing ink is produced containing predominantly a phenolic transparent binder, in which finely divided microparticles of phosphorite and microencapsulated colored microdroplets are dispersed by mixing. At the next stage, a mark with the area of approximately one square centimeter is printed on the label using this ink, after which this mark is illuminated with a simple white light-emitting diode. Illumination of the printed sign reveals the randomness of the distribution of finely divided microparticles and microencapsulated microdrops, each time creating a unique and distinctive background map. The unique read and registration data obtained from the background map is set by the size, color and location of several finely divided microparticles (7-10 particles per square centimeter) within the perimeter of the printed sign. Due to this, these micronized particles form a unique two-dimensional code, which cannot be reproduced even under production conditions due to the internal randomness inherent in the placement of micronized microparticles. At the end, this code is decoded using appropriate artificial vision and read out by the first video system on the printed line using a high-resolution optical digital camera that converts the character, saves it in a suitable logical format, and sends it to the server. At the next stage, with the help of special software, the server performs decoding and stores these codes in a database, while ensuring the possibility of their transfer to physical media (CD, DVD, USB-memory, hard disk, etc.). The entered data will serve for future comparison and confirmation of the authenticity of the product on which this label will be applied. Using the procedure described above, it will be possible to remotely recognize this code, previously generated and entered into the database, using a specially designed portable device or an ordinary handheld computer and compare it in real time by sending it using the integrated processing and transmission of information via satellite or via the Internet, to verify authenticity with the original matrix, recalled from memory thanks to software and code for the purpose of matching setting and verifying the authenticity of background data.

Claims (10)

1. The method of unique labeling of the material, characterized in that when it is implemented:
a) produce paint for marking the product, the uniqueness of which must be ensured, made up of a binder suitable for a particular printing method, equipment and printed product, and mixed with micronized microparticles and / or microencapsulated microdroplets having a diameter of from about 40 to 80 microns;
b) they print on the specified product with the use of this particular ink a mark having an area of approximately one square centimeter and containing a serial number;
c) illuminate the indicated sign with light, fully highlighting the randomness of distribution, the shape and size of the finely divided microparticles and / or microencapsulated microdroplets, thereby creating an irreproducible and distinctive background map for the entered character;
d) filtering primarily the read data composed of the indicated background map using a darkening lens to neutralize and suppress any possible reflection of distortion and pattern disturbance, and then the indicated read data being filtered is recognized by means of an optical digital camera connected with software and a viewfinder, which is configured to transfer this data to the registration database for subsequent comparison and authentication products marked in this way. 2. The method according to claim 1, characterized in that the background map can be obtained from the format, two-dimensionality, size, pattern, color spectrum, reflectivity, transparency, color dispersion, macro photography, numerical data, density, brightness and all those combinations, which can set unique data and can be recognized by reading devices or additional lenses or filters. 3. The method according to claims 1 and 2, characterized in that the illumination of the entered sign can be carried out in natural light or by means of a beam or a beam of white light, ultraviolet radiation, cold light, invisible or black radiation, gray radiation, antireflection, laser radiation , zodiacal light, monochromatic radiation and polychromatic radiation, namely, radiation of various existing types superimposed on each other and passed through a series of suitable filters designed to illuminate the background o pattern of the entered character. 4. The method according to claims 1 and 2, characterized in that the background data obtained from the map of micronized microparticles and / or encapsulated microdrops is made with the ability to be read, recognized, stored in a database and compared using the most advanced integrated processing technologies and transmitting information and high-resolution video systems, with the addition of filters or lenses, suitable hardware and software, and special devices for sending data, such as The Internet, satellite systems, etc., namely, all those integrated systems for processing and transmitting information and other systems that can practically be used to recognize, read, encode and register unique data and transmit it remotely. 5. The method according to claims 1 and 2, characterized in that the binder can vary in accordance with the type of print and the product on which you want to put the specified sign. 6. The use of the method according to claims 1 and 2 for the unique marking of the product using conventional processes of letterpress, flat printing, gravure printing, screen printing, flexographic printing, silk screen printing, airbrushing, tampon printing, thermal printing, namely all those methods that can be used for marking or marking. 7. The paint for implementing the method according to claims 1 to 6, characterized in that it is prepared from an organic or inorganic basic binder in the form of a liquid or paste, colored or transparent, characterized by various types of resistance and drying in accordance with the type of product on which it must be applied, and the type of seal used, and contains:
finely divided microparticles and / or
microencapsulated microdroplets of the dye, which can be destroyed when exposed to normal pressure with the release and spread of this dye in the binder and, as a result, on the finely divided microparticles that may be present in it. 8. The paint according to claim 7, characterized in that the finely divided microparticles are selected from such substances as carbon-graphite material, holographic materials, ebonite, inorganic iron oxides, paper, various plastics, natural or artificial fibers, fluorescent, phosphorescent, luminescent, reflective and ultraviolet materials. 9. The paint according to claims 7 and 8, characterized in that it can be mixed with mineral oils, pigments, additives, alcohols, quick-drying varnishes, hydrocarbons, natural and synthetic resins, glycolides or other substance suitable for mixing, distribution of micronized particles and / or microencapsulated microdrops and applying them to various products. 10. The use of paint according to claims 7 and 8 for unique marking of the material.

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