RU2448366C2 - Method of protecting printing product from falsification - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: method involves printing an imprint, which contains a bar code which bears identification information, onto printable polymer material subjected to heat shrinkage. A distorted bar code with bars and spaces whose width is enlarged in proportion to shrinkage of the film at the printed area is printed, as well as a normal bar code. The printable polymer material used is an anisotropic film made from thermoplastic with heat shrinkage gradient which is locally non-uniform and increases in any shrinkage direction at least on the printed part with the distorted bar code, wherein the heat shrinkage gradient of the film does not coincide with the direction of the bar codes.

EFFECT: simple detection of forgery of a printing product.

4 cl, 14 dwg

Description

The proposal relates to the field of printing and protection of printed information, and more specifically to methods of applying and instrumental reading of printed characters (pattern recognition), by pre-processing the image (code, symbol) deposited on a polymer film by printing methods.

A known method of protection against counterfeiting of mass-produced products (US Pat. RF 2225641, IPC 7 G06K 1/00, G06K 9/00, G06K 19/00, published. 03/10/2004) by applying labels to the surface, or to the surface of the material strips, or on the surface of other types of media that are attached to products, their packaging and / or containers, an individual protection identification number that is hidden from free reading by a protective film and collapses to the extent that it cannot be read unambiguously when removing the media on which it is applied, or violation of c Media integral domain.

There is a method of printing a barcode on a polymer film (US Pat. RF invention No. 2336571, IPC ⁷ G07D 1/00, published January 10, 2006) providing a sequence of composite characters for marking products, including generating the first component of the character and applying the first component a mark on a film for an article in a predetermined location, generating a second component of the mark and applying a second component of the mark on a film for an article in a predetermined place, in which at least the first or second component of the signs includes one or more elements, externally nth view, the position, direction or orientation of which changes for successive composite characters, so that these composite characters are different.

Closest to the proposed is a method of applying an impression on a plastic shell (US Pat. RF 2204487 according to the application No. 98109349, IPC ⁷ B41F 17/00, B41M 1/30, published. 04/14/2003), which can be considered as a way to protect printing products from falsification by printing an image, including a specially distorted bar code on a polymeric material that can be heat-shrinked, and subsequent heat treatment of the sealed material to obtain a shell on which a security sign is displayed, the bar code. The method allows reproducing the identification information contained in the bar code that was initially distorted during printing after heat shrinkage and bending of the shell at the agreed values of heat shrinkage of the material and bending of the shell. On the finished product, there are no distortions of the image of the barcode type. The disadvantage of this method is the limited scope of the proposal as a method of protection against counterfeiting of printing products due to the unsuitability of the method for marking products obtained by printing on flat films.

The technical task to be solved is to expand the scope of the method by providing copy protection for any printing products from polymer films marked with a bar code (labels, stamps, flexible containers, polymer packaging, various art, advertising and souvenir products from films and sheets).

The essence of the proposal

The stated technical problem is solved by the fact that in the known method of protecting printing products from counterfeiting by printing an impression containing a bar code carrying identification information on a sealed polymer material amenable to heat shrinkage, according to the proposal, at least one distorted bar code is printed with strokes and spaces increased in proportion to the shrinkage of the film at the place of their printing width and / or at least one barcode of the normal form, and as a sealable polymer The material used is an anisotropic thermoplastic film with a heat shrink gradient (locally inhomogeneous and shrinks increasing in some direction), at least on the sealed part, with a distorted bar code, and the film shrink gradient does not coincide with the direction of the code strokes.

Advantageously, the heat shrink gradient under a portion of the sealed surface with a distorted bar code is directed perpendicular to the code strokes and is 2-40% per 1 mm of film. The areas of the printed surface of a polymer film with a heat shrink gradient may exceed the dimensions of the bar code in size or coincide in size with the width of at least one stroke or space of the code, and / or periodically repeat at a distance not exceeding the longitudinal dimensions of the printed bar code. A normal-looking bar code may contain other information or information identical to the information contained in a specially distorted bar code and printed on film sections without a heat shrink gradient.

The purpose of this technical solution is to create a technology for applying to a polygraphic product a printed image containing a fake protected and, if necessary, informing about unregulated storage of goods bar code, which would ensure the possibility of its replication in a large number of copies without high technical and technological costs .

A practically significant result from the use of the proposal - the identification of the fact of falsification (falsification) of printing products (possibly also processed by printing methods) depends on the type of printing products (label, packaging, sealed film or sheet material, etc.) and is achieved either by removing the label from the object of protection (product) without its destruction and controlled heat treatment, or by heating the product, part of the product (for example, part of the package or part of the sealed film) at the location of the stroke th code to a certain temperature. Fake (printed on other than the proposed, shrink or isotropic material) products are recognized using a barcode scanner. The bar code on a fake protection object will identically identify the product before and after heat treatment, and the original will show a different result when scanning before and after heat treatment. After heat treatment, the distorted code will be read by the scanner and reliably identify the object after taking strokes of normal width. Conversely, a normal-looking barcode printed on areas of a material with a heat shrink gradient after heat treatment will not be recognized by the scanner due to the inhomogeneous shrinkage of its individual elements (disproportionate reduction in the width of the strokes and / or spaces, i.e. the elimination of the bar code module). If the temperature of the thermal response (shrinkage) of the sealed material coincides with the maximum permissible storage temperature of the contents of the package, then stopping reading the bar code on it means damage to the goods due to violation of the temperature regime of its storage.

If one or several strokes of a normal-looking code are printed on a part of the surface of an anisotropic thermoplastic film with a heat shrink gradient directed at an angle to the bar code lines other than 90 degrees, for example, at an angle of 30 or 45 degrees, then their distortion after heat treatment is visible to the naked eye , i.e. To determine the fact of absence or presence of falsification of marking, the use of analyzing tools (barcode scanner) is not required.

Information confirming the possibility of implementing the proposal

Protect the film packaging from counterfeiting by printing an impression containing a bar code carrying identification information on an anisotropic polymer material amenable to inhomogeneous heat shrinkage. The material used is polyethylene, polypropylene, polyamide, polyester (PET) or polyvinyl chloride film. The films are subjected to orientation stretching and cooling in the expanded state to give them heat-shrink properties, and to create a shrink gradient, zone heat-setting, local “stretching” or local shrink. After that, the sealing surface of the film is modified, for example, by corona treatment to increase the adhesion of printing inks. An image of a bar code, for example, by the method of letterpress printing, is applied to the packaging section of a material with a heat shrink gradient. The information content of the “normal” type of barcode printed on the packaging is checked using a scanner, the airtight shell is filled and welded. The level of heat shrink properties of sealed polymeric materials is reflected in the graphs of the dependence of shrinkage of packaging materials on temperature, and the resistance of bar codes to distortion in the graphs of the temperature dependence of the probability of reading bar code information on the value of local shrinkage of one part of the bar code with the same size of the other.

The proposal is illustrated by the layout of barcodes on a flexible packaging, removable film or non-removable label with a different shrinkage gradient in size and direction, shrink graphs of the packaging material or non-removable label, as well as examples of the design implementation.

Figure 1. Film packaging (1), protected from counterfeiting by a “removable” label (2). 3 - plot labels with a gradient of heat shrink; 4 - direction of removal of the label for identification by heat treatment.

Figure 2. Polymeric containers (1), protected from falsification with “non-removable” paper or film (2) and “removable” (glued) polymer labels (4), marked with two barcode prints. 3 - an invariable bar code of a normal type on a “fixed” label; 5 - the direction of removal of the polymer label from the package to identify the protective (changing with shrinkage) bar code by heat treatment.

Figure 3. Protected packaging made of heat-shrinkable polymeric material with a gradient of heat-shrink on a narrow section of the film under the imprint of part of the bar code. 1 - packaging (packaging); 2 - barcode fingerprint, 3 - portion of the sealed packaging material with a heat shrink gradient

Figure 4. A “normal” type security barcode printed on film packaging before (1) and after (2) heat treatment. The packaging is made of a heat-shrinkable film with a shrink gradient directed perpendicular to the code strokes. 3 - film section under 1/3 of the barcode fingerprint with maximum shrinkage; 4 - plot film with minimal shrinkage (zero).

Figure 5. The security bar code is of a “normal” type, on a film package before heat treatment (1) and a “distorted” type after heat treatment (2). The shrinkage gradient of the material is directed perpendicular to the strokes of the code. 3 - a portion of the film with minimal (zero) shrinkage; 4, 5 - sections of the film with maximum shrinkage under the remaining parts of the bar code.

6. Dependence of the shrinkage of the packaging material or the material of the “removable” label on the heat treatment temperature. 1 - sealed polypropylene film; 2 - sealed polyvinyl chloride film.

7. Dependence of the probability of reading information (identification frequency) from a bar code printed on a label or package made of a film with a heat shrink gradient localized under one code element (bar or space) on the local shrinkage (“compression”) of the code element during heat treatment. 1 - shrinkage of the film under the printed stroke; 2 - shrinkage of the film under the space.

Fig. 8. A “normal” type security barcode printed on a film label or packaging before (1) and after (2) heat treatment. The print is made of a heat-shrinkable film with a shrink gradient directed at an angle of 45 degrees to the strokes of the code. 3 - a portion of the film with minimal shrinkage (zero); 4, 5 - section of the film with maximum shrinkage.

Example 1. Protect film packaging from counterfeiting by printing an impression containing a bar code of the "normal" type, carrying identification and meaningful information. The packaging material consists of two layers of macromolecular substances, one of which is a layer of printing ink, and the second is a heat-shrinkable polypropylene film with a shrink gradient directed perpendicular to the strokes of 5% per 1 mm, i.e. shrinkage of individual micro-sections of the film over a 10 mm sealed surface increases from 0% to 50%. A plot with a heat shrink gradient coincides with 0.3 of the bar code width (FIG. 4). The “normal” type bar code printed on the manufacturer’s original packaging is read by the scanner and contains the necessary product information inside the packaging. To verify the authenticity of the package, at least the part on which the bar code is applied is heated in hot water at 90 ° C for 10-30 s. The original packaging after shrinkage of the polymeric material under the bar code is reduced disproportionately, the appearance of the code is distorted and therefore it is not read by the scanner (figure 4), which is proof of the authenticity of the package.

Example 2. The package of Example 1 is protected from counterfeiting from a heat-shrinkable polyvinyl chloride film, but a “distorted” type barcode is printed with strokes increased in proportion to the width of the shrinkage. A plot with a heat shrink gradient coincides with 0.2 of the bar code width (FIG. 3). The distorted code is read by the scanner only after heat treatment, which is proof of the authenticity of the package. The heat treatment temperature during authentication is 70, 80 and 90 ° C.

Example 3. Protect packaging with removable label from forgery

For the manufacture of the label, a heat-shrinkable polyvinyl chloride film is used, prepared in such a way that the portion of the film with the gradient of heat shrinkage at the place of printing the bar code is 40% per 1 mm and is located only under one bar of the code having overall dimensions 30 × 60 mm. The stroke width is 2 mm (figure 5, scheme 1). Shrinkage of part of the film under a stroke of 0%. The shrinkage of the rest of the film is the same and is 40%. The original label after shrinkage of the polymeric material under the bar code is reduced disproportionately, the appearance of the code is distorted and therefore it is not read by the scanner, which is evidence of the authenticity of the package

Example 4. The package of Example 3 is protected from counterfeiting, but the bar code is printed on the label at an angle of 40 degrees to the heat-shrink gradient of the material, which is 2% per 1 mm (Fig. 8). After heat treatment and shrinkage of the film in sections 4 and 5, the distortion of the bar code is determined instrumentally or visually (without using a scanner) and this distortion of the bar code clearly indicates the authenticity of the label (Fig. 8, scheme 2).

Claims (4)

1. A method of protecting printed products from tampering by printing an impression containing a barcode carrying identification information on a sealed polymer material that is heat-shrinkable, characterized in that at least one distorted barcode is printed with strokes and spaces increased in proportion to shrinkage films at the place of their printing width and at least one bar code of a normal form, and an anisotropic thermoplastic film with a gradient of ter ousadki at least the sealed portion with a distorted bar code, wherein the heat shrinkage gradient of the film does not coincide with the direction of the bar code. 2. The method of protecting printed products from tampering according to claim 1, characterized in that the heat shrink gradient under part of the sealed surface with a bar code is directed perpendicular to the code strokes and is 2-40% per 1 mm of its linear size. 3. The method of protecting printed products from tampering according to claim 1, characterized in that the areas of the printed surface of the polymer film with a heat shrink gradient may exceed the dimensions of the bar code in magnitude, or coincide in size with the width of at least one stroke or space of the code, and / or periodically repeated at a distance not exceeding the longitudinal overall dimensions of the printed bar code. 4. A method of protecting printing products from tampering according to claim 1, characterized in that the printing products use labels, stamps, flexible packaging, polymer packaging, art, advertising and souvenir products based on thermoplastic polymer films and sheets.

Images