RU2332306C2 - Method of making instrument for stamping protective elements on surfaces of carrier material - Google Patents

Abstract

FIELD: technological process.

SUBSTANCE: invention pertains to the technique of making an instrument for stamping protective elements on surfaces of carrier material. This method is characterised by that, a digitised three-dimensional pattern of the protective element is formed and digital data is transferred by a laser beam onto the stamping instrument.

EFFECT: making an instrument for stamping protective elements with a high definition structure, which cannot be copied using traditional machine tool systems.

5 cl

Description

The present invention relates to a method for manufacturing a tool for extruding protective elements on the surfaces of carrier materials, as well as to a carrier material having at least one protective element.

To protect against counterfeiting, it is customary to equip securities, banknotes, identification cards, packaging materials, foil, leather products, documents and other relevant products with protective elements to prevent unauthorized reproduction of such documents or products. For example, indicators, special information symbols or background images are printed in a typographical way. All known printing methods, such as offset printing, intaglio printing, flexographic printing, by means of die-cutting equipment and copying, can be used for this. Protective elements are distinguishable visually or by means of special selective means, such as ultraviolet radiation or optical decoders. Such systems are known from German patent DE 19900856 C2. In contrast, the security elements described in the present invention can be made exclusively by printing.

Securities and banknotes also provide security elements that, for example, press or emboss on paper during its manufacture. Embossing makes copying of securities difficult and is easy to verify by visual means. In the case of a more durable embossing, such as colorless embossing, for example, securities, it is also possible to carry out a tactile check. However, these relatively coarse printed images do not provide sufficient protection against counterfeiting, since with the development of engineering technologies it has become easy to produce stamping tools.

As the experience of printing by embossing with thermoplastic foil shows, laser engraving engraving rolls can display structures with a high refractive index. This feature can be used to make information visually distinguishable at various angles and / or using optical devices.

In the manufacture of extrusion tools using conventional technology, multi-stage production processes are used. Embossed image templates by reproduction methods, such as photography or holography, are transferred to the drum. For this, photosensitive layers are applied to the drums. Then, directly through the installation for forming a pattern or through a transparent film, exposure is performed. Further, at the processing stage, exposed portions of the drum surface are removed using an etching reagent. A further method is known in which an existing structure, such as a holographic level structure, is transferred to an extrusion tool by stamping. To implement these methods, as a rule, several manual operations are required, which increases production costs and limits the ability to accurately reproduce. This also applies to purely manual methods, such as engraving on copper and steel, which also require a long processing time.

In German patent DE 19706295 A1 describes a printing method, which consists in the fact that two-dimensional color prints are transferred using a copy pad method by the type of printing inks.

European patent EP 1127710 A1 describes a method for transferring a colorful image from one medium to a second medium at room temperature. In this case, a digital image is selected for printing on an ink-jet printer device.

European patent EP 1288719 A2 and patent application US 2003/0104308 describe an image forming material, an image forming method and a color proofing method. This document claims a layered material and a printing method in which the chemical properties of the layers of which the claimed material is composed are changed using a laser.

European patent EP 1318486 A1 describes a method in which an apparatus for marking products is used. It is indicated that this invention can be practically applied to create two-dimensional forms, and also that the method involves at least one additional printing step, which is carried out using rollers or cylinders using special inks to create an invisible encoding.

WO 01/53113 A1 discloses securities with optically variable characteristics. They have various optically active layers, coatings, and optical interference image. In this method, lasers mark the diffraction patterns, which are a two-dimensional structure.

The present invention is the development of a method of manufacturing a tool for extruding protective elements on the surfaces of the carrier material (base material), which can be used to create protective elements with a structure with high definition, inaccessible for copying using conventional machine tools.

This problem is solved by the method according to paragraph 1 of the claims. Preferred embodiments of the invention are presented in the dependent claims. Paragraph 1 also describes the material of the carrier with a special protective element.

According to the method of manufacturing a tool for extruding security elements according to the invention, a digitized three-dimensional template of the security element is first created on the surfaces of the carrier material, and then digital data is transferred to the extrusion tool. To create a template at all stages of processing using computers. Due to this, the template is not subject to aging and can be upgraded at any time, even after many years. The method proposed in the invention allows to create structures with sizes in the range measured by nanometers. Unlike conventional methods, such as holography, it also allows you to process large-sized surfaces. Using controls, any surface geometry can be imparted. The digital data scale can be changed at the discretion, which allows a cost-effective way to bring the security element into exact compliance with the requirements. Given the many modernization options that digital processing provides, hidden information can only be read using the appropriate key.

Verification of authenticity is carried out using a special decoder, which provides security technology with a combination of lock - key. The information that the product contains cannot be found in the security elements that make up the lock, and it can only be visually distinguishable with the appropriate key. Since the key and lock are supplied with the product, the potential counterfeiter must also make the key.

After appropriate preparation, digital data is transferred to an extrusion tool using laser beams, which allows the formation of a three-dimensional structure of extrusion tools. Digital processing also allows for perfectly smooth transitions. In contrast, with the prior art processing, it is hardly possible to hide the starting points. Processing using laser beams allows you to form a surface structure with an accurate geometric structure and sharp boundaries, which provides a high refractive index. This makes the security features clearly visible. As a result of scanning, only a significant deterioration in quality occurs and in this regard, the reproduction of the protective element is impossible. In the case of applying etching technology, the borders would be smoothed and this disadvantage is overcome in the present invention.

Transfer can be carried out in one single-step process. This provides a simple and economical manufacture of tools for extrusion, and the transfer operation can be implemented in existing technologies.

Thus, the method also provides for the possibility of transferring data to a tool for squeezing data for performing images of variable depth or squeezing patterns simultaneously with data for a security element. This is not feasible in one single-step process using conventional stamping machines, as well as conventional printing machines.

The method also provides for the possibility of transferring to a tool for extruding data to perform images of variable depth or extruding patterns simultaneously with data for the security element. This is not feasible in one single-step process, not only with conventional stamping machines, but also with conventional printing machines, which means that the proposed extrusion technology can be used to combine the printing of drawings and the security element in the right combination.

An extrusion tool, for example, may consist of a pair of drums representing a punch and a die.

The extrusion tool may also be an injection molding tool (mold).

It can also be a tool such as an embossing roller.

The proposed invention allows to create a carrier material, which has at least one protective element containing three-dimensional microstructures synthesized on a computer. The carrier material may be a metal or synthetic surface, but may also consist of leather and textured surfaces with poor printability.

By using an extrusion tool with microstructured drums according to the present invention, protective elements can also be applied to such surfaces.

For the manufacture of diffraction gratings and diffraction elements, which are used as keys known from the prior art, additional tools are required that are produced by mechanical means. Laser structuring allows the use of extrusion drums, for example, consisting of a punch and a die, for rotational stamping of keys. This provides a significant economic advantage over the conventional gradual key manufacturing process. The cost of manufacturing a lock and key is practically no different from the cost of manufacturing products without protective elements.

The features of the invention disclosed in the description and claims may be essential for the implementation of the invention, either individually or in any combination.

Claims (5)

1. A method of manufacturing a tool for extruding protective elements on the surfaces of the material of the carrier, which consists in the fact that a) create a digitized three-dimensional template of the protective element, and b) transfer digital data through laser beams to an extrusion tool. 2. The method according to claim 1, characterized in that the transfer is carried out by means of a one-step process. 3. The method according to claim 1, characterized in that the data for imaging or extruding patterns is transferred to the extrusion tool simultaneously with the data for the security element. 4. The method according to claim 1, characterized in that the data for imaging or extruding patterns is transferred to a cylinder for extrusion in a continuous and continuous manner. 5. The method according to claim 1, characterized in that the extrusion tool consists of a pair of drums, which are a punch and a matrix.