RU2145927C1 - Method for protecting information medium against falsification - Google Patents

Abstract

FIELD: protection of information media against falsification. SUBSTANCE: method involves application of check mark for its visualization by means of additional external action to obtain optical effect. Mark is made of at least one layer of non-transparent heat- indicating coat of composition including polymeric matrix based on melamine formaldehyde and acrylic resins as well as heat-sensing dye having color transfer temperature at least 30 C, its ingredients being 1- hexadecanol and 4-ethylphenol in the following proportion, mas. %: 1-hexadecanol, 0.5-7.0; 4-ethylphenol, 0.5-5.0; melamine formaldehyde resin, 1.0-10.0; amide-containing acrylic resin, 1.5-15.0; butyl alcohol, 40.0-60.0; ethyl acetate, 20.0-40.0. External visualizing action is effected by heating check mark with heat flux to temperature above 30 C or by ultraviolet rays. EFFECT: facilitated manufacture, enlarged spectrum of color hue to improve reliability of protection and facilitate visualization of optical effect. 3 cl

Description

 The invention relates to methods for verifying the authenticity of various information carriers of paper, polymer material, etc., including banknotes, lottery tickets and similar valuable documents or products.

 A known method of protection against falsification of information media made of paper or polymeric material by applying a control mark of liquid crystal material, which provides the manifestation of an optical effect when observed in transmitted and reflected light (see RF patent 2102246, class B 42 D 15/00, 1998 , UK patent 2268906, CL B 42 D 15/00, 1992).

 However, this method is technologically difficult to implement.

 There is also a known method of protection against falsification of the information carrier by applying a control mark in the form of a hologram with the possibility of visualizing it by obtaining an optical effect by changing the angle of inclination when viewed (see RF patent 2060167, class B 42 D 15/00, 1996; application of France 2331455, CL G 07 D 7/00, 1977, German patent 3628353, CL B 44 F 1/12, 1988) The disadvantage of this method of protection against counterfeiting can be attributed to the relatively low reliability.

 Closest to the invention is a method of protection against forgery of the information carrier by applying a control mark with the possibility of visualization by additional external exposure to obtain an optical effect (see RF patent 2077071, class G 07 D 5/00, 1997). At the same time, the control mark is made in the form of a holographic microrelief, and visualization is carried out by placing it in the field of the recovery wave of a certain frequency, which increases the reliability of protection, but complicates the hardware design of the control process.

 The invention is aimed at creating a technologically simple, reliable and easy-to-use method of protection against forgery of various storage media.

The solution to this problem is ensured by the fact that in the method of protection against forgery of the information carrier by applying a control mark with the possibility of visualization by additional external influence to obtain an optical effect, according to the invention, the control mark is made of at least one layer of an opaque thermal indicator coating, which is used as a composition comprising a polymer matrix based on melamine formaldehyde and acrylic resins and a thermosensitive substance - thermo paint with a color transition temperature not lower than 30 ^o C, containing 1-hexadecanol and 4-ethylphenol with the following composition of components, parts by weight:
1-hexadecanol - 0.5 - 7.0
4-ethylphenol - 0.5 - 5.0
melamine formaldehyde resin - 1.0 - 10.0
amine-containing acrylic resin - 1.5 - 15.0
butanol - 40.0 - 60.0
ethyl acetate - 20.0 - 40.0
while the external visualizing effect is carried out by heating the control label with a heat flux to a temperature above 30 ^o C or ultraviolet radiation.

 In addition, the control mark under the layer of opaque thermal indicator coating may contain an additional colored layer with a pattern or color information mark.

 Mostly the visualizing effect is carried out with a duration of exposure to a heat flux of at least 2 seconds.

 The technological simplicity of manufacturing an opaque thermal indicator coating and applying a control mark, which can be painted in a wide range of color shades due to the additional introduction of various mineral pigments and dyes based on metal compounds (iron, chromium, copper, nickel, lead, silicon, zinc, molybdenum , manganese, etc.), the practical impossibility of its falsification, the convenience of visualizing the optical effect - a reversible color transition, for example when used as source of heat flux of a person’s hand (finger), an opaque (colored) control mark becomes transparent (colorless) within 2 seconds, provides reliable protection against falsification of various information carriers on paper, plastic, etc. basis.

 The claimed method of protection against counterfeiting is implemented as follows.

For the preparation of an opaque thermal indicator coating with a temperature of a reversible color (visualizing) transition of 31 ^o C to a mixture of solvents containing 45 wt.h. butanol and 35 parts by weight ethyl acetate, add 6 wt. including melamine formaldehyde and 8 parts by weight amide-containing acrylic resins and thoroughly mixed, then 0.5 wt.h. 1-hexadecanol and 5 parts by weight 4-ethylphenol. If necessary, various mineral pigments and dyes based on metal compounds (iron, chromium, copper, nickel, lead, silicon, zinc, molybdenum, manganese, cesium, lithium, calcium, sodium, antimony, etc.) are added to the resulting composition in amount in total not exceeding 10% by weight of the thermal indicator composition, which are selected to create color shades compatible with the color scheme of the decorative base of the information carrier. Thus prepared composition of the thermal indicator coating is applied to the decorative base of the information carrier in the form of a continuous layer with a thickness of 50 μm, forming a control mark with an area of 1 - 5 cm ² that is opaque under normal temperature conditions, and dried at a temperature of 50 - 60 ^o C. It is possible to carry out a control mark in as a graphic drawing or symbol.

The authenticity of the information carrier protected from counterfeiting is verified by local heating of the control mark (for example, by applying a finger on it for 2 seconds) to a temperature above 30 ^o C. When the temperature reaches a reversible color - visualizing transition, the thermal indicator coating from opaque - colored becomes colorless - transparent (i.e. the image of the control mark disappears), and if an additional colored layer of the decorative base of the information carrier with ri unkom or color information sign, it appears the last image. Some time after the removal of the heat flux, the initial temperature of the control mark is restored, aligning with the temperature of the information carrier and the environment, and the thermal indicator coating is reversibly made opaque - colored.

 When using ultraviolet radiation information for authentication of a data carrier, the painted thermo-indicator coating of the control mark in ultraviolet rays changes its color, while the color scheme of the decorative base remains the same.

 If the control mark is made of several layers of a thermal indicator coating containing thermosensitive substances - thermal paints with different temperatures of the color - visualizing transition, then with repeated intermittent heating of the control mark to the appropriate temperatures, these layers will consistently appear and disappear in a given color.

Claims (3)

1. A method of protection from information counterfeiting by applying a control mark with the possibility of visualizing it through an additional external effect to obtain an optical effect, characterized in that the control mark is made of at least one layer of an opaque thermal indicator coating, which is used as a composition comprising a polymer a matrix based on melamine-formaldehyde and acrylic resins and a heat-sensitive substance - thermal paint with a color transition temperature of at least 30 ^o C, containing 1-hexadecanol and 4-ethylphenol in the following composition, wt.h .:
1-hexadecanol - 0.5 - 7.0
4-Ethylphenol - 0.5 - 5.0
Melamine formaldehyde resin - 1.0 - 10.0
Amide-containing acrylic resin - 1.5 - 15.0
Butanol - 40.0 - 60.0
Ethyl acetate - 20.0 - 40.0
while the external visualizing effect is carried out by heating the control label with a heat flux to a temperature above 30 ^o C or ultraviolet radiation.  2. The method according to p. 1, characterized in that the control mark under the layer of opaque thermal indicator coating contains an additional colored layer with a pattern or color information mark.  3. The method according to p. 1, characterized in that the visualizing effect is carried out with a duration of exposure to a heat flux of at least 2 s.