RU2333108C2 - Method of identification and protection of excise labels, bank notes, securities, documents and items and carrier of hidden image as identification and protection mark - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: method of identification and protection of excise labels, bank notes, securities, documents and items includes application of protective coating sections that are preset in size and shape onto item surface and irradiation of sections with radiation. Protective coating is made of anti-Stokes luminescent compound or includes anti-Stokes luminescent compound, which represents crystalline structure, the grid of which simultaneously contains atoms of yttrium, ytterbium, erbium and thulium, and irradiation is performed with infrared radiation. Also carrier of hidden image is suggested, which includes sections of protective coating that are preset in shape and size and applied onto item surface.

EFFECT: invention allows to increase extent of image protection against forgery; to increase chemical resistance of image and to simplify method of image creation and display by using simple methods of physical influence upon object.

2 cl

Description

The invention relates to the field of creating hidden drawings and inscriptions on the surface of products, in particular excise and identification marks, banknotes, securities and documents, strict reporting forms, signs of conformity of goods and products.

The traditional way to create and contour images is to apply thin layers of substances on the surface of the product that have a significant difference in optical properties (transmittance or reflection) from neighboring sections of the matrix. The latent image carrier is either special ink containing a special coloring component (for example, US patent 4889559, 12.26.1989). The manifestation of such images requires special solutions.

Closest to the proposed method and device are the method of identification and protection and the image carrier according to US patent 4930438, 06/05/1990. In this method and device using electromagnetic or electrostatic latent images deposited on the surface of the product, or images from phosphors irradiated in the ultraviolet region. These materials, in particular phosphors, are simple substances and can be easily prepared in any chemical laboratory. Over 5,000 ultraviolet phosphors are known, which makes it possible to select a specific glow either from a variety of similar ones, sometimes differing only in the intensity of the glow, or to imitate the effect by adding several phosphors. In addition, these methods, in particular a method for identifying and protecting phosphors operating in the ultraviolet region, require rather cumbersome stationary equipment powered by an electrical network. It should also be noted the high harmfulness to human health from exposure to ultraviolet rays reflected from the product.

An object of the invention is to increase the degree of protection against falsification of the image, increasing the chemical stability of the image and simplifying the method of creating and developing the image through the use of simple methods of physical impact on the object.

The technical result provided by the invention is to increase the conversion coefficient of infrared radiation into visible, i.e. an increase in the intensity of the visible radiation of the anti-Stokes compound with a constant intensity by its irradiation with infrared radiation. This makes it possible to detect the visible radiation of the anti-Stokes compound with the naked eye and use only an LED from the technical means.

The specified technical result is achieved in the method of identification and protection of excise stamps, banknotes, securities, documents and products, which includes applying to the surface of the product specified in size and shape of the sections of the protective coating and irradiating the sections with radiation, while the protective coating is made of anti-Stokes fluorescent compound or includes an anti-Stokes luminescent compound, which is a crystalline structure in the lattice of which there are simultaneously yttrium, ytterbium, erbium and and irradiation is produced by infrared radiation.

It is the simultaneous use of all four rare-earth materials that can significantly increase the glow intensity of the anti-Stokes compound.

In this case, irradiation is carried out by infrared radiation of a gallium arsenide LED.

In a particular case, rare-earth atoms are used, which are in paint, metal alloy, resin, plastic, rubber or glass.

The indicated technical result is achieved in the latent image carrier, including the protective coating sections defined on the shape and size of the product made of an anti-Stokes luminescent compound or including an anti-Stokes luminescent compound, which is a crystalline structure in which lattice contains yttrium, ytterbium, erbium atoms and thulium.

The simultaneous use of all four rare-earth materials can significantly increase the glow intensity of the anti-Stokes compound.

In particular cases, rare-earth atoms are used in paint, metal alloy, resin, plastic, rubber or glass.

The proposed method of identification and protection and the image carrier are realized through the use of an invisible compound consisting of or including several rare-earth metals, the so-called anti-Stokes fluorescent compounds, or up-frequency transformers, or IR radiation counters, or infrared converters into visible light, or converters frequencies with energy transfer, or cooperative compounds.

The proposed identification and protection method and the image carrier provide both a separate anti-Stokes compound emitting a specific color (for example, green, or blue, or red), as well as a complex protection that carries various combinations of two or three colors simultaneously. Thus, it is possible to image two- or three-color complex geometric shapes, signs, inscriptions and drawings. In this case, the highest brightness of the radiation of the multicolor composition is ensured when exactly four rare-earth materials — yttrium, ytterbium, erbium, and thulium — are used in the anti-Stokes compound.

The basis of the crystal lattice is yttrium. Ytterbium is a sensitizer, and the rest - thulium and erbium are activators. It was the simultaneous use of two or more activators that made it possible to obtain total cooperative luminescence, which significantly exceeded the previously known compounds in intensity. The author obtained an anti-Stokes compound, which included yttrium, ytterbium, erbium, gadolinium, and thulium, each of which had a chemical purity of at least 99.999%. The composition and purity of the components was confirmed by the spectral composition of the radiation. Moreover, the intensity of visible radiation is ten times higher than the radiation intensity of previously known anti-Stokes compounds.

An example of a latent image carrier obtained by the author is a carrier coated with a white anti-Stokes fluorescent compound, capable of visible fluorescence of white fluorescence under the influence of infrared radiation, which is a white powdery substance that includes (with the exception of oxygen), wt.% :

yttrium 61.8 ± 0.6 ytterbium 10.7 ± 0.1 erbium 0.0032 ± 0.0001 thulium 0.1230 ± 0.001 sodium 1.49 ± 0.01 phosphorus 0.807 ± 0.018 copper 0.0113 ± 0.0002

When implementing the method of identifying this carrier, namely, when applying to the surface of the product predetermined size and shape sections of a protective coating made of an anti-Stokes luminescent compound or including an anti-Stokes luminescent compound, which is a crystalline structure, in the lattice of which there are simultaneously yttrium, ytterbium, erbium atoms and thulium, and irradiation of areas with radiation, it turned out that the intensity of its luminescence is 30-50 times higher than the luminescence of previously known anti Stokes compounds. This made it possible to detect radiation with the naked eye when the mark is illuminated by an LED emitting in the infrared region of the spectrum. In other words, the detector consisted of an LED made on the basis of gallium arsenide and a miniature power source (battery).

Anti-Stokes compound can be applied to the protected item by printing or in another way (as a part of ink, glue, ink, etc.).

It should be noted that anti-Stokes luminescence also occurs when rare-earth materials are in a metal or other alloy (in resins, paints, plastics, rubbers, glass, etc.).

The proposed protective material is characterized by extreme chemical resistance to aggressive environments. Tests were made: by boiling in concentrated as well as dilute acids - sulfuric, hydrochloric and nitric (separately); in alkaline melt; as well as heating in the presence of oxygen to 1000 ° C. In all cases, the anti-Stokes compound has retained its properties.

Claims (2)

1. The method of identification and protection of excise stamps, banknotes, securities, documents and products, including applying to the surface of the product specified in size and shape of the sections of the protective coating and irradiating the sections with radiation, characterized in that the protective coating is made of anti-Stokes fluorescent compound or includes anti-Stokes a luminescent compound, which is a crystalline structure, in the lattice of which are simultaneously atoms of yttrium, ytterbium, erbium and thulium, and irradiation is produced by infrared m radiation. 2. The carrier of the latent image, including applied to the surface of the product specified in shape and size sections of the protective coating, characterized in that the protective coating is made of anti-Stokes luminescent compound or includes anti-Stokes luminescent compound, which is a crystalline structure in the lattice of which there are simultaneously yttrium atoms, ytterbium, erbium and thulium.