RU2065819C1 - Method for labeling objects - Google Patents

Abstract

FIELD: methods for identification of produced articles, objects of art, securities. SUBSTANCE: resonant spectral characteristics of object are detected by its exposition to coherent pulse beam of tuned laser and recording of spectrum of reflected beam. Reflected light is received by semitransparent mirror and directed to spectral measuring unit with recorder. Resonant frequency is detected by minimal signal level. Tuned laser is tuned to wavelength which is equal to resonant frequency and pulses of coherent beam are generated and directed to modulator and focused on surface of labeled object. EFFECT: increased functional capabilities. 2 dwg

Description

 The invention relates to the field of problems associated with the identification of securities, documents, banknotes, works of art and objects of industrial production.

 A known method of marking objects and applying signs of payment, in which to reproduce a three-dimensional image on a photosensitive substrate, the rays of a coherent radiation source are recorded. One of the light beams is reflected by the reproduced object. In this case, the object processed by radiation undergoes local changes in the structure.

 There is also a method of covertly applying signs on an object, which consists in local exposure to coherent radiation and the formation of areas with altered energy properties (1).

 The disadvantages of these methods is the deformation of the structure of materials subjected to labeling due to the introduction of special substances in them, which is unacceptable when marking authenticity signs on works of art or other valuable objects.

 The purpose of the invention is to provide reliable protection of objects from fakes without violating the physico-chemical and mechanical structures of objects.

 The goal is achieved by the fact that in the known method, which consists in local irradiation of an object with coherent radiation and the formation of regions with altered energy properties, spectral studies of the object are carried out to detect resonant absorption of coherent radiation, and then a laser with a wavelength equal to the wavelength of the resonant absorption of the object is used followed by the encoding of the characters applied to the object.

 A search by the applicant for scientific, technical and patent sources of information and a prototype selected from the list of analogues made it possible to identify distinctive features in the claimed technical solution, therefore, the claimed method meets the criteria of the invention of "novelty", and an additional search for known technical solutions in order to detect signs in them similar to the features of the distinctive part of the formula of the claimed technical solution, and comparing the properties of the claimed and known technical solutions, They were shown by the presence of the indicated features in them, showed that, firstly, not all the features of the distinctive part of the formula were found in the known technical solutions, and secondly, a comparative analysis of the properties due to the presence of some distinctive features in the known solutions and in the claimed technical solution, showed that the claimed solution exhibits properties that do not match the properties exhibited by the indicated features in known technical solutions, which determines the achievement of the claimed positive effect, been consistent, the technical solution of the invention meets the criterion "significant differences".

 In FIG. 1 shows a registration scheme of resonance absorption spectra; in FIG. 2 shows a diagram of a device for marking.

 To determine the resonance spectral characteristics of object 1, it is irradiated with coherent pulsed radiation from a tunable laser 2 and the spectra of radiation reflected from the object are recorded. When an object is irradiated, part of the radiation is absorbed by the material, and part is reflected from the object. The radiation reflected from object 1 is incident on a translucent mirror 3 and sent to a spectral device 4 with a recorder 5. Spectral device 4 registers the absorption spectra of this object. The studied object is irradiated with various wavelengths. The resonance frequency is determined by the minimum signal value, thereby determining the optimal laser mode.

 The tunable laser 2 is tuned to a wavelength equal to the resonant one and generates pulses of coherent radiation, which are directed to the electro-optical modulator 6 and then focused on the surface of the marked object. The modulator 6 deflects the beam of the laser 2 according to the program located in the computer, and thus marking signs of a given type are formed.

 It should be noted that there is no violation of the physicochemical structures of the marked object and any mechanical damage. In addition, the marking marks formed in this way are not destroyed by physico-chemical effects on the surface of the object.

 To read the markings applied to the object 1, the latter is irradiated with a radiation source with a wavelength equal to the radiation wavelength during the operation of marking the object.

 For conducting the reading operation, a scattering lens 6 introduced into the laser stream 2 can be used.

 Recognition and identification of markings is carried out by means of an optoelectronic unit 10 connected by direct and feedback connections to a computer 7.

 Due to the fact that marking is applied directly to the object and the formation of marking occurs due to a change in the energy properties and molecular structures of the object, it is possible to encode characters with high spatial resolution. Dosage of information can be carried out only if there is information about the code.

 The advantage of the proposed method is the provision of coding marking through the use of holography.

Claims (1)

 The method of marking objects, which consists in local irradiation of the surface of objects with a source of coherent radiation, coding of the applied marking marks and registration of encoded signs on the surface of objects with coherent radiation, characterized in that, in order to expand technological capabilities by increasing security from counterfeiting without violating the natural properties of objects, after local irradiation of the surface of objects investigate the resonant absorption of coherent radiation by surface material and objects and the resonance absorption curve determines the wavelength of the resonant absorption of the surface of the objects, and the registration of encoded characters on the surface of the objects is carried out by coherent radiation with a wavelength equal to the wavelength of the resonant absorption of the surface of the objects.

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