RU2661127C2 - Method of creating an identification mark on metal filter - Google Patents

Abstract

FIELD: methods and devices for marking.

SUBSTANCE: invention relates to the field of identification of material resources and can be used for product marking. Method for creating an identification mark on a metallic carrier includes performing an electric discharge between a high voltage electrode and a carrier when the electrode is moved along and across the information grid on the carrier according to the law of random numbers followed by the application of a digital code. As a carrier with an information grid, a metal filter is used, while the discharge energy is selected from the range of 0.5 to 12 J for a pulse duration of 10^-4 to 10^-3 s.

EFFECT: invention makes it possible to create an identification mark that can be installed on any dielectric and metal products.

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Description

The invention relates to the field of information technology and is intended to create identification tags obtained using stochastic processes, more precisely using turbulent gas-dynamic flows.

A known method of creating identification tags using electric discharge technologies [1]. But this method is applicable only for creating identification marks on the metal. The disadvantages of this method include the fact that it can only be used to identify metal products.

Another method is known [2], which can be used as a prototype based on electric discharge technology. But this method is used to identify dielectric products, including paper and banknotes. This method is based on the evaporation of individual dotted sections of paper and it is of little use for the identification of massive electrically conductive parts.

The newly proposed technology is implemented by performing an electric discharge between a high-voltage electrode and a carrier, and the electrode is moved along and across the information grid according to the law of random numbers, followed by the application of a digital code and information grid

A feature of the newly proposed method is that a metal filter is used as the information grid, and the discharge energy is selected from the conditions of change, including melting and evaporation of sections of this filter under the action of a spark discharge. Another feature is that the discharge energy is selected in the range from 0.5 to 12 J with a pulse duration of 10 ^-4 to 10 ^-3 s.

Unlike the prototype, this technology can be used both for the identification of metals and dielectrics.

The process of spark discharges is stochastic in nature, which causes stochastic sections of change on the filter, which is applied in the form of an information grid on which a different number of melting and evaporation sections is fixed.

In fig. 1 shows the installation for processing the information grid by electrical discharges. 1 - glass substrate, 2 - information grid in the form of a filter, 3 fixing dielectric film, 4 - ring electrode, 5 - high voltage ball electrode, 6 - high voltage source, 7 - high voltage capacitor.

In fig. Figure 2 shows a section of such a filter with a large increase before processing a metal filter by electric discharges, used as an information grid. The advantage of such an information grid is the reliability of information storage on it.

In fig. Figure 3 shows the information grid processed by the discharge energy of portions of this filter selected from the condition of evaporation. 2 - information grid, evaporated 8 and melted 9 sections of the information grid.

An example of the implementation of method No. 1. When processing the filter with a discharge energy of 0.5 J, the first evaporation sections 8 appear both inside the filter and at its edges.

An example implementation of method No. 2. When processing the filter with a discharge energy of 12 J, large sections with a complex profile of evaporated sections 8 appear on the grid, as a set of identification lengths of the evaporated sections from section 8 can be used as identification signs. In particular, the entire non-repeating contour of the entire evaporated section 8 can serve as a reliable identification sign Since the survey was carried out after each pulse, all sections 8 that appeared were fixed on one grid 2. A further increase in the discharge energy over 12 J was impractical due to the relative respect to a large area of the evaporating sections.

An example implementation of method No. 3. When the filter is processed with a discharge energy of less than 0.5 J, the evaporated sections 8 are not registered; instead, dark sections of the melted zones 9 appear, which can also be used as identification signs. However, the reliability of scanning these sections 9 is slightly lower than the scanning sections 8, carried out "on the clearance."

By changing the interelectrode gap between the information grid 3 and the high-voltage spherical electrode 5 and the capacity of the high-voltage capacitor 7, it is possible to provide the required discharge energy for the evaporation of sections of the information grid.

Using a grid as an information label simplifies finding the coordinates of evaporated or fused sections. The produced identification tag can be installed on any dielectric and metal products.

Information sources

1. The electric discharge method of manufacturing an irreproducible identification tag, RF patent No. 24521308.

2. The method of electrical discharge identification. Patent of the Republic of Moldova No. 3390.

Claims (1)

A method of creating an identification mark on a metal medium, including the implementation of an electric discharge between a high voltage electrode and the medium when moving the electrode along and across the information grid on the medium according to the law of random numbers, followed by applying a digital code, characterized in that a metal filter is used as the medium with the information grid while the discharge energy is selected from the range from 0.5 to 12 J with a pulse duration of 10 ^-4 to 10 ^-3 s.

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