SU390438A1 - DEVICE FOR IDENTIFICATION OF MINERALS - Google Patents

Description

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The invention relates to the field of mineralogical analysis and can be used to diagnose minerals in mineralogical studies and to study the material composition of deposits.

The improvement of methods for diagnosing minerals and mineralogical analysis can be achieved by automating the process in general and its individual operations in particular. This gives a significant economic effect, increases the reliability and objectivity of diagnostics and quantitative determinations. In the field of mineralogical analysis, comparatively little has been done in this direction. This is due, primarily, to the weak development of objective methods for determining the physical constants of minerals (reflectivity, dispersion of reflectivity, hardness, magnetic susceptibility, electrical conductivity, etc.) and the lack of devices for such diagnostics. Recently, for measuring optical properties of minerals, IEE-1, YAShMA-2, ADA-1 devices have been developed, which allow to measure the dispersion of reflectivity, as well as instruments for quantitative mineralogical and granulometric analysis ("Contrast, MCU-1," Lithologic 68 m) and the determination of microhardness, electrical conductivity and magnetic susceptibility.

In order to reliably diagnose minerals, it is necessary to determine the complex of physical properties, and then search for the name of the mineral using reference books, determinants, cards, or computer cards currently being developed. Using cards Volyn or similar

others require highly skilled labor and do not give a significant gain in time. The use of punched cards is possible, obviously, only in the presence of a computer, so their use is advisable only in large

geological organizations and research institutes. Therefore, the need for a simple, cheap automatic electronic determinant of minerals is quite overdue. Due to the process of rapidly displacing methods for the subjective determination of the properties of minerals by the methods of objective measurement of their physical constucts, nowadays there are all prerequisites for developing a device that allows automatically diagnosing (identifying) minerals.

The proposed device makes it possible to perform automatic diagnostics of minerals within a few minutes from measured basic physical constants.

The device has small dimensions, cost, and in the future can be used in field conditions.

For the convenience of entering information into the device, all the limits of fluctuations of the physical constants of minerals, known from literature data, are divided into groups according to the pyteric numbering system. The physical constants used for diagnostics are divided into the following groups:

25 groups of microhardness minerals;

25 groups of minerals by reflectivity in red light;

25 groups of minerals by reflectivity in green light;

25 groups of minerals by reflectivity in blue light;

5 groups of minerals by magnetic susceptibility;

5 groups of minerals by electrical conductivity.

It is possible to add other physical constants.

The grouping of minerals is made taking into account the diagnostic value of this physical constant and the achieved measurement accuracy.

The device consists of a block / data input, which is a wafer switch for five positions; a memory unit //, the function of which is performed by electrical installation between wafer switches; 1P indicator block consisting of a board with the names of minerals and light bulbs; switch / U and control unit V.

The data entry is carried out by ten switches; of these, two are microhardness data, six are reflectivity data (two switches for each point of the spectrum), one is magnetic susceptibility data, and one is electrical conductivity data. With the development of appropriate instruments for the automatic determination of the listed constants, it is possible to automatically enter data into a diagnostic device.

The device works as follows. 5 After setting the switches of the block / data input in accordance with the measured constants of the diagnosed mineral, the switch IV. using the control unit V is connected in series to each

0 block switch. In this case, all the lamps of the indicator block HI, corresponding to the minerals in the same group in the first physical constant, first light up, and then only the

5 bulbs corresponding to minerals whose properties are the same for the first and second physical constants, then for the first, second and third, etc. At the end of diagnostics, only one mineral lamp remains, the combination of physical properties of which coincides with the typed combination in the input block data. As indicator lights, cold cathode thyratrons are taken, the igniters of which are supplied with a voltage pulse from the Y control unit at the beginning of the switch movement.

The proposed device can be used as a training machine.

The subject matter of the invention

A device for identifying minerals, based on a grouping of minerals by physical properties, characterized in that, in order to automate the process and increase its reliability, it contains interconnected data input unit, made in the form of a system of electrical switches, set in accordance with measured constants, memory block

which is an electrical installation between switches, and a board with names of minerals.