RU2716423C1 - Apparatus for performing magnetic-pulse treatment of mineral material - Google Patents

Abstract

FIELD: soil or rock drilling; mining.

SUBSTANCE: invention relates to devices for grinding mineral raw materials by means of their magnetic-pulse treatment and can be used, for example, in mining industry. Device for performing magnetic-pulse treatment of mineral raw material comprises a structural element in the form of a thin-wall shell made of dielectric, non-magnetic, wear-resistant material separating inner surface of electromagnetic system and moving mineral raw material. Shell additionally comprises a low-current inductor system having inductive coupling with the main and additional inductors. Low-current inductor system serves as a sensor for measuring the rate of change of pulsed magnetic fields generated by the main and additional inductors. Low-current inductor system is connected to a measuring element which is part of the device performing measurement of amplitude-time parameters of the induced EMF in the low-current inductor system.

EFFECT: device is characterized by long service life.

5 cl

Description

The prior art.

A device for implementing a method of magnetic pulse processing of mineral raw materials (Eurasian patent EA003853).

The device comprises at least one electric current generator connected to an electromagnetic system including a main inductor creating a main pulsed magnetic field and an additional inductor creating an additional pulsed magnetic field, the lines of force of which are directed at an angle of 45 ° - 90 ° to the lines of force main pulsed magnetic field generated by the main inductor.

In this case, the processed mineral raw materials are placed inside the inductors that make up the electromagnetic system.

The disadvantage of this invention is the uncontrolled abrasive wear of the inner surface of the electromagnetic system during the movement of mineral raw materials.

In addition, the device described in this invention does not contain feedback between the electromagnetic system and the electric field generator. This makes it difficult to control the following parameters:

- the degree of wear of the inner surface of the electromagnetic system, which can lead to the destruction of the conductive parts of the main and additional inductor;

- the amplitude and period of each pulse of the magnetic field, which can lead to a deviation of the parameters of the pulsed magnetic field acting on the mineral raw materials from the specified parameters;

- the number of pulses over a long period of time the device is used, which can lead to the excess of the device operation parameters over the allowable service life of individual device elements and their failure.

The present invention eliminates these disadvantages by introducing additional elements of the inductor system into the device.

A brief description of the invention.

The task of the invention is the creation of an effective device for implementing magnetic pulse processing of mineral raw materials with a long service life.

The technical result of the claimed invention is the ability to control the degree of wear of the inner surface of the electromagnetic system, the amplitude and period of each magnetic field pulse and the number of pulses over a long period of time of operation of the device due to the introduction of an additional element into the device.

The claimed technical result is achieved in that the device for implementing magnetic pulse processing of mineral raw materials contains at least one electric current generator connected to an electromagnetic system. The electromagnetic system includes primary and secondary inductors. Inside the main and additional inductors, the processed stream of mineral raw materials moves. The inventive device further comprises a structural element in the form of a thin-walled shell separating the inner surface of the electromagnetic system and moving mineral raw materials. In this case, the shell further comprises an inductor system having inductive coupling with the main and additional inductors connected to the measuring element included in the device.

In the framework of the implementation of the claimed invention, the main and additional inductors of the electromagnetic system can be made in the form of solenoids.

In the claimed invention, a thin-walled shell can be made of a dielectric as well as wear-resistant material.

The measuring element that is part of the claimed invention can be made with the possibility of measuring the amplitude-time parameters of the electromotive force induced in the inductor system, which is part of the shell.

The presence of these signs in the composition of the claimed invention ensures the achievement of the claimed technical result.

Features of the invention are disclosed in the following description. In the framework of this invention can be developed alternative options for its implementation.

Detailed description of the claimed invention.

The claimed invention contains at least one electric current generator connected to an electromagnetic system including a main inductor creating a main pulsed magnetic field and an additional inductor creating an additional pulsed magnetic field, the lines of force of which are directed at an angle of 45 ° - 90 ° to the power lines lines of the main pulsed magnetic field generated by the main inductor. The main inductor, which creates the main pulsed magnetic field, and the additional inductor, which creates the additional pulsed magnetic field, can be made in the form of solenoids.

In this case, the processed mineral raw materials are placed inside the inductors that make up the electromagnetic system.

The proposed device further comprises a structural element in the form of a thin-walled shell made of a dielectric non-magnetic wear-resistant material that separates the inner surface of the electromagnetic system and moving mineral raw materials. Moreover, the shell further comprises a low-current inductor system having inductive coupling with the primary and secondary inductors. A low-current inductor system acts as a sensor for measuring the rate of change of pulsed magnetic fields generated by the primary and secondary inductors. A low-current inductor system is connected to a measuring element that is part of the device, which measures the amplitude-time parameters of the induced EMF (electromotive force) in a low-current inductor system. The measuring element may have any known technical solutions.

Such design additions provide control of the degree of wear of the inner surface of the electromagnetic system, due to the presence in the design of the claimed invention of a thin-walled shell made of dielectric non-magnetic wear-resistant material that separates the inner surface of the electromagnetic system and moving mineral raw materials. This, in turn, ensures the integrity of the electrically conductive parts of the main and additional inductor.

In addition, such design additions provide control of the amplitude and period of each magnetic field pulse, as well as the number of pulses, by supplying a thin-walled shell with a low-current induction system having inductive coupling with the main and additional inductors. A low-current inductor system acts as a sensor for measuring the rate of change of pulsed magnetic fields generated by the primary and secondary inductors.

The low-current inductor system is connected to the measuring element, which is part of the device, which measures the amplitude-time parameters of the induced emf (electromotive force) in the low-current inductor system.

This, in turn, avoids deviation of the parameters of the pulsed magnetic field acting on the mineral raw materials from the specified parameters, as well as the excess of the operation parameters of the device over the allowable service life of individual elements of the device and their failure.

The embodiments of the device described in the text of this application are not the only possible ones and are given for the purpose of most clearly disclosing the essence of the invention.

The claimed invention is reliable, simple and convenient to use and can be implemented using industrial production.

Claims (5)

1. A device for implementing magnetic-pulse processing of mineral raw materials, containing at least one electric current generator connected to an electromagnetic system including a primary and secondary inductors, inside which the processed stream of mineral raw materials moves, characterized in that the device further comprises a structural an element in the form of a thin-walled shell separating the inner surface of the electromagnetic system and the moving mineral raw materials, while the shell will complement flax contains inductor system having inductive coupling with the primary and secondary inductors coupled to the measuring element forming part of the device. 2. A device for implementing magnetic pulse processing of mineral raw materials according to claim 1, characterized in that the primary and secondary inductors of the electromagnetic system are made in the form of solenoids. 3. A device for implementing magnetic pulse processing of mineral raw materials according to claim 1, characterized in that the thin-walled shell is made of dielectric material. 4. A device for implementing magnetic pulse processing of mineral raw materials according to claim 1, characterized in that the thin-walled shell is made of wear-resistant material. 5. A device for implementing magnetic pulse processing of mineral raw materials according to claim 1, characterized in that the measuring element is configured to measure the amplitude-time parameters of the electromotive force induced in the inductor system included in the shell.