SU1011264A1 - Electromagnetic analyzer - Google Patents

Description

The invention relates to the beneficiation of minerals and can be used for the magnetic analysis of iron ores.

A known electromagnetic analyzer containing a magnetic bracket with windings applied to it, fed by direct current, between the poles of which a tube is installed for the analyzed material 1.

A disadvantage of this device is the long duration of the separation of the magnetic and nonmagnetic fractions. This is because the mechanical movement of the tube does not ensure the separation of the entire analyzed material in the entire volume of the tube.

The closest in technical essence and the achieved result to the proposed is an electro-magnetic analyzer including a magnetic circuit made in the form of a clamp with direct current excitation windings, alternating-current electromagnets installed at the ends of the magnetic circuit, and a working body mounted between the poles of the magnetic circuit t23

A disadvantage of this device is the low intensity of separation of the magnetic fraction from the nonmagnetic fraction. This is due to parasitic magnetic flocculation. When a constant magnetic field is applied to the product being analyzed, the entire volume of the tube causes grouping of disconnected magnetic particles into flocks into which a part of the non-magnetic product falls. Floccules, which are in a suspended state along the power of a constant FIELD, form a strand.

With the additional imposition of an alternating magnetic field, the magnetic particles forming the floccules begin to vibrate at the frequency of the field. Due to the vibration of the magnetic product, nonmagnetic particles begin to release from the surface layers of the floccules, which are subsequently removed by washing with water. However, due to the relatively large size of the floc (2050 particle diameters) when they are vibrated, considerable time is required to completely remove non-magnetic particles from their inner layers. Thus, parasitic magnetic flocculation complicates the process of separation of magnetic and nonmagnetic fractions, does not ensure the required rate of their separation.

The purpose of the invention is to increase the efficiency of separation of the magnetic fraction by increasing the intensity of the vibration effect on the material being divided.

This goal is achieved by the fact that an electromagnetic analyzer, including a magnetic core, made in the form of a bracket with excitation windings of direct current, electromagnets of alternating current, ((; installed at the ends of the magnetic core), and a working organ installed between the magnetic core poles, is equipped with an additional magnetic circuit, made in the form of a bracket with alternating current windings, poles

0 which are installed perpendicular to the poles of the main magnetic circuit.

The drawing shows the electromagnetic analyzer, a General view.

The electromagnetic analyzer includes a magnetic core 1 in the form of a clamp with windings 2 of DC excitation, electromagnets 3 of alternating current, a magnetic conductor k with windings 5 of excitation of alternating current, pole

0 which are perpendicular to the poles of the magnetic circuit 1. Between the strips of the magnetic cores 1 and k, the working body 6 is installed in the form of a container. Tube 7 is designed for removal of magnetic

5 fractions

Electromagnetic, the analyzer works as follows.

In the working body 6 is loaded the analyzed material in the form of pulp,

Then, the windings 2 of excitation of the magnetic circuit 1 are turned on. Under the influence of a constant magnetic field, the particles from the pulp form floccules stretched along the field lines.

5 Then electromagnets 3 and excitation windings 5, powered only by alternating current, are located, respectively, on magnetic cores 1 and AO. In the volume of the analyzed product two alternating magnetic fields arise, the directions of action of which are mutually perpendicular.

Under the influence of two variable magnetic fields with mutually perpendicular directions, the particles forming the floccules begin to make complex oscillations. Mostly, particle oscillations occur in two mutually perpendicular planes.

As a result, floccules begin to loosen vigorously, resulting in the formation of disconnected magnetic and non-magnetic particles. Non-magnetic particles are easily removed by washing with water, while the magnetic particles are held by a constant magnetic field created between the poles of the magnetic circuit 1.

The time required for the complete removal by washing of non-magnetic particles in the volume of the flocs is significantly reduced.

After the washing of the weighed magnetic product is completed, all the windings of the analyzer are de-energized and the purified magnetic fraction of the material being analyzed is removed from the working body through the tube 7. The analyzer has a second magnetic core, made in the form of a bracket, with alternating current windings installed, the poles of which are installed perpendicular to the poles of the main magnetic circuit. There is no need to reduce the time required (separation of the material, so that the mutually perpendicular imposition of alternating magnetic fields th from 1eremennyh magnets and further increases the magnetic poles

intensity of vibration impact on floccules formed by parasitic magnetic flocculation, which ultimately allows to increase the efficiency of separation of the magnetic fraction.

Claims (1)

ELECTROMAGNETIC ANALYZER; including magnetic core, made-: in the form of a bracket with direct current windings, alternating current electromagnets installed at the ends of the magnetic circuit, and a working element installed between the poles of the magnetic circuit, characterized in that, in order to increase the efficiency of separation of the magnetic fraction by increasing the intensity of the vibration effect on the shared the materialί the analyzer is equipped with an additional magneto-argument made in the form of a bracket with windings. excitation of alternating current, the poles of which are perpendicular to the poles of the main magnetic circuit. , 101126 ^