SU810276A1 - Magnetic flocculator - Google Patents

Description

The invention relates to the field of mineral separation by the method of magnetic separation and can be used in enterprises that process magnetite iron ores before magnetic separation operations, as well as in the refining of ferromagnetic impurities of ores of nonferrous and rare metals.

A magnetic flocculator is known, comprising a pipeline and a rotating magnetic system consisting of alternating polar magnets.

The disadvantage of this flocculator is the low efficiency of the flocculation process due to insufficient material agitation, since the frequency of rotation of the floccules, equal to the frequency of polarity change, is 5-10 periods per second.

A magnetic flocculator is also known, which contains a slurry pipeline and an electromagnetic system made in the form of coils with varying intensity along the course of the material flow, fed by alternating current and located on the outside of the slurry pipeline 2.

The disadvantage of this flocculator is the low efficiency of the flocculation process due to insufficient mechanical agitation of the material.

The purpose of the invention is to increase the efficiency of the flocculation process by creating a magnetic field changing in the nature and intensity of the working area.

This goal is achieved by the fact that the flocculator is equipped with a system of permanent magnets installed between the rollers, and the magnets can be facing each other with the same or opposite poles, the width of which can increase in the direction of material movement, and during flocculation of a material with high coercive force for To reduce the magnetic resistance to the flow of material, the flocculator can be equipped with a magnetic circuit consisting of poles located between the coils and the chassis.

FIG. 1 shows the described magnetic flocculator, general view; in fig. 2-7 are embodiments of the flocculator (ka of Fig. 2 shows the same location of the poles, Fig. 3 shows the opposite location of the poles; Fig. 4 shows the execution

poles with increasing width; in fig. 4 - flocculator supply with magnetic core).

The flocculator contains the slurry pipe /, the coil 2 of the alternating floor and the elements 5

constant floor (magnets). Alternating field coils and permanent magnets alternate with each other. The tension of the alternating coils decreases as the material progresses. The intensity of the posh-magnets 3 either remains constant or increases in the course of the material, while the permanent magnets can face each other with the same name or opposite poles.

When the pulp passes through the conduit, as a result of the interaction of the magnetic fields of the alternating field coils and the permanent magnets, a complex combined magnetic field is created in the working area, alternating, of considerable amplitude, and the constant field is weak. In the central part of the apparatus, the field is pulsating; it contains a variable and a constant component. In comparison with the input part of the apparatus, the variable component is much weaker, and the constant is stronger.

In the exit zone, the constant field reaches its maximum value, and the alternate weakens and creates small pulsations.

The processed material entering the apparatus is demagnetized at the beginning, thus the previously formed floccules are destroyed and the rock is released, mechanically clamped in the floccules. The rotation of individual grains also occurs, as a result of which the adhered rock particles are washed away. Due to the increasing permanent floor, floccules gradually grow, while in the first place pure minerals flocculate. In the zone of the material exit from the flocculator, the floccules are strengthened by a constant field of maximum intensity. Magnetic agitation of flocs and particles in floccules due to the alternating field is greatly enhanced by the antiparallel orientation of the magnetic axes of the elements of the constant floor.

Each of those listed in FIG. 1-6 variants of flocculator has its own characteristics and is intended for flocculation of a material with certain properties. The flocculator of FIG. 1 is intended for flocculation of a well-opened material with a high magnetic susceptibility. There is no need for intensive agitation, the process is satisfactory due to the alternating gender and the constant component of the CONSTANT floor.

The flocculator of FIG. 2 is intended for the treatment of material with a high magnetic susceptibility, but containing a large amount of rock sludge. Here a more intense magnetic agitation occurs due to the rotation of the flocs during the transition from one element to another.

Flocculator, FIG. 3 and 4 is intended for flocculent zinc material with relatively

low susceptibility, therefore the magnetic field-elements of the constant component are amplified in the direction of travel. At the same time, the Floculator of FIG. 3 provides less intensive agitation and is designed to process a material with a low content of rock sludge, and the Flocculator of FIG. 4 - with their high content.

Flocculators of FIG. 5 and 6 are with transverse orientation of the magnetic axes of the constant field elements and are intended for the flocculation of the material forming the multilayer floccules in cross section

respectively for the desliming material and material containing a large amount of sludge.

The selectively flocculated magnetape fraction does not contain mechanically entrained rock particles, and a high-quality concentrate is released during the magnetic separation of such a material. In the case of cleaning the raw materials from magnetic impurities, a higher degree of purification is achieved. In this case, a significant economic effect can be obtained.

The flocculator can be used both as an independent apparatus installed in front of a magnetic separator.

or with a deslamator, as well as in the form of an additional assembly of these machines.

Claims (5)

1. Magnetic flocculator, including slurry pipeline and electromagnetic system, made in the form of coils with varying intensity along the movement of material fed by alternating current and located outside of the slurry pipeline, characterized in that, in order to increase the efficiency of the flocculation process by creating in the working area a magnetic field changing in nature and intensity, the flocculator is equipped with a system of permanent magnets installed between the coils. 2. Flocculator according to the preceding claim, with the fact that the permanent magnets are facing each other with the same name poles. 3. Flocculator according to claim 1, characterized in that the permanent magnets face each other with opposite poles. 4. Magnetic flocculator on PP. 1-3, characterized in that the permanent magnets are made with increasing width in the direction of movement of the material. 5. Flocculator according to claim 1, characterized in that, in order to reduce the magnetic resistance when processing materials with high coercive force, the flocculator is equipped with a magnetic circuit consisting of poles located between the coils and a frame. Sources of information taken into account in the examination: 1. USSR Author's Certificate No. 377172. Cl. B 03 C 1/24, 01.22.7.1. 2. USSR Author's Certificate No. 282209, cl. At 03 P 1/08, 09.09.68.