SU1286294A1 - Apparatus for preparing pulp for flotation - Google Patents

Abstract

The invention relates to the field of mineral processing and m. used in flotation of ores of non-ferrous and ferrous metals. The purpose of the invention is to increase the efficiency of pulp preparation by improving the charging conditions of mineral grains. On the outside of the dielectric cylindrical body (K) 1, a device 6 is installed for exciting a traveling magnetic field (BMP).

Description

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Inside K 1, coaxially mounted worker 4 and auxiliary 5 electrodes (E) are installed. In this case, the E 5 is made in the form of a rod, cantilevered VK1, aE4-. In the form of a spiral, the coils of which are arranged with a gap relative to each other. Through the inlet nozzle 2, the slurry flows in to K 1 and goes out through the outlet nozzle 3. Electric power is supplied to the electric motors 4 and 5 and the device B is energized by the electric current to excite the BS; eddy currents are induced in the pulp, which receive PDOR interaction with the BMP leads to rotational movement of the pulp inside K 1. Under the influence of the BMP, oscillations E 4 and 5 arise. By centrifugal force, the solid particles are thrown to the E 4, come into contact with it, acquire an electric charge, and move to the nozzle 3. 1 sludge.

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The invention relates to the enrichment of minerals and can be used in the flotation of nonferrous and ferrous ores, and can also be used in the coal, chemical and other industries.

The purpose of the invention is to increase the efficiency of pulp preparation by improving the conditions for charging mineral grains.

The drawing shows the device section.

The device includes a cylindrical dielectric housing with inlet 2 and outlet 3 nozzles. Inside the housing 1, coaxial to it, a working electrode 4 is installed, made in the form of a spiral, the coils of which are arranged with a gap relative to each other. The end of the electrode 4 is led outside the housing 1 for connection to an electrical power source (not shown). Inside the housing 1, along its axis, an auxiliary electrode 5 is installed, made in the form of an elastic rod, a cantilever 3, fastened in the housing 1, and connected to an electrical power source.

The working and auxiliary electrodes 4 and 5 are mounted in housing 1 with the ability to oscillate. At the working electrode, the coils of the spiral can make a reciprocating oscillatory motion, and at the auxiliary electrode its free end is torsional-oscillatory.

On the outer side of the housing there is a device for exciting a traveling magnetic field 6, including

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excitation winding 7 and magnet 8.

The device works as follows.

Through the inlet nozzle 2, the slurry enters inside the housing I and exits through the outlet nozzle 3. A constant electrical voltage is applied to the working 4 and auxiliary 5 electrodes. The device for driving the traveling magnetic field 6 is powered by an electric current. Flotation pulp has electrically conductive properties. It induces eddy currents, the ponderomotive interaction of which with a running magnetic field leads to a rotational movement of the pulp inside the housing 1. When the pulp rotates, solid particles are thrown off by the centrifugal force to the working electrode 4, contact with it, acquire electric charge and move to the output pipe 3.

Flow around the pulp of the working and auxiliary electrodes 4 and 5 leads to the appearance of oscillations of these electrodes. The oscillations of the electrodes are also ensured by the direct action of a traveling magnetic field on them. At the same time, on the surface of working and auxiliary electrodes 4 and 5, there is no accumulation of fine bubbles of electrolysis gas, which are carried away by turbulent pulp flows. This eliminates the appearance of polarization effects on the electrodes, leading to additional losses of electrical energy spent on charging. The turbulent motion of the particles, enhanced by the oscillatory motion of the working electrode, leads to an effective charge of the particles due to their intense interaction with the charging surface. Due to the action of centrifugal forces, the contacting of the pulp particles with the auxiliary electrode is unlikely, as a result of which the efficiency of their charge increases.

In addition to increasing the efficiency of the electric charging process, the device also provides additional opportunities in pulp preparation.

It also provides an omega effect on the pulp, which improves flotation rates. The eddy currents induced in the pulp provide for its heating, which intensifies the process of interaction of mineral grains with reagents. The oscillatory (acoustic) effect of the working and additional electrodes leads to the dispersion of the solid pulp phase, the renewal of the surface of the mineral grains, washing away from sludge.

Powering a device for exciting a running magnetic field can be additionally carried out

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same pulse current. This will lead to the emergence of hydro-shock waves in the pulp, and consequently, to an increase in acoustic oscillations.

Thus, as a result of using the proposed device, it is possible to carry out efficient pulp preparation while reducing power consumption.

Claims (1)

Invention Formula A device for preparing pulp for flotation, including a dielectric cylindrical body with inlet and outlet nozzles, working and auxiliary electrodes coaxially installed inside the body, characterized in that, to improve the efficiency of the preparation of mineral grains, the device is equipped with the outer side of the housing with a device for exciting a traveling magnetic field, the auxiliary electrode is made 3 of the form of a rod cantilevered in a core truncated, and the working electrode is in the form of a spiral, 0 windings which are arranged with clearance relative to each other. 0 five