SU1713657A1 - Floatation machine - Google Patents

Abstract

This invention relates to the enrichment of minerals by froth flotation. It can be used in ferrous and nonferrous metallurgy, as well as in the chemical industry. The aim of the invention is to increase the efficiency of flotation. The flotation machine contains a feed nozzle (PP) 1 of pulp, under which a hollow aerator 2 is coaxially mounted in the form of a sphere with a porous wall, which is connected to the compressed air line 3. The chamber (K) 4 of foam separation is installed coaxially with the subelector 2 ^ and has an annular foam cutter 5. The cutter 5 is equipped with a tailing outlet 6 and a telescopic adapter 7. by means of which the size of the gap 8 and the thickness of the cut foam can be changed. Compressed air is supplied to the cavity of the sphere of the aerator 2, and through the PP 1 - the pulp, pretreated with a reagent. The pulp flow rate is selected so that the pulp spreads over the surface of the sphere in a layer, and not broken by the flow down along the perimeter of the sphere. The resulting foam bubbles pick up and carry out the floating particles of the valuable component from the pulp layer and transport them down to the K 4 foam release. constantly in contact with the outer surface of this layer. Due to the force of gravity, the solid particles are located at the bottom of each bubble. The passage of the lower hemisphere of the aerator 2, the particles are automatically removed from the contact With the surface of the layer, pulp. The annular cut-off 5 continuously cuts the falling layer of foam collected in the KG4 foam collector, and the tails are discharged through the pipe 6 to the outside. 1 ill. (LS-1 ^ 'CA > & About SL ^ Li !! & -

Description

The invention relates to mineral processing by foam flotation and can be used in ferrous and non-ferrous metallurgy, as well as in the chemical industry.

Known Humboldt flotation machine containing a solid-state porous aerator in the form of a ring, covering the foam chamber. Air is supplied under pressure through the porous wall of the aerator. The pulp enters the foam chamber through the tangentially located nozzles and receives a rotational movement.

The disadvantage of this machine is the low efficiency of the flotation process, due to the fact that the selective separation of solids, particles, transportation of the useful component in the foam bubbles to unloading occurs in the bulk of the pulp and its intensive mixing, which leads to the mastic return of the floated solid particles back to the pulp. , '' The closest in technical essence to the proposed one is a machine for foam separation of minerals, containing a feed, pulp pipe coaxially mounted under a feed pipe. A hollow aerator. With a porous wall made according to _; . the shape of the cone with the tip pointed upward and connected to the compressed air line "coaxially located under the aerator, the foam chamber and the annular foam cutter.

The disadvantages of the known machine include the low efficiency of the flotation (separation) process, due to the partial return of the separated particles of the valuable component during transportation along the inclined generatrix of the aerator cone.

. The purpose of the invention is to increase the efficiency of the flotation (separation) process.

This goal is achieved by the fact that in a flotation machine including a supply pipe, a hollow aerator with a porous wall, connected to the compressed air line, connected to the compressed air line, coaxially located under the aerator, and an annular foam cutter, the aerator is made spherical .'The spherical shape of the aerator allows, in the second half of the path, before unloading the bubble of foam with a particle of the component, automatically remove the last from contact with the pulp, reduce the likelihood to return it and increase the efficiency of the flotation process.

The drawing schematically shows the proposed flotation machine *, a vertical section.

The machine contains a feed pipe 1 of the pulp, under which the hollow aerator 2 is coaxially mounted in the form of a sphere with a porous wall, in communication with the compressed air line 3. The foam chamber 4 is mounted coaxially under the aerator 2 and is provided with an annular foam cutter 5. Cutter ’5 is equipped with a tailpipe outlet 6’ and a telescopic adapter 7, with which it is possible to change the gap 8. ” The geometric dimensions of the aerator 2 uniquely determine the performance of the machine.

The operation of the flotation machine is as follows.

Compressed air is supplied into the cavity of the aerator 2 sphere, and through the supply pipe 1, is pulp pretreated with the reagent. The flow rate of pulps (and they are selected so that 1 pulp spreads over the surface of the sphere in a layer, rather than being disrupted by the flow around the perimeter of the sphere. The resulting foam bubbles are removed and the final particles of the valuable component from layer of the pulp and transport them down to the 4 * foam chamber without losing constant contact with the outer surface of this layer. Due to gravity, solid particles are located at the bottom of each bubble. Passing the lower hemisphere of the aerator 2, the particles are automatically removed from contact with the surface new pulp layer, which increases the efficiency of the flotation process.

The annular cutter 5 continuously cuts off the falling layer of foam, which is collected in the foam collector of the chamber 4, and the tails are removed through the pipe 6 to the outside.

The size of the gap 8, and therefore the thickness of the foam being cut off, is regulated using a telescopic adapter 7 (drive not shown).

Claims (1)

Claim A flotation machine, including a feed pipe, coaxially mounted under the feed pipe and connected to the compressed air line with a porous wall aerator, a foam chamber with a foam cutter, distinguished by the fact that · in order to increase flotation efficiency, the aerator is made spherical forms, the foam chamber is located coaxially under the aerator, and the foam cut-offs are made annular. ·