SU1554975A1 - Flotation machine - Google Patents

Abstract

This invention relates to the beneficiation of minerals. The goal is to improve the performance of the flotation process by improving its aerohydrodynamic conditions. Along the axis of the flotation cell 1, a pipeline 2 is introduced from above to feed the original pulp, under which a cylindrical-conical nozzle aerator 3 with a tangential nozzle 4 is installed coaxially with a taper to supply the working fluid and an output nozzle 5. ring 6. To the cylindrical part of the nozzle-aerator 3 with its smaller base is attached an air chamber 7 open at the bottom, under which there is a friction cone-shaped fender plate 9. An air nozzle 8 is tangentially attached to the chamber 7. The pulp from the pipeline 2, the nozzle-aerator 3 and the ring 6, enters the zone of increased aeration under the chamber 7, in which a cone-shaped floor jet ejected from the nozzle 5 ejects air. After exiting the chamber 7, the streams of aerated liquid are reflected from the plate 9 and rise upward to the flow of the original pulp. The resulting flotation complexes float and are removed from the pulp surface. 1 il.

Description

enters the zone of increased aeration under the chamber 7, in which a conical floor jet coming out of the nozzle 5 ejects air. After exiting the ka, measure 7 streams of aerated liquid

are reflected off the plate 9 and rise upward to the flow of the original PULP. The resulting flotation complexes float and are removed from the pulp surface. 1 il.

The invention relates to the field of mineral processing by flotation, in particular to devices for the flotation separation of minerals, and can be used in the processing of ore and non-metallic materials, in the chemical industry.

The aim of the invention is to improve the performance of the flotation process by improving its aerohydrodynamic conditions.

The drawing shows a flotation machine, frontal section.

The flotation machine consists of a flotation chamber 1, into which a pipeline 2 is introduced along the top axis to feed the original pulp. Inside the chamber 1, under the pipeline 2, a cylindrical nozzle-aerator 3 is installed coaxially with the cone upward to supply the initial pulp with a tangential nozzle 4 for supplying the working fluid and an outlet nozzle 5.

A cylindrical ring 6 is located coaxially to the cylindrical nozzle-aerator. Under the nozzle-aerator 3, an air chamber 7 is open with a tangential air nozzle 8, made in the form of a truncated cone and attached to the cylindrical part of the aerator 3 with a smaller base. Under the air chamber 7 at the bottom of the chamber 1 there is a fender plate 9, made in the form of a truncated cone. In the upper part of the chamber 1, pecogons 11 are located near the drain thresholds 10.

Flotation machine works as follows.

The original pulp through the pipeline 2 enters the lower part of the flotation cell 1 on the cone-shaped surface of the nozzle-aerator 3 and over the limited space between the nozzle-aerator 3 and the cylindrical ring 6 enters the zone of intense aeration. A working fluid is tangentially supplied to the nozzle aerator 3 through the nozzle 4 under pressure.

which can be used part of the original feed, recycled plant water, filtrate, etc. The working fluid, leaving the nozzle 5 in the form of a free hollow cone-shaped jet, carries air from the air chamber 7, into which air is forced through the air nozzle 8 to create a gas-liquid interface. The floor cone-shaped jet, together with the air expelled from the air chamber 7, hits the demolition plate 9, while the air bubbles are additionally dispersed in the submerged jets. The pulp from the pulp air mixture, reflected from the fender plate 9, is directed upwards, which, due to flotation in countercurrent, ensures the extraction of larger particles of the useful mineral. The formed flotation complexes float up and are removed from the pulp surface by foams 11.

Claims (1)

Invention Formula A flotation machine, including a flotation chamber, in which the pipeline is fed along the top axis to feed the original pulp, under which the nozzle-aerator with the outlet nozzle and the tangential nozzle for supplying the working fluid, connected to the nozzle-aerator and the air chamber, are open coaxially with it bottom, with a tangential air inlet pipe, and a baffle plate, characterized in that, in order to improve the performance of the flotation process by improving its aerohydrodynamic conditions, the machine is equipped with matic ring disposed coaxially with the nozzle-aerator formed cylindrical and conical part facing to the conduit for supplying raw pulp, an air chamber is formed in the shape of a truncated cone and connected to 515549756 the cylindrical part of the nozzle-aeroplate is made in the form of a truncated kotor with a smaller base, and the fender nozzle.