SU1484374A2 - Floatation machine - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to the flotation of minerals. The goal is to increase the extraction of valuable components, the quality of concentrates and to reduce the consumption of reagents by optimizing the dispersion mode in the air pulp. The flotation cell / K / 1 has devices for removing foamy 2 and chamber 3 products. Outside K 1, a pneumopulsation aerator / A / 4 is installed, consisting of a cylindrical body 8 and horizontal partitions installed one above the other 5. The latter are made in the form of perforated rings. And 4 through the pipe (P) 6 communicates with the pneumatic pulsator 7 and the source of compressed co-creature. In the housing 8 at a distance H from the lower edge of A 4 there are holes 9 in which P 10 supply of reagents is installed. The distance H is from 1/4 to 1/3 of the height A 4. The angle of inclination of the P 10 to the tangent or forming body 8 can be varied by means of a hinged connection from 0 to 90 °. In the lower part of A 4 there are bumpers 11, having a central opening with a conical wall. The pulp, filled with А 4, receives an oscillating vertical movement, is turbulized and mixed with air and reagents supplied through P 10. The prepared pulp is periodically displaced into K 1, where the flotation process takes place. By changing the angle of inclination of the P 10, an optimum pulp aeration mode, intensity and degree of air dispersion are achieved. 2 hp f-ly, 3 ill.

Description

The invention relates to the enrichment of minerals, in particular to devices for the separation of mineral particles by the flotation method, and is an improvement of the invention according to the author. St. No. 1407561.

 The purpose of the invention is to increase the extraction of valuable components, concentrate quality and reduce the consumption of reagents by optimizing the dispersion mode in the air pulp,

FIG. 1 shows a flotation machine, a slit; in fig. 2 is a section A-A in FIG. 1; in fig. 3 - implementation of the nozzle supply flotation reagents.

The machine consists of a flotation chamber 1 with devices for removing foamy 2 and chamber 3 products, a pneumopulse aerator 4 installed outside the chamber 1 and consisting of horizontal partitions installed one above the other and made in the form of perforated rings. In the upper part of the aerator there is a pipe 6 connecting the aerator 4 with a pneumatic pulsator 7 and a source of compressed air.

In the housing 8, which is made chrinshdric, at a height h from the lower edge of the aerator 4, holes 9 are made in which nozzles 10 are installed. The height is 1/4 - 1/3 of the height of the aerator 4 (H). In the lower part of the aerator 4 there is a pulp chute 11 with a central opening with a conical wall.

Nozzles 10 for introducing reagents are located on different sides of the aerator 4, their installation angle for controlling the reagent supply process can be changed by means of a ball joint 12 fixed to an inward opening made in the form of a conical notch with the apex inside. in relation to the tangent and to the generators of the body 8 of the aerator 4. On the outside, the hinge connection 12 is supported by a washer 13.

The machine works as follows.

The original pulp is fed to the flotation cell 1. The pulp is also filled with the pulsation aerator 4, which communicates with the flotation cell 1.

The upper part of the pulsating aerator 4 is connected alternately with a low-pressure compressed air source and with the atmosphere by means of the pulsator 7, as a result of which the pulp filling the aerator 4 receives a vertical oscillatory movement. It is periodically displaced from the aerator 4 into the flotation cell 1 and refills the aerator 4. When the pulp oscillating speed is greater than 2 m / s, the passage through the holes of the horizontal perforated partitions 5 is highly turbulized and mixed with air. The flotation reagents are fed through tangential side nozzles 10 in the lower part of the aerator 4 and, falling into a highly turbulized aerated pulp, is equal to

they are mixed with it. In this case, surface-active agents, such as blowing agents, concentrate on the surface of air bubbles, preventing their coalescence, which leads to a significant decrease in the average size of the bubbles. The pulp prepared in this way is periodically forced into the flotation chamber 1, where the flotation process takes place.

Reagents enter the aerator 4 mainly when the aerator 4 communicates through the pulsator 7 with the atmosphere, the pulp enters it from the flotation cell 1 and rises, passing through the holes of the perforated partitions 5. At the same time, the pressure in the aerator 4 decreases simultaneously due to the upward movement of the pulp, an ejection effect occurs and conditions are created for the flow of reagents into the aerator 4. Optimal conditions for entering the reagents into the aerator 4 are created when the pipes K) of the supply of reagents are located on distance, 25 - 0.33 of the aerator 4 (N) height from the lower edge of the aerator 4. When the nozzles 10 are located at a distance of more than 0.33 K from the lower edge of the aerator 4, the excess air pressure in the upper part of the aerator 4, not compensated by ejection the effect prevents the ingress of reagent. If the nozzles 10 are located at a distance of less than 0.25 N, the reactants enter the flotation cell 1 without sufficient mixing.

Installation by nozzle 10 with the ability to change the angle of inclination to the cas

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body or forming body 8, achievable due to the presence of a hinge joint 12, allows to choose the most favorable reagent supply direction, ensuring unhindered flow and sufficient mixing with the pulp.

Thus, with the operation of the aerator 4, an increase in the amount of dispersed air and a decrease in the particle size of bubbles is achieved, which provides an increase in the flotation rate of both small and large mineral particles while reducing the amount of blowing agent, which ultimately provides an increase in the extraction of valuable components, quality concentrates and reduction of reagent consumption.

Claims (3)

1. Flotation machine on auth. No. 1407561, characterized in that, in order to increase the extraction of valuable components, the quality of concentrates and the reduction reagent consumption due to optimization of the dispersion mode in the air pulp, the flotation machine is equipped with flotation reagent supply nozzles installed in holes made on the outside of the aerator at a distance of 1/3 - 1/4 of the aerator height. 2. Machine pop. 1, differing in that the nozzles are mounted with the possibility of changing the angle of inclination to the tangent or forming aerator from 0 to 90 °. 3. Machine on PP. 1 and 2, that is, that the pipes are installed tangentially to the aerator. xx Compiled by V.Morozov Editor I.Gorna Techred M.Didyk Proofreader L.Natay Order 2967/4 Circulation 498 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 eight 12 Id Fig.Z Subscription