SU984498A1 - Pneumatic flotation machine - Google Patents

Description

(5k) PNEUMATIC FLOTATION MACHINE

one

The invention relates to the enrichment of minerals, in particular, to devices for the flotation separation of minerals, and can be applied in the flotation of non-ferrous, ferrous and rare metal ores, in the enrichment of non-metallic raw materials and coal.

A pneumatic flotation machine is known, including a cylindrical column, powering and discharging devices, a foam collecting chute, a perforated tube aerator. In this machine, the mineralization of air bubbles occurs only in countercurrent, with the counter-movement of mineral particles and gas bubbles Cl}.

However, the mineralization of air bubbles with only the gushing movement of material and air in the pulp volume does not always turn out to be highly effective, and the degree of mineralization is sufficient and necessary for the complete extraction of the useful component. Experience in the enrichment of various minerals revealed the need to create in the chamber volume of the countercurrent flotation machine flotation zones, where the movement of mineral particles and air takes place in one direction, which leads to an increase in the degree of mineralization of air bubbles.

Closest to the proposed technical essence and the achieved result is a pneumatic flotation machine, which includes a cylinder-conical chamber, a loading and unloading device, a foam collecting chute, a C2 aerator.

Claims (2)

The known machine designed to enrich the minerals by countercurrent flotation solves the problem of increasing the degree of mineralization of air bubbles, and therefore increasing the efficiency of countercurrent flotation by classifying the source material and uniformly distributing it into size classes in various zones of the column. Mineralization of air bubbles Q in a known machine occurs mainly in counterflow, and only in the fender visors does the mineralization of bubbles occur during the movement of mineral particles and air in one direction, that is, in the flow. Such a partial increase in the salinity of air bubbles is observed only in the area of the fender visors; it occupies an insignificant place and does not completely solve the problem of increasing the degree of mineralization of air bubbles in the entire chamber volume. The purpose of the invention is to increase the flotation efficiency by increasing the degree of mineralization of air bubbles and uniform distribution of the material in the chamber volume. This goal is achieved by the fact that in a pneumatic flotation machine that includes a cylindrical chamber, loading and unloading devices, a foam collecting chute aerator, the loading device is made in the form of louvre elements forming a hollow truncated cone, the smaller base of which is directed to the unloading device, while the elements The blinds are installed by a large base to the foam gutter. In addition, the height of the loading device is equal to the height of the cylindrical part of the chamber. FIG. Figure 1 shows the pneumatic flotation machine, general view; in fig. 2 shows a variant of the charging device with a central feed of the initial power supply; in fig. 3 shows a version of the loading device with a tangential feed of the starting material; in fig. C - section A-A in FIG. 3; in fig. 5 is a section BB in FIG. The pneumatic flotation machine includes a cylindrical-shaped chamber 1, a discharge device 2 for tailing, an aerator 3 for saturating the pulp with air, made in the form of perforated tubes and installed in the conical part of the chamber, a foam-collecting chute 4. The loading device 5 is made in the form of 6 louver elements. forming a hollow barred cone, the smaller base of which is directed to the unloading device, while the louver elements are mounted with a large base to the foam gutter. 8 boot device has in the lower part of the pipe 7 with the fitting 8 and the valve 9. The machine operates as follows. The chamber 1 is filled with water with a foaming agent, then compressed air is fed into the aerator 3 to saturate the pulp with air. The pulp, pre-treated with reagents, is fed into the loading device 5- To improve the distribution of material particles on the inner surface of the cone, the food to the loading device 5 can be applied tangentially (Fig. 3) or it is possible to combine both options (Fig. 2 and 3), for example, the simultaneous feeding of the coarse-grained part of the food is tangential, and the fine-grained part - centrally. The pulp flow leaves the elements 6 of the louver of the charging device 5 and encounters rising air bubbles coming from the aerator 3. The air bubbles are not mineralized in chamber 1 either in the flow of aerated pulp or in counter flow. The mineralized foam enters the foam collecting chute k, the chamber product is discharged through the pipe 2. Large excess grains in the feed are removed from the loading device 5 by means of the pipe 7 connected with the apex of the cone. The excess grains are washed from the product fraction and this fraction is returned to the flotation zone with water supplied through fitting 8. Exhaust grain is then discharged by the valve 9. To increase the mineralization zone, the height of the cone is equal to the height of the cylindrical part of the machine chamber. Constructive elements of the loading device ensure the separation of the initial feed stream into many small streams and thereby reduce the speed of the streams, reduce turbulence. In a pneumatic flotation machine, the source material is evenly distributed in the chamber volume, grains of mineral particles are dispersed throughout the mineralization zone, which leads to an increase in the degree of mineralization of air bubbles, to increase the efficiency of flotation. The structural elements of the machine contribute to the formation of a zone of mineralization of air bubbles in the stream of aerated pulp, streamline the hydrodynamics of the flows, and increase the efficiency of the flotation process. Thus, the proposed pneumatric (flotation machine increases flotation efficiency by increasing the degree of mineralization of air bubbles and uniform distribution of material in the chamber. Claim 1. Pneumatic flotation machine, comprising a cylindrical conical chamber, loading and unloading devices, a collecting tank aerator, characterized in that, in order to increase flotation efficiency by increasing the degree of mineralization of air bubbles and uniform distribution material in the volume of the chamber, the loading device is made in the form of louvre elements forming a hollow truncated cone, the smaller base of which is directed to the unloading device, and the louver elements are installed with a large base to the foam gutter 2. Machine according to claim 1, lt and that the height of the boot device is equal to the height of the cylindrical part of the chamber. Sources of information taken into account during the examination 1. USSR author's certificate No. 78615, cl. B 03 D 1/21, 1973. 2. USSR author's certificate tf 520132, cl. At 03 O 1/24, 197 (about the .totype). ueJ Cfk / g.Z.