SU1717239A1 - Pneumatic column flotation machine - Google Patents

Abstract

This invention relates to enrichment. The goal is to increase the recovery of the useful component by providing the required specific surface of the foam layer to the pulp flow entering the flotation. The pneumatic machine consists of a chamber 1 with aerators 2. At the top of the chamber 1 there is an expander 4, made in the form of a truncated pyramid. With a large base expander 4 articulated more

Description

Chamber product

Rig.Z

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the base of the vacuum foam receiver 8, also made in the form of a truncated pyramid. The walls of the expander 4 and the foam receiver 8 are made with the possibility of simultaneously changing the angle of their installation relative to their smaller bases. On the side of the ribs of the truncated pyramids of the expander 4 and the foam receiver 3, adjacent walls are articulated with each other by elastic material 5. When the flow rate of the pulp entering the flotation into chamber 1 is changed, the surface area of the foam layer is changed by changing the angle of installation of the walls of the expander 4. At that At the same angle, the position of the walls of the foam receiver 8 is changed, thereby avoiding depressurization and collecting the foam product from the entire surface of the foam layer. 4 or ..

The invention relates to the enrichment of minerals by the flotation method, and specifically to the structures of pneumatic column flotation machines.

A known design of a pneumatic column of a flotation machine, comprising a chamber with air aerators and a device for unloading a chamber product with a gate for adjusting the level of frothy product in the chamber of the machine.

The known structure is a column of a pneumatic flotation machine. It includes a chamber with air aerators, in the upper part of which, in the cleaning zone, the expander is made in the form of an inverted truncated cone, through the side walls of which the foam product is unloaded, and the chamber product is unloaded through the unloading chamber. product.

However, the relatively low recovery of the useful component into the concentrate due to the impossibility of ensuring in the machine chamber that the required specific surface of the foam layer is achieved with the flow of pulp fed to the column flotation reduces the extraction of the useful component into the concentrate.

The purpose of the invention is to increase the recovery of the useful component in the concentrate.

The goal is achieved by ensuring in the chamber of the column machine that the required specific surface of the foam layer is consumed with the flow of pulp fed to flotation. The pneumatic column of the flotation machine includes a chamber with air aerators, in the upper part of which a dilator is made in the cleaning zone, as well as a device for removing the chamber product. Removal of the frothy product occurs with the help of a vacuum foam receiver installed above the expander. To achieve this goal, the column machine includes a device for simultaneously changing the installation angle of all four side walls of the expander, made in the form of a hollow inverted truncated pyramid. In this case, the vacuum foam receiver is a truncated pyramid, the larger base of which is articulated with the large base of the expander. All side walls of the expander and the vacuum foam receiver are made with the possibility of changing their installation angle relative to their smaller bases. The side walls of the expander are articulated with one another on the side of the ribs by an elastic material. Vacuum foam receiver is made similarly.

FIG. Figure 1 shows a general view of the proposed machine without changing the installation angle of the side walls of the expander; in fig. 2 shows section A-A in FIG. one; in fig. 3 is the same as in FIG. 1, but with a modified angle of installation of the side walls of the expander and the vacuum foam receiver; in fig. 4 shows a section BB in FIG. 3

The pneumatic column of the flotation machine includes a chamber 1, in the lower part of which air aerators 2 are installed and a device 3 for removing chamber product, in the upper part of chamber 1 in the concentrate cleaning zone is made in the form of a hollow inverted truncated pyramid expander 4, the side walls of which are from the side of the ribs 4 are articulated with one another elastic material 5. To change the angle of installation of the side walls of the expander 4, there is located under it a device 6, which with its arms 7 is connected with the side walls with unity at the top of the side walls of the vacuum penopriemnika 8 Penopriemnik 8 is made in the form of a truncated pyramid, the lateral walls of which are arranged to change their angle setting a relatively smaller base and side edges are coupled to one another elastic material 9. The machine operates as follows.

The slurry pretreated with reagents enters the flotation column in the upper part of chamber 1 and air is supplied through aerators 2. In the chamber of the machine 1, a countercurrent flotation process takes place, as a result of which the chamber product is discharged through the device 3, and the froth product through the expander 4 is removed using a vacuum foam receiver 8. The value of the specific surface area has a great influence on the flotation column process in the chamber 1 foam layer, i.e. the ratio of the surface area of the foam layer to the volume of the chamber of the machine.

During operation of the column machine, the flow rate of the pulp fed to the flotation does not remain constant over time. Therefore, it becomes necessary to ensure compliance with the specific surface of the foam layer to the pulp flow when changing the pulp flow rate. Thus, with an increase in the pulp flow rate, it is necessary to increase the specific surface of the foam layer, and when the pulp flow decreases, to decrease the specific surface area of the foam layer. For this, during the operation of the machine, the flow rate of the pulp entering the column flotation is determined, and depending on its value relative to the nominal, the surface of the foam layer in the expander 4 is increased or reduced. The surface of the foam layer in the expander 4 is changed by changing the installation angle of all four lateral its sides using the device 6, the device 6 provides a simultaneous change in the installation angle of all the side walls of the expander 4 relative to its smaller base. Due to this, the area of the upper (larger) base of the spreader 4 changes, i.e. the surface area of the foam layer changes and, consequently, the specific surface area of the foam layer, since the volume of the machine chamber is practically unchanged. Simultaneously with the change in the installation angle of the side walls, the expander 4 changes the angle of inclination of all the side walls of the vacuum foam receiver 8 relative to its smaller base, i.e. the larger base of the vacuum foam receiver 8 will always be equal to the surface of the foam layer in the expander 4 (the larger base of the expander 4 for all changes in the installation angle of its side walls). This is due to the fact that the large bases of the expander 4 and the vacuum foam receiver 8 are connected to each other, and a change in the surface of the larger base of the expander 4 will always cause the same change in the receiving surface of the vacuum foam receiver 8 (Fig. 2). This eliminates the loss of vacuum, and also increases the extraction of the useful component in the froth product (concentrate). Thus, for all changes

the pulp flow rate fed to the column flotation, the developed device ensures the constancy of the specific surface of the foam layer and eliminates vacuum losses during foam removal, which, when enriched

manganese ore provides an increase in the extraction of manganese in concentrate compared to the base object by 0.96%,

Claims (1)

Pneumatic column flotation machine, including a chamber with aerators and an expander in the upper part, and a vacuum foam receiver, characterized in that, in order to increase the extraction of the useful component by providing the required specific surface of the foam layer to the pulp flow to the flotation, vacuum foam receiver and the expander is articulated with large bases and made in the form of truncated pyramids with the possibility of simultaneously changing the installation angle of all their walls relative to the smaller ones. At the same time, the adjacent walls of the expander and the adjacent walls of the vacuum foam receiver are articulated with each other by means of an elastic material. Litany g Air 1717239 1-6