SU1632500A1 - Flotation machine - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to the flotation of minerals. The purpose of the invention is to improve the performance of the flotation process by optimizing its conditions for coarse particles. The flotation machine contains a chamber (K) 1 with a bottom, side and end walls. V Inside K1 there is an impeller 2 with blades, around which sections 3 pneumatic separators 4 of tubular type are located along the perimeter K1 in its lower part. The sections 3 are made in the form of gratings mounted at an angle and with abutment to the side or end walls of K1 and at an angle of from 10 to 75 ° C. to her bottom. When the impeller 2 rotates, the coarse particles are thrown to the walls of K1 and fall into traps formed by sections 3 and walls of K1. In the traps, due to intensive aeration and quenching of the pulp vortex about section 3, optimum conditions are created for the active flotation of coarse particles. The ascending pulp flows at the K1 walls promote the removal of coarse particles into the foam. 4 il. Foamy gh - - - product 1 Air - ny bubbles 5 3 O with N3 SL O O 4

Description

Fig 1

The invention relates to the enrichment of minerals by the flotation method, in particular, to devices for its implementation, and can be used in the processing of ore or non-metallic raw materials.

The aim of the invention is to improve the performance of the flotation process by optimizing its conditions for coarse particles.

FIG. 1 shows a flotation machine, frontal section; in fig. 2 - the same, top view; in fig. 3 shows an embodiment of a flotation machine, frontal section; in fig. 4 - the same, top view.

The flotation machine consists of a chamber 1 with a bottom, side and end walls, inside of which there is an impeller 2 with blades. Inside the chamber 1 along its perimeter at the walls and the bottom around the impeller 2 there are sections 3 pneumatic aerators 4 of tubular type, perforated along their entire surface. Section 3 is made in the form of grids installed in the lower part of the camera 1 at an angle of 10-75 ° to its bottom at an angle and with abutment to its side or end walls and bottom.

Between the walls of the chamber 1 and the sections 3 of the pneumatic aerators 4, traps are formed for the flotation of coarse particles. Pneumatic aerators 4 are connected to compressed air sources by a manifold 5.

If necessary, sections 3 of pneumatic aerators are installed only at the corners of chamber 1, at an angle of 10-75 ° to its bottom, while simultaneously adjoining to the bottom and walls,

The flotation machine works as follows.

The pulp, treated with reagents, passes into the chamber 1 of the flotation machine, where it is aerated by means of pneumatic aerators 4 and impeller 2. Due to the centrifugal forces, the coarse particles are dropped to the walls of chamber 1 and fall into traps formed by sections 3 and walls of chamber 1, where, due to intensive aeration and quenching acting as a hydrodynamic damper for the vortex pulp movement, favorable conditions are created for their active flotation. In addition, due to the high saturation of the pulp near the walls of chamber 1 with air in these zones, upward flows of pulp are formed, contributing to the transport of coarse particles into the foam. The frothy product formed on the surface of the pulp is removed using known devices.

At the angles of inclination of sections 3 to the bottom, chamber 1, less than 10 °, traps for trapping coarse-grained particles are practically not formed, and at angles greater than 75 °, no concentration of air bubbles occurs in them.

Claims (1)

Invention Formula A flotation machine, comprising a chamber with a bottom, end and side walls, an impeller with blades located inside the chamber, around which sections of tubular type pneumatic aerators are located around the perimeter of the chamber in its lower part, characterized in optimizing its conditions for coarse-grained particles; the sections of pneumatic aerators are made in the form of gratings installed with an adjoining to the bottom and extension of the chamber at an angle of 10-75 °. VU3. 2