SU1391714A1 - Floation machine - Google Patents

Abstract

This invention relates to the beneficiation of minerals. The purpose of the invention is to reduce energy consumption and operating costs by eliminating forced air supply. An aerator (A) 2 is installed in the recirculation chamber 1 of square section, including a hollow shaft 4 and a rotor fixed on the shaft 4. The latter includes a disk (D) and V-shaped horizontal section, radially fixed on D, hollow blades (L), gradually decreasing with distance from D. Under D, parallel to it, in the space between L is installed a figurnal plate. Its diameter is 0.7-0.8 diameters D. A stator 3 is mounted around A 2. When the rotor A 2 rotates, the pulp entering the space between the blades from the bottom, the centrifugal force through the stator 3 is thrown into the volume of chamber 1. At a certain speed pulps behind the lary sides of A and along the edge of the plate in the direction of D, vacuum zones appear. They are filled with air entering through the shaft 4, which is entrained in the stator 3, dispersed and floats in the chamber 1 in the form of bubbles. The latter provide flotation of hydrophobic particles. 1 hp f-ly, 3 ill. with (L with g L. G

Description

one

This invention relates to the enrichment of minerals by the flotation method, in particular, to flotation machines of the mechanical type.

The aim of the invention is to reduce energy costs and operating costs by eliminating the forced supply of air to the flotation machine.

FIG. 1 shows a flotation machine; in fig. 2 - aerator, bottom view; in fig. 3 - rotor of the aerator, side view.

The flotation machine consists of 1 square section straight-through chambers in which an aerator is installed.

2 and around the aerator 2 — the stator 3. The aerator 2 includes a hollow shaft 4, a rotor fixed on it, a disk 5 and a hollow blade 6 of a V-shaped horizontal section radially fixed on it, gradually decreasing with distance from the disk 5. Under the disk 5, parallel to it, a plate 7 is installed in the space between the blades 6. The diameter of the plate 7 is 0.7-0.8 of the disk diameter.

The device works as follows.

As the rotor of the aerator 2 rotates, the pulp entering the space between the blades 6 from the bottom is ejected by centrifugal force through the stator

3 into the chamber volume 1. At a certain pulp speed, behind the tympanic sides of the blades 6 and along the edge of the plate 7 in the direction to the disk 5 there appear vacuum zones that are filled with air entering through the hollow shaft 4 into the space between the disk 5 and the plate 7. Air from these zones are entrained by pulp flows into the stator 3, dispersed and floated.

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In the chamber 1 in the form of small bubbles, providing flotation of hydrophobic particles from the pulp in the chamber 1. The resulting foam and chamber products are removed from chamber 1 in a conventional manner.

The supply of the aerator with the shaped plate 7 provides intensive suction and dispersion of air in the flotation machine without the use of an additional blower. When performing figured plate 7 with diameter-. A rum equal to 0.7-0.8 of the diameter of the disk 5 provides optimum air suction and dispersion by the aerator 2. At the same time, the optimal hydrodynamic conditions of dispersion and the maximum aeration capacity of the aerator occur in the case of the presence of four hollow V-shaped blades.

Claims (2)

1. A flotation machine containing a chamber and an aerator installed in the chamber, consisting of a hollow shaft mounted on a hollow disk shaft with V-shaped radially mounted hollow blades in cross section, and a blade stator mounted around the aerator, which differs from so that, in order to reduce energy consumption and operating costs by eliminating the forced supply of air to the flotation machine, the aerator is provided with a ferrous plate mounted parallel to the disk between the blades, the plate diameter being 0, 7-0.8 diameter of the disk. 2. A machine according to claim 1, wherein the aerator has four blades. 25 thirty 35 40 45 Rig.2 FIG. Have