SU1007738A1 - Flotation machine - Google Patents

Abstract

A FLOTATION MACHINE, including a chamber, a shaft with a fixed impeller, a stator in a vice with blades and an electrolysis cell with electrodes, differs from that, in order to increase service life and reduce operating costs, one of the electrodes is made in the form of crowns mounted on blades stagora, and the other electrode is made in the form of a stator with monolithic metal blades installed opposite the stator blades.

Description

11 The invention of ognosigs to the enrichment of minerals by the flotation method, in particular, to flotation devices and contact vats having a stator fixed on the block of the aerator, and can be used in the flotation of raw materials and ferrous metals. Known flotation machines include a chamber, a shaft with a fixed impeller, a stator mounted on the aerator unit, an electrolysis cell, one of the electrodes of which is made in the vice flat metal plate and located at the bottom of the chamber, and the other in the vice metal mesh located along the back wall or horizontal but between the side walls slightly below the level of the pulp tl. A disadvantage of the known devices is the high power consumption due to the remoteness of the electrodes from each other, as well as sticking during operation of a part of hydrogen bubbles (oxygen) to the surface of the grid electrode due to its location in the laminar upward flow area of the calm pulp zone. similar in technical essence and the achieved result to the proposed is a flotation machine, comprising a chamber, a shaft with a fixed impeller, a stator in the form of a disk with blades and an electrolysis cell with an electrode ami Moreover, one electrode is placed on the bottom of the chamber, and the other is clamped on the impeller 12. Placing the electrode on the impeller reduces the life of the impeller from 3 years to 6 months. Because of the aggressiveness of the working environment in the flotation chamber, the impeller's electrode surface is highly corroded and wears off quickly. From these practices it is known that changing the electrode surface on the impeller is impossible. It is necessary to change the entire impeller with a new one. Due to the fact that much more stringent wear tolerances than cTiaTOpy are imposed on the impeller as the main working body of the flotation machine, the impeller, under equal conditions of operation with the stator, has to be changed more often, which causes additional costs. Therefore, it is preferable to use the stator surface rather than the impeller as the electrode. In addition, the impeller shift operation

associated with a possible deformation of the shaft, so dismantling it is more expensive than with the stator.

carriers of compacted particles of sulfide minerals into the froth product. For strengthening in mineral microcracks 382 The purpose of the invention is to increase the duration of the service of a photopower machine and lower operating costs. This target is aerated by the fact that in a flotation machine that includes a chamber, a shaft with a fixed impeller, in the form of a disk with blades and an ejector cell with electrodes, one of the electrodes is made in the form of crowns fixed on the stator blades, and the other in the form of statuses with monolithic chess blades installed opposite the stator blades. FIG. 1 shows the machine, a general view; not figs. 2 - the stator with the upper electrode; in fig. 3 — the lower electrode; the flotation machine includes a caval 1, a shaft 2 with a fixed impeller 3, a stator 4 in the form of a disk 5 with blades 6, and an electrolysis cell with electrodes, with one electrode 7 made in the form of crowns fixed. on the blades 6 of the stator 4, and the other electrode 8 - in the form of the stator 4 with monolithic metal blades 9, installed opposite the blades 6 of the stator 4. The electrode 8 is installed at the bottom of the chamber 1. The flotation machine is following. in the wild. When the shaft 2 rotates with the impeller 3 fixed on it under the disk 5 of the stator 4, the pulp is moved and aerated by air entering the chamber 1 using an aerator of mechanical or pneumomechanical type. The pulp is ejected from under the impeller space into the chamber volume between the blades 6 of the stator 4 and under the blades 6, in this case there is a db complete splitting of air bubbles. The particle size of the dispersion of air bubbles is about 0.8 mm. When current is applied to the blades 9 of the electrograph 8 and electrode 7, the electrolysis of the liquid phase of the pulp leads to aeration of the bubble suspension circulating through the inter-electrode space, hydrogen and oxygen with a particle size 1-2 times smaller than the size of air bubbles. Chutips of the useful mineral, fixed on the bubbles, rise to the surface of the pulp, forming a mineralized foam. The useful component is floated, the waste minerals form a chamber product. Electrolysis gases are good.

particles of increased size, bubbles of electrically generated gases contribute to the entrapment of dust particles on the surface of air bubbles capable of lifting these particles into the foam layer. Bubbles 5 of electrolysis gases prevent the premature destruction of the foam and the subsequent shedding of the flooded particles into the pulp volume.

Placing the slug from the electrodes on the stator's pole, and not on the impeller, provides an increase in the life of the impepper from 6 months. up to 3 years due to the possibility of full rubber gumming of its surface., j

The electrode at the bottom of the chamber is an avalange display of the stator. Such an electrode shape provides an optimal distance between the electrodes and has

electrolysis cell in the case of turbulence of the Pescova part of the pulp.

Reducing the interelectrode to the optimum leads to a decrease in voltage drop c. The interelectrode space, in addition, by stripping the electrode surface with turbulent sand flows of pulp captured into the impeller zone from the bottom of the chamber and ejected by the stator vanes, allows to reduce the cathodic and anodic I polarization, and hence the electric power for electrolysis of the pulp phase.

 Thus, the proposed photoelectric machine reduces operating costs and has an increased service life.

FIG. g

Fig.d

Claims (1)

A FLOTATION MACHINE, including a chamber, a shaft with a fixed impeller, a stator in the vice of the blade with blades and an electrolysis cell with electrons, is important to increase the service life and reduce operating costs , one of the electrodes is made into vice crowns mounted on the stator blades, and the other electrode is made in the form of a stator with monolithic metal blades mounted opposite the stator blades. SU p .. 1007738 1 1007738 2