SU984497A1 - Flotation classifier - Google Patents

Description

The invention relates to mineral processing by flotation and may be used in non-ferrous and ferrous metallurgy in the flotation concentration of ore

A device for flotation ⁵ classification is known, including a housing, a package of aerial lifts with tubes for supplying air, an airlift for unloading sands, a drain collector together with a foam product. til

The disadvantage of this device is the low efficiency of the flotation classification process, due to the method of forming the source pulp flows to the airlift for unloading the sands and the joint removal of the drain and foam product from the device.

The closest to the proposed by _m technical essence and achieved result is a flotation classifier, comprising a cylindro discharge chamber and the drain patrub2 kami hollow cylinder aerator penosborny trough [2].

The disadvantage of such a flotation classifier is the low efficiency of the flotation classification process as a result of the uneven distribution of pulp and gas bubbles in the volume of the flotation classifier.

The purpose of the invention is to increase the efficiency of flotation classification due to the uniform distribution of pulp flows and gas bubbles.

This goal is achieved by the fact that the flotation classifier, which includes a cylinder-conical chamber with discharge and drain pipes, a hollow cylinder, an aerator, a foam chute, is equipped with an electrode block with electrodes, a pilind-racic flow distributor, a drain cup, and a drain cup is installed inside the flow distributor and connected with a drain pipe, and the electrode block is fixed outside the flow distributor, while the electrodes are cylindrical or in the form of a spiral.

In FIG. 1 shows a device, a General view; in FIG. 2 - section AA in Fig.!.

The flotation classifier includes a cylinder-conical chamber 1 with a discharge port 2 in the bottom part, a hollow cylinder 3, an air aerator 4 installed inside the chamber 1. A cylindrical-flow distributor 5 is placed in the center of chamber 1, the electrode station 6 with electrodes 7 is fixed on the outside of its cylindrical part A drain cup 8 is installed inside the cylinder-conical distributor 5 ^{, 5 of the} flows. air divisor 11 is connected to WHO-stuffy aerator ²⁰ 4.

Spray device 12 is used to extinguish the foam in the foam gutter 10.

Flotation classifier works ²⁵ as follows.

The pulp is fed to a cylinder-conical distributor of 5 flows, from which flows to the walls of the foam collecting channel 10. When air is supplied to the air ³⁰ aerator 4 and direct current to the electrodes 7 of the electrode station 6 in the space between the cylinder 3 and the cylindrical part of the cylinder-conical distributor 5 flows the upward flow of air bubbles in E5, which is distributed between the electrodes 7 of the electrode station 6. This stream of air bubbles ~ together with bubbles of electrolysis gases released to the electrode x 7, forms ⁴⁰ on the surface of the pulp mineralized foam, which is removed along the foam gutter.

Large and hydrophilic particles of the solid phase of the flotation pulp pass through the ^45th foam layer and under the influence of their own weight and pulp flows fall in the space between the walls of the chamber 1 and the inner cylinder 3 down to the bottom of the chamber 1 and the discharge pipe ⁵⁰ through which they are unloaded. Fine particles at a glance! ascending flows inside the cylindrical part of the cylinder-conical flow distributor 5 are lifted up and collected in a drain cup 8, from which they are removed through a drain pipe 9.

The presence in the flotation classifier of a drain cup 8 connected to a drain nozzle 9, a cylinder-conical flow distributor 5, and an electrode station 6 make it possible to achieve a uniform distribution of pulp slots and gas bubbles in the chamber volume and thereby increase the efficiency of the own flotation classification process. Moreover, in the flotation classifier, the processes of electrochemical pulp aeration and foam separation were carried out, which also led to an increase in the efficiency of flotation classification.

Thus, the proposed flotation classifier increases the efficiency of the flotation classification process due to the uniform distribution of pulp and gas bubble flows.

Claims (2)

The invention relates to the enrichment of minerals by flotation and the set to be used in color and black metallurgy during flotation enrichment. A device for flotation classification is known, including a housing, a package of airlifts with air supply tubes, an airlift for unloading sands, a collection of drains together with a foamy product .1 . The disadvantage of this device is that the efficiency of the flotation process for the procession (classification, due to the method of forming the original pulp to the airlift for unloading sands and the combined removal of the discharge and froth product of the device. The closest to the proposed technical essence and the achieved result is the flotation classifier that includes cylindrical chamber discharge and discharge pipe, hollow cylinder, aerator, G 2 D collecting gutter. The disadvantage of such a flotation classifier is the effect of the flotation classification photon process as a result of the uneven distribution of pulp and gas puff streams in the flotation classifier. The purpose of the invention is to increase the flotation classification efficiency by uniformly dissolving the flow of pulp and gas bubbles. with discharge and drain connections, hollow cylinder, aerator, foam gutter, supplies with electrode unit with el Electrodes, cylindrical flow distributor, drain cup, iq) H4eM drain cup are installed inside the flow distributor and connected to the drain socket, and the electrical unit is fixed outside the flow distributor, and the electrodes are either spiral or. FIG. 1 device, general view; in fig. 2 shows section A-A in FIG. f. The flotation classifier includes a cylindrical conical chamber I with a discharge pipe 2 in the bottom part, an air aerator 4 installed inside the chamber 1, a hollow cylinder 3, a cylindroconical distributor 5 streams placed in the center of the chamber 1, outside the cylindrical part of which is fixed an electrode station 6 with electrodes 7. Inside the cylindrical cone the distributor 5 flows installed drain Cup 8, connected to the drain pipe 9. In the upper part of the chamber around the perimeter there is an annular transfer girder 10. Distribute An air plug 11 is connected to the air aerator 4. Spray grip device 12 is used to extinguish the foam in the collecting tank 10. The flotation classifier works as follows. The pulp is fed to the cylindrical distributor 5 flows, from which flows downstream to the walls of the foam collector chute 10. When air is supplied to the air aerator 4 and direct current to the electrodes 7 of the electrode station 6, the space between the cylinder 3 and the cylindrical distributor of the cylindrical distributor 5 flows is formed an upward flow of air bubbles, which is distributed between the electrodes 7 of the electrode station 6. This flow of air bubbles, along with puffs of electrolysis gases passing through the electrodes 7, forms mineralized foam on the surface of the pulp, which is removed along the collecting chute. The large and hydrophilic particles of the solid phase of the flotation pulp pass through the foam layer and, under the action of their own weight and pulp flows, are lowered in the space between the walls of chamber 1 and the inner cylinder 3 down to the bottom of chamber 1 and the discharge port 2 through which they are unloaded. Small particles behind the C4ef rising pd fluxes inside the cylindrical part of the cylindrical flow distributor 5 under 98 97 go up and are collected in a drain cup 8, from which they are removed through the drain pipe 9. In the flotation classifier of the drain cup 8, connected to the drain pipe 9, the 5th flux distributor, the electrode station 6 makes it possible to achieve uniform distribution of pulp and gas bubbles drips in the chamber volume and thereby increase the efficiency of its own flotation process ion classification. At the same time, the processes of electrochemical pulp aeration and foam separation were carried out in the flotation classifier, which also led to an increase in the efficiency of flotation classification. Thus, the proposed flotation classifier increases the efficiency of the flotation classification process by uniformly distributing the flows of pulp and gas bubbles. Claim 1. The flotation classifier, including a cylindrical chamber with discharge and drain pipes, a hollow cylinder, an aerator, a foam collection chute, characterized in that, in order to increase the efficiency of flotation classification by uniformly distributing the pulp flows in the gas pools, it is equipped with a leftover pattern. with electrodes, cylindrical flow distributor, drain cup, a liquid cup installed inside the flow distributor and connected to the cream branch pipe, and rodnSh unit fixed outside rassch) edelitep streams. 2. Classifier according to claim 1, that is, that the electrodes are filled with cylindrical. 3. The classifier according to claim 1, that is, in that the electrodes are made in the form of a spiral. Sources of information taken into account in the examination 1. The author's certificate of the USSR N 13343O, cl. OZ D 1/20, I960. 2. Tsvetna metallurgists, 1978, No. 10, p. 23-25 (jurootype).