BG1163U1 - Flotation device - Google Patents

Abstract

The device is used in the flotation of ores of non-ferrous, noble, rare and ferrous metals, technological waste, such as metallurgical slag and clinker, as well as for the treatment of industrial wastewaters. It ensures high flotation selectivity. The device consists of a flotation chamber (1) supplied with DC connected electrodes (4) and, according to the utility model, on the outside and close to two opposite walls of the flotation chamber (1) there are arranged two auxiliary chambers (2, 3) connected to the flotation chamber (1) by means of openings in the walls of the chambers. In the flotation chamber (1) and in the auxiliary chambers (2, 3) there are mounted electrodes (4, 5) capable of changing the polarity. Besides, when the electrodes (4) in the flotation chamber (1) are cathodes, the electrodes (5) in the auxiliary chambers (2, 3) are anodes, and vice versa. The electrode space of each of the auxiliary chambers (2, 3) is separated from the electrode space of the flotation chamber (1) by a membrane (6).

Description

1163 UL (54) FLOTATION DEVICE Field of application The useful model refers to a device for the flotation of ores of colored, noble, rare and ferrous metals, technological waste such as metallurgical slags and clinkers, as well as for the purification of waste water from different industries. Background of the Invention RU 2 203 226 discloses a biochemical purification device for potable water consisting of a flotation chamber and an electrolyser equipped with a plurality of soluble electrodes disposed immediately beneath the flotation chamber. At the bottom of the flotation chamber is formed an opening connecting the electrometer chamber. Close to the vertical walls of the flotation chamber, at least 5 nun spacing, filter sections are arranged, and between them and the side walls the chamber is provided with a space for collecting the purified water and discharging it from the flotation chamber. This known device has a limited application for water purification and can not be used for electrochemical treatment of flotation of minerals and industrial wastes. Furthermore, in the flotation chamber itself, it is not possible to perform electrochemical treatment which is flotation. From BG 45262 there is known a flotation chamber which consists of a flotation cell in which a plurality of working and auxiliary electrodes connected to a direct current source are disposed parallel to each other and disposed downwardly relative to the walls of the flotation cell. A disadvantage of this known flotation chamber is the wear of the working electrodes on the profile of the auxiliary electrodes. In addition, salts are removed from working electrodes, which must be removed periodically. The design of the flotation cell is complicated and the electrodes occupy a significant part of its leaner volume. 10 15 20 25 30 35 40 45 50 Technical nature of the agricultural model The task of the utility model is to create a flotation plant for ores of colored, noble, rare and ferrous metals, technological waste and wastewater treatment replicable production and household design, and to provide electro-chemical processing of the material to be flotted. This task is solved by a flotation device, which consists of a fleet; a shunt chamber provided with electrodes connected to a direct current, and according to the useful model from the lower side and immediately adjacent to two opposing walls, the flotation chamber is provided with two auxiliary chambers connected to the flotation chamber through the walls of the chamber openings. In the flotation chamber and in the auxiliary chambers electrodes are installed, which are capable of changing the polarity, so when the electrodes in the flotation chamber are cathodes, the electrodes in the auxiliary chambers are anodes and vice versa. The electrode space of each of the auxiliary chambers being separated from the electrode space of the flotation chamber is a diaphragm. The electrodes are made of nickel or platinum or a pan or stainless steel or graphite. In a preferred embodiment of the useful model, the electrodes are perforated. The advantages of the flotation device according to the useful model are as follows. The device enables an electrochemical treatment and flotation of the materials to be produced in one and the same flotation chamber, the electrodes mounted in the chamber receiving a small proportion of the useful volume of the chamber. Depending on the type of mines that are flotation , in the electrical chemical processing of the materials, the flotation chamber may be an anode or cathode space which enables the creation of different conditions for electrochemical treatment of the material in an anolyte or catholite medium, The device has a simplified structure and a useful volume of the flotation chamber in comparison with the known solution. Examples of implementation of the utility model According to FIG. 1, the flotation device consists of a flotation chamber 1, on the outside of which two adjacent chambers 2 and 3 connected to the flotation chamber 1 are disposed adjacent to two opposite walls, formed by the walls of the chamber openings . In the flotation chamber 1, two electrodes 4 are arranged adjacent to the walls of the chamber 1 adjacent to the expansion chambers 2 and 3. Each of the auxiliary chambers 2 and 3 is provided with an auxiliary electrode 5, the electrode space of each the auxiliary chambers 2 and 3 are separated from the electrode space of the flotation chamber 1 with the diaphragm 6 disposed in the opening connecting the flotation chamber 1 the adjacent chamber 2 and 3. The electrodes 4 and 5 are connected to a source of direct current and are capable of changed sex Ritten. When the electrodes 4 mounted in the flotation chamber 1 are connected to the DC source of the DC source are cathodes, the auxiliary electrodes 5 associated with the positive pole of the direct current are anodes and vice versa when the electrodes 4 in the flotation chamber 1, the electrodes 5 are cathodes. Accordingly, the electrode space in the floatation chamber 1 is a cathodic space, the auxiliary chambers 2 and 3, an anode, and vice versa. The electrodes 4 and 5 are perforated. In the flotation chamber 1, a pulverizer, an aerator, a stirrer for stirring of the material and the electrolyte located in the flotation chamber 1, a chamber for conducting the chamber product, a drainage conduit, an overflow (not shown in the figures) and other known the specialist in the field of flotation process implements. Each of the auxiliary chambers 2 and 3 is 10 provided with a tube 7 to feed the stock solution. Using the useful model The operation of the flotation device follows. Prior to the flotation, ores can be subjected to electro-chemical treatment in the flotation chamber 1 to activate or depress a particular mineral. When the electrodes 4 disposed in the flotation chamber 1 of the flotation device are connected with the positive pole of the DC source and are anodes and the auxiliary electrodes 5 located in the auxiliary chambers 2 and 3 with the negative pole (cathodes), the inactivation of the minerals contained in the coils which are subjected to flotation , the precursors are produced electrochemical treatment 20 in the anode space of the filtration chamber 1 in an anolyte medium obtained by electrolysis of water. For the depression of certain mines, the ore is treated in the cathode space of the flotation chamber 1 in a catholyte environment, wherein the electrodes 4 are connected to the negative terminal of the source of the constant current and are cathodes, and the auxiliary electrodes 5 of the saandoi. In an exemplary embodiment of the utility model, the flotation chamber 1 and the auxiliary chambers 2 and 3 are filled with water and the electrode 4 is connected to the positive pole of the DC source and acts as anodes and the auxiliary electrodes 5 to the negative pole (cathodes). Flotation chamber 1 feeds milled-pyrite ore containing 85% copper and 6g / t gold. The electrochemical treatment of the ore is carried out at a current density of 0.8 mA / cm2 and a voltage of 10 V for 5 minutes under conditions of constant stirring. As a result, the flotation ability of honey minerals is activated. Flotation is carried out immediately after the electrochemical treatment using an isobutyl sodium isobutyl xanthogenate. As a result, a copper concentrate containing the gold and pyrite waste is obtained. The copper extraction rate is 92% and the gold 75%. When conducting a selective flotation50 of lead-zinc ore, ore is first 3

Claims (3)

1163 U1 undergoes electrochemical treatment in the cathodic space of the flotation chamber 1 for the deposition of the sphalerite, followed by the flotation of the lead minerals. Thereafter, more polarity of the electrodes is changed, the electrodes 4 in the flotation chamber being anodes and the electrodes 5 in the auxiliary chambers - cathodes. The electrophoretic treatment of the chamber product the anode space of the flotation chamber 1 is activated and then zinc flotation is carried out. The above exemplary embodiments do not limit the use of the flotation device which, in addition to the flotation of sulphide and oxidized ores, can be used to reformat industrial waste such as clinkers and slags as well as to purify the off- rainwater from various industries. Claims A flotation device comprising a flotation chamber (1) provided with electrodes (4) connected to direct current, characterized in that from the outside and immediately up to two opposing walls of the flotation chamber (1) are two auxiliary chambers (2, 3) connected to the flotation chamber (1) are formed in the walls of the chamber openings, and in the flotation chamber (1) and auxiliary chambers (2, 3) , which are capable of changing polarity, when the electrodes (4) in the flotation chamber (1) are (5) in the auxiliary chambers (2, 3) are anodes and vice versa, and the electrode space of each of the auxiliary chambers (2, 3) is separated from the electrode space of the flotation chamber (1) ) with diaphragm (6); Apparatus according to one of the preceding claims, characterized in that the electrodes (4, 5) are made of nickel or platinum or titanium or stainless steel or graphite. Apparatus according to claims 1 and 2, characterized in that the lectrode (4,5) is perforated. Application: 1 figure