RU2014152C1 - Flotation machine - Google Patents

Abstract

FIELD: mining industry; mineral dressing. SUBSTANCE: flotation machine includes a cylindrical body having branch pipes to discharge sands, dumpings, and foam product; an annular feed distributor having tangential branch pipe; a hollow cylinder installed inside the body; vertical hollow partitions and an aerator mounted between the body and the hollow cylinder; magnetic system made of a vertical rotor having plates made of permanent magnets spiral mounted on the rotor; a funnel complete with a magnetic particles discharge device. The hollow cylinder and the partitions are made of a non- magnetic material. The hollow cylinder is provided with a bottom disposed below the upper funnel edge. There are horizontal slot holes made in the lower part of the annular feed distributor. The partitions are connected in their lower sections with the branch pipe for discharge of the dumpings and foam product. Aerators are disposed in the space between the body, the hollow cylinder, and the partitions. EFFECT: increased efficiency of operation. 2 dwg

Description

 The invention relates to the beneficiation of minerals and can be used in non-ferrous and ferrous metallurgy for the beneficiation of magnetite-containing complex ores.

 Known flotation separator, including a cylindrical housing with nozzles for the release of sand and drain, installed inside the housing, a hollow cylinder with aerators inside, installed in the space between the housing and the hollow cylinder, aerators, an annular collection of foam product with a nozzle [1].

 The closest to the proposed technical essence and the achieved result is a flotation separator, including a cylindrical housing with devices for unloading sand, drain and foam product, a tangential feed pipe, a hollow cylinder installed inside the housing, radially vertical hollow installed in the space between the housing and the hollow cylinder partitions installed in the space between the body, the hollow cylinder and the radial partitions of the aerators [2].

 A common drawback of the above flotation separators is the low complexity of processing magnetite-containing complex ores, due to the inability to obtain high-quality magnetite concentrate.

 The aim of the invention is to increase the complexity of the processing of magnetite-containing complex ores by obtaining high-quality magnetite concentrate.

 This goal is achieved by the fact that the flotation separator, including a cylindrical conical housing with nozzles for unloading sand, drain and foam product, an annular power distributor with a tangential nozzle, a hollow cylinder installed inside the housing, hollow vertical partitions and an aerator radially installed between the housing and the hollow cylinder, is equipped with a magnetic system made of a vertical rotor with plates of permanent magnets spirally mounted on it and a funnel with a device In order to discharge magnetic particles, the hollow cylinder is made with a bottom located below the upper edge of the funnel, horizontally slotted openings are made in the lower part of the annular distributor, partitions in the lower part are connected to the nozzle for unloading the drain and foam product, and aerators are installed in the space between the housing, hollow cylinder and partitions.

 The installation of a magnetic system makes it possible to attract magnetic particles to the surface of the cylinder and, due to the rotation of the system, transport them along the surface of the cylinder to a funnel.

 Moreover, the connection of the annular distributor in the lower part with the internal space of the housing by horizontal slotted holes provides the movement of magnetic particles to the surface of the cylinder without flocculation. The elimination of flocculation of magnetic particles provides high quality magnetic concentrate.

 Known solutions that have features similar to the distinguishing features of the proposed solution, namely, a magnetic deslamator is known (Aut. St. USSR N 1537296, class B 03 C 1/00), in which a tank is installed inside the housing, in which a rotating shaft is mounted magnetic system.

 The use of a rotating magnetic system mounted inside the tank in a known magnetic deslator is intended for direct interaction of the pulp with the magnetic system in a turbulent flow and the active formation of flocs. The tank in the magnetic deslamator is connected to the tangential feed pipe, has an opening for the discharge of the flocculated pulp and does not provide high-quality magnetite concentrate.

 In the proposed flotation separator, in contrast to the known solution, the installation of a rotating magnetic system made of a vertical rotor with helically fixed plates of permanent magnets provides magnetic separation when particles move to the outer surface of the hollow cylinder from points with a weak magnetic field without flocculation. The elimination of particle flocculation in the separation zone ensures high quality magnetite concentrate.

 Based on the foregoing, we can conclude that the proposed flotation separator is significantly different from a similar magnetic desilator with a rotating magnetic system in the tank.

 Thus, the proposed solution meets the criterion of "significant differences".

 In the proposed flotation separator, the above set of features provides an increase in the complexity of ore processing by obtaining high-quality magnetite concentrate.

 In FIG. 1 shows a flotation separator, a General view; in FIG. 2 is a plan view.

 The flotation separator consists of a cylindrical casing 1 with devices for unloading the sand 2 and unloading the drain and foam product 3, installed outside the casing 1 of the annular power distributor 4 with a tangential nozzle 5. Inside the casing 1, a hollow cylinder 6 is hermetically sealed from below. In the space between the casing 1 and the hollow cylinder 6 has vertical radial partitions 7. The hollow cylinder 6 and the vertical partitions 7 are made of non-magnetic material. In the spaces between the housing 1, the hollow cylinder 2 and the baffles 7, aerators are installed 8. Inside the hollow cylinder 6, a rotating magnetic system is installed, made of a vertical rotor 9, on which are fixed spiral plates of permanent magnets 10. Under the hollow cylinder 6, a funnel is installed inside the housing 1 11 with a unloader 12. A cylinder 6 with its lower end enters the funnel 11. The annular distributor 4 in the lower part is connected to the interior of the housing 1 using horizontal holes 13. Vertical stacked partitions 7 in the lower part are connected by means of nozzles 14 with a device for unloading the drain and foam product 3.

 Flotation separator operates as follows. The initial power in the form of pulp is supplied through a tangential pipe 5 and an annular distributor 4, in which due to rotational movement it is distributed around the perimeter of the distributor 4, through slotted holes 13 it enters the space between the housing 1, cylinder 6 and hollow partitions 7, where heavy and large particles fall down and unload through the device for unloading sand 2. Small particles with ascending pulp flows up and overflow into the hollow vertical partitions 7, of which through 14 cuttings fall by gravity into the discharge device for discharging the froth product and 3.

 When air is supplied inside the housing 1 through aerators 8, hydrophobic particles are fixed on the bubbles, float with them to the surface of the pulp and are removed together with the drain through the hollow vertical partitions 7.

 Magnetic particles when they enter the spaces between the housing 1 and the cylinder 6 under the action of the magnetic force of the permanent magnets move to the surface of the cylinder 6 and move along this surface after the moving permanent magnets 10 to the vertical partitions 7.

 The direction of rotation of the rotor 9 is selected so that a magnetic field running from top to bottom is provided at the joints between the cylinder 6 and the partitions 7. Due to the spiral-shaped arrangement of the magnets 10 on the rotor 9 in the joints between the cylinder 6 and the partitions 7, when the rotor 9 rotates, the downward magnetic force acts on the magnetic particles due to the approach to the joint of successively upper and then lower magnets 10. Due to the downward magnetic force magnetic particles in the joints between the cylinder 6 and the partitions 7 are moved down and collected in a funnel 11, from which they are unloaded using a unloader 12.

 The presence in the flotation separator of a rotating magnetic system mounted in a hermetically sealed bottom cavity 6 of the rotor 9 with spiral plates of permanent magnets 10 fixed thereon provides advancement in the separation zone of magnetic particles to the surface of cylinder 6 without flocculation and advancement of magnetic particles downward at the joints between cylinder 6 and partitions 7. Installation under the cylinder 6 of the funnel 11 with the unloader 12 provides the selection of the magnetic fraction in a separate product.

 The connection of the annular distributor 4 with the internal space of the housing 1 by horizontal slotted holes 13 provides a uniform distribution of the source of power along the perimeter of the housing 1.

 The connection of the hollow partitions 7 pipes 14 with a device for unloading the drain and foam product 3 provides the removal from the device of the drain and foam product by gravity through the internal space of the hollow partitions 7. In general, the proposed set of features provides a high quality magnetic product by eliminating flocculation of magnetic particles in the process movement to the cylinder 6 and reduce the removal of non-magnetic particles in the magnetic concentrate.

 Thus, the proposed flotation separator allows, in comparison with the prototype, to increase the complexity of the processing of magnetite ores by obtaining high-quality magnetite concentrate.

Claims (1)

 FLOTATION SEPARATOR, comprising a cylindrical-conical body with nozzles for unloading sand, drain and foam product, an annular power distributor with a tangential nozzle, a hollow cylinder installed inside the housing, vertical hollow partitions and an aerator radially installed between the housing and the hollow cylinder, characterized in that, for the purpose of increasing the complexity of processing by obtaining high-quality magnetite concentrate, it is equipped with a magnetic system made of vertical po torus with plates of permanent magnets spirally mounted on it and a funnel with a device for unloading magnetic particles, the hollow cylinder and partitions are made of non-magnetic material, the hollow cylinder is made with a bottom located below the upper edge of the funnel, horizontal slotted holes are made in the lower part of the annular distributor , the partitions in the lower part are connected to the pipe for unloading the drain and the foam product, and the aerators are installed in the space between the body, the hollow cylinder and the partitions.

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