RU2764714C1 - Centrifugal dressing and processing device - Google Patents

Abstract

FIELD: dispersed materials separation.

SUBSTANCE: proposed invention relates to devices for separating dispersed materials into fractions by size, in particular, to classifiers with gravity concentration and forced unloading, and can be used in the mining industry when processing gold-bearing sands at ore and loose deposits to obtain a concentrate of gold and other precious metals with a particle size of less than tens of microns, as well as when processing the contents of sludge storages, man-made waste from mining enterprises and ash dumps of thermal power plants with the associated release of underburned coal and concentrate of minerals of the magnetic fraction (iron oxides, titanomagnetite, ilmenite), when processing a sand-gravel mixture to obtain building materials (sand, screening, gravel , clay). The centrifugal enrichment-classifying device contains a housing driven by an electric motor in the form of a pear-shaped drum made on the inner side with screw guides, a perforated pipe of circular cross-section installed inside the housing coaxially with it for feeding raw material into it, inside which an irrigation pipe is placed along its longitudinal axis. a pipe with perforated or mesh walls connected to the flushing water supply pipe. On the side surface of the wide part of the body there is a hole with a branch pipe for withdrawing the concentrate, and at the end of its wide part there is a drain for rinsing water. The device is equipped with a hydraulic jack that regulates the angle of inclination of the body, a vibrating hopper containing dispersed raw material and providing its supply into a perforated pipe, at the outlet of which, in the wide part of the body, equipped with stainless steel loosening blades, a device is made for withdrawing and collecting coarse fraction. The device includes an active flushing sluice located under the flush water outlet in the form of a flat-bottomed metal trough with a removable flushing module installed at its bottom.

EFFECT: increase in the degree of purification of the initial raw material and the completeness of the extraction of small particles of the heavy fraction of minerals while increasing the productivity of the device.

3 cl, 2 dwg

Description

The invention relates to devices for separating dispersed materials into fractions by size, in particular, to classifiers with gravitational enrichment and forced unloading, and can be used in the mining industry when processing gold-bearing sands in ore and placer deposits to obtain a concentrate of gold and other precious metals with particle size less than tens of microns, as well as when processing the contents of sludge storages, industrial waste from mining enterprises and ash dumps of thermal power plants with the associated release of underburned coal and concentrate of minerals of the magnetic fraction (iron oxides, titanomagnetite, ilmenite), when processing sand and gravel mixture to obtain building materials (sand, sifting, gravel, clay).

A device is known for separating granular materials (utility model RU 35247, publ. 2004.01.10), in the form of a spiral classifier, which contains a trough located at an angle to the horizon with two transport spirals placed in it, installed with the possibility of rotation from the drive, a lifting mechanism the lower parts of the spirals, as well as devices placed on the opposite side walls of the trough for supplying the pulp and draining the watery mixture, and the device for supplying the pulp is installed above the drain level. The device also contains a means for dumping sand, made in the form of divided gutters for dumping sand fractions differing in size from the corresponding spirals. The disadvantages of the known device are typical for spiral classifiers and lie in the fact that when classifying a pulp, including particles of minerals of different specific gravity, the content of a valuable component in fine classes falling into the drain increases with a decrease in particle size, and open particles of heavy valuable minerals are deposited on bottom, return with sands back to the mill and are subjected to regrinding (sludge), which in the subsequent gravitational enrichment leads to a decrease in extraction.

Known centrifugal enrichment apparatus for enrichment of crushed ores and concentrates of non-ferrous and ferrous metals in a liquid medium (RU 2323783, publ. axis of the body of a perforated pipe of circular cross section, which delimits the body along the axis into a separating zone and a zone for the passage of hydraulically fine pulp fraction, as well as a chamber for forming a pulp flow, on the one hand connected to the pulp inlet pipe, and on the other side separated by a partition from the main part of the body and communicating with the separating zone through the holes in the partition, while the separating zone from the side opposite from the pulp flow formation chamber communicates through the holes made in the body with the receiving casing of the coarse pulp fraction, and the passage zone of the hydraulically fine pulp fraction is connected on the same side with a branch pipe for the output of hydraulically fine pulp fraction. The known apparatus, due to its design features, does not provide sufficiently effective and high-quality washing of granular materials from clay minerals and organic inclusions and complete separation by size classes, while its performance does not make it possible to process large volumes of initial granular materials.

Closest to the claimed is a centrifugal concentrating and classifying apparatus (useful model RU 101942, publ. 2010.10.11), containing a pear-shaped body, which receives rotation from an electric motor and is equipped with screw guides on the inside, a perforated round pipe installed inside the body coaxially with it , provided on the inside with screw guides, loosening the supplied raw granular material, connected to the supply pipe of the said material. On the side surface of the wide part of the body there is an opening with a branch pipe for the concentrate output. A perforated or mesh irrigation pipe is installed inside the perforated pipe, to which a water supply pipe is connected. At the end of the wide part of the pear-shaped body, a drain for washing water is made, at the end of the perforated pipe, facing its narrow part, there is a device for removing the purified fine fraction, for example, sand, and a device for withdrawing and directing the coarse fraction, for example, gravel and coarse sand.

The well-known concentrating and classifying apparatus does not provide a sufficiently complete purification of the initial raw material and its separation by size classes, as a result of which there is no complete extraction of fine particles of the heavy fraction of minerals, the loss of which affects the efficiency of its use, especially when processing ores containing fine particles of noble minerals. metals (gold). In addition, the slow unloading of the apparatus inhibits the speed of pulp advancement in other areas; the performance of the known device is insufficient for the processing of large volumes of dispersed raw materials.

The objective of the invention is to develop a design of a high-performance centrifugal concentrating and classifying apparatus that provides effective purification of the initial raw material with the maximum completeness of the extraction of small particles of the heavy fraction of minerals.

The technical result of the invention is to increase the degree of purification of the original raw material and the completeness of the extraction of fine particles of the heavy fraction of minerals while increasing the productivity of the apparatus.

The specified technical result is achieved by a centrifugal concentrating and classifying apparatus containing a pear-shaped body driven by an electric motor, made on the inside with screw guides, with a perforated pipe of circular cross section installed inside the body coaxially with it, inside which, along its longitudinal axis, an irrigation pipe with water-permeable mesh or perforated walls, connected to the wash water supply pipe, while on the side surface of the wide part of the body there is a hole with a pipe to remove the concentrate, and at the end of its wide part there is a drain for wash water, which, unlike the known one, is equipped with a means , regulating the angle of inclination of the body, in the form of a hydraulic jack, a vibrating hopper containing dispersed raw material and ensuring its supply to a perforated pipe, at the exit of which, in the wide part of the body, equipped with loosening blades, there is a device for withdrawing and collecting a large fraction, while the apparatus includes an active flushing sluice located under the mentioned drain for washing water in the form of a flat-bottomed metal chute with a removable flushing module installed at its bottom.

In a preferred embodiment of the invention, the flushing module of the active flushing lock is made in the form of a rectangular frame carrying a set of parallel-mounted perforated square-section tubes made of stainless steel, while one of the sides of said frame is formed by a flush water supply pipe equipped with a control valve, and said tubes are square open ends are hermetically connected with the specified pipe.

In the best way, the claimed technical result is achieved by an apparatus with screw guides made of a metal corner, which ensures the removal of the largest amount of sand.

The proposed centrifugal concentrating and classifying apparatus is clearly shown in the drawings, where in Fig. 1 schematically shows a general view of the device, and Fig. 2 is a schematic view of an active flush lock.

The apparatus comprises a body 1 of pear-shaped circular cross-section with screw guides 2 placed on its inner surface, a cylindrical perforated pipe 3 of circular cross-section installed inside the body along its central longitudinal axis, connected by a feed chute with a vibrating hopper 4 located at the end of the narrow part of the body 1 for bulk materials , containing a granular raw material, while along the longitudinal axis of the perforated pipe 3 there is an irrigation pipe 5, made perforated or mesh, which is connected to the pipe 6 for supplying wash water intended for washing the processed raw material.

On the side surface of the pear-shaped body 1 in its wide part there is a zone of accumulation of the concentrate obtained during the processing of the pulp and a hole 7 is made with a pipe for its output, and at the end of the wide part of the body 1 there is a drain 8 for washing water, while at the outlet of the perforated pipe 3 a device 9 for collecting and discharging components of a large fraction such as pebbles, coarse sand, etc., and an active washing lock 10 for additional purification of wash water and the final removal of a light fine fraction from them.

The proposed apparatus also contains a hydraulic jack 11, which serves to change the angle of inclination of the body 1.

On the inner side of the housing 1 in the output area 9 of the coarse fraction, loosening blades 12 made of stainless steel are installed.

Gateway 10, located under the drain 8 for washing water, is made in the form of a flat-bottomed metal trough, at the bottom of which a washing module 13 (Fig. 2) is installed, which supplies and distributes washing water (or several such modules).

The flushing module 13, which provides the supply and distribution of pressure flushing water in the lock 10, is made of stainless steel in the form of a rectangular frame, one of the sides of which is formed by a flushing water supply pipe 14, equipped with a control valve 15 and a technological plug 16 at one end. Said frame carries a set of parallel perforated tubes 17 of square cross section with a side dimension of about 8 cm, the open ends of which are hermetically sealed into the pipe 14 of the wash water supply. The device works as follows.

The original raw material, for example, sand and gravel, from the vibrating hopper 4 enters the perforated pipe 3 through the chute, where it is continuously mixed with water supplied from the irrigation pipe 5 installed inside the perforated pipe 3. formed pulp on the inner surface of the perforated pipe 3, small particles, together with washing water through the perforation holes, enter the pear-shaped rotating housing-drum 1.

The unsifted fraction remaining in the perforated pipe 3, containing large particles, for example, gravel, continuously moves under the action of gravity towards the wide part of the pear-shaped body 1, at the end of which there are devices for withdrawing and collecting the large fraction.

From the lower end of the perforated pipe 3, the coarse fraction components enter the external conveyor and then go to the dump.

Due to the loosening of the original raw material to the required condition, already when it is fed from the vibrating hopper 4, the mixing process of the pulp formed in the perforated pipe 3 is intensified. In addition, the adjustable angle of inclination of the housing 1 makes it possible to increase the speed of progress towards the exit of the coarse fraction of the processed raw material to the required extent.

Screw guides 2 on the inner side of the rotating housing 1 effectively mix the watered pulp that has entered it, while the washed fine fraction with their help rises along its inclined walls up to its narrow end. Removal of the greatest volume of sand is provided by the device with screw guides made of a metal corner.

Significant intensification of the passage of the processed raw material through the proposed apparatus due to the action of the loosening blades 12, located at the end of the wide part of the housing 1, allows you to increase the volume of this material, increase the productivity of the device.

The irrigation system, represented by a perforated pipe 5, ensures efficient washing of the pulp and contributes to the almost complete separation of solid particles of the processed material from clay and organic components.

Wash water containing a suspension of clay, silt and organic matter is constantly removed through the drain 8, while their level in the body 1 remains constant. However, the wash waters carry away with them a certain amount of heavy fine particles, which, in the case of processing valuable mineral raw materials, for example, gold-bearing rocks, would be an unacceptable waste.

In the proposed centrifugal concentrating and classifying apparatus, wash water from the drain hole 8 enters the active washing lock 10, where it undergoes additional purification. The suspension contained in them, which, under the action of gravity, tends to settle to the bottom of the lock, due to the constant, and moreover, regulated, flow of water from the holes in the tubes 17, where it is supplied with pressure from the distribution pipe 14, remains in a constant loosened-weighted state. The dimensions of the square section of the tubes 17 are calculated in such a way that during this continuous bubbling process, the components of the light fraction (sand, clay, silt, other organics) are carried with water over the tubes, overcoming their barrier, while the minerals of the heavy fraction, which may include gold , platinoids, etc., actively sink to the bottom of lock 12 and accumulate in module 13 between tubes 17.

A significant practical advantage of the proposed apparatus is that in one working cycle it allows to obtain a gold-bearing concentrate of heavy fraction minerals for low-volume heap leaching, gold-bearing concentrate for a concentration table and raw materials for the production of building materials (clay, screenings, sand and gravel).

The reliability and simplicity of the design of the device guarantee its stable operation in difficult mining and geological conditions for a long time.

Claims (3)

1. A centrifugal concentrating and classifying apparatus, containing a housing driven by an electric motor in the form of a pear-shaped drum, made on the inside with screw guides, a perforated pipe of circular cross section installed coaxially with it inside the housing for feeding raw material into it, inside which along its longitudinal axis, an irrigation pipe with perforated or mesh walls is placed, connected with a pipe for supplying wash water, while on the side surface of the wide part of the body there is a hole with a pipe for extracting the concentrate, and at the end of its wide part, a drain for wash water is made, characterized in that it is equipped with a hydraulic jack that regulates the angle of inclination of the body, a vibrating hopper containing dispersed raw material and ensuring its supply to a perforated pipe, at the outlet of which, in the wide part of the body, equipped with loosening blades made of stainless steel, a device is made for output and collecting the coarse fraction, wherein the apparatus includes an active flushing sluice located under the flushing water outlet in the form of a flat-bottomed metal trough with a removable flushing module installed at its bottom. 2. Centrifugal concentrating and classifying apparatus according to claim 1, characterized in that the screw guides on the inside of its body are made of a metal corner. 3. Centrifugal concentrating-classifying apparatus according to paragraphs. 1, 2, characterized in that it is equipped with an active flushing lock with a flushing module made of stainless steel in the form of a rectangular frame carrying a set of parallel perforated square tubes, while one of the sides of the said frame is formed by a flushing water supply pipe equipped with a control valve , and the open ends of said tubes are hermetically sealed into said tube.

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