RU2260475C2 - Ore-dressing apparatus - Google Patents

Abstract

FIELD: mining, particularly for dressing minerals.

SUBSTANCE: ore-dressing apparatus comprises tray-like body resting on supports to perform swinging movement. The apparatus has measuring hopper with nozzles controlled with shutoff cocks and feeding pipe, source material supplying pipe and discharge pipe. The pipes are arranged in upper hopper part from opposite sides thereof. Nozzles are installed in the body under feeding pipe. The apparatus is provided with transparent diamond-shaped chamber installed at discharge tray end. Tray is rectangular. Bottom tray part is provided with rubber coating located before transparent diamond-shaped chamber. The chamber comprises metal tubes with internally inserted magnetic rods extending inside chamber from medium chamber part to discharge one. Louver screen with adjustable angle of louver fin inclination is arranged above rubber coating and spaced apart from it. Tray is installed so that loading part thereof may perform angular rotation and tray may translate with controllable amplitude and frequency. Diamond-shaped chamber is provided with nozzles, oppositely located controlling shutoff cocks and dividing hopper with ball valve. The apparatus also has double slotted vibrosieve with slots having different perforations and with discharge pipes installed under discharge tray part. Two drums are installed in discharging part of underscreen pipe of upper sieve. Three drums are arranged in discharging part of underscreen pipe of lower sieve. The drums are provided with dividing hoppers and nozzles controlled with shutoff cocks.

EFFECT: improved capacity and efficiency of fine ore dressing.

2 dwg

Description

The invention relates to the mining industry, and in particular to devices for beneficiation of useful minerals.

A processing plant is known, comprising a housing made in the form of a gutter, magnetic elements mounted under the housing along its entire length with the possibility of vertical movement, a flow damper (see RU No. 2111905 C1, 06.27.1998, 03 B 5/26).

The disadvantage of this installation is the low capture ability in relation to heavy minerals and a high degree of contamination of the concentrate with light minerals due to the immobility of the capture elements on the working surface of the gutter.

Closest to the technical nature of the claimed is an enrichment plant containing a housing made in the form of a gutter, magnetic elements mounted under the housing along its entire length with the possibility of vertical movement, a flow damper made in the form of an asymmetrically curved plate mounted in the housing along the flow with the possibility of swinging, and the gutter is mounted on swinging supports (application No. 2001100116/03, IPC 7 V 03 V 5/70, 03 C 1/06).

The disadvantage of this installation is its low productivity, low concentration, flow perturbation with an asymmetrically curved plate mounted in the housing along the flow with the possibility of swinging, the trough is mounted on swinging supports, the swing of the body is transmitted by the asymmetric plate, because of this, the swings are chaotic and cannot be adjusted as consequence of the instability of the enrichment process. There is no possibility of adjusting the process, there is no classification of the material being enriched, there is no possibility of visual control over the process.

The technical result of the invention is to obtain monomineral highly saturated concentrates, increasing the productivity and enrichment efficiency of small and thin classes due to additional classification of the material, the possibility of visual control and operational adjustment of the process.

The result is achieved in that the enrichment device, comprising a housing made in the form of a tray mounted with the possibility of swinging on the supports, is characterized in that it is equipped with a metering hopper made in the form of a cylinder with a cone in the lower part, equipped with nozzles adjustable by shut-off valves, and a supply pipe, and is also equipped with a supply pipe for the source material and a drain pipe located on the opposite side of the metering hopper, nozzles installed in the tray body under the supply cartridge with a transparent diamond-shaped chamber mounted on the drain end of the tray, the tray is rectangular in shape and the bottom of the tray on the side of the dispensing hopper is provided with a rubber coating installed up to the transparent diamond-shaped chamber, while the camera is equipped with metal tubes with inserted magnetic rods installed in the chamber, from the middle part to the drain, a blind-type stencil with an adjustable angle of inclination of the plates is installed above the rubber coating with a gap, while the tray is installed with the possibility of angular of the rotation of the loading part and horizontal reciprocating movement with adjustable amplitude and frequency, the diamond-shaped chamber is made of transparent material, equipped with nozzles, adjustable shut-off valves, built-in against each other, and a bunker divider with a ball valve, the device is also equipped with a two-shalt vibrating screen with different spalts perforations and drain nozzles installed under the drain part of the tray, two drums are installed on the drain of the undergrowth nozzle of the upper bolt, and the drain is placed on the drain of the lower spigot branch pipe, three drums are installed, equipped with bunker dividers, and nozzles adjustable by shut-off valves.

The advantages of the invention in comparison with the prototype are increased productivity and a stable supply of enriched material due to a hopper, an increased extraction coefficient due to the possibility of adjusting the frequency and amplitude of movement of the tray, the design of the gateway type blinds with an adjustable angle of inclination of the plates, allowing to form a flow and separate minerals , the design of the diamond-shaped chamber, blocked by metal tubes with inserted magnetic rods, creating an enrichment effect in t heavy media and magnetic flocculation of particle capture, the classification of the material to be enriched on a two-stage vibrating screen and the enrichment of the obtained narrow size classes in the optimal mode, the possibility of visual control and operational process adjustment. The design of the device allows to enrich pulps and dry materials.

Figure 1 shows an enrichment device for mineral processing general view; figure 2 is the same, a top view.

The beneficiation device comprises a hopper-dispenser 1, consisting of a transparent cylinder, closed in the upper part with a lid along the diameter of the cylinder, with a drain pipe 2 in the upper part of the cylinder for draining the light fraction. In the upper part of the metering hopper, parallel to the cylindrical part of the hopper, is located equal to the cylindrical part of the metering hopper of the feed pipe 3, located opposite the drain pipe. In the lower conical part, the hopper-dispenser is equipped with oppositely arranged, tangent to the cylinder circumference, adjustable shut-off valves, nozzles 4 and a supply pipe 5 connecting the hopper-dispenser to the tray 7. A rectangular-shaped tray suspended from the loading side by a pendulum rod 8 to the frame, on the drain side it relies on a sliding bearing in a guide profile 9 attached to the frame. Under the tray is an adjustable eccentric drive 10, consisting of an eccentric shaft 11 with an adjustable pitch for adjusting the amplitude of the tray, an electric motor 12 with an adjustable frequency due to the difference in the diameters of the pulleys 13 of the V-belt transmission 14. The tray contains a stencil 15 of the type of blinds with 16 adjustable angle screws tilting the plates to form a perturbed flow and weighing light particles with the deposition of heavy particles in the bottom of the tray. Using nozzles 17, controlled by shut-off valves, and reciprocating movements, heavy particles are directed into a diamond-shaped chamber 18, equipped with nozzles 19, adjustable shut-off valves tied to a water or air analysis system with a main tap for operational adjustment of the enrichment process, and magnetic rods, inserted into metal tubes 20 overlapping a diamond-shaped chamber. In the lower part of the chamber there is a bunker-divider 21, consisting of a cylinder, in the upper part closed by a lid, with a threaded hole connecting it to a diamond-shaped chamber, in the lower part of the cylinder has a cone with an adjustable nozzle 22 diametrically fixed along the tangent, and a bunker-divider fixed at the bottom of the cone equipped with a ball valve 23 for removing the concentrate. Light particles are directed through a tray drain to a double-shale vibrating sieve 24, the upper material is dumped into the dump, the undergrate material of the upper pin 25 is fed into the supply pipes of two drums 26. The drum cylinders are made equal in height, forming a working chamber with the focus of the jets on the inner wall of the outer cylinder, drain the nozzles 27 are located in the upper part of the outer cylinders, and the nozzles 28 are located in the lower part of the outer cylinders and are mounted 180 ° from each other tangentially to the circumference of the cylinder. The divider bins 29 are also equipped with nozzles 30 mounted tangentially to the circumference of the bunker, and ball valves 31 for unloading the concentrate.

The undersize material of the lower bolt with a smaller perforation 32 enters three drums 33, which differ from the previous ones in a large volume of the working chamber, due to the height and distance between the outer and inner cylinders. The cylinders of the drums are made equal in height and form a working chamber with the emphasis of the jets on the inner wall of the outer cylinder, drain pipes 34 are located in the upper part of the outer cylinders tied to a common collector for all drums 35. The nozzles 36 are located in the lower part of the outer cylinders and are mounted on 180 ° from each other tangentially to the circumference of the cylinder. The divider hoppers 37 are also equipped with a threaded sleeve 38, nozzles 39 mounted tangentially to the circumference of the hopper, and ball valves 40 for unloading the concentrate.

Enrichment device operates as follows. The enriched material through the supply pipe 3 of the source material enters the lower part of the metering hopper 1 and enters the spirally swirling ascending water or air flows (when dry enrichment), created by nozzles 4. Adjustable shut-off valves. The working pressure in the metering hopper is set so that fine particles containing no recoverable mineral are discharged through the drain pipe 2 of the metering hopper. Heavier particles are deposited in the lower part of the metering hopper and through the supply pipe 5 enter the tray 7. The material, with the help of nozzles 17 regulated by shut-off valves, is sent to an adjustable stencil such as shutters 15. By means of a disturbed flow created by the reciprocating movements of the tray and the angle of inclination of the plates stencil type blinds, light particles rise to the top of the stream and are carried to the drain part of the tray. Heavy particles deposited under the stencil enter the diamond-shaped chamber 18, where heavy minerals are accumulated, maintained in a pseudo-boiling state by a system of nozzles 19 fixed by shut-off valves, tied to a common main valve, with such a density that they do not allow minerals with a small specific gravity to settle in bottom of the camera. From the middle part to the drain diamond-shaped chamber, metal tubes with inserted magnetic rods 20 overlap, the magnetic minerals accumulated during operation create an additional trapping barrier from the floccules for thin and small classes of recoverable minerals. During operation, the heaviest minerals accumulate in the lower part of the rhomboid chamber, which, through a threaded sleeve connecting the chamber to the divider hopper 21, enter the divider hopper, where a flow swirling around the circumference and dividing pressure are created due to the nozzle 22 regulated by the shut-off valve, allowing precipitate into the bunker divider only to those minerals for the specific gravity of which the pressure in the bunker divider is adjusted. As the bunker divider is filled, the concentrate is removed through a ball valve 23. Light particles are sent through a tray drain to a two-shalt vibrating screen 24, the upper material that does not contain a useful component is dumped into the dump, the undergrate material of the upper bolt 25 enters the supply pipes of two drums 26. B drums between the outer and outer cylinders, nozzles 28, adjustable shut-off valves, creates a centrifugal flow of water or air with the emphasis of the jets on the inner surface of the outer cylinder of the drum, speed and la stream by adjusting the stopcocks is set such that particles with a specific gravity less than that of the extracted mineral fed to the drain pipe 27 of the drum.

Particles with a specific gravity close to the recoverable mineral (the weight of the deposited and discharged particles is specified by the coordinated nozzle setting) are deposited on the lower connecting ring of the drum, where they fall into the connecting sleeve connecting the drums with divider bins 29.

The pressure in the bunker divider created by the nozzle 30 adjustable by a shut-off valve allows particles with a specific gravity of the recoverable mineral or density close to it to be deposited in the bunker divider (optionally specified), the swirling flow opposite to the working chamber does not allow the particles to clog the connecting the sleeve thus precipitated concentrate is removed through a ball valve.

The undersize material of the lower bolt with a smaller perforation 32 enters the supply pipes of three drums 33, which differ from the previous ones in a large volume of the working chamber, due to the height and distance between the outer and inner cylinders. In the drums between the outer and outer cylinders, adjustable by shut-off valves by nozzles 36, a centrifugal flow of water or air is created with the jets resting on the inner surface of the outer cylinder of the drum. The speed and strength of the flow due to the adjustment by shut-off valves is set so that particles with a specific gravity less than that of the recoverable mineral enter the drain pipes of the drums 34 tied to a common collector 35 for all drums. Particles with a specific gravity close to the recoverable mineral (weight particles to be deposited and discharged is set by the coordinated setting of nozzles), are deposited on the lower connecting ring of the drum, where they fall into the connecting sleeve connecting the drums with hopper-dividers 37.

The pressure in the bunker divider created by the nozzle 39 regulated by the shut-off valve allows particles with a specific gravity of the recoverable mineral or density close to it to be deposited in the bunker divider (optionally specified), the swirling flow opposite to the working chamber does not allow the particles to clog the connecting the sleeve, thus precipitated concentrate is removed through a ball valve 40.

The proposed beneficiation device allows to increase the efficiency of mineral processing, to extract thin and small classes of native metals and other minerals from placer and ore deposits, platinum, gold, silver, polymetallic sulfide deposits and their industrial dumps, as well as to refine concentrates and concentrates with obtaining monomineral concentrates.

Claims (1)

An enrichment device comprising a body made in the form of a tray mounted with the possibility of swinging on supports, characterized in that it is equipped with a metering hopper made in the form of a cylinder with a cone in the lower part, equipped with nozzles, adjustable shut-off valves and a supply pipe, and equipped with a source material supply pipe and a drain pipe located on the opposite sides of the dispensing hopper on the opposite sides, nozzles installed in the tray body under the feed pipe, transparent diamond-shaped the camera mounted on the drain end of the tray, the tray is rectangular in shape, and the bottom of the tray on the side of the hopper is equipped with a rubber coating mounted to a transparent diamond-shaped camera, while the camera is equipped with metal tubes with inserted magnetic rods installed in the chamber from the middle parts to the drain, over the rubber coating with a gap a stencil of the type of blinds with an adjustable angle of inclination of the plates is installed, while the tray is installed with the possibility of angular rotation of the loading part and horizontal reciprocating movement with adjustable amplitude and frequency, the diamond-shaped chamber is made of transparent material, equipped with nozzles, adjustable shut-off valves, built-in against each other and a bunker-divider with a ball valve, the device is also equipped with a two-stage vibrating screen with shafts of different perforations and drain pipes installed under the drain part of the tray, two drums are installed on the drain of the undergrate branch pipe of the upper bolt; on the drain of the under-grid pipe of the lower bolt getting three reels, equipped with hoppers and dividers nozzles, adjustable shut-off valves.

Images