SU1488004A1 - Hydraulic magnetic slime separator - Google Patents

Abstract

This invention relates to the decallation of finely divided magnetite ores. The goal is to increase the efficiency of the process of decalcification by increasing the extraction of the magnetic product and improving its unloading. Inside the housing 1 with the drain chute 2 and the drain threshold 3 is a magnetic system of two parts. One part in the form of a ring 4 is fixedly fixed at the level of the drain threshold 3. The second is made in the form of permanent magnets (M) 12 fixed to the nozzles (P) 10 and 11 of the spray system. These П are attached to the radial collectors 6 and 7, rigidly attached to the hollow shaft 8. The shaft 8 is plugged from the bottom and has holes 21 at the middle of the M 12. A shaft with a puller is attached to the shaft 8 rotatably mounted. At the bottom of the housing 1, radial chambers (K) of the seal are separated, separated by water K 15. In the walls separating K of the seal and K 15, holes are made. On the periphery of the housing 1 there passes an annular groove 16, which unites K 15. Radial collectors 17 are located below the seal, connected to seal K by tubes 19. Collectors 17 are brought into central tube 18, having adjusting device 22. Pullers are fixed on top of K 15. 13, mounted vertically between M 12. When the pulp enters the zone of action 12 Magnetic particles settle on the surface of M 12 and flocculate. When M 12 rotates, the floccules are removed by pullers 13 and deposited in K seals. Waste rock with water from P11 blows up, capturing a portion of the fine magnetic particles. The latter flocculate on the magnetic ring 4, are removed by the puller 5 and settle down into K compaction, where the deposited floccules in K 14 are compacted, forming conditions close to heavy separation. The water supplied from P10 is squeezed up and carries away non-magnetic particles trapped by flocs. Water from the annular gutter 16 fills K 15 and through the holes enters the lower part of K compaction and liquefies the magnetite, which through pipes 19 and collectors 17 comes into pipe 18. 2 Cpf, 5 Il.

Description

The invention relates to the field of separation of materials according to magnetic properties and can be used in the enrichment of finely divided magnetite ores at the stage of declaring.

The purpose of the invention is to increase the efficiency of the process of dislamatization by increasing the extraction of the magnetic product and improving its unloading.

FIG. 1 shows a declarator, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one; in fig. 5 is a section of YYD in FIG. 2

The hydrodynamic declamator contains a cylindrical case I with a drain chute 2 and a drain threshold 3. Inside the case 1 there is a magnetic system of two parts. One part is made in the form of a ring 4 fixedly mounted in the upper part of the housing 1, the drain threshold 3 being at the height of the middle of the ring 4. Under the magnetic ring 4 is a puller 5 magnetic product. The splash-type dust separator system consists of pipes 6 and 7 of the upper and lower manifolds. The pipes 6 and 7 radially disperse from the vertical hollow shaft 8 located in the center of the housing 1, to which they are rigidly attached, the shaft 8 being rotatably mounted by the actuator 9 and serving as a loading device. The nozzles 10 are attached to the upper collector pipe 6, and the nozzles 11 downwardly attached to the lower collector pipe 7 and forming 8 rows radially discharged from a hollow shaft spattered. The second part of the magnetic system is made of permanent magnets 12 mounted on each pair of nozzles 10 and 11. Vertical pullers 13 of the magnetic product attracted to the magnets 12 are fixedly positioned between the two pairs of nozzles 10 and 11 with the magnets 12. The discharge device consists of chambers 14 seals, water chambers 15, connected along the periphery of a water annular groove 16, radial collectors 17 and a central discharge pipe 18. Seal chambers 14 and beneath them collectors 17 are connected

discharge tubes 19. Water chambers 15 are connected to seal chambers 14 through openings 20 in the lower part of common walls. Seal chambers 14 are located radially and have a cross section

trapezium shape. The water chambers 15 have a pentagon cross-section. In the upper part of the chamber 15 attached-pullers 13 magnetic product. The hollow shaft 8 is tapered in its lower part and has openings 21 for the exit of the pulp located at the level of the middle of the magnets 12 attached to the nozzles 10 and 11. The lower ends of the nozzles 10 are located above the sealing chambers 14 and the water chambers 15, and the lower ends branch pipes 11 -

0 below the second part of the magnetic system, made up of magnets 12. The central discharge pipe 18 in the lower part has a regulating device 22.

Deslamator works as follows.

5 The pulp is fed into the hollow shaft 8. Through the apertures 21 it is fed into the zone of action of the second part of the magnetic system, made up of magnets 12. The sprinkler system, rotating with the magnet 12, mixes the pulp and simultaneously supplies washing water. The magnetic particles are attracted to the magnets 12 and scraped off by pullers 13 in the form of flocs that are axially. yield in seal chamber 14. The water from the nozzles 11 creates an upward flow that carries the waste rock and some of the thin magnetic product upwards. The non-magnetic product leaves through the overflow threshold 3, and the magnetic fine particles are deposited on the ring magnet 4 to form floccules. Rotary puller 5 scrapes

0 these floccules and they descend into the compaction chambers 14. A compacted layer is formed here, in which conditions are similar to conditions in solid medium separators. The water supplied by the nozzles 10 is squeezed up, washes floccules and carries away the trapped particles of rock.

The unloading of the magnetic product is carried out as follows.

The water supplied to the annular chute 16 fills the water chambers. 15 and through the apertures 20 passes into the lower part of the sealing chambers 14. The bottom layer of sediment (magnetic product) is liquefied through the discharge pipes 19, the radial collectors 17 and the central discharge pipe 18 is brought to the concentrate receiver. By means of the tool 22, the discharge rate is adjusted.

Claims (3)

Claims 1. Hydromagnetic declarator, including 10 downward branch pipes, the magnetic system consists of two parts, the first of which is ring-shaped and fixed in the upper part of the body at the level of the drain threshold, and the second part is made in the form of permanent magnets attached to the branch pipes of the upper and lower collectors of the sprinkler system This unloading device is made in the form of radially diverging located in the lower part of the body and having a cross section view of the trapezoid seal chambers separated by radial water chambers, which are united around the periphery of the casing by an annular groove, while 5 radial collectors are located under the seal chambers connected to the chambers through tubes and brought into the central discharge pipe; , and the holes, made in the hollow shaft, pushing the cylindrical case with the drain 20 of the wife opposite the second part of the magnetic sichel and drain threshold, the loading and unloading The device is characterized in that, in order to increase the efficiency of the process of shredding by increasing the extraction of the magnetic product and improving its unloading, the separator is equipped with a magnetic system with magnetic product strippers and a sprinkler system, while the loading device is made in the form of a vertical hollow shaft with holes plugged in the lower part, and the sprinkling system is made in the form of rigidly attached to the hollow shaft and radially diverging pipes from it the upper and lower headers, to with pin 25 Topics. 2. The delamator according to claim 1, characterized in that the lower ends of the lower manifold nozzles are located below the second part of the magnetic system, and the lower ends of the upper manifold nozzles are above the compaction chambers. 3. The delamator according to claim 1, characterized in that the stripper of the magnetic product of the annular part of the magnetic system is fixed to 30 by a hollow shaft, by means of a radial arm, and the pullers of the second part of the magnetic system are fixedly attached to the upper part of the water chambers and mounted vertically between the permanent magnets. 0 downward branch pipes, the magnetic system consists of two parts, the first of which is ring-shaped and fixed in the upper part of the body at the level of the drain threshold, and the second part is made in the form of permanent magnets attached to the branch pipes of the upper and lower collectors of the sprinkler system This unloading device is made in the form of radially diverging located in the lower part of the body and having a cross section view of the trapezoid seal chambers separated by radial water chambers, which are united around the periphery of the casing by an annular groove, while 5 radial collectors are located under the seal chambers connected to the chambers through tubes and brought into the central discharge pipe; and the holes made in the hollow shaft are located opposite the second part of the magnetic system Topics. 2. The delamator according to claim 1, characterized in that the lower ends of the lower manifold nozzles are located below the second part of the magnetic system, and the lower ends of the upper manifold nozzles are above the compaction chambers. 3. The delamator according to claim 1, characterized in that the stripper of the magnetic product of the annular part of the magnetic system is fixed to 0 by the hollow shaft, by means of a radial arm, and the pullers of the second part of the magnetic system are fixedly attached to the upper part of the water chambers and mounted vertically between the permanent magnets. Jb /five W T / dv Yr Phage.ch FIG. five .eleven P W $ N five