RU2087200C1 - Periodical centrifugal separator - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: invention relates to primary processing of ores and other materials, in particular, to apparatus for gravitational dressing of mixtures of materials differing by their densities and particle size and is intended to be used in metallurgy, chemical and building materials industries. Separator of invention contains a conical bowl installed on vertical drive shaft and consisting of bottom and wall, loading connection pipe, and receiver for separation products. Inner side wall of bowl bears height spaced rows of shelves forming angular cavities. Shelves in each row are made discontinuously, shelves of preceding row overlapping ones in the following row. Side loading surface of loading connection pipe is provided with agitators made in the form of rods and installed in angular cavities in spaced relation to them. Bowl bottom has stream swirler. EFFECT: improved design of separator. 10 cl, 6 dwg

Description

 The present invention relates to the field of primary processing of ores and other products, namely, devices for gravitational enrichment of mixtures of materials that differ in density and size and are in a free state, can be used in non-ferrous and ferrous metallurgy, in the chemical industry and the building materials industry.

 In the enrichment of gold and platinum-containing alluvial materials, especially in the exploration and testing of ores of alluvial deposits, batch centrifugal separators are used, which provide a rather high degree of material concentration on poor alluvial products, reaching several thousand times.

 As a rule, when using centrifugal separators, the material prepared for enrichment flows from above onto a rotating rotor, flows under its gravity along its inclined side surface. Heavy minerals are trapped on the corrugated vertical wall of the rotor and accumulate in the annular spaces between the corrugations. Light grains are unloaded with water, overflowing over a vertical board. (See A.G. Lopatin. "Centrifugal beneficiation of ores and sands", Nedra, 1987, pp. 167-215).

A known device for gravitational concentration of ores according to ASSCSSR N 1219148, class. 04 V 5/10, containing a cone-shaped bowl with a spherical bottom mounted on a vertical drive shaft, on the inner surface of which there are corrugations, and a loading nozzle is placed in the center of the bowl, in which flow dividers and devices for crushing solid fraction are placed to increase the degree of enrichment. According to the inventors, it allows you to additionally extract gold from the concentrate by 0.5%
The disadvantages of the known device with all its advantages include a generally low gold recovery.

 Known centrifugal separator according to US patent N 4776833, class. 494-27, publication 10.11.88, which is intended to separate a mixture of material of different severity. The separator contains a centrifugal bowl having a base and outer walls extending upward from the base to the open end of the bowl. The protrusions are made on the inner surface of the bowl, between which annular recesses are formed at a certain distance from each other. In addition, the separator includes a drive for rotating the bowl, a node supplying material to the bowl, and a device for receiving separation products. In addition, the outer surface of the bowl is equipped with a fluid supply system passing through the through holes of the bowl in the area of the annular recesses.

 The centrifugal separator according to the well-known US patent (taken as a prototype) works as follows.

 Through the node supplying material, it enters the base of the bowl, and then under the action of centrifugal forces of rotation, it moves along the walls of the bowl, passing protrusions and annular recesses. During the period of movement from the base to the discharge end of the bowl, heavy minerals are retained in the annular depressions and accumulate there. Light grains are unloaded with water, overflowing over a vertical board.

 The disadvantages of the centrifugal separator according to the US patent with all its advantages include violations of the movement of the material along the surface of the bowl, compaction of the solid phase in the annular recesses, its retention, and the deterioration of the separation process.

 The aim of the invention is to increase the degree and quality of the extraction of valuable components.

 This goal is achieved by the fact that in a centrifugal separator of periodic action, containing a cone-shaped bowl mounted on a vertical drive shaft, having a base and walls extending upward from the base to the open end of the bowl, shelves made on the inner surface of the bowl and spaced apart in rows and forming annular recesses, a drive for rotating the bowl, a loading nozzle and a receiver for separation products, the shelves in each row are made intermittently, and the shelves of the previous row overlap the gap the holes in the subsequent row, and the outer side surface of the loading nozzle is equipped with agitators made in the form of rods and installed with a gap in the annular recesses, and the base of the cone-shaped bowl is equipped with a flow swirl, the agitator made with the possibility of its regulation along the length and build-up, while the agitator is equipped with a device for supplying liquid to the zone of the annular recess, and in the lower part of the cone-shaped bowl, in the area of the projection of the outlet of the loading pipe, a sweat divider is fixed an eye installed with a gap relative to the outlet of the loading nozzle and the bottom of the bowl, and the flow divider can be made in the form of a perforated disk, in addition, the gaps between the shelves in each row on the inner surface of the bowl can be equipped with narrow connecting belts.

 In addition, the outer surface of the loading nozzle is provided with a jacket connected to the liquid supply system, and the jacket itself is connected to a device for supplying liquid to the annular recess zone, and the cone-shaped bowl is provided with an additional jacket for liquid supply from the outside, and the bowl itself is provided with through-holes holes, in addition, the lower part of the shelves and connecting belts can be made of copper or its alloys, and the flow swirl can be made in the form of radially arranged curvatures ynyh blades.

 The technical essence of the invention is illustrated as follows.

 To prevent compaction of the solid phase of the material in the annular recesses, as well as its retention in them under the action of centrifugal forces, it is proposed that the shelves in each row be discontinuous, i.e. gaps relative to each other, and to increase the degree of separation of the material deposited in the annular recesses, it was proposed to loosen it with agitators.

 In addition, to create a laminar motion of the pulp stream in a centrifugal bowl, it was proposed to provide the separator with a flow divider and swirl, and to further separate the material into the zone of annular recesses under the shelves, it was proposed to introduce additional water. When using materials containing gold and mercury, the lower parts of the shelves and connecting belts should be made of copper or its alloys. In this case, the recovery of gold increases.

 Comparison of the proposed technical solution with the prototype shows that it differs from it by the features stated in the characterizing part of the claims, except for the feature stated in claim 8, namely: the cone-shaped bowl is provided with an additional jacket for supplying liquid from the outside, and the bowl itself the zone of annular recesses is provided with through holes.

Comparison of the proposed technical solution not only with the prototype, but also with other solutions in the field of centrifugal separators shows that it is known:
the principal use of flow swirls (see.a.s.SSSR N 825168, class B O4 B 3/00), however, the claimed flow swirler differs from it in a more efficient shape of the blade, allowing to divide the pulp stream falling onto the base of the centrifugal bowl;
supplying the loading nozzle with a jacket for supplying flushing water to the centrifugal bowl (see a.c.SSSR N 1171093, class B O4 B 1/04), however, the nature of the water supply, location, and overall design in the claimed solution differs from the known invention.

 At the same time, the remaining unknown features, taken together and in conjunction with all the known ones, make it possible to achieve the goal set above, namely, to increase the degree and quality of the extraction of valuable components, in particular gold from poor alluvial products.

 This centrifugal separator has been pilot tested in one of the Siberian artisans and recommended for widespread use.

 The technical nature of the invention is illustrated in FIG. 1, which shows a general view of a centrifugal separator, FIG. 2 a centrifugal separator provided with an additional jacket from the outside, in FIG. 3 a top view of the flow swirl, in FIG. 4 is a top view of the flow divider; FIG. 5 - mutual arrangement of shelves in height in each row (2 rows shown), in FIG. 6 shows the mutual arrangement of the shelves with connecting belts (one row is shown).

 The batch centrifugal separator comprises a cone-shaped bowl 1 consisting of a bottom 2 and a wall 3 located inside the bowl 1, a loading nozzle 4, a receiver 5 for separation products, a drive 6 for rotating the bowl 1. On the inner side surface 7 of the bowl, shelves 8 are spaced along its height in rows and which form annular recesses 9. On the loading pipe 4 outside are mounted agitators 10, made in the form of rods and which have the ability to control them along the length, and the possibility of building them up after abra wear, and which are installed in the area of the annular recesses 9. The bottom 2 of the bowl 1 is equipped with a swirler 11 flows, which can be made in the form of radially spaced curved blades, and a device 12 for unloading valuable components from the bowl 1.

 For efficient operation of the centrifugal separator, the cone-shaped bowl 1 is provided externally with an additional jacket 13, which forms a cavity 14 for supplying liquid to it and which is connected to the annular recesses through holes 15. In addition, the loading pipe 4 is provided with a jacket 16, which forms a cavity 17, for supplying liquid to it and which is connected through channels 18 with devices 19 for supplying liquid to the zone of annular recesses 9. On the bottom 2, above the swirl 11 of the flow and under the discharge opening of the boot branch pipe 4 is installed flow divider 20, made in the form of a perforated disk 21. Shelves 8 in each row, in places where they are made intermittently, can be connected by narrow connecting bands 22.

 Centrifugal separator operates as follows.

 The pulp-like material is fed into the cone-shaped bowl 1 through the loading nozzle 4. Under the pressure of the rotary drive 6, the cone-shaped bowl 1, and in place with it, the bottom 2 with the swirl 11 rotate, as a result of which the material entering the swirl 11 under the action of centrifugal forces, moves to the inclined side surface 7 of the bowl 1 and, spreading along it, moves upward, passing from one row of shelves 8 to another row and so on gradually until the material being processed begins to be unloaded through the last rhny number of shelves 8 into the receiver 5 product separation. During their movement, heavy particles are deposited from the pulp stream on the inner surface 7 of the bowl 1, especially lingering in the annular recesses 9, shelves 8, and light particles of waste rock are carried out by the pulp stream outside the bowl 1.

 In practice, for example, during the extraction of gold sand, the pulp contains particles of intermediate density material, which, also deposited with the golden sand, are trapped in the annular recesses 9. In order to prevent such material from lingering in these places, agitators 10 are provided, which are in the annular zone recesses 9 along the entire height of the bowl 1 subjected to precipitation of the material loosening, increasing its best separation.

 To create a laminar flow movement, a flow divider 20 is used, which splits the general stream of pulp stream, giving it a preliminary rotation.

 During prolonged operation, due to the contact of the agitators 10 with the abrasive medium, they wear out, and for constant effective operation, their length can be adjusted, and when the working part is completely worn out, it can be replaced or increased.

 The execution of shelves 6 is intermittent, i.e. with gaps relative to each other, although it allows you to effectively remove the intermediate density material from the annular recesses 9, however, gold sand can also be carried out with it. To reduce its losses, the shelves 8 in each row in places with gaps are connected by narrow connecting belts 22, which reduce the loss of valuable material. Verified experimentally.

 To achieve even greater efficiency in the separation of valuable material from other pulp products in the zone of annular recesses 9, an additional water supply to this zone is used through the through holes 15 of the bowl 1 on the cavity 14 and, in addition, additional irrigation of the same zone with water is carried out by supplying it from cavity 17 of the loading pipe 4 through the through holes 18 and the device 19 for supplying liquid during the tedding of the material in the annular recesses 9.

 The same systems of additional irrigation with water are used when periodically unloading valuable material through the device 12 during the stop of the separator.

 When using centrifugal separators on poor alluvial products containing gold and mercury, it is advisable that the lower surfaces of the shelves 8 and narrow connecting belts be made of copper or its alloys.

 This coating provides a more complete extraction of amalgam.

Claims (10)

 1. A centrifugal separator of periodic action, comprising a cone-shaped bowl mounted on a vertical drive shaft, having a bottom and walls extending upward from the bottom to the open end of the bowl, shelves made on the inner surface of the bowl and spaced apart along its height to form ring recesses, a drive for rotation of the bowl, the loading pipe and the receiver for separation products, characterized in that the shelves in each row are made intermittently, and the shelves of the previous row overlap the gaps in the next row, and on the outer side surface of the loading nozzle is equipped with agitators made in the form of rods and installed with a gap in the annular recesses, and the bottom of the conical bowl is equipped with a flow swirl.  2. The separator according to claim 1, characterized in that the agitator is made with the possibility of its regulation along the length and building.  3. The separator according to claims 1 and 2, characterized in that the agitator is equipped with a device for supplying liquid to the annular recess zone.  4. The separator according to claim 1, characterized in that in the lower part of the conical bowl, in the area of the projection of the outlet of the loading nozzle, a flow divider is mounted, installed with a gap relative to the outlet of the loading nozzle and the bottom of the bowl.  5. The separator according to claim 4, characterized in that the flow divider is made in the form of a perforated disk.  6. The separator according to claim 1, characterized in that the gaps between the shelves in a row on the inner surface of the bowl are equipped with narrow connecting belts.  7. The separator according to claim 1, characterized in that the outer surface of the loading nozzle is provided with a jacket connected to the fluid supply system, and the shirt itself is connected to a device for supplying fluid to the annular recess zone.  8. The separator according to claim 1, characterized in that the cone-shaped bowl is equipped with an additional jacket for supplying liquid, and the bowl itself in the zone of annular recesses is provided with through holes.  9. The separator according to paragraphs. 1 and 6, characterized in that the lower part of the shelves and connecting bands is made of copper or its alloys.  10. The separator according to claim 1, characterized in that the flow swirl is made in the form of radially spaced curved blades.

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