RU2046667C1 - Centrifugal separator - Google Patents

Abstract

FIELD: separation of materials. SUBSTANCE: centrifugal separator has cylindrical-conical housing with tangentially arranged feed branch pipe and device for discharge of separated products. Conical portion of housing is filled with liquid which does not mix with mineral suspension. This portion of housing has screw groove on inner surface to let out precious components whose density is higher than that of other components. Ring accumulator arranged in lower portion of cone communicated with screw groove. Cylindrical portion of housing is furnished with deflectors arranged over its height. EFFECT: enhanced reliability of operation. 1 dwg

Description

 The invention relates to a device for the extraction of gold and platinum-containing sands and can be used in devices of a water purification system, as well as in construction and other sectors of the economy.

 Known centrifugal separator [1] consisting of a housing, a vertical rotating rotor with a feed slot ring, a pipe for supplying an organic liquid not miscible with water, a pulp feeding device.

 The disadvantage of the separator is the high energy intensity of the separation process during the processing of pulp saturated with a small amount of heavy fraction.

 A more promising is a centrifugal separator [2] including a cylindrical body with a tangential nozzle for supplying mineral suspension, a device for unloading light and heavy fractions and a helical groove made on the inner surface of the conical part.

 The disadvantage of such a separator is low separation efficiency.

 The objective of the invention is to increase the degree of separation of the heavy fraction from the source material by constructive improvement of the elements of the cone separator.

 The problem is solved in that the conical part of the device is filled with a liquid immiscible with the mineral suspension and is made with an annular storage of valuable components located in its lower part and communicated with a helical groove. In this case, the cylindrical part of the device is made with reflectors placed along its height, and the tangential pipe for supplying the mineral suspension is connected to the cylindrical part at its lower base.

 The drawing shows a schematic diagram of a cone separator.

 The separator consists of a cylindrical-conical body 1, in which the supply pipe 2 is tangentially located for supplying a shared material and a working medium, a device for unloading a light fraction located in the upper part of the body 1 and consisting of a pipe 3 with a nozzle 4 of a device for unloading a heavy fraction 5 on the inner surface of the conical part 6, there are longitudinal helical grooves 7, turning into an annular groove 8, reinforced in a smaller section of the conical part 6 of the outer surface, and reflectors 9, anovlennyh height of the cylindrical part of the housing 1.

 The separator works as follows.

 When washing gold and platinum-containing sands, the conical part 6 is filled with a liquid that is not wettable with the working medium (water), for example bromoform, bromobenzene or tetrabromoetham to a level corresponding to its larger cross section. In the cylindrical part of the housing 1 through the pipe 2, located tangentially, the source material with the working medium is supplied. As the cylindrical part of the housing 1 is filled with a mixture of the source material with the working medium, it is contacted with reflectors that stimulate the mechanical separation of the heavy fraction from the light one. The light fraction (sand, sludge) with the working medium is unloaded through the pipe 3 with the nozzle 4. The heavy fraction moves down the volume of the working medium and, having a density higher than the density of the liquid, drowns in it, moving along the cone 6.

 Due to the tangential location of the nozzle 2, the feed mixture of the starting material and the working medium is twisted, reducing the likelihood of accumulation of the light fraction at the interface between the working medium and the liquid, i.e. a larger section of the cone 6. At the same time, a fluid with a sinking heavy fraction in the cone 6 is twisted.

 The elements of the heavy fraction can be a mechanical compound (not dissolved by the working medium) of the light fraction, foreign elements (gravel), elements of a noble metal, i.e. clots of material whose density exceeds the density of the liquid in the cone 6. All this requires additional sorting. Therefore, the elements of the heavy fraction having a diverse, in a certain interval, density during the rotation of the liquid in the cone 6 are redistributed from the center to the periphery. Longitudinal helical grooves 7 are made in such a size that ensures the penetration of sorted elements of the heavy fraction into them. As the sorted elements accumulate, they, under the action of gravity, move along the longitudinal helical grooves towards a smaller section of the cone 6 and accumulate in the annular accumulator 8, from where they are removed as necessary. The unsorted part of the elements of the heavy fraction is collected in the unloading device 5, from where it is automatically or manually removed as it is collected.

 The invention can mainly be used in gold mining, when sand is washed, as well as in the food industry when sorting tubers.

 The originality of the design solution is confirmed by the simplicity of the technical design, which guarantees both operational and technological reliability of the process of separation of the source material.

 The efficiency of fraction separation in the proposed device is determined by improving the quality of sorting, which consists in additional rotational movement of the elements of the heavy fraction, which virtually eliminates the influence of its shape on the separation process. Since in this case each element of the heavy fraction repeatedly changes its position as it moves in the liquid, the shape of this element does not affect the deposition rate.

Claims (1)

 CENTRIFUGAL SEPARATOR, including a cylindrical conical housing with a tangential nozzle for supplying a mineral suspension, a device for unloading light and heavy fractions, a helical groove made on the inner surface of the conical part, characterized in that the conical part is filled with a liquid not miscible with the mineral suspension and made with an annular valuable storage ring components located in its lower part and communicated with a helical groove, the cylindrical part is made with reflection telyami, a tangential inlet for feeding mineral slurry is connected to a cylindrical portion at its lower base.

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