SU1022736A1 - Device for washing minerals - Google Patents

Abstract

1. A DEVICE FOR PROM APREN MINERAL RESOURCES, comprising a housing, a working chamber, at least one antiphase hydropneumatic; “The transducer is divided by a rigid annular partition into DVI sections, in each of which a perforated element and a membrane are laid out. on, established relative to the corpus; With a gap that communicates through air distributors with a source of gaseous medium, the result is that, in order to increase the effectiveness of the washing process, it reduces the loss of fine particles and has a filter element with a cylindrical element that is coaxial. installed in the annular partition razukktsim ravine with her, perehol soyuyu in the lower part of the discharge hopper. 2. The device according to Claim 1, of which is that the ring re-Ach of the town is horizontally fitted. nvrlennym gate valves.

Description

The invention relates to the enrichment of pelvic materials and can be used in ceramic, chemical, food, and other folk industries for dispersing, dissolving, and mixing materials while simultaneously separating a portion of the solid phase from the liquid. A device for cleaning materials, such as minerals, is designed for simultaneous classification of materials by size. It consists of a tank with an oscillator installed vertically along its axis, made in the form of a cylindrical hydropneumatic vibrator and a cylindrical sieve positioned coaxially with the vibrating envelope of the vibrator U. It is also known a device for washing minerals, comprising a housing, a working chamber, at least at least one antiphase hydropneumatic transducer, divided by a rigid annular partition into two sections, each of which contains a perforated element and a membrane, Encased against the body with a gap communicating through the air blower with a source of gaseous medium 2.: These devices are not sufficiently effective for washing minerals with uneven particle size and with a high content of clay impurities, since it is impossible to separate sludge according to certain classes . The aim of the present invention is to increase the efficiency of washing due to the loss of fine particles. This goal is achieved by the fact that in the device for washing minerals the filtering element of cylindrical shape is coaxially installed in the ring partition and forms a cavity with it, passing into the discharge bin in the lower part. In addition, the ring partition is equipped with horizontally installed slide gate valves. Figure 1 shows the device, view in section) in figure 2 - section aa in Figure 1. . The device for flushing minerals includes one antiphase hydro-pneumatic converter 1, made in the form of sections 2 and 3. In kalokhoy - from sections 2 and 3 there are perforated elements 4 and 5 and membranes b and 7 ,. formation with corpus 8, zone 9 and 10, associated with; air distributors 11 and 12. Between sections 2 and 3 there is a rigid annular partition 13, in which the filter element 14 is installed coaxially with a gap with a swept-off system 15, forming a cavity 16, in the lower part passing into a bunker 17 with an outlet j-j com 18. The cavity 16 is connected to the slurry line by means of the adjusting valve 19. Not shown. The filter element 14 of the cylindrical fi lm is a frame 20 made, for example, in the form of a squirrel wheel, on which the interchangeable grid 15 is rigidly fixed The internal diameter of the cylindrical filtering element 14 is chosen to be equal to the internal diameter of the membranes b and 7 and ensures the constancy of the flow section of the working chamber 21 along the entire length of the device. In addition, the rigid annular partition 13 is equipped with gates 22 and 23, which are mounted in the cavity .16 horizontally with diametrically opposite sides of the filtering element 14. The device operates as follows. The mineral to be washed is loaded into the working chamber 21, which is pre-filled with water. The injection and discharge of the gaseous medium into the gaps 9 and 10 excite the oscillations of the membranes 6 and 7. The air distributors 11 and 12 make it possible to excite oscillations of the membranes b and 7 in antiphase, i.e. the injection of the gaseous medium into the gaps 9 of section 2 is accompanied by it. a tap from volume 10 of section 3 and vice versa. The oscillations of the membranes 6 and 7 are transmitted by the fluid inside the working chamber 21, which performs both axial and radial vibrations. Moreover, the maximum oscillatory velocity and the largest pressure change occur in the region lying between sections 2 and 3 of the antiphase hydropneumatic converter, i.e. where the annular partition 13 is located. In the process of washing minerals with a high content of clay impurities and irregular particle size distribution (phosphorite ores, placers of non-ferrous, rare, precious metals, etc.) silt, clay, dusty and sandy particles that make up The sludges of the process are separated from the concentrate on the replaceable grid 15. The powerful radial oscillations of the liquid lead to the passage through the cells of the replaceable grid 15 particles with sizes smaller than the cells of the replaceable grid 15, and the powerful axial count liquid bath slshvayut larger particles from the surface of a removable grid 15.

The size of the cells of the interchangeable grid 15 is chosen: based on technological requirements and can vary from a few millimeters to a micron. Moreover, by reducing the size of the cells of the interchangeable grid 15, it is possible to increase the efficiency of the separation process by twisting the power of hydraulic oscillations, which is achieved by changing the angle of skewing oscillations 5 and 6.

The sludge separated on the replaceable screen 15 is discharged from the cavity 16 between the rigid annular partition 13 and the filtering cylindrical element 14 to the discharge bin 17, from where it passes through the inlet pipe 18 and the adjusting valve 19. to the slurry line.

Under the action of low-frequency acoustic oscillations of the membranes b and 7 and the liquid, the particles of the mineral being washed are separated. in Becyt, the heavier ones are at the bottom, the lungs are at the top. The concentration of particles of the solid phase in the lower part is always higher than in the upper part and the movement of the outgoing sludge water is predominantly

happens in the latter. When flushing minerals with high specific gravity of mineral pieces, the flow of slimes requires an especially high water consumption.

It is possible to direct the flow of water towards the highest concentration of the minerals washed and to increase the efficiency of flushing by means of valves 22 and 23 located in the cavity 16 between the rigid annular partition 13 and the cylindrical filtering element 14 and the hydrodynamic resistance can be achieved by changing the position of the valves 22 and 23 the movement of water in the upper and lower parts of the filtering cylindrical element 14, which allows you to control the washing process and reduce water consumption for washing minerals.

Thus, the device allows to significantly increase the washing efficiency by reducing the loss of particles of small classes into the drain, i.e. boosts concentrate yield.

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Claims (2)

1. DEVICE FOR WASTE USEFUL FOSSILS, comprising a housing, a working chamber, at least one antiphase hydropneumatic • converter, divided by a rigid annular partition into two 'sections, in each of which there is a perforated element and a membrane mounted relative to the housing with the gap communicating through the air distributors with the source of the gaseous medium, including the fact that, in order to increase the efficiency of the washing process by reducing the loss of fine particles, it is equipped with using a cylindrical Forsh element, coaxially installed in the annular partition and forming a hollow with it, passing> at the bottom into the discharge hopper. 2. The device according to claim 1, with the proviso that the annular nepe-g of the town is equipped with horizontally mounted slide gates. FW ^ rr ^,,! TiS 102273.6 ϊ