SU897294A1 - Centrifugal separator - Google Patents

Description

(54) CENTRIFUGAL SEPARATOR

I

The invention relates to the enrichment of minerals and can be used to separate the densities of granular materials.

Machines used for gravity dressing have a number of drawbacks. So, jigging machines, conical, jet separators provide a low degree of confectionia and a low ip overcast of small classes (-0.1 mm); concentration feet have a low productivity per unit area, gateways require stops for emptying. All of these devices do not work satisfactorily in pitching conditions, on floating craft.

A known centrifugal separator Lp: enrichment of granular materials, including a rotating bowl with napripeni and devices for collecting tailings. It achieves high gold recovery and a higher degree of concentration than other known devices, ha, and parts of gold 0, O5 mm and smaller than iT are recovered.

A centrifugal separator is also known, which includes a body made in the form of a conical bowl with holes, an actuator, a loading device, collections of selected fractions, a pipe for water supply 2.

Such devices are widely used in the composition of mobile concentrating plants for processing samples obtained in the exploration of Russian gold deposits, as well as for processing core and control technological samples taken at the washing units (dredge, hydraulics). However, the need to stop for a spar and, comparatively, low productivity reduces efficiency and does not allow the use of these devices in the schemes of continuously operating processing plants under industrial conditions. The purpose of the invention is to increase productivity by providing continuous unloading of the heavy fraction. The goal is achieved by the fact that the separator is equipped with an additional conical bowl mounted coaxially with the main one, while the main bowl is equipped with reflective rings located on its inner surface above the holes. The holes are made in the form of adjustable gaps and are evenly spaced around the ring in a checkerboard pattern. The drawing shows the proposed separator. The centrifugal separator has a housing 1 fixed on the vertical shaft 2, installed in the bearing assembly 3, the housing of which is connected to the frame 4, the drive 5. The housing 1 is made in the form of two bowls: the outer 6 and the inner 7, forming a cavity 8, passing in the upper parts in an annular chamber 9 for collecting the concentrate, having adjustable apertures 10, under which an annular groove 11 is installed. The inner wall 7 of the housing has adjustable annular slots 12c with gaps arranged in a checkerboard pattern, which are fixed rings 13. The cavity 8 adjoins the central nozzle 14 for supplying water from the conduit 15. The feed to the separator is carried out via the slurry guide 16. An annular groove 17 is installed around the periphery for collecting the tailings. Centrifugal separator operates as follows. The housing 1 is rotated by the drive 5. The rotational speed of the housing is higher than the critical one, in which the particles of the projectile do not detach from the inner surface of the wall 7. The pulp through the slider 16 is fed into the bowl, centrifugally applied to the walls of the body and moves up. At the same time, particles of heavy minerals, which are exposed to greater centrifugal forces than particles of light rock, are pressed to the straps, through the slits 12 are unloaded into the annular chamber 9 and through the peryrarpyeMoei orifice 10 - into the collet groove 11. For a clearer separation 55

the density of material over the holes 10 are installed reflective rings, retaining particles

Comrade M., Nedra, 1975.

2. US patent number 3152074, CL. 21O73, published. 1864 (prototype). minerals. Water is supplied to the internal cavity 8 through the nozzle 14, which creates opposing streams preventing the passage of light particles through the openings 12. At the same time, light rock particles are directed into the annular groove 17 to collect tailings. Continuous unloading of the concentrate allows the separation process to be carried out without interruption to the paddle and increases the productivity of the separates per unit area (according to preliminary testing data by 25%). The presence of adjustable slots makes it possible in some cases to increase the width of the slots, the screens of the pre-screening screens, which leads to a sharp increase in the performance of these screens. These advantages make it possible to use the proposed centrifugal separator, for example, in the circuit diagram of the beneficiation apparatuses, marine gold sands in the main operation or in the cleaning operation of coarse concentrate. The use of a separator makes it possible to obtain a higher degree of concentration during primary enrichment on a boat, which significantly reduces the cost of transporting the coarse concentrate to the shore and its further development.

Claims (2)

 Claim 1. Centrifugal separator, comprising a housing made in the form of a conical bowl with holes, a drive, a loading device, collections of separated fractions, a water inlet, characterized in that in order to improve the performance of the separator by providing continuous discharge heavy fractions, the separator is equipped with an additional conical bowl installed coaxially to the main one, while the main bowl is equipped with reflective rings located on its inner surface above the opening ti mi. 2. A separator according to Claim 1, which is also distinguished by the fact that the holes are made in the form of adjustable-sized spikes and evenly spaced around the ring B in a staggered order. Istoshpsi 1 haformacin, taken into account during the examination 1. Zamtin O. V. and others. Enrichment of gold sands and conglomeration