RU2046020C1 - Separator - Google Patents

Abstract

FIELD: ore and minerals dressing. SUBSTANCE: separator has a sloping gutter with an auger. In the bottom part of the gutter there is a vat with a drain threshold. The outlet hole of the feeder is beneath the level of the threshold, and in the upper part there is an unloading device. A branch pipe for supply of water is located between the feeder and the unloading device. The auger part beneath the branch pipe is perforated, and the diameter of the perforation holes decreases as the holes are closer to the auger axle. The perforation is arch-shaped, and the last row of perforation holes is open to the external edge of the auger. EFFECT: higher efficiency. 3 cl, 2 dwg

Description

 The invention relates to the mining industry, and in particular, to the enrichment of minerals, and can be used to isolate fine metal particles of a particularly scaly form from a concentrate concentrate.

A device for implementing the method of washing and classification of minerals, comprising from an inclined working chamber with a conveying spiral. The camera is placed in a pan filled with water and equipped with outlet pipes and a water supply pipe. The chamber in the upper part is equipped with unloading, and in the lower part loading devices [1]
The disadvantage of this device is the low efficiency of the extraction of thin gold and, as a consequence, its large losses.

A mechanical classifier is also known, consisting of an inclined trough with a stroke mechanism in the form of a screw. In the lower part of the gutter there is a bath with a drain threshold, in the middle part a power device, and in the upper part an unloading device. Power is supplied to the classifier in the form of pulp [2]
The disadvantage of this classifier is that flaky particles are not separated from the starting material, since separation is carried out according to the degree of precipitation, and flaky particles of gold or platinum and granular particles of concentrates represented by such heavy minerals as pyrite, cassiterite, etc. have the same or close sedimentation, therefore, particles of flake form in the mechanical classifier are in both products.

Closest to the described one is a separator, including an inclined trough with a screw, having a bath with a drain threshold in the lower part, below which the outlet of the feeder is located, and in the upper part of the discharge device located between the feeder and the discharge device, a water supply pipe [3]
The disadvantage of this separator is the low efficiency of the separation of sludge from the concentrate.

 The object of the invention to be solved is the isolation of flake form particles of a thin native metal from a schlich concentrate.

 The essence of the invention lies in the fact that in the separator, which includes an inclined trough with an auger, having in the lower part a bath with a drain threshold, below the level of which the outlet of the feeder is located, and in the upper part of the discharge device, located between the feeder and the discharge device, a water supply pipe , the lower part of the screw from the nozzle is perforated, while the perforation section decreases to the axis of the screw, the perforation has an arcuate shape, the extreme row of perforations is made open to the outer edge of ESA.

 In FIG. 1 shows the described separator, side view; in FIG. 2 the same separator, end view. The separator contains a semicircular groove 1, inside of which a screw 3 is mounted on the shaft 2, equipped with a rotation drive 4. On the screw 3, perforation 5 is made of an arcuate shape, the cross section of which decreases to the axis of the screw, and the row of perforations that is extreme from the axis is open. At the bottom of the chute 1 there is a bath 6 with a drain threshold 7. The feeder 8 is located on the side of the chute 1 and has an outlet 9 below the level of the drain threshold 7. A pipe 10 for supplying water is placed between the feeder 8 and the discharge device 11.

 The separator works as follows.

 The sludge concentrate enters from the feeder 8 into the groove 1 through the outlet 9. Since water enters through the nozzle 10 into the groove 1, the bath 6 is filled with water to the level of the drain threshold 7, and its excess overflows through the threshold. Thus, the concentrate is processed deeper into the water stream, its particles are moistened in water, which avoids the drift of dry floating particles through threshold 7. Drive 4 rotates the shaft with screw 3 fixed on it in the direction of transporting the material up towards the discharge device 11. B During transportation, part of the material spills through the perforation holes 5. This is also facilitated by the counter-directed water flow that passes through the same holes. In this case, water is divided into many jets and the most powerful of them escape through large openings of the peripheral sections of the screw 3 and the closer to the axis of the screw, the smaller the cross section of the holes and the smaller the stream of water. This allows you to equally intensively mix both large and small fractions of concentrates, move them throughout the volume of the trench 1 in the volume of the bath 6 to separate particles according to buoyancy (sedimentation) into two classes: rapidly precipitated particles (granular) gravitate towards the bottom of the trench, sooner or later they turn out to be in the area above the water pipe, the non-perforated section of the screw 3 is transported to the discharge device 11 and through it out of the separator, the slowly deposited class of particles, represented by flakes of gold (or platinum), with flow m of water is taken out of bath 6 through threshold 7. As already mentioned, the granular part of the schlichs is already washed from waste rock and is represented by high-density minerals, which, as a rule, do not rise to threshold 7. The arcuate shape of the perforation 5 simplifies the penetration of material particles through it when the screw is moving, and the fact that the extreme row of perforations is open to the outer edge of the screw allows you to mix all the material, including the one that lies on the bottom of the gutter.

 The advantage of the described separator is the high quality of separation of the concentrates, as well as the simplicity of design and operation.

Claims (3)

 1. SEPARATOR, including an inclined trough with a screw, having a bath with a drain threshold in the lower part, below which the outlet of the feeder is located, and in the upper part of the discharge device, located between the feeder and the discharge device, a water supply pipe, characterized in that the lower from the nozzle part of the screw is perforated, while the perforation cross section decreases to the axis of the screw.  2. The separator according to claim 1, characterized in that the perforation has an arched shape.  3. The separator according to claim 1, characterized in that the extreme row of perforations is made open to the outer edge of the screw.

Images