SU1459721A1 - Cascade-adhesive separator - Google Patents

Abstract

The invention relates to the enrichment of minerals and allows increasing the recovery of valuable components by optimizing the flotation conditions of various size classes. In the vertical shaft I there is a funnel 2 with a tangential feed inlet (I) 3 and an axial discharge-: zone hole 4. In the funnel 2, air 5 is mounted coaxially, 5 conical And 6 with a diffuser 7. Under the hole 4 a ring is installed

Description

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Forehead 8 with a vertical pipe 9, In a horizontal bath 13, baffle plates (OH) 10, 11, foam Gon 14, adhesive drum 15, chute 16 and discharge pocket 17 with necKOBbiM hole 18 are installed. the edges of the hole 4 have an annular gap 19. Under the pipe 9, the OP 10 is installed at the level of the drum 15. The initial pulp is divided in the funnel 2 into coarse and fine-grained fractions. Fine-grained

the fraction passes through P 6, is aerated at the exit of the diffuser 7 and when it collides with the OP 11. From the chamber 12, the aerated pulp enters the bath -13, forming a foam layer and a chamber product. The coarse fractions pass through the chute 8 and the pipe 9, aerated in the joint venture 10 and fed to the foam layer in the chamber 13. The valuable components with the froth product are removed by the drum 15 and the chute 16. The chamber product is discharged through the pocket 17 and the hole 18. 1 sludge .

  , one

; The invention relates to the enrichment of minerals, in particular, to k4 tools of flotation apparatuses, and can be applied in the flotation of ferrous and non-ferrous metals, coal, non-metallic raw materials, etc.

; The purpose of the invention is to increase the imbalance of valuable components by optimizing the flotation conditions of different size classes of enriched material.

 . In the drawing; schematically depicted to the scaled adhesive separator, cut.

Cascade-adhesion separator consists of a vertical shaft 1 installed on the shaft 1 of the funnel 2 with a tangential loading nozzle 3 and an axial discharge opening 4 coaxially installed in the funnel 2 an air nozzle 5 installed in the funnel 2 of the conical nozzle 6 with a diffuser 7 installed under the unloading the hole 4 of the funnel 2 of the annular gutter 8, the vertical pipe 9, the upper 10 and the lower 11 baffle plates, which form the aeration chambers 12, connected to it horizontally; the 9th bath 13, in which the foam layer 14 is installed, ezionny drum 1 $ and trough 16 for discharging the froth product and discharge pocket 17 Peskov aperture 18. Tapered pipe 6 is mounted for vertical movement and forms with the edges of the discharge openings 4

an annular gap 19. A vertical pipe 9 communicates an annular groove 8 with a horizontal bath 13. A baffle plate 10 is installed under a vertical pipe 9 at the level of the axis of the adhesive drum 15.

The separator works as follows.

The pulp treated with reagents is rotated by feeding it through the tangential nozzle 3 into the funnel 2. Due to centrifugal forces, large particles are concentrated near the walls of the funnel 2 and through the ring the gap 19 enters the annular groove 8, and the fine particles (ishamy) from the central part the funnels 2 enter the conical nozzle 6. In the diffuser 7, the pulp flow is aerated by air drawn in through a concentric flow. installed nozzle 5. The aerated pulp flow at the exit from the diffuser 7 splits into jets, forming a large contact surface with ambient air with additional air ejection through the gap between the diffuser 7 and the shaft 1, and through the vertical shaft 1 falls on the lower baffle plate 11, where there is an intense dispersion of air and the release of the thinnest air bubbles on the fine particles that prevail in this zone of the separator. From aeration chamber 12 aerated pulp for 145972

It is guided into a horizontal bath 13 to form a highly developed hydrophobic surface of the foam layer, which has a sufficiently large lifting force capable of receiving an appropriate load of coarse-grained hydrophobic particles.

The coarse fractions of the original pulp from the annular groove 8 through the vertical pipe 9 fall onto the upper plate 10, where the dispersion of air trapped by zhektsii when the pulp falls. The aerated pulp from the baffle plate 10 spreads evenly onto the foamy slurry formed by the pulp stream containing. fine particles in the aeration chamber 12. This creates favorable conditions for the flotation of coarse fractions due to the absence of turbulent pulp flows and the presence of a highly developed surface of air bubbles in the aeration chamber 12, hardening of the foam layer with fine particles and pre-aeration of large particles on the upper baffle plate 10. In the horizontal bath 13 the foam layer containing useful components.

15

sludge and sludge fractions to optimize their flotation conditions.

The connection of the annular gutter 8 with a horizontal bath 13 with a vertical pipe 9, under which is placed the baffle plate 10 installed at the level of the axis of the adhesive drum 15, allows you to create the necessary conditions for aeration and flotation of large particles with material supplied to the foam layer formed during flotation white fraction. Ensuring optimal flotation conditions for various size classes of enriched material allows, in the end, to achieve an increase in the extraction of valuable components into a concentrate.

F

formula of invention

Cascade Adhesive Separator, including a tangential funnel. 25 with a loading nozzle and an axial discharge opening, an air nozzle coaxially mounted in the funnel, a diffuser, aeration chamber, and a fender at the outlet end of the funnel

foam is fed to an adhesive 30 plate, horizontally mounted to the drum 15 and removed from the separator. bathtub with an adhesive drum and a discharge pocket placed in it. different in that.

through the chute 16. The chamber product is withdrawn from the horizontal bath 13 through the discharge pocket 17, and the croup ij

that, in order to increase the extracted fractions, they are removed through the sand 35 Valuable components by optimizing the opening of 18 different flotation conditions. Installing a conical nipple 6 connected to the diffuser 7 and forming an annular gap 19 with a discharge, opening 4 of the funnel 2, as well as installing ring gutter 8 under

Due to the size of the material being enriched, the separator is equipped with a conical nozzle installed in the funnel with the possibility of vertical 40 movement forming the edges of the discharge discharge opening 4 of the funnel 2 to separate the initial power supply to the sand and pshamovy fractions and float them separately to ensure optimal specific conditions aeration and flotation of each fraction.

The ability to vertically move the tapered nozzle allows

The hopper has an annular gap established under the discharge funnel opening of the funnel by an annular gutter and vertical tube, which connects the annular forehead to the bath, while the diffuser is mounted on the conical nipple, and the slab plate is connected to the vertical pipe.

adjust the flow ratio of the sand; 50 axis of the adhesive drum.

145972

sludge and sludge fractions to optimize their flotation conditions.

The connection of the annular gutter 8 with a horizontal bath 13 with a vertical pipe 9, under which is placed the baffle plate 10 installed at the level of the axis of the adhesive drum 15, allows you to create the necessary conditions for aeration and flotation of large particles with material supplied to the foam layer formed during flotation white fraction. Ensuring optimal flotation conditions for various size classes of enriched material allows, in the end, to achieve an increase in the extraction of valuable components into a concentrate.

F

formula of invention

Cascade Adhesive Separator, including a tangential funnel. an air inlet and an axial discharge opening, an air nozzle coaxially installed in the funnel, a diffuser, aeration chamber, and a fender at the outlet end of the funnel

a plate, a horizontally mounted bath with an adhesive drum placed in it and a discharge pocket. different in that.

That, in order to extract 35 Valuable components by optimizing the flotation conditions of various size classes of enriched material, the separator is equipped with a conical nozzle installed in a funnel that can vertically move 40 the edges of the conical nozzle forming the funnel outlet of the funnel a hole in the funnel with an annular gutter and a vertical 45 tube that connects the annular jet forehead to the bath, while the diffuser is new at the conical nipple and the baffle plate is connected with a vertical pipe and installed on

Claims (1)

Cascade-adhesive separator, including a funnel with a tangential · loading nozzle and an axial discharge hole, an air nozzle coaxially mounted in the funnel, a diffuser, an aeration chamber, a baffle plate, a horizontally mounted bath with an adhesive drum and an unloading pocket placed on it, characterized in that, in order to increase the extraction of valuable components due to the optimization of + flotation conditions of various grades of enriched material, the sleep separator The cone is installed in a funnel with the possibility of vertical movement with a conical nozzle, about “> forming an annular gap with the edges of the funnel discharge opening, installed under the discharge funnel opening · of the funnel with an annular groove and a vertical pipe communicating the annular * t forehead with the bath, while the diffuser * is installed on the conical pipe, and the baffle plate is connected to a vertical pipe and installed at the level of the axis of the adhesive drum.