SU1518544A1 - Dust-trapping fan - Google Patents

Abstract

The invention relates to the mining industry. The goal is to increase the efficiency of dust collection by improving the wetting of dust particles and sludge formation during the passage of air-dust flow through the impeller (RK). For this purpose, a suction manifold with a liquid sprayer and an RC is installed in the housing. A sludge separation chamber is located between the SC and the outlet diffuser with the rectifier. The blades 3 of the impeller are made in the form of a folded harmonica of a curved mesh with gaps between the folds. On the outer side surface of the Republic of Kazakhstan there are sludge-forming skirts 11, placed with the formation of annular gaps. When entering the dusty air flow through the suction manifold inside the Republic of Kazakhstan it is affected by a jet of sprayed liquid containing a foaming additive. The sprayed fluid, filtering through the mesh folds of the blades 3, turns into foam and intensively wets the dust. The flow of foam and sludge passes from the interscapular channels to the annular channels 12 of the slime-forming skirts, the foam is destroyed. The slurry-air mixture is carried to the sludge separation chamber, from where the sludge is discharged through the sludge outlet, and the dust-cleaned air through the outlet diffuser to the atmosphere. 2 Il.

Description

The liquid, filtering through the mesh masonry of the blades 3, turns into flax and wets the dust intensively. A tray of foam and sludge passes from the inter- (channels to the annular canals of slime-forming skirts, the foam is destroyed. The slurry-air mixture is carried into the slurry chamber, from where the slurry is discharged through the sludge-discharging branch pipe, and the air cleared from dust through the outlet diffuser into the atmosphere 2 Il.

This invention relates to the mining industry and is intended to combat dust generated by mining machines.

The purpose of the invention is to increase the efficiency of dust collection due to better wetting of dust particles.

sludge formation during the passage of the air-dust flow through the working wheel.

Fig, 1 shows a fan-dust collector, longitudinal section; la fig. 2 shows section A-A in FIG. one,,

The torus dust collector valve includes: an outer casing 1 with impeller 2 installed there; tibTM is located on its side surface: axes 3 and a sprayer 4 liquids placed in the center of the impeller, and Collector 5, located between the impeller 2 and the outlet diffuser 6 with the directing unit 7, chamber 8 of the sludge separator

installed at the bottom of the sludge disposal pipe 9. The blades 3 are made in the form of a corrugation folded into an accordion-1 |; and, while the corrugations are bent towards the center of the) wheel, are made of a grid, 1 |) are positioned at an angle to the radius of the impeller and installed with cusps) with respect to each other, which form the interscapular channels 10, and 1 |) the working wheel 2 is equipped with fixed skirts 11 fixed on its outer side surface (t with gaps between them forming 1 | salt channels 12, leading from the interscapular channels 10 to the chamber 8 of the flamo branch. On the shaft 13 o An electric motor, located in the inner cavity of the outer housing 1, is fitted with an impeller 2 in front.

The torus dust collector works as follows.

Dust air enters the ikopnyc 1 through the suction manifold 5 inside the impeller 2, where it is exposed to a torch

the sprayed liquid, which is a foaming agent solution, from the liquid nozzle 4 is twisted by paddles 3. At the same time, the dusty air is ejected by the spray liquid torch and centrifugal forces into the inter-blade channels 10, where the mixture of dust-filled air and sprayed liquid is filtered through mesh blade folds

3, turns into foam, which leads to intensive wetting of dust particles, especially fine dust fractions, and increased sludge formation. The flow of foam and sludge from the interscapular channels 10 is directed to annular channels 12 formed by gaps between the sludge-forming skirts 11, where due to centrifugal forces arising during the rotation of the impeller

2 on the inner surfaces of the sludge-forming skirts 11, the mixture of foam with the powder particles turns into sludge and is thrown onto the wall of the chamber 8 of the sludge discharge. Twisted

the flow from the annular channels 12, formed by the gaps between the sludge-forming skirts 1I, is thrown into the chamber 8 of the sludge section, where it is finally cleaned of the sludge, and through

an outlet diffuser 6, in which the rotation of the flow through the spinning apparatus 7 is converted into a translational motion, is emitted into the atmosphere.

Dust particles along with the air flow through the suction manifold 5 enter the impeller 2, where they are moistened with droplets of the spray of the sprayed liquid from the nozzle. At the same time, in the interscapular channels 10 a mixture of dusty air and sprayed liquid turns into foam, where the particulate particles, especially of fine fractions, are intensively moistened.

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and turn into sludge, where, together with foam and sludge, dust particles are directed into annular channels 12 formed by sludge-forming skirts 11, in which due to centrifugal forces arising during rotation of the impeller 2 on the inner surfaces of sludge-forming skirts 1I, the mixture of foam with dust the particles are compressed into the sludge and pushed to the wall of the chamber 8 of the sludge separator. Together with the swirling flow of air, dust and sludge particles from annular channels 12 formed by sludge-forming skirts 1 are sent to the spam separating chamber 8, where they are deposited on the walls and through the sludge-separation pipe 9 from the fan-dust collector.

Complementing the impeller blades of the impeller 2 in the form of a folded-up accordion from a curved mesh with gaps between the folds dramatically increases the contact area between the gaseous, liquid and solid phases of the dusty flow in a volume limited by the internal dimensions of the impeller, significantly reducing the specific air load per unit area of the foaming grid and enter the pricing mode, which makes it possible to convert a mixture of dusty air and sprayed liquid into another aggregate of the - foam during their movement in the interblade channels formed by the gaps between the folds of the curved grid, in a rotating impeller 2. Thus under the influence of centrifugal forces of rotation occurs energetic introduction of dust particles in the surface of the foam bubbles their effective wetting and converting the slurry.

Supplying the rotating impeller to the outside with sludge-forming skirts And with gaps between them provides the effect of twisting on the inner

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The surfaces of the sludge-separating skirts 11 foam, containing dust particles, when moving in the gaps between the skirts, is destroyed by centrifugal forces and again passes into another state of aggregation — psham. When this occurs, the indentation of dust particles into the surface of the bubbles and the sludge film on

Q of the internal surface of the sludge-separating skirts with intensive sludge separation in the cavity of the sludge-separation chamber due to centrifugal forces arising during the rotation

J5 wheels.

As a result, the efficiency of dust collection by the fan-dust collector is improved.

Claims (1)

20 claims  Fan torus dust collector, including a housing with an impeller installed inside it, having a lane of trays, placed on its lateral surface, a suction manifold placed at the entrance to the hull, and a diffuser with a rectifying device at the exit of the hull located between They have a sludge separation chamber connected to the sludge discharge pipe and a liquid dispenser installed in the center of the impeller, characterized in that, in order to increase the efficiency of dust collection by improving the wetting of dust particles and sludge formation during the passage of air-dust flow through working co ,,. It is equipped with sludge-forming skirts installed on the outer side surface of the impeller to form annular gaps between them, and the impeller blades are made in the form of corrugations of the folded harmonicas, while the corrugations are curved towards the center of the impeller and angled to its radius are made of mesh and installed with a gap five five 0 relative to each other.