SU1051317A1 - Ejector-type dust trap - Google Patents

Abstract

EJECTOR DUST COUPLER, including a cylindrical body with a sludge outlet pipe, an air flow swirler, a nozzle, a truncated cone separator, the smaller base of which is installed with an annular gap relative to the body, and a coagulant in the form of plates, with the result of an increase, an increase, an increase, relative to the body, and a coagulant in the form of plates, with an increase in the height, relative to the body, to improve the body, an increase in the form of plates. by reducing the ash in the flow of asham, the coagulant plates are set. lenses on the shape of the cylindrical surface of the body, and the height of the coagulant plates is equal to the width of the annular gap between the body and (sludge separator. (P h from h |

Description

The invention relates to the mining industry and can be used for the dedusting of air during the operation of mining machines. A device for dust collection is known, comprising a housing with an air stream eactivator, ejecting unit and a ClJ sludge separator installed therein. The disadvantage of this device is that it does not provide effective coagulation of dust particles with water droplets in the flow. The closest to the proposed technical essence and the achieved effect is an ejector dust collector comprising a cylindrical body with a slurry pipe, an airflow swirler, an injector, a sludge separator in the form of a truncated cone, the smaller base of which is installed with an annular gap relative to the body, and a coagulum the form of plates C2. A disadvantage of the known device is a low degree of dust collection due to ablation by the air flow of the sludge. The purpose of the invention is to increase the efficiency of dust collection by reducing the entrainment of air from the slurry. . This goal is achieved by the fact that in an ejector dust collector, including a cylindrical body with a sludge outlet pipe, an air flow swirler, a nozzle, a sludge cone separator in the form of a truncated cone, a smaller base of which is installed with an annular gap relative to the body, and a coagulator in the form of a plate, of the torus tube along the generatrix of the cylindrical surface of the housing, with the height of the coagulum plates being equal to the width of the ring gap between the shell and the sludge separator. FIG. 1 shows an ejector dust collector, longitudinal section / in FIG. 2 shows section A-A in FIG. 1. The ejector dust collector consists of a cylindrical1 of the housing 1 with a drainage nozzle 2. Inside the housing there is a swirler 3 in a stuffy flow, a nozzle 4 and a sludge separator 5. The dust collector is equipped with a coagulator in the form of plates 6, which are installed along the body forming the cylindrical surface made with a height equal to the width of the annular gap between the housing 1 and the sludge separator 5, and ;; the upper edges of the plate 6 are rigidly connected to the sludge separator 5. The ejector dust collector works as follows. Water from a high-pressure mains supply, high pressure pump, finely sprayed by a nozzle 4. Water droplets exiting the nozzle 4 at high speed and kinetic energy effectively eject air, resulting in air with suspended dust particles from the source dust formation is rapidly being sucked into. ejector dust collector. The air flow, flowing through the swirler 3, acquires a rotational-translational motion and captures water droplets on the way-motion, forming a dust-air-air mixture, under the influence of centrifugal force and due to the significantly greater specific weight of dust particles and water droplets compared to air and the presence of free space in The central part of the cylindrical body 1 dust particles and water droplets, separated from the air flow, move to the body wall and at the same time some of them coagulate, and some dust particles, especially finely dispersed, it remains in the free state. Then, dust particles and water droplets run at an angle onto the coagulant plates and, upon impacting the surface of the coagulum plates, vigorous wetting of dust particles and water and sludge formation occurs. Sludge into the sewage canal, bounded between adjacent coagulant plates, flows into the roller separator 5 and then into the slurry outlet 2, Air escapes from the ejector dust collector cleaned with a certain amount of impurity fine droplets of water that can be used to irrigate the dust. Due to the fact that the central part of the dust collector is free from obstacles and the coagulum plates arrange the movement of the dust-air mixture, the air loss of the sludge. flow decreases. The use of the proposed invention will improve the cleaning efficiency of dusty air and reduce the concentration of dust in the workplace.

Claims (1)

EJECTOR DUST CATCH, comprising a cylindrical body with a sludge outlet, an air flow swirl, a nozzle, a truncated cone sludge separator, the smaller base of which is installed with an annular gap relative to the body, and a coagulator in the form of plates, characterized in that, in order to increase the dust efficiency by reducing the entrainment of sludge by the air flow, the coagulator plates are installed along the generatrix of the cylindrical surface of the body, and the height of the coagulator plates is equal to the width of tsevogo gap between the body and sludge separator. >