SU1642044A2 - Aspiration cover - Google Patents

Abstract

The invention relates to mining promet. The purpose is to reduce the ash entrainment through the aspiration system by increasing the intensity of vibrations and ensuring wetting of the spherical elements. To do this, a dust precipitation device 5 in the form of spherical elements (SE) 5 suspended by hollow elastic elements 6 to the frame, made in the form of a collector (K) 7 The latter is installed with the possibility of oscillation in three mutually perpendicular directions and communicates n with capacity for wetting fluid. The cavities of the elastic elements 6 communicate with K 7 and have holes 13 for supplying a wetting liquid to the surface of the FE 5 One of the FE 5, for example, the FE 11, is installed with a possibility of contact with a moving bulk material. On the surface of the FE 5, a wetting fluid enters from K 7 through the cavities of the elastic elements 6. The interaction with moving bulk material SE 1 1 oscillates, transmitted by the clock K 7 and FE 5 to cuts resilient hollow elements 6 Intensive oscillatory movements of the SC 5 provide for the coagulation of dust particles on their wetted surface. This reduces dust from the hull to the aspiration port 3 or C

Description

The invention relates to the mining industry and can be used to localize the release of dust during the overload of bulk materials, for example, in the fuel transfer points during conveyor transport along the fuel supply path of thermal power plants, an improvement of the invention according to aut. No. 619673.

The purpose of the invention is to reduce the entrainment of dust through the aspiration system by increasing the vibration intensity and

ensuring wetting of the spherical elements.

Fig. 1 shows an aspiration cover, a longitudinal section in Fig. 2 is a section A-A in Fig. 1 in Fig. 3, the connection of a spherical element with a collector.

The aspiration cover includes a housing 1 with a loading gutter 2 entering it, an aspiration pipe 3 mounted on the top cover of the housing 1, elastic seals 4 attached along its lower base, as well as dust

a precipitating device in the form of spherical elements 5 suspended by means of hollow elastic elements 6 to a frame made in the form of a collector 7 installed oscillating in three mutually perpendicular directions with the help of elastic connections 8, 9 and 10. One of the spherical elements for example, the element 11 is installed with the possibility of contact with the bulk material moving along the conveyor. The collector 7 is connected to the tank 12 with a wetting fluid. The cavities of the elastic elements 6 communicate with the cavity of the collector 7 and the atmosphere due to the holes 13 located along the perimeter of the attachment of the spherical elements 5 to the hollow elements 6 at its lower base and equidistant iDyr from each other. The specified placement of the holes 13 provides a supply of wetting fluid or collector 7 to the surface of the spherical elements 5.

Aspiration shelter works as follows.

The dusty air ejected by the material moving along the chute 2 enters the housing 1 and, as it passes through the channels formed by the spherical elements 5, is sucked into the suction nozzle 3.

Simultaneously with the entry of bulk material into the housing 1, a wetting fluid, for example water, is supplied from the reservoir 12 to the collector 7, which water flows from the collector 7 through the hollow elastic elements b to the surface of the spherical elements through the openings 13 and wets them.

The elastic spherical element 11, in contact with the moving material, repeats the irregularities of its surface and performs oscillatory movements in the vertical longitudinal and transverse directions, which are transmitted to the collector 7. Then these oscillations are amplified by means of elastic ones installed between the housing 1 and the collector 7. connections 8, 9 and 10 and elastic hollow elements b. This creates intense oscillations in three mutually perpendicular directions of all spherical elements 5,

Dust particles, passage with air through the dust precipitation device,

As a result of intense oscillatory movements of spherical elements in three mutually perpendicular directions, they coagulate and stick to their surface,

5 where they are wetted with a liquid, and then washed onto moving bulk material. The enlarged moistened dust conglomerates have greater strength and mass than dry conglomerates and. accordingly, a high speed of motion. Therefore, they are not destroyed and cannot be carried by the airflow from the shelter.

Due to the intensification of oscillatory movements of spherical elements in three

15 mutually perpendicular directions, the process of coagulation of dust particles is more intensive. And wetting the surface of spherical elements with a liquid contributes to more efficient trapping

0 as dust conglomerates, as well as individual particles,

Water-mud slurry of wet dust collectors of the aspiration system can be used as a liquid, thus solving the problem of disposing of the collected dust and supplying the wetting liquid to the surfaces of spherical elements.

The application of the invention will allow

0 reduce dust entrainment in the suction system and increase the efficiency of air dedusting.

Claims (1)

Claims of the invention: Aspiration Shelter of an overload point of bulk materials according to ed. St. No. 619673, characterized in that, in order to reduce the entrainment of dust through the aspiration system by increasing the intensity of vibrations of spherical elements and ensuring their wetting, it is provided with a container with a wetting fluid, the frame is designed as a collector and installed in the housing with the possibility of oscillation in three mutually perpendicular directions 5, the spherical elements communicate with the collector through their elastic connections, are hollow and with openings for supplying the wetting liquid to the surface of the spherical elements, and the collector communicates with the container with the wetting liquid, 1 FIG. 2 Fig.Z