SU1657653A1 - Aspiration shelter of belt conveyer loading station - Google Patents

Abstract

This invention relates to mining promet. The goal is to increase the reliability of the shelter by reducing the deposition of dust on the corona electrodes (CC) by stabilizing the dust-air flow. For this, a vertically rigid transverse invention is placed in the shelter between the loading chute and the aspiration funnel. The invention relates to the mining industry and can be used for dedusting the processing of bulk materials in other districts of the national economy. The purpose of the invention is to improve the reliability of the shelter by reducing the deposition of dust on the corona electrodes by stabilizing the air flow. FIG. 1 shows the aspiration shelter, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 1. partition (PP) and dust precipitator. The latter is in the form of EC. precipitation electrodes placed between the blow-out slots and opposite precipitator belts placed opposite them. The transverse vertical dividing partitions (RP) are fixed along the electrode plate at its ends and between the blowing slots of neighboring CEs. The dusty air ejected by the incoming material through the loading chute enters the enclosure, passes through the PP and enters the stabilization chamber to extinguish the dusty vortex flows, then - to the zone of influence of the dust precipitator, which provides the EE with a charge of dust particles and dust deposition. particles on the surface of the material when moving to the collecting electrodes. At the same time, the air entering through the slits of the blower ensures the cleaning of dust from fuel cells. 3 il. The aspiration cover includes a housing 1 formed by a lid 2, double side 3 and rear 4 walls, elastic seals 5 interfaces of the outer walls of the shelter with the conveyor belt 6 at the inlet, aprons 7 fixed on the exit end of the shelter, an aspiration funnel 8 with a branch pipe and a loading chute 9, between which a vertical rigid transverse partition 10 is placed, attached in the cavity of the housing 1 to the ends of the inner side walls 3, a dust precipitator in the sl (ate XI ate 00

Description

the form of corona electrodes 11 mounted on the inner surface 12 of the electrode plate 13 between the slits 14 of the blower and the collecting electrodes 16 placed opposite them under the belt 6 of the conveyor 15, transverse vertical dividing partitions 17 fixed along the electrode plate 13 at its ends and between the slits 14 blowing adjacent corona electrodes 11, and the adapter 18, made in the form of a horizontal plate fixed between the lower part 19 of the vertical rigid transverse partition 10 and the lower part 20 near to there is a transverse vertical dividing partition 17 with the formation inside the housing 1 of the stabilization chamber 21 for the dusty air flow in the shelter.

The shape of the collecting electrodes 16. And also the shapes of the lower contour of the corona electrodes 11 and the transverse vertical dividing walls 17 repeat the configuration of the axes of the conveyor belt rollers.

There is also a device for removing the charge from the bulk material, located inside the shelter in the direction of the aspiration funnel 8 and installed at a distance from the corona-forming electrode 11 nearest to it, not less than 2-3 distances between the corona-forming 11 and the collecting electrodes 16 and consisting of bent grounded strips 22 in contact with the bulk material, which are attached to individual hinges 23 located on a common axis mounted on brackets 24.

Aspiration shelter works as follows.

The dusty air ejected by the material falling along the loading chute 9 enters the housing 1 and under the action of the vacuum created in the shelter by sucking air through the suction funnel 8 passes through the stabilization chamber 21 formed by the top inside of the adapter 18 and below by the conveyor belt 6 , where the damping of dust-air eddies, which have passed under the vertical rigid transverse partition wall 10, occurs, and enters the work area of the dust precipitator. where dust is deposited on the surface of the material moving on the conveyor belt 6.

Clean atmospheric air is sucked through the slit 14 of the blower in the electrode plate 13, fills the cavities formed by transverse vertical dividing walls 17 that serve to give vertical air flows, moving downward, blows the discharge electrodes 11 and then mixes with the air flow

inside shelter.

When a high negative voltage is applied to the corona electrodes 11, a non-uniform electric field is created and, as a result, a corona charge.

0 The ions that have a positive charge that are formed during the avalanche-type impact ionization of clean air are attracted to the corona-forming electrodes 11 and the negative ions move to

5, the collecting electrodes 16, coming out of the zones formed by transverse vertical dividing walls 17, collide with dust particles, tell them their charge due to

0 of which the particles also begin to move in

side of the collecting electrodes 16 and

deposited on the surface of the material

hold it on by adhesion forces.

Since the impact ionization zone,

5 adjacent to the tips of the corona electrodes 11, is small and is in the zone of clean air, the contact of positive ions with dust particles does not occur and, as a result, there is no deposition

0 dust on corona electrodes 11.

The removal of negative charge from a material moving on a conveyor belt is carried out by means of grounded strips 22 in contact with a bulk material, which are attached to individual hinges 23 located on a common axis. mounted on brackets 24. This ensures the elimination of explosion hazards.

0 Aspiration shelter allows to increase the reliability of the dust precipitator by eliminating the possibility of dust deposition on the corona electrodes, to reduce the energy consumption for blowing these electrodes over

5 by organizing their blowing with the use of a vacuum inside the shelter.

Claims (1)

Claims Aspiration Shelter of the Place of Loading of Bulk Belt Conveyor Material, 0 including a body having a lid, double side and rear walls with elastic seals, communicated with the body loading chute and suction funnel, placed in the body a vertical rigid transverse partition and dust collector in the form of corona electrodes mounted on the inner surface of the electrode plate between the holes blowing and located opposite them under the conveyor belt besieging electrodes, characterized in that, in order to increase the reliability of the shelter by reducing the deposition of dust on the corona electrodes by stabilizing the dust-air flow, it is provided with transverse vertical dividing partitions fixed along the electrode plate at its ends and between the blowing slots of adjacent corona electrodes and an adapter, made in the form of a horizontal plate fixed between the lower part of the vertical rigid transverse partition and the lower part of the transverse vertical partition partition nearest to it with the formation of a dusty flow passing inside the body of the stabilization chamber. Aa 15 IS Bb