RU2781341C1 - Aspiration dust collector - Google Patents

Abstract

FIELD: dust emissions cleaning.

SUBSTANCE: invention is intended for cleaning dust emissions during loading of loose and dust-like materials into vehicles. Aspiration dust collecting plant contains local dust extraction from technological equipment, connected by a corrugated air duct to a vortex inertial dust collector on counter swirling flows, which is connected through a sluice gate to a dust storage bin and is equipped with a power source, an air duct system with dust-air flow rate regulators and an exhaust fan, the outlet of which is through outlet duct is connected to the atmosphere. The outlet air duct is equipped with a dust-air flow humidifier in the form of a cylindrical container with water with a hermetically sealed lid with an air vent, a filter, a window with a lower sight to control the water level in the operating position and an upper sight to control the water level when the humidifier is filled with deposited dust.

EFFECT: improving the quality of dust-air flow cleaning and the operational reliability of the dust-collecting installation.

1 cl, 1 dwg

Description

The invention relates to the mining, metallurgical industry, construction industry, other branches of economic activity and can be used to clean dust emissions when loading bulk and dust-like materials into vehicles at construction sites, in the shops of processing plants, cement plants.

The closest technical solution for cleaning dust emissions should include a well-known aspiration dust collecting installation containing local dust extraction from process equipment connected in series with air ducts, a dust collecting device in the form of a vortex inertial dust collector on counter loading flows and an exhaust fan located on a wheeled mobile cart with a power source for an exhaust fan in the form of a diesel generator and a dust storage bin, while the air duct connecting the local dust extraction from the process equipment with a vortex inertial dust collector is made in the form of a flexible corrugated air duct, which is connected at the inlet to a tangential swirler of the air flow with dust installed on the local suction dust, and at the upper axial outlet of the vortex inertial dust collector there is a tangential air flow untwist, to which the suction inlet of the exhaust is connected by means of an air duct. th fan, with an air flow rate regulator installed in it, connected to the atmosphere, and the recirculating air duct is connected to a separator-concentrator, the outlets of which, through two air ducts with dust-air flow rate regulators, are connected respectively to the upper inlet and lower inlet of the vortex inertial dust collector (RU patent No. 147794, IPC B08V15/02, B04C9/00, 2014).

The disadvantage of the proposed as a prototype of the aspiration dust collecting installation is that when aspirating the dusty air stream, the installation does not provide complete cleaning of the dusty air stream containing a fine fraction of the dust stream.

The objective of the invention is to develop a design of a dust collection plant that provides complete cleaning of dust emissions during operation.

The technical result is to improve the quality of dust-air flow cleaning and the operational reliability of the dust-collecting installation.

The technical result is achieved by using an aspiration dust collecting plant containing local dust extraction from process equipment connected by a flexible corrugated air duct to a vortex inertial dust collector located on a trolley with wheels on counter swirling flows, which is connected through a sluice gate to a dust storage bin and is equipped with a power source , a system of air ducts with dust-air flow rate regulators and an exhaust fan, the outlet of which is connected to the atmosphere through the outlet air duct, while the outlet air duct is equipped with a dust-air flow humidifier made in the form of a cylindrical container with water, equipped with a hermetically sealed lid with an air outlet communicating with the atmosphere, installed under the filter cover, a window with a lower sight for monitoring the water level in the working position and an upper sight for monitoring the water level when the humidifier is filled with settled dust, etc. and at the same time, the humidifier is equipped with a system for filling with water and draining the deposited dust, and the outlet air duct is immersed in the internal cavity of the humidifier below the filter level, but above the water level.

The essence of the invention lies in the fact that the aspiration dust-collecting unit is equipped with a dust-air flow humidifier designed for "wet" final cleaning of the fine fraction of the dust-air flow. At the same time, the body of the humidifier is made in the form of a cylindrical container, hermetically sealed with a lid, sealed with an elastic ring with a clamp in the form of clamps welded to the body. A filter is installed under the lid, and an air vent connected to the atmosphere is installed on the lid. The cylindrical container is equipped with a window with a lower sight to control the water level in the working position and an upper sight to control the water level when the humidifier is filled with deposited dust, as well as a system for filling the humidifier with water and draining the deposited dust from the humidifier. The outlet air duct is immersed in the internal cavity of the humidifier (passes through the hole in the humidifier cover) below the filter level, but above the water level.

The claimed invention is illustrated by graphical material: the drawing schematically shows a General view of the aspiration dust collection plant.

Suction dust collecting installation contains a housing 1 mounted on the base of a mobile trolley 2, providing movement of the installation to the technological equipment 3, which creates dust flows, for example, in the back of a dump truck.

A vortex inertial dust collector 5 is installed in the housing 1 on counter swirling flows with the help of a support 4, which is equipped with an upper 6 dust-air flow inlet and a lower inlet 7, a sluice gate 8 connected to a dust-accumulating bin 9.

The air duct connecting the local suction 10 of dust from the process equipment 3 with the vortex inertial dust collector 5 is made in the form of a flexible corrugated duct 11, which is connected at the inlet to a tangential swirler 12 installed on the local suction 10 and is connected to the upper inlet 6 of the vortex inertial dust collector 5.

At the upper axial outlet 13 of the vortex inertial dust collector 5, a tangential air flow untwist 14 is installed, to which, by means of an air duct 15, the suction inlet of the exhaust fan 17 is connected, fixed by means of a support 16. with an internal cavity of the humidifier 20, which is made in the form of a cylindrical container 22 filled with water 21, equipped with a hermetically sealed lid 23 with an air outlet 24 communicating with the atmosphere. A filter 25 is installed under the cover 23. The outlet air duct 18 is immersed in the internal cavity of the humidifier 20 below the level of the filter 25, but above the water level 21. The air outlet 24 communicates the internal cavity of the container 22 with the atmosphere. The lid 23 is closed through an elastic sealing ring 26, fixed with clamps 27, containers 22.

The cylindrical container 22 has a window 28 with a lower sight (lower mark) to control the water level in the working position and an upper sight (upper mark) to control the water level when the humidifier 20 is filled with deposited dust (fine fractions of the dusty air flow). The humidifier 20 is equipped with a water filling system (up to the level of the lower mark of the viewing window 28 with water 21) in the form of a pipeline 29 with a valve 30 and a system for draining the deposited dust in the form of a drain pipeline 31 located at the bottom of the tank 22 with a valve 32 to remove precipitated fine dust fractions from the humidifier twenty.

At the same time, the outlet 18 of the exhaust fan 17, through a recirculating duct 33, is connected to an additionally installed separator - concentrator 34, the outlet of which, through ducts 35 and 36, with the regulators 37 and 38 installed on them, is connected to the lower 7 and upper 6, respectively. dusty gas inlets and vortex inertial dust collector 5.

Separator - concentrator 34 is installed in the housing 1 of the aspiration dust collecting plant using a support 39. The aspiration dust collecting plant also contains a power source 40 for turning on the exhaust fan 17, made in the form of a diesel generator installed in the housing 1.

Technological equipment 3, for example, a vehicle for the transportation of bulk materials, is equipped with a shelter in the form of a cover 41 containing a hatch 42 for loading bulk material and a protrusion 43 for installing a local dust extraction 10 located in the immediate vicinity of the hatch 42. Attaching the cover 41 to the ends the vehicle is carried out using clamps welded to it (not shown in the drawing).

Aspiration dust collecting installation works as follows.

Before starting the operation of the installation, technological equipment 3, for example, a dump truck, is equipped with a shelter in the form of a cover 41. A mobile installation mounted on a trolley 2 is brought to the technological equipment 3. Bulk material is loaded through the hatch 42 in the cover 41 and using a power source 40 installed in the housing 1 located on the trolley 2, the exhaust fan 17 of the aspirator unit is turned on.

Dust emissions generated during loading are sent through the local dust suction 10 to the tangential swirler 12 and through the flexible corrugated duct 11 to the upper inlet 6 of the vortex inertial dust collector 5. The swirling dust flow is cleaned in the vortex inertial dust collector 5. The released dust is discharged through the slotted shutter 8 into the dust bin 9.

After cleaning in a vortex inertial dust collector 5, air containing residual fine dust fractions through the upper axial outlet 13 is sent to the tangential flow swirler 14, which reduces the aerodynamic resistance of the air flow, which is then sent through the air duct 15 to the suction inlet of the exhaust fan 17, after which the air the flow is divided into two directions: through the air duct 18, equipped with a flow regulator 19 through the humidifier 20 into the atmosphere and from the exhaust fan 17 through the air duct 18 and the recirculating air duct 33 into the separator - concentrator 34, in which the dusty air flow is divided again into two streams - with a larger and lower concentration of dust. The flow with a lower concentration of dust through the duct 35, with the flow controller 37 installed on it, is directed to the lower inlet 7 of the vortex inertial dust collector 5, and the flow with a higher concentration of dust through the duct 36, with the flow controller 38 installed on it, is directed to the upper inlet 6 vortex inertial dust collector 5.

The flow regulators 19, 37 and 38 provide the ratio of air flow rates for setting up an aspiration dust collector for cleaning the dusty air flow.

Despite the separation, during the "dry" cleaning of the dusty air flow in the vortex inertial dust collector 5, fine dust fractions that pollute the environment are still emitted into the atmosphere into flows with a higher and lower concentration of dust.

Humidifier 20, that is, "wet" final cleaning of the dusty air flow directed through the duct 18 into the atmosphere, completely captures fine dust fractions. The air flow, after "dry" vortex cyclone cleaning, from the fan 17 is sent through the air duct 18 to the humidifier 20, where by inertia it hits the surface of the water 21, which is at the level of the lower sight mark of the viewing window 28, while the remaining fine dust fractions in the dusty air flow are deposited on the bottom of the cylindrical tank 22 of the humidifier 20, and the air flow reflected from the surface of the water 21, passing through the filter 25 and the air outlet 24, is completely cleaned and released into the atmosphere.

The filling of the cylindrical container 22 with water 21 to the lower sight mark of the viewing window 28 is carried out through the pipeline 29 using the valve 30, so that between the water level 21 and the free end of the air duct 18 inside the container 22, a space is provided that takes into account the amount of deposited dust.

When the water level 21 is reached, during cleaning in the humidifier 20 of the dust stream, the upper sight mark of the viewing window 28, the deposited dust along with water is drained through the pipeline 31 using the valve 32. The water level between the lower and upper sight marks of the viewing window 28 regulate the amount of deposited dust and loss of water in the form of moisture carried away by the air flow through the filter 25 into the atmosphere, while part of the moisture in the form of droplets formed on the surface of the filter 25 returns under the action of gravity to the water bath.

Thus, an aspiration dust collecting plant, containing a local suction of dust from process equipment, connected by a flexible corrugated air duct to a vortex inertial dust collector located on a trolley with wheels on counter swirling flows, which is connected through a sluice gate to a dust storage bin and is equipped with a power source, a system air ducts with dust-air flow rate regulators and an exhaust fan, the outlet of which is connected to the atmosphere by means of an outlet air duct through a dust-air flow humidifier, made in the form of a cylindrical container with water, equipped with a hermetically sealed lid with an air outlet that communicates with the atmosphere, a filter installed under the lid, a window with a lower a sight to control the water level in the working position and an upper sight to control the water level when filling the humidifier with deposited dust, while the humidifier is equipped with a system for filling with water and draining the precipitate oh dust, and the outlet air duct is immersed in the internal cavity of the humidifier below the filter level, but above the water level, improves the quality of cleaning the dusty air flow and the operational reliability of the dust collection unit.

Claims (1)

Suction dust collecting plant containing local suction of dust from process equipment connected by a flexible corrugated air duct to a vortex inertial dust collector located in a body mounted on a cart with wheels on counter swirling flows, which is connected through a sluice gate to a dust storage bin and is equipped with a power source, an air duct system with regulators flow rate of the dusty air flow and an exhaust fan, the outlet of which is connected to the atmosphere through the outlet air duct, characterized in that the outlet air duct is equipped with a dusty air flow humidifier, made in the form of a cylindrical container with water, equipped with a hermetically sealed lid with an air vent communicating with the atmosphere, a filter installed under the lid , a window with a lower sight to control the water level in the working position and an upper sight to control the water level when the humidifier is filled with settled dust, while the humidifier is equipped with a filling with water and draining the deposited dust, and the outlet air duct is immersed in the internal cavity of the humidifier below the filter level, but above the water level.

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