RU204195U1 - ASPIRATION DUST COLLECTION UNIT - Google Patents

Abstract

The utility model relates to devices for cleaning dust emissions from technological equipment, namely, dust collecting installations for cleaning dust emissions generated when loading containers for transporting bulk materials in construction, chemical, flour-grinding and other industries. The aspiration dust collecting unit contains a spiral-wound air duct connecting the local dust extraction from the process equipment with a vortex inertial dust collector, made by a rigid spiral-wound air duct. The spiral-wound air exhaust device at the inlet is connected to a tangential swirling air flow with dust installed at the local dust extraction, the local dust extraction from the technological equipment is equipped with a shelter in the form of a canopy made of reinforced artificial material with the possibility of its attachment to the technological equipment. The technical result of the claimed utility model is to increase the efficiency of the dust-collecting aspiration unit with a spiral-wound air duct for cleaning the dust-air flow.

Description

The utility model relates to devices for cleaning dust emissions from technological equipment, namely, dust collecting installations for cleaning dust emissions generated when loading containers of vehicles for transporting bulk materials in construction, chemical, flour-grinding and other industries.

Known aspiration dust collecting installation, containing in series connected by air ducts local dust extraction from technological equipment, a dust collecting device in the form of a vortex inertial dust collector on counter swirling flows, which is equipped with regulators of the flow rate of the dust-air flow, and an exhaust fan, the installation is mobile, its body is installed on the base in the form trolleys with wheels and it additionally contains a power source for the exhaust fan in the form of a diesel generator and a dust accumulating hopper, while the air duct connecting the local dust extraction from the technological equipment with a vortex inertial dust collector is made in the form of a flexible corrugated air duct, which is connected to a tangential swirling device at the inlet air flow with dust, installed at the local dust extraction, at the upper axial outlet of the vortex inertial dust collector, a tangential air flow unwinder is installed, to which it is connected through the air duct, the suction inlet of the exhaust fan, the outlet of which is connected to the atmosphere through the outlet air duct, in which an additional air flow rate regulator is installed, and through the recirculation air duct is connected to an additional separator-concentrator, the outputs of which are through two air ducts in which the dust-air flow rate regulators are installed , are connected respectively to the upper and lower inlets of the vortex inertial dust collector. Local dust extraction from the process equipment from the process equipment is equipped with a cover {RU # 147794-prototype}.

The disadvantage of the known installation for aspiration of a dusty air flow is that a flexible corrugated air duct with a considerable length of the air duct will cause it to sag, which will lead to dust deposition in the folds of the corrugated air duct of dust particles and a decrease in the efficiency of cleaning a dusty air stream, and the use of a cover with certain dimensions installed on technological equipment, limits the possibility of its use.

Also, the disadvantage is the use of a rigid cover for covering technological equipment of only a certain size, which limits the possibility of its use.

The technical result of the claimed utility model of an aspiration dust-collecting installation with a spiral-wound air duct is to increase the efficiency of the installation for cleaning a dusty air stream from technological equipment.

The technical task is to increase the efficiency of the dust extraction unit with a spiral-wound air duct for cleaning the dusty air flow due to the design of the air duct from local dust extraction, which excludes the deposition of dust particles on its inner walls while protecting the technological equipment preventing the ingress of dust particles into the environment.

Solution of a technical problem

Aspiration dust collector with a spiral-wound air duct, located in the housing, containing local dust extraction from technological equipment, an air exhaust device installed at the local dust extraction, at the inlet connected to a tangential swirling air flow with dust, installed in the installation housing; a dust collection device in the form of a vortex an inertial dust collector on counter swirling flows, which is equipped with dust-air flow rate controllers, an exhaust fan and a power source for an exhaust fan in the form of a diesel generator, the unit is mobile, its body is installed on a base in the form of a cart with wheels, the dust collection device is equipped with a dust-collecting hopper equipped with a damper , at the upper axial outlet of the vortex inertial dust collector, a tangential air flow uncoiler is installed, to which the suction inlet of the exhaust fan is connected by means of an air duct, the outlet of which is An air duct equipped with a dust-air flow rate regulator is connected to a separator-concentrator, the axial outlet of which is connected to the lower inlet of the dust collector, and the lateral branch pipe of the separator-concentrator is connected to the atmosphere, the local dust suction is equipped with a shelter for technological equipment, while the air duct connecting the local dust suction from technological equipment with a vortex inertial dust collector, made in the form of a metal rigid spiral-wound air duct, and as a shelter for technological equipment, local dust extraction is equipped with a canopy made of artificial reinforced polyvinyl chloride material with the possibility of its attachment to technological equipment by means of strapping, with made in the canopy a technological hole with edges processed by a strip for loading bulk material and a protrusion for attaching local dust extraction to it.

The utility model is illustrated by graphic material:

- in Fig. 1 schematically shows a general view of an aspiration dust-collecting installation with a spiral-wound air duct.

Device

The aspiration dust collector with a spiral-wound air duct is mobile, it contains a housing 1, mounted on a base in the form of a cart 2 with wheels, which ensures the movement of the installation to the technological equipment 26. The vortex inertial dust collector 3 on opposite swirling flows is fixedly mounted in the housing 1 by means of a support 4 Dust collector 3 is equipped with lower 5 and upper 6 inlets of dusty air flow, sluice gate 7 and dust-collecting hopper 8, equipped with a shutter 9 for periodic removal of dust from hopper 8.

The local dust suction 10 from the technological equipment is connected to the vortex inertial dust collector 3, the air duct 12 is made of a rigid spiral-wound, which is connected at one end to the local dust suction 10 through the tangential swirler 11, and the other to the upper inlet 6 of the vortex inertial dust collector 3.

At the upper axial outlet 13 of the vortex inertial dust collector 3, a tangential uncoiler 14 of the dusty air flow is installed, to which the suction inlet of the exhaust fan 16 is connected through the air duct 15, which is fixed on the support 17 inside the housing 1. The outlet of the exhaust fan 16 with an air duct 18 equipped with a regulator 19 of the dust-air flow rate flow, connected to the separator-concentrator 20 fixedly fixed on the support 21.

The axial branch pipe of the separator - concentrator 20 is connected to the atmosphere by means of an air duct 22 on which an air flow rate regulator 23 is installed, and the lateral branch pipe with a tangential swirl of flow 24 installed on it is connected to the lower inlet 5 of the vortex inertial dust collector.

A diesel generator 25 is located inside the housing 1 of the aspiration unit, designed to power the exhaust fan 16.

The local dust extraction 10 from the process equipment 26 is equipped with a shelter in the form of a canopy 27 made of reinforced artificial, for example, polyvinyl chloride material, with the possibility of attaching it to the process equipment using a rope 30, and which is designed to prevent dust particles from spraying into the environment. In the canopy 27, a technological hole 28 is made with edges processed by a strip for loading bulk material and a protrusion 29 for attaching a local dust suction 10 to it, located in the immediate vicinity of the technological hole 28.

Installation work

Aspiration dust collecting installation with a spiral-wound air duct works as follows.

Before starting work, technological equipment - a vehicle, for example, a dump truck, is equipped with a shelter in the form of a canopy 27. A mobile dust collection unit fixed on a trolley 2 is supplied to the process equipment 26. On the ledge 29 of the canopy 27, a local dust suction 10 with a tangential twist 11 and a spiral winding air duct 12. Through the technological opening 28 in the canopy 27, bulk material is loaded.

With the help of the power supply 25 installed in the housing 1, the exhaust fan 16 is turned on.

Dust emissions generated during loading are directed through the local dust suction 10, tangential swirl 11 and spiral-wound air duct 12 to the upper inlet 6 of the dust-laden air flow of the vortex inertial dust collector 3. At the same time, the dust-laden air flow in a swirling mode promotes the transfer of dust particles, preventing dust particles settle on the walls of the spiral-wound air duct, in the vortex inertial dust collector 3, where it is cleaned.

The tangential flow swirler 11 prevents the formation of dust deposits that arise inside the spiral-wound air duct 12. In addition, the swirling flow is characterized by an increased ability to set in motion and transport dust particles.

The swirling dust flow is cleaned in a vortex inertial dust collector 3. The released dust through the sluice gate 7 accumulates in the dust storage bin 8, from which it is periodically unloaded using the gate 9.

The air cleaned from large dust particles in the dust collector 3 is directed through the upper axial outlet 13 to the tangential flow straightener 14, thereby reducing the aerodynamic resistance of the flow directed through the air duct 15 to the suction inlet of the exhaust fan 16.

The stream cleaned from large dust particles is directed through the air duct 18, equipped with a flow regulator 19, to the separator-concentrator 20, in which the dust-air stream is divided into two streams with a greater and lesser concentration of dust.

The air flow with a lower dust concentration through the side branch pipe of the separator - concentrator 20 through the air duct 22, equipped with an additional flow regulator 23, is directed into the atmosphere.

The air flow with a higher concentration of dust through the axial branch pipe, on which an additional tangential swirl of flow 24 is installed, is directed to the lower inlet 5 of the vortex inertial dust collector 3. The tangential swirl of flow 24 provides the dust-laden air flow with the necessary swirl, which increases the transporting capacity of the dust-laden stream.

Regulators 19 and 23 provide the ratio of air flow rates for adjusting the dust extraction system for cleaning the dust-air stream.

Thus, the use of an exhaust device in the form of a metal rigid spiral-wound air duct in an aspiration dust-collecting unit makes it possible to increase the efficiency of the unit for cleaning the dust-air flow, excluding the deposition of dust particles on the inner walls of the air duct, and the use of a canopy to cover technological equipment helps to prevent dust from entering environment, contributing to its environmental safety, which is a new technical result of the claimed dust collection unit.

Claims (1)

Aspiration dust collector with a spiral-wound air duct, located in the housing, containing local dust extraction from technological equipment, an air exhaust device installed at the local dust extraction, at the inlet connected to a tangential swirling air flow with dust, installed in the installation housing; a dust collection device in the form of a vortex an inertial dust collector on counter swirling flows, which is equipped with dust-air flow rate controllers, an exhaust fan and a power source for an exhaust fan in the form of a diesel generator, the unit is mobile, its body is installed on a base in the form of a cart with wheels, the dust collection device is equipped with a dust-collecting hopper equipped with a damper , at the upper axial outlet of the vortex inertial dust collector, a tangential air flow uncoiler is installed, to which the suction inlet of the exhaust fan is connected by means of an air duct, the outlet of which is an air duct equipped with a dust-air flow rate regulator is connected to a separator-concentrator, the axial outlet of which is connected to the lower inlet of the dust collector, and the side branch pipe of the separator-concentrator is connected to the atmosphere, the local dust suction is equipped with a cover for technological equipment, characterized in that the air duct connecting the local dust extraction from technological equipment with a vortex inertial dust collector, made in the form of a rigid metal spiral-wound air duct, and as a shelter for technological equipment, local dust extraction is equipped with a canopy made of artificial reinforced polyvinyl chloride material with the possibility of attaching it to technological equipment by means of strapping, with made in the canopy there is a technological hole with edges processed by a strip for loading bulk material and a protrusion for attaching local dust extraction to it.

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