RU201963U1 - Dust extraction 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 collector with a consoleless air exhaust device for local dust extraction contains an air duct connecting the local dust extraction from the process equipment with a vortex inertial dust collector, made in the form of a consoleless air exhaust device, consisting of two rigid air ducts, hinged together. A cantilever 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 improve the efficiency of the dust-collecting aspiration installation with a cantilever articulated 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, dust collection 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, while the installation is mobile, its body is installed on the base in the form of a trolley with wheels and it additionally contains a power source for an exhaust fan in the form of a diesel generator and a dust storage hopper, while the air duct connecting the local dust extraction from technological equipment with a vortex inertial dust collector is made in the form of a flexible corrugated tangential air flow uncoiler, to to which the suction inlet of the exhaust fan is connected by means of an air duct, the outlet of which is connected through an outlet duct, in which an additional air flow regulator is installed with the atmosphere, and by means of a recirculating air duct is connected to an additional separator-concentrator, the outputs of which are connected, respectively, to the upper and lower inlets of the vortex inertial dust collector by means of two air ducts in which the dust-air flow rate regulators are installed. Local dust extraction from process equipment is equipped with a cover {RU # 147794 - prototype}.

The disadvantage of the known installation is that with a significant length of the flexible corrugated air duct, its sagging occurs, which will lead to the deposition of dust inside the duct and, as a consequence, to a decrease in the efficiency of the installation and the quality of cleaning the dust-air flow.

Also, the disadvantage of the device 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 non-cantilever articulated installation is to increase the efficiency of the installation for cleaning the dust-air flow from technological equipment.

The technical result is an increase in the efficiency of the aspiration dust-collecting cantilevered hinged installation for cleaning the dust-air flow due to the design of the air duct for local dust extraction from the process equipment, which excludes the deposition of dust particles on the inner walls of the air duct, as well as inside the hinge while protecting the process equipment while preventing the ingress of dust particles into the environment.

Solution of a technical problem

Aspiration dust-collecting cantilever hinged installation, located in the housing, containing local dust extraction from technological equipment, an air exhaust device installed at the local dust extraction, connected to the tangential swirling air flow with dust at the inlet, installed in the installation housing dust collection device in the form of a vortex inertial dust collector counter swirling flows, which is equipped with dust-air flow rate controllers, an exhaust fan and a power supply for the 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 collecting device is equipped with a dust-collecting hopper equipped with a damper, on the upper axle at the 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 by an air duct, equipped with a dust-air flow rate regulator, connected to a separator-concentrator, the axial outlet of which is connected to the atmosphere by means of an air duct equipped with an air flow rate regulator, and a side branch pipe with a tangential flow swirler installed on it is connected to the lower inlet in the vortex inertial dust collector, while the air duct, connecting the local dust extraction from technological equipment with a vortex inertial dust collector, made in the form of a cantilever air exhaust device, consisting of two rigid air ducts hinged to each other, and as a shelter for technological equipment, the local dust extraction is equipped with a cover in the form of a canopy made of artificial reinforced polyvinyl chloride material with a technological hole made in the canopy with edges processed by a strip for loading bulk material and a protrusion for attaching local dust suction to it and the possibility of attaching the canopy to the process equipment.

The proposed installation is illustrated by graphic material:

- figure 1 is a schematic representation of an aspiration dust-collecting non-cantilever articulated installation, general view.

The aspiration dust-collecting non-cantilever articulated installation is mobile, contains a housing 1 mounted on a base in the form of a cart 2 with wheels, which allows the installation to move to technological equipment that generates dust flows, for example, to a dump truck hopper.

The vortex inertial dust collector 3 on opposite swirling flows is fixedly mounted in the housing 1 with the help of the support 4. The dust collector 3 is equipped with lower 5 and upper 6 inputs of dusty gas, a sluice gate 7 and a dust storage bin 8 equipped with a shutter 9 for periodic dust discharge.

The air duct connecting the local dust suction 10 from the technological equipment with the vortex inertial dust collector 3 is made in the form of a cantilever exhaust device 11, consisting of two rigid air ducts, hingedly connected to each other, which is connected at the inlet to the tangential swirl of dust-air flow 12 installed at the local suction dust 10. Console-free exhaust device 11 is connected to the upper input 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, the outlet of the exhaust fan 16 is through the air duct 18, on which the flow regulator 19 is installed the dust-air flow is connected to the separator-concentrator 20, fixedly fixed on the support 21, and the axial branch pipe of the separator-concentrator 20 by means of an air duct 22 equipped with a regulator of the flow rate of the purified air stream 23 communicated with the outlet to the atmosphere. In addition, the axial branch pipe with a tangential swirler of dusty air flow 24 is connected to the lower inlet 5 to the dust collector 3. Inside the aspiration unit 1 there is a diesel generator 25, designed to power the exhaust fan 16.

Technological equipment 26, for example, a vehicle for transporting bulk materials, is equipped with a shelter in the form of a canopy 27 made of reinforced polyvinyl chloride material containing a technological hole 28 with edges processed by a strip for loading bulk material and a protrusion 29 for installing a local dust suction 10 located in in the immediate vicinity of the technological hole 28. The canopy 27 is attached to the ends of the vehicle with a rope 30 and is designed to prevent dust particles from spraying into the environment.

Job

The aspiration dust-collecting cantilever articulated installation works as follows.

Before starting work on technological equipment, for example, a dump truck, a shelter in the form of a canopy 27 is fixed by means of a rope 30. Trolley 2 with a dust collecting unit is brought to the process equipment 26. On the ledge 29 of the canopy 27, a local dust suction 10 with a tangential twist 12 of the dust-air flow and a cantilever exhaust device 11. Through the technological opening 28 in the canopy 27 is the loading of bulk material. With the help of the power source 25 installed in the housing 1, the exhaust fan 16 is turned on and the dust emissions generated during loading are directed to the local dust extraction 10 and then through the tangential twist 12 and the cantilever exhaust device 11 to the upper inlet 6 into the vortex inertial dust collector 3.

The tangential flow swirler 12 prevents the formation of dust deposits that arise inside the cantilever exhaust device 11, especially inside the swivel joints, while the swirling flow is characterized by an increased ability to drive and transport dust particles.

The swirling dust flow is cleaned in a vortex inertial dust collector 3. The released dust is dropped through the sluice gate 7 into the dust storage hopper 8, from which it is periodically removed by means of the shutter 9.

The air purified in the dust collector 3 is directed through the upper axial outlet 13 to the tangential flow straightener 14. This reduces the aerodynamic resistance of the flow directed through the duct 15 to the suction inlet of the exhaust fan 16.

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

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 a flow regulator 23, is discharged into the atmosphere.

The flow of air with a higher concentration of dust through the axial branch pipe, on which the 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 the flow 24 gives the air flow the necessary swirl, which increases its conveying capacity for subsequent cleaning in the inertial dust collector 3 ...

Regulators of the flow rate of the dust-air flow 19 and the cleaned flow 23 provide the ratio of the air flow rates for adjusting the aspiration dust-collecting installation for cleaning the dust-air flow.

Thus, the use of an exhaust device made in the form of a rigid air duct, consisting of two rigid air ducts hinged to each other, in an aspiration dust-collecting non-cantilever installation, makes it possible to increase the efficiency of the installation 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 for sheltering technological equipment helps to prevent dust from entering the environment, contributing to its environmental safety, which is a new technical result of the proposed installation.

Claims (1)

Aspiration dust-collecting cantilever hinge unit, located in the housing, containing local dust extraction from the process 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 housing, a dust collection device in the form of a vortex inertial counter dust swirling flows, which is equipped with dust-air flow rate regulators, an exhaust fan and a power supply for the 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 collecting device is equipped with a dust-collecting hopper with a damper, at the upper axial outlet of a vortex inertial dust collector, a tangential air flow uncoiler is installed, to which the suction inlet of the exhaust fan is connected via an air duct, the outlet of which is equipped with an air duct The flow rate of the dust-air flow is connected to the separator-concentrator, the axial outlet of which is communicated with the atmosphere by means of an air duct equipped with an air flow rate regulator, and the side branch pipe with a tangential flow swirler installed on it is connected to the lower inlet to the vortex inertial dust collector, characterized in that the air duct connecting the local dust extraction from technological equipment with a vortex inertial dust collector is made in the form of a cantilever air exhaust device consisting of two rigid air ducts, hinged to each other, and as a shelter for technological equipment, the local dust extraction is equipped with a canopy made of reinforced artificial polyvinyl chloride material with the possibility its attachment to technological equipment.

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