RU147794U1 - ASPIRATION DUST COLLECTION UNIT - Google Patents

Abstract

An aspiration dust collector containing a local exhaust dust suction from process equipment connected in series by air ducts, a dust collector in the form of an inertial vortex dust collector with counter-swirling flows, which is equipped with dust air flow controllers, and an exhaust fan, characterized in that the installation is mounted on a movable body the base in the form of a cart with wheels, and it additionally contains a power source for the exhaust fan in the form of a diesel a generator and a dust collecting bin, wherein the duct connecting the local dust extraction from the process equipment with the vortex inertial dust collector is made in the form of a flexible corrugated air duct that is connected at the inlet to the tangential air swirl with dust installed on the local dust extraction, on the upper axial The output of the vortex inertial dust collector is a tangential air flow straightener, to which the suction inlet of the exhaust fan is connected via an air duct a ventilator, the outlet of which is connected to the atmosphere by means of an outlet duct in which an additional air flow rate regulator is installed, and connected to an additional separator-concentrator by means of a recirculating duct, the outputs of which are connected to the upper and the lower inputs of the vortex inertial dust collector.

Description

The utility model relates to devices for cleaning dust emissions from technological equipment, namely, dust collecting plants for cleaning dust emissions generated by loading capacities of vehicles for transporting bulk materials in the construction, chemical, flour and other industries.

A known aspiration system comprising a local exhaust dust suction from process equipment connected in series by air ducts, an inertial swirling dust collector on counter swirling flows, which is equipped with dust air flow controllers, and an exhaust fan, while the local dust exhaust is made in the form of a trap containing an inlet made in in the form of a horn and a vortex inertial dust collector, tangentially connected to the trap body, equipped with dust and gas flow rate controllers, tanovlenii the upper and lower inputs of the dust collector. (cm. description of the utility model of the Russian Federation, certificate №24402, IPC B04C 9/00, published 10.08.2002, the).

The main disadvantage of the known aspiration system is the following. The system is stationary, which is not allowed to be used for cleaning dust emissions emitted when filling the containers of mobile vehicles with bulk dust-like materials in the places of their formation, for example dump truck bunkers, trolleys, as well as insufficient cleaning efficiency.

The technical result of the claimed utility model is the development of a mobile dust collector that provides increased efficiency and quality of dust-air stream cleaning.

The essence of the utility model is as follows.

An aspiration dust collector containing a local suction of dust from technological equipment connected in series by air ducts, a dust collector in the form of an inertial vortex dust collector with counter-swirling flows, which is equipped with dust air flow controllers, and an exhaust fan, while the unit is mobile, its body is mounted on the base in a cart with wheels and it further comprises a power source for an exhaust fan in the form of a diesel generator and a dust collecting hopper, while the duct connecting the local dust extraction from the technological equipment with the vortex inertial dust collector is made in the form of a flexible corrugated air duct, which is connected at the inlet to the tangential air swirl with dust installed on the local dust extraction, at the upper axial outlet the vortex inertial dust collector has a tangential air flow straightener, to which the suction inlet of the exhaust fan is connected via an air duct, you One of which, by means of an outlet duct, in which an additional air flow rate regulator is installed, is connected to the atmosphere, and by means of a recircular duct, it is connected to an additional separator-concentrator, the outputs of which are connected through the two ducts in which the flow controllers of the dusty air flow are connected to the upper and lower vortex inertial dust collector inputs.

The essence of the utility model is illustrated in the drawing, where in Fig.1 presents the aspiration dust collection unit, General view.

The suction dust collecting unit is made mobile, it comprises a housing 1 mounted on the base in the form of a trolley 2 with wheels, which enables the unit to be moved to technological equipment that creates dust flows, for example, to a dump truck bunker.

An inertial vortex dust collector 3 on counter-swirling flows is installed in the housing 1 using a support 4. The dust collector 3 is equipped with a lower 5 and upper 6 inputs of dusty gas, a lock gate 7 and a dust collecting hopper 8.

The air duct connecting the local dust suction 9 from the process equipment with the inertial vortex dust collector 3 is made in the form of a flexible corrugated duct 10, which is connected at the inlet to the tangential swirl 11 installed on the local suction 9.

The duct 10 is connected to the upper input 6 of the vortex inertial dust collector 3.

On the upper axial outlet 12 of the vortex inertial dust collector 3 there is a tangential air flow unscrewer 13, to which, through the duct 14, a suction inlet of the exhaust fan 15 is connected, fixed by means of supports 30, the output of which through the duct 16 with an additional regulator 17 of the flow of dusty air flow is connected to the atmosphere .

At the same time, the output of the exhaust fan 15, through a recirculating air duct 18, is connected to an additionally installed separator - hub 19, the outputs of which through the air ducts 20 and 21, on which the dust and air flow controllers 22 and 23 are mounted, are connected to the lower 5 and upper 6 inlets of the dusty gas in vortex inertial dust collector 3.

The separator hub 19 is installed in the housing 1 of the suction dust collecting unit using the support 24. The suction unit contains a power source 25 for the exhaust fan 15, made in the form of a diesel generator installed in the housing 1.

Technological equipment 26, for example, a vehicle for transporting bulk materials, is equipped with a cover in the form of a cover 27 containing a hatch 28 for loading bulk material and a protrusion 29 for installing a local dust suction 9 located in the immediate vicinity of the hatch 28. Attaching the cover 27 to the ends the vehicle is carried out using clamps welded to it (not shown in the drawing).

An exhaust fan 15 is installed in the housing 1 using the support 30.

An aspiration dust collector works as follows.

Before starting work, the technological equipment of the vehicle, for example, a dump truck, is equipped with a cover in the form of a cover 27. A mobile unit mounted on a trolley 2 is connected to the technological equipment 26. A local dust suction 9 with a tangential swirl 11 and a flexible corrugated duct 10 is fixed to the protrusion 29 of the cover 27. . Through the hatch 28 in the lid 27 is loading bulk material.

Using a power source 25 installed in the housing 1, the exhaust fan 15 is turned on.

Dust emissions generated during loading are directed through the local dust suction 9, tangential swirl 11 and flexible corrugated duct 10 to the upper inlet 6 of the vortex inertial dust collector 3.

The tangential swirl flow 11 prevents the formation of dust deposits that occur due to the characteristic internal surface shape of the flexible corrugated duct 10. In addition, the swirl flow is characterized by an increased ability to drive and transport dust particles.

The swirling dust stream is cleaned in an inertial vortex dust collector 3. The dust released through the airlock 7 is discharged into the dust collecting hopper 8.

The air cleaned in the dust collector 3 through the upper axial outlet 12 is directed to the tangential flow unwinder 13. This provides a reduction in aerodynamic drag of the flow directed through the duct 14 to the suction inlet of the exhaust fan 15.

The cleaned stream is directed into the atmosphere through the duct 16, equipped with a flow regulator 17.

Part of the cleaned stream from the exhaust fan 15 through the recirculating duct 18 enters the separator-hub 19, in which the dusty air stream is divided into two streams with a higher and lower concentration of dust.

A stream with a lower concentration of dust through the duct 20, with the flow regulator 22 mounted thereon, is directed to the lower inlet 5 of the vortex inertial dust collector 3.

The stream with a higher concentration of dust through the duct 21, with the flow regulator 23 installed therein, is directed to the upper inlet 6 of the vortex inertial dust collector 3.

The flow regulators 17, 22 and 23 provide a ratio of air flow to adjust the suction dust collector for cleaning dust and air flow.

The technical result of using the claimed aspiration dust collector is to increase its mobility, increase the efficiency and quality of cleaning the dusty air stream.

Claims (1)

An aspiration dust collector containing a local exhaust dust suction from process equipment connected in series by air ducts, a dust collector in the form of an inertial vortex dust collector with counter-swirling flows, which is equipped with dust air flow controllers, and an exhaust fan, characterized in that the installation is mounted on a movable body the base in the form of a cart with wheels, and it additionally contains a power source for the exhaust fan in the form of a diesel a generator and a dust collecting bin, wherein the duct connecting the local dust extraction from the process equipment with the vortex inertial dust collector is made in the form of a flexible corrugated air duct that is connected at the inlet to the tangential air swirl with dust installed on the local dust extraction, on the upper axial The output of the vortex inertial dust collector is a tangential air flow straightener, to which the suction inlet of the exhaust fan is connected via an air duct a ventilator, the outlet of which is connected to the atmosphere by means of an outlet duct in which an additional air flow rate regulator is installed, and connected to an additional separator-concentrator by means of a recirculating duct, the outputs of which are connected to the upper and the lower inputs of the vortex inertial dust collector.

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