RU2788380C1 - Aspiration dust collector - Google Patents

Abstract

FIELD: mining, metallurgical and construction industries.

SUBSTANCE: invention relates to the mining, metallurgical and construction industries and can be used to clean dust emissions when loading bulk and dust-like materials into vehicles. Aspiration dust collecting plant contains 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, made of a cylindrical working and conical parts and equipped with a sluice gate and an exhaust fan, a power source and air duct system with dust-air flow rate regulators. An auger driven by an electric motor connected to a power source is installed at the outlet of the sluice gate. On the casing of the auger, a trunk equipped with a damper is made with the possibility of fixing a sealed bag.

EFFECT: increase in productivity, efficiency, quality of dust-air flow cleaning and operational reliability of the dust-collecting plant.

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 collection unit, containing local dust extraction from process equipment connected in series with air ducts, a dust collection 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 is connected via 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 B08B 15/02, B04C 9/00, 2014).

The disadvantage of the aspiration dust collecting plant proposed as a prototype is that when the dust-air flow is aspirated from the conical part of the vortex inertial dust collector, the dust enters the dust storage bin, which, when filled, is transported for dust disposal or its reuse in production, which requires the installation to be stopped and an additional bunker for replacement with special transporting lifting equipment, as well as repeated means of protecting the workplace from dusting when unloading the bunker, which leads to a complication of the dust separation process, an increase in operating costs and a decrease in productivity.

The objective of the invention is to develop an easy-to-operate and reliable design of the dust collection plant.

The technical result is to increase the productivity, efficiency, quality of cleaning the dusty air flow and the operational reliability of the dust collection plant.

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, made of cylindrical working and conical parts and equipped with a sluice gate and an exhaust fan, a power source and an air duct system with dust-air flow rate controllers, at the same time, an auger driven by an electric motor is installed at the outlet of the sluice gate, connected to a power source, on the casing of which a trunk equipped with a damper is made with the possibility of fixing a sealed bag.

The essence of the invention is as follows.

An auger driven by an electric motor installed at the outlet of the sluice gate, connected to a power source, provides a continuous technological process for removing dust deposited in a vortex inertial dust collector from cleaning the dust-air flow into removable sealed bags, including its packaging for further transportation. This eliminates dust leakage when filling sealed bags and dusting in the unloading area. In addition, the replacement of filled bags does not require stopping the plant, additional equipment and dismantling, which in turn increases the productivity of the plant due to the absence of time spent on installation work and equipment downtime.

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

The aspiration dust collecting plant is made mobile, contains a housing 1 mounted on a base in the form of a trolley 2 with wheels that ensure the movement of the installation to the process equipment that creates dust flows, for example, to the body of a dump truck 3. A vortex inertial dust collector 4 on counter swirling flows is installed in housing 1 using a support 5. The dust collector 4 is equipped with a lower 6 and upper 7 inlets of dusty gas, a sluice gate 8, for unloading the deposited dust, equipped with an auger 9 driven by an electric motor 10 through a conductor 11 connected to a power source - a diesel generator 12. The casing of the auger 9 is made with a trunk equipped with a damper, on which removable sealed bags are attached to collect and pack dust.

The air duct 13, made in the form of a flexible corrugated air duct, through a tangential swirler 14 and a local suction 15 of dust from the technological equipment, located on the ledge 16 of the cover 17 of the shelter, connects the internal cavity of the body 3, loaded through the hatch 18 of the cover 17 with bulk materials, and a vortex inertial dust collector 4 and, accordingly, at the inlet it is connected to the tangential swirler 14, and at the outlet to the upper 7 inlet of the dusty gas of the vortex inertial dust collector 4. The cover 17 is attached to the ends of the vehicle using clamps welded to it (not shown in the drawing).

At the upper axial outlet 19 of the vortex inertial dust collector 4, a tangential air flow untwist 20 is installed, to which, through the air duct 21, the exhaust fan 22 is connected by the suction inlet, fixed on the support 23 and connected through the conductor 24 to the power source - the diesel generator 12, and the air duct outlet 25 with an additional regulator 26 of the flow rate of the dusty air flow is connected to the atmosphere.

At the same time, the outlet of the exhaust fan 22, through a recirculating duct 27, is connected to a separator - concentrator 28, mounted on a support 29, the outlet of which is divided into two ducts - 30 and 31, with regulators 32 and 33 of the dust-air flow rate placed inside them and connected, respectively, with lower 6 and upper 7 inlets of dusty gas of the vortex inertial dust collector 4.

Aspiration dust collecting installation works as follows. Before starting the operation of the installation, technological equipment - a vehicle, for example, a dump truck 3, is equipped with a shelter in the form of a cover 17. A mobile installation fixed on a trolley 2 is brought to the technological equipment. A local dust suction 15 with a tangential swirler 14 and a flexible corrugated air duct 13 are fixed to the protrusion 16 of the cover 17. Loose material is loaded through the hatch 18 in the cover 17 and the exhaust fan 22 is turned on using the power source 12 installed in the housing 1.

Dust emissions generated during loading are sent through a local dust suction 15, a tangential swirler 14 and a flexible corrugated duct 13 into the upper input 7 of the vortex inertial dust collector 4. screw 9, which moves the dust for packaging into sealed bags. After filling the bag on the trunk of the auger 9, the damper closes and the bag is changed. After installing the next bag on the trunk of the auger 9, the damper opens, the accumulated dust wakes up in a new bag and the process of filling the bag continues. The procedure is repeated during the entire operation of the installation.

Purified in the dust collector 4, the air through the upper axial channel 19 is sent to the tangential swirler 20 of the flow, which reduces the aerodynamic resistance of the flow directed through the air duct 21 to the suction inlet of the exhaust fan 22. The purified flow through the air duct 25, equipped with a flow regulator 26, is directed into the atmosphere. At the same time, part of the flow from the exhaust fan 22 enters through the recirculation duct 27 for additional purification into the separator - concentrator 28, in which the dusty air flow is divided into two streams with a higher and lower concentration of dust. The flow with a lower concentration of dust through the duct 30, with the flow controller 32 installed in it, is directed to the lower inlet 6 of the vortex inertial dust collector 4, and the flow with a higher concentration of dust through the duct 31, with the flow controller 33 installed in it, is directed to the upper inlet 7 vortex inertial dust collector 4.

The flow regulators 25, 32 and 33 provide the ratio of air flow rates for setting up an aspiration dust collector for cleaning the dusty air flow.

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 in a housing mounted on a cart with wheels on counter swirling flows, made of a cylindrical working and conical parts and equipped with an exhaust fan, a power source , a system of air ducts with dust-air flow rate regulators and a sluice gate, at the outlet of which an auger driven by an electric motor is installed, connected to a power source, on the casing of which a trunk equipped with a damper is made with the possibility of fixing a sealed bag, provides an increase in productivity, efficiency, quality of dust-air cleaning flow and operational reliability of the dust collection plant.

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 trolley with wheels on counter swirling flows, made of cylindrical working and conical parts and equipped with a sluice gate and an exhaust fan, a power source and a system of air ducts with dust-air flow rate regulators, characterized in that a screw driven by an electric motor is installed at the outlet of the sluice gate, connected to a power source, on the casing of which a trunk equipped with a damper is made with the possibility of fixing a sealed bag.

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