RU40602U1 - Dust extraction system - Google Patents

Abstract

The system contains a supply flue, dust collectors, an exhaust flue, a bag filter, and a suction fan. The difference is that the dust collectors are made in the form of vortex inertial dust collectors and are divided into two groups. The system additionally contains two separator-hub, the input of the first of which is connected to a common supply gas duct, and the axial output is connected to the input of the second separator-hub. Dusty gas is supplied to the upper inlet of the dust collectors of the first group through the lateral outlet of the second separator-concentrator, the first supply gas duct and gas flow regulators. At the upper inlet of the dust collectors of the second group, gas is supplied through the lateral outlet of the first separator-concentrator, through the third supply duct and gas flow regulators. At the lower inlet of the dust collectors of both groups, gas is supplied through the axial output of the second separator-hub, through the second supply duct and gas flow regulators installed in front of the inlets to the dust collectors. The axial outlet pipes of the dust collectors of both groups are connected through an exhaust duct, a bag filter and an exhaust fan with atmosphere. This allows you to increase the efficiency of dust collection.

Description

The utility model relates to techniques for cleaning gases from dust. A known dust collection system comprising a supply gas duct, dust collectors in the form of cyclones connected in parallel along the gas path, an exhaust gas duct, bag filters and a suction fan, the outlet of which is connected to a supply gas duct (see the description of the invention to USSR copyright certificate No. 360958, IPC V 01 D 45 / 12, publication of November 5, 1973).

A disadvantage of the known system is the lack of effectiveness. The objective of the claimed utility model is to ensure high dust collection efficiency due to preliminary separation of the streams and their distribution into dust collector groups.

The essence of the utility model is that in a dust collection system containing a first supply gas duct, dust collectors, an exhaust duct, a bag filter and a suction fan are connected in parallel along the gas path, dust collectors are made in the form

vortex inertial dust collectors and are divided into two groups, the system additionally contains the first and second separator-hubs, the input of the first of which is connected to a common supply duct, the axial output of the first separator-hub is connected to the input of the second separator-hub, the lateral output of which is connected through the first supply gas duct and additional gas flow controllers to the upper inlets of the dust collectors of the first group, the axial output of the second splitter-hub is connected through the second supply gas d and additional gas flow controllers with lower entrances of dust collectors of both groups, the lateral outlet of the first separator-concentrator is connected through the third supply duct and additional gas flow regulators to the upper inlets of dust collectors of the second group, axial outlet nozzles of dust collectors of both groups are connected through the exhaust duct, bag filter and exhaust fan with atmosphere.

The essence of the utility model is illustrated in the drawing, where Fig. 1 shows a dust collection scheme, a general view.

The dust collection circuit contains a first supply gas duct 1, dust collectors 2 connected in parallel along the gas, an exhaust gas duct 3, a bag filter 4 and a suction fan 5. The dust collectors 2 are made in the form of vortex inertial dust collectors and are divided into two groups. The system further comprises first and second separator-hubs 6 and 7, the input of the first of which is connected to the supply duct 9. The axial output 10 of the first separator-hub 6 is connected to the input 11 of the second separator-hub 7, the lateral output 12 of which is connected through the first supply duct 1 and additional regulators 13 of the gas flow to the upper inputs of 14 dust collectors 2 of the first group. The axial outlet 15 of the second separator-hub 7 is connected through a second supply gas duct 16 and additional gas flow controllers 17 to the lower inlets 18 of the dust collectors 2 of both groups. Side exit

19 of the first separator-hub 6 is connected through a third supply gas duct 20 and additional gas flow controllers 21 to the upper inlets 22 of the dust collectors 2 of the second group. The axial outlet pipes 23 of the dust collectors 2 of both groups are connected through an exhaust duct 3, a bag filter 4 and an exhaust fan 5 with the atmosphere.

The dust collection system operates as follows.

The dust and gas stream enters through the supply gas duct 9 to the separator-concentrator 6 and 7, sequentially located between each other. In separator hubs 6 and 7, preliminary separation of dust and gas flows takes place and through the axial outlets there is an output stream with a lower dust content, and through the side flows (one side stream is shown in the drawing) gas with a higher dust concentration is released.

Further purification of dusty gas is carried out in vortex inertial dust collectors 2, which are divided into two groups.

At the upper inlet 14 of the dust collectors 2 of the first group, the gas enters from the separator-concentrator 7 through the side outlet 12, the gas duct 1, gas flow regulators 13.

At the upper inlet 22 of the dust collectors 2 of the second group, gas is supplied from the separator-concentrator 6 through the lateral outlet 19, the gas duct 20, gas flow regulators 21.

Dusty gas is supplied to the lower inlets 18 of dust collectors 2 of the first and second groups from a separator-concentrator 7 through an axial outlet 15, a gas duct 16, gas flow regulators 17.

The gas purified in the first and second groups of dust collectors 2 through the axial outlet pipes 23 and the exhaust duct 3 is sent for additional cleaning to the bag filter 4 and enters the inlet of the exhaust fan 5, from where it is released into the atmosphere.

The proposed utility model provides high dust collection efficiency due to the fact that gas and dust flows with a higher concentration of dust enter the upper inputs of the inertial vortex

dust collectors of the first and second group. A gas stream with a low dust concentration is supplied to the lower inputs of the apparatus. The presence of flow controllers at the upper and lower entrances of the dust collectors provides a certain ratio of gas flow rates, due to which an optimal distribution of flows entering the dust collection is achieved.

This improves the efficiency of the dust collection system.

Claims (1)

A dust collection system containing a first supply gas duct, dust collectors connected in parallel along the gas path, an exhaust duct, a bag filter and a suction fan, characterized in that the dust collectors are made in the form of vortex inertial dust collectors and are divided into two groups, the system additionally contains first and second hub separators , the input of the first of which is connected to a common supply gas duct, the axial output of the first splitter-hub is connected to the input of the second splitter-hub, side the outlet of which is connected through the first supply gas duct and additional gas flow regulators to the upper inputs of the dust collectors of the first group, the axial output of the second separator-hub is connected through the second supply gas duct and additional gas flow regulators with the lower inputs of the dust collectors of both groups, the lateral output of the first separator-hub is connected through the third supply gas duct and additional gas flow controllers to the upper inlets of the dust collectors of the second group, axial outlet nozzles of the dust collectors its groups are connected through a flue gas duct, a bag filter and a suction fan with atmosphere.