RU144460U1 - ASPIRATION SYSTEM - Google Patents

Abstract

An aspiration system containing local aspiration suction from technological equipment, a dust collecting device in the form of two - first and second inertial vortex dust collectors, a fan and a fabric filter, characterized in that it additionally contains first and second flow spinners installed on the upper exits of the dust collectors, the separator - a hub, the input of which through the fan is connected to the output of the second flow straightener, and its output through the additional adjustment dampers is connected respectively only to the upper inlet of the first vortex inertial dust collector and to the lower inputs of the first and second dust collectors, the output of the first flow straightener is connected to the upper input of the second dust collector, the fan output is connected through a fabric filter and an additional control damper to the air duct to allow the purified air to enter the atmosphere.

Description

The suction system refers to devices for cleaning air and gases from dust particles, and can be used in chemical and construction industries.

Known suction unit containing local suction from technological equipment, a dust collecting device in the form of two - first and second vortex inertial dust collectors, a wet cleaning apparatus fan (fabric filter) and a chimney (see utility model description to RF certificate No. 22063, IPC ⁷ V01D 50/00, 7/00, 42/12, publication January 10, 2002)

A disadvantage of the known installation is the lack of dust collection efficiency.

The objective of the claimed model is to increase the efficiency of air purification by an aspiration unit.

The essence of the utility model lies in the fact that the aspiration system, which contains an aspiration suction from technological equipment, two vortex inertial dust collectors, a fan and a fabric filter, additionally contains the first and second flow straighteners installed on the upper outputs of the dust collectors, a separator-hub, the input of which is connected through the fan to the output of the second flow spinner, and the output through additional control valves is connected respectively to the upper input of the first vortex and ertsionnogo dust collector and to the lower inputs of the first and second dust collectors.

At the same time, the output of the first flow straightener is connected to the upper inlet of the second dust collector, the fan output is connected through a fabric filter and an additional control damper to the air duct to release the purified air into the atmosphere.

The essence of the utility model is illustrated in the drawing, where in Fig. 1 shows an aspiration system, a general diagram.

The aspiration system contains a fan 1, and a separator-concentrator, a first and second vortex inertial dust collectors 3 and 4, connected in series with the first and second flow unwrappers 5 and 6, and a fabric filter 7.

Polluted air from a local suction pump from process equipment (not shown in the drawing) flows through an air duct 8 to a dust collector 3, equipped with an upper inlet 9, a lower inlet 10 and a lock gate 11.

The dust collector 4 is provided with an upper inlet 12, a lower inlet 13 and a lock gate 14.

The flow scraper 6 of the dust collector 4 is connected to the suction inlet 15 of the fan 1. The output 16 of the fan 1 is connected to the fabric filter 7, as well as to the separator-hub 2, the outputs of which are connected to the inputs of the vortex inertial dust collectors 3 and 4 as follows: a cleaned stream with a smaller the dust concentration is connected to the lower inlet 10 of the first dust collector 3 and the lower inlet 13 of the dust collector 4. The cleaned stream with a higher concentration of dust from the separator-hub 2 is connected to the upper inlet of the dust collector 3.

The flow rate of cleaned air supplied to the lower inlets 10 and 13 of the dust collectors 3 and 4 is regulated by the shutters 17 and 18. The air supply to the upper inlet 9 of the dust collector 3 is controlled by the shutter 19.

The control flap 20 is installed at the outlet of the fabric filter 7.

The aspiration system works as follows.

Dusty air from the local suction pump under the influence of the vacuum created by the fan 1, through the duct 8 enters the dust collector 3 through the upper inlet 9. The collected dust is discharged into the dump through the lock gate 11.

Installed at the outlet of the vortex inertial dust collectors 3 and 4, the flow spinners 5 and 6 provide a reduction in aerodynamic drag.

The stream purified in the first dust collector 3 enters the second vortex inertial dust collector 4 through the upper inlet 12. Here, further dust particles are collected.

The captured dust through the lock gate 14 of the second inertial dust collector 4 is discharged into the dump.

The air purified in the second vortex inertial dust collector 4 is directed through the flow straightener 6 by fan 1 for additional cleaning to a fabric filter, the flow from which is discharged from the aspiration system through the control damper 20.

Part of the cleaned air after fan 1 is sent to a separator-concentrator 2, where it is divided into two streams with a higher and lower concentration of dust. A stream having a lower concentration is directed to the lower inlets 10 and 13 of the vortex inertial dust collectors 3 and 4. A stream having a higher concentration is directed to the upper inlet 9 of the first dust collector 3.

The amount of air purified in the separator-concentrator supplied to the dust collectors is regulated by shutters 17, 18 and 19.

The inventive aspiration system allows you to effectively clean the air before discharge into the atmosphere. The system has high reliability, because fabric filter, provides fine cleaning of air discharged into the atmosphere, is protected from dust overload due to the installation of inertial dust collectors.

The aerodynamic resistance of the vortex inertial dust collectors is reduced due to the installation of flow spinners, which allow the energy of the residual swirl of the stream at the outlet of the dust collectors to be converted to the axial flow energy.

The presence of a separator-concentrator allows you to split the gas and dust stream into two streams with different dust content. This solution is used to ensure the supply of mixed flows to the primary and secondary inputs of dust collectors in counter swirling flows. The supply of a cleaner stream to the lower swirling input of the dust collector on the counter swirling flows allows to increase the efficiency of dust collection. This effect is based on the fact that the secondary stream entering the separation chamber of the CDW dust collector directed directly to the side of the purified gas pipe, in this case is used only to squeeze the primary stream to the walls of the separation chamber, and carries only a minimum of dust particles.

Claims (1)

An aspiration system containing a local aspiration suction from technological equipment, a dust collecting device in the form of two - first and second inertial vortex dust collectors, a fan and a fabric filter, Characterized in that it additionally contains the first and second flow straighteners installed on the upper outputs of the dust collector, a separator-hub, the input of which through a fan is connected to the output of the second flow straightener, and its output through additional adjustment dampers is connected respectively to the upper input of the first vortex inertial dust collector and to the lower inputs of the first and second dust collectors, while the output of the first flow straightener is connected to the upper input of the second dust collector, Exit fan is connected through a fabric filter and an additional regulating valve to the duct for the outlet of purified air to the atmosphere.