SU1277999A1 - High-speed bag filter of double cleaning - Google Patents

Abstract

The invention relates to gas cleaning, can be used to clean gases from fine dust in various industries and allows to increase the efficiency of air cleaning from dust. The bag filter contains a cylindrical body 1 with a tangential gas inlet 2, a dust collecting bin 27, an internal impeller 17 separating and compressed (L h h 0; o QD 7fr / J76

Description

filter element on the lower primary 24 and upper secondary 9, regeneration device 4 in the form of a perforated pipe with an open end, while the upper part of the secondary filter element 9 is fixed fixed, and the bottom is equipped with an annular chamber 25 made in the form of a trapezium and having a bottom base ejector nozzle 26. The filter includes a cylindrical shell 18 with an annular half face 19 in the lower 99 part, while the inner wall of the shell is attached to the outer surface of the turbine 20 and outer to the inner surface and the impeller 17, Use krshchatki 17, impeller 20 and the ejection effect produced by the jet of compressed air in the nozzle, allows the display permanently trapped in the hopper upper filter elem € .ntom dust. 1 h, para. f-ly, 1 silt,

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The invention relates to gas cleaning and can be used to clean the air from fine plastics.

The purpose of the invention is to increase the efficiency of air cleaning from dust.

The drawing shows the proposed device.

The double-speed high-speed bag filter contains a cylindrical body 1 with a tangential. 2 gas attack. In the upper part of the cylindrical body 1 there is a pipe 3 with open ends, connected to a device 4 for regeneration and with side pipes 5 that are plugged from the ends, having longitudinal slits 6,

In the upper part of the device 4 for regeneration, there are holes 7, at the level of which is placed a pipe 8 connected to the upper filtering element 9. In the lower part of the device 4 there are regeneration tubes 10 connected to it, connected with a pipeline fixed to them P. End of device 4 for regeneration is equipped with a clamp 12. The ends of the pipeline 11 are provided with annular manifolds 13 with intermittent longitudinal slots 14 along its side, lower and upper perimeter.

In the middle part of the body is 1 size, there is a ring 15, connected to the shell 16, inside which is placed the impeller 17. Internal ends pos2

Late securing: on the cylindrical shell IS, bottom: a part of which is equipped with an annular half-headed 19. In the inner cavity of the shell

18, the impeller 20 is fastened; The ring 15 enters the annular slot 21 of the collector 225 connected to the pipe 23. On the shell 16 there is a fixed upper-. SRI 9 and the bottom 24 filter elements.

An annular chamber 25 with an ejector nozzle 26 is fixed in the lower part of the filtering element 24. In the lower part of the housing 1 there is a hopper 27 for collecting dust, In the upper

parts of the device 4 is fixed washer 28.

The device works as follows.

Under the action of a fan (not shown), the gas flowed through the tangential nozzle 2 into the cylindrical housing 1. At the same time, a large fraction of dust due to the cyclone effect is output to the hopper 27. Then the partially purified air penetrates through the lower filter element 24 and through the cavity formed by the pipeline 11 and the inner surface of the lower filter element 24 moves toward the impeller 17, causing it to rotate. Together with

the latter are rotated by the shell 16 and the lower 24 and upper 9 filter elements associated with it. Primary bottom filtering element 24 provides rotation of chamber 25 connected to it with nozzle 26. Compressed air supplied through pipe 23 to collector 22 flows around two sides of ring 15 and out through annular slot 21 of collector 22. Zannye with her upper 9 and lower 24 elements. In addition, the compressed air discharged through the annular gap 21 prevents the dusty air from flowing from the lower part of the housing I to the upper and also flowing around the outer surface of the lower filter element, preventing the penetration of dust particles into the lower filter element 24, Compressed air outlet from the openings 7 of the device 4 for regeneration, prevents the flow of dusty air from the inner part of the upper filter element 9 to the upper part of the housing. Through the impeller 17, the lower 24 and the 9 hny filter elements air, closed chennny impeller 17 moves to the inner surface of the filter element 9 and a second purifying Referring you brasyvaets outwardly. Regeneration of the lower 24 and upper 9 filter elements is made by supplying compressed air through the ends of the pipe 3, which, moving through the pipes 5, goes out at high speed through the longitudinal slits 6 and blows a pie from the inside of the upper filter element 9, the dust enters to the central zone of the element where, due to the rotation of the air flow caused by the hinge 17, a vacuum is created. At the same time, the vacuum in the central zone is enhanced by the action of the impeller 20, the angle of inclination of the blades of which, with the same direction of rotation with the keypad 17, provides movement of air with dust particles regenerated with the inner surface of the upper (9) element 9 in it, The movement of dust particles in the pipe 11 is ensured by ejection created by a jet of compressed air coming out of the nozzle 12 into the nozzle 26. 9 4 Under the influence of these factors, the dust caught by the upper filter The constricting element 9 is brought into the hopper 27. The regeneration of the lower filter element 24 is carried out by jetting with compressed air, which from the regeneration device 4 exits the regeneration tube 10 at high speed. In addition, the regeneration of the lower 24 and upper 9 filter elements takes place This is due to the oscillatory movements of the shell 16, which are provided by a combination of the impact on the shell of the lifting force of the rotating wheel 17, as well as jets of compressed air emerging from intermittent longitudinal the slots 14 along the BepxneNfy perimeter of the annular collector 13; the oscillation magnitude of the impeller is limited by the width of the annular slot 21 of the collector 22, as well as the magnitude of the impact on the annular chamber 25 of compressed air jets emerging from the discontinuous longitudinal slots 14 along the lower perimeter of the annular collector 13 located in the lower parts of the pipeline 1 1. When oscillating movements are made, the material of the lower 24 and upper 9 filter elements collapse, and the material of the filter elements also regenerates. The outer surface of the upper filter element 9 briefly comes into contact with the side tubes 5, which is accompanied by rounding them with the material of the upper filter element 9, which, in combination with the reverse purge, promotes efficient regeneration. In addition, the regeneration of the lower filter element 24 is carried out by centrifugal forces arising from its rotation. The movable fastening of the upper part of the filter element 9 allows the latter to alternately tension under the action of the vacuum generated by the fan and the centrifugal forces generated by the rotation of the filter element, then weakened by the action of compressed air jets emerging from the slits 6 of the side tubes 5, when this occurs, the fabric of the filter element is bent due to the downward movement of the nozzle 8 along the axis of rotation up to the stop in the washer 28. Under the action of the indicated forces on the filter element, effective fabric regeneration occurs. ltruyuschogo element accommodating Because dual-impeller in the middle part fil truyuschego element formed ny your primary and secondary filter elements, which ensures high degrees pshey fine purification, and The collection of shaking, collapse p jet blowing, centrifugal forces provides qualitative regeneration. In addition, the use of the impeller and the ejection effect created by the jet of compressed air into the syringe, allows one to permanently transfer the pie that was caught in the secondary filter element. The proposed device can also work in the wet mode when working fluid is supplied to the pipeline, which ultimately expands the functionality of the proposed device. of the invention 1, a double-speed bag filter, comprising a housing, a tangeshial gas supply nozzle, an impeller connected to the filter element, an impeller, a vial collecting hopper and a regeneration device, characterized in that provided with an annular chamber placed in the lower part of the filter element in the form of a trapezoid, the smaller base of which is equipped with an ejector nozzle, while the impeller is located in the middle part (of the filter element and ka installed coaxially between the impeller and the device for regeneration, 2, Filter pop, 1, is different from the fact that it is equipped with a cylindrical shell and an annular half-and-a-half located at the bottom of the shell, while the inner wall of the shell is attached to the outer surface of the turbine, and outside - to the inner surface of the impeller.

Claims (1)

1, a double-speed high-speed bag filter, comprising a housing, a tangechial gas inlet, an impeller connected to the filter element, an impeller, a collecting bin, and a regeneration device, characterized in that, in order to increase the cleaning efficiency, it is provided with an annular chamber made in the form of a trapezoid at the bottom of the filtering element, the smaller base of which is provided with an ejector nozzle, while the impeller is located in the middle part (of the filtering element and the impeller is installed oaksialno between the impeller and a device for regeneration, 2, Filter pop, 1, is different from that it is equipped with a cylindrical shell and an annular half-and-a-half placed in the lower part of the shell, while the inner wall of the shell is attached to the outer surface of the impeller, and outer to the inner surface impeller.