SU1437077A1 - High-speed bag filter - Google Patents

Abstract

The invention relates to gas cleaning and can be used for the deep cleaning of air from fine dust. Its use will make it possible to increase the degree of purification and simplify the design due to the sequential passage of dry air through the three purification zones formed by additional filter elements. The high-speed baghouse contains a cylindrical body 1 with a tangential nozzle 2, a dust collecting bin 4, a crown 15, an elastic disk 13 with circumferential holes 16 and 17, on which gears 18 and 19 are fixed, a filter element 20 and additional filter elements. 21 and 22, fixed on the rings 18 and 19, and the regenerating device 7 is made in the form of a tubular trapezium with open S long slots 9 on the sides on the outside of the trapezium. 2 Il. SP

Description

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The invention relates to gas cleaning and can be used for the deep cleaning of air from fine dust.

The aim of the invention is to increase the cleaning efficiency and simplify the design.

FIG. 1 shows a high-speed bag filter, general view; in FIG. 2 shows section A-A in FIG. one.

The high-speed baghouse contains a cylindrical body 1 with a tangential inlet 2, an outlet nozzle 3, a dust collecting bin 4, lock 5. In the upper part of the body 1, inside the output nozzle 3, there is a central tube 6, the filter contains a regenerating device 7 made in a tubular trapezoid, the smaller base of which is provided with an opening 8, and the lateral sides with longitudinal slots 9 located on their outer side. In the upper part of the cylindrical body 1, a pipe collector Yu is placed with nozzles 11 and an annular slot 12, inside the JKOTO a swarm enters the edges of the elastic disk 13 containing in its middle part a shell 14 fitted with a grinder 15. In the plane of the disk 13 are placed in a circle of hole 16 and 17, on the outer side of which, on the lower side of the disk 13, rings 18 and 19 are fixed, directed towards the bunker 4. On the shell 14 and on the rings 18 and 19, filtering elements are fixed. Elements 20, 21 and 22, in the lower part of which is fixed the bottom 23.

High-speed bag filter works as follows.

Under the action of a fan (not shown), the entrained air enters through the tangential inlet nozzle 2 into the cylindrical body 1, with a large fraction of dust due to the cyclone effect falling into the bunker 4. Next, the partially purified air penetrates through the rotating air layer, formed by air. coming out through the annular slot 12 of the tubular collector 10 parallel to the surface of the filter element 22 and directed from the top downwards, with partial air cleaning from dust and deviation of dust particles into the ONU hopper 4. The partially cleaned air permeates

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through the filter element 22 where it is also cleaned. Then, the air successively overcomes the filtration zones formed by the air layers exiting through the concentric holes of 16 and 17, as well as by the filtering elements 20 and 21, under the BepraHQb during deep cleaning, contacts the krychatka 15 and causes the bonded rotation. with it, there is an elastic disk 13, and then through the outlet nozzle 3 is brought out of the limits of the high-speed filter. Dust deposited on the filter elements 20, 21 and 22 is removed by means of a reverse purge carried out through the longitudinal slits 9 of the regeneration device 7, as well as due to centrifugal forces arising from the rotation of the filter elements and the agitation of the filter elements unbalanced forces arising from the impact on the bottom 23 of a jet of compressed air discharged through the opening 8 and the lifting force of the impeller 15, as well as due to the elastic properties of the disk 13 reciprocating from top to bottom under the action of the same forces within the gap formed by the annular gap 12 and the disk 13, which ensures the removal of the caught pie by shaking the filter elements. In addition, changing the parameters of air in the space between the cover 5 and the elastic disk 13 (for example, when it is pulsed) also contributes to the regeneration of the filter elements 20, 21 and 22 by shaking them. At the same time, the air escaping through the annular gap 12 prevents dust from air from kopnyca 1 to penetrate into the outlet nozzle 3. Thus, the passage in succession is six cleaning zones formed by three rotating filter elements and three air curtains, as well as being cleaned in the housing the filter due to the cyclone effect, the entrapped air undergoes deep cleaning.

The use of the proposed filter will allow for a more complete purification of the air from the drone due to the consistent overcoming of several filtration zones with dusty air.

filter elements and cone-shaped rotating air curtains formed by air jets exiting through holes in an elastic disk, as well as dust particles knocked out by jets of compressed air emitted through longitudinal slots and made from the outside of the lateral side of the trapezoid regeneration devices.

Making the disk elastic will additionally allow the regeneration of filter elements due to its elastic vibrations in the vertical plane arising, due to the imbalance of the forces acting on it on the one hand - the lifting force of the needle, and through the annular manifold into the space between the elastic disk and the housing cover, as well as due to the pressure of compressed air exiting through the holes in the smaller base of the trapezium of the regeneration device and on the bottom,

Thus, the proposed filter allows one to increase the degree of purification of dusty air due to the successive passage of the latter by three cleaning zones created by additional filter elements and three air curtains created by

in the spaces between the filter elements. In addition, the proposed filter is simpler in design due to the implementation of the regenerating device in the form of a tubular trapezoid and the elimination of the annular chamber with an ejector nozzle, as well as a half.

Claims (1)

Invention Formula A high-speed bag filter comprising a housing with a tangential gas inlet, a disk with a kryochka shell installed in the center, a dust collection bin, filter elements fitted with a bottom, and a tubular regenerating device located along the axis, characterized in that, in order to increase the cleaning efficiency and simplify the design, the disk is made of an elastic material with perforated holes, the filter is equipped with rings attached to the edges of the holes and facing the bunker, and the regen The design of the device is made in the form of a trapezoid with a smaller base in the lower part, the sides of which contain longitudinal slots on the outside, and coaxially mounted filter elements attached to the rings and the shell in the upper part. G7 /. 3 (and & .g