SU1357046A1 - Bag filter - Google Patents

Abstract

The invention relates to devices for the dry cleaning of gases from dust by the method of filtration, can be used in chemical industry and allows to increase the reliability of operation by increasing the efficiency of regeneration of the sleeves. The filter includes a housing with a recirculation system, inside of which, by means of the upper and lower nozzles, are fixed on bag grids as filter sleeves (P) with two open ends. The shaft axis with a protrusion is installed. When the radio is regenerated, the shaft is driven into rotation, and the protrusion 11 engages with the lever 9 attached to the nozzle 6 and rotates it. P is twisted, the layer of dust settled down for it is destroyed and picked up by the gas flow inside P. When twisting P its length decreases, but the springs are attached to the rings and the lower tube grille, which compensates for it. After regeneration, the lever 9 is released from the engagement with the protrusion-11, and under the action of pru / kin P returns to its original position. 2 Il. W IS OE O1 fus.l

Description

The invention relates to dust treatment equipment, namely, devices for dry cleaning of gases from drunk particles by a filtration method and can be used in the chemical and other industries.

The aim of the invention is to increase reliability in operation by increasing the efficiency of regeneration of hoses

FIG. 1 shows schematically a sectional filter, a general view; in FIG. 2 is a view A of FIG. one.

The filter includes case 1, nozzle 2 of the inlet of dusty gas, nozzle 3 of the outlet of purified gas. Inside the case 1, hose grids are installed: upper 4, lower 5. Nozzles 6, on which the upper ends of the filter sleeves 7 are fixed, are mounted on the hose grate 5 . Sleeves 7 have two open ends. The nozzles 6 are fixed on the upper hose grille 4 by means of springs 8. The levers 9 are rigidly fixed on the nozzles 6.

In the center of the housing 1 is mounted a wa 10 with protrusions 11. At the lower ends of the sleeves 7, rings 12 are rigidly fixed, connected by means of springs 13 to the lower hose grille 5. A dust collecting bin 14 fitted with a feeder 15 is attached to the lower part of the housing 1. ,

The filter is equipped with a gas recirculation system, which includes a pipe 16, a cyclone 17, a fan 18 and gas ducts 19

The filter works in the following way.

The dust-laden gas through the pipe 2 enters the upper part of the body and passes into the filtering sleeves 7. Next, the main part of the gas is filtered through the sleeve 7 and removed from the filter, the passage of the pipe 3. Some of the gas passes through the sleeves 7 into the hopper 14.

Trapped dust accumulates on the inner surface of the sleeve 7. To regenerate the sleeves 7, the shaft 10 is driven into rotation. In this case, the protrusion 11 engages with the lever 9, which is rigidly fixed on the nozzle 6, and rotates it, as a result of which the sleeve 7 is twisted, the layer of the impregnator on it is wired down.

five

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It is reconstructed, destroyed and taken up by the gas flow inside the tube.

Since, when twisting the sleeve 7, its length is somewhat reduced, the springs 13 fixed on the rings 12 and the lower tubular grid 5 are stretched to compensate for the decrease in the length of the sleeve. The dust-gas flow formed in the sleeve 7 passes into the hopper 14. Due to a sharp drop in the flow velocity at the entrance to the bunker 14, part of the dust is released from it and accumulates in the bunker. From the hopper 14, the dust is removed by the feeder 15, and the gas enters through the nozzle 16 into the cyclone 17, where it is additionally cleaned. Further, the gas by the fan 18 through the ducts 19 is supplied again to the cleaning. At the time when the lever 9 is disengaged from the protrusion 11, under the action of the spring 8 and the springs 13, the sleeve 7 returns to its original position. The protrusion 11 presses on the lever 9 of the next sleeve and the process repeats.

Thus, due to the fact that the nozzles, on which the upper ends of the filter sleeve cich are attached, are movably installed by springs, the levers are rigidly fixed to the nozzles, and the shaft with a protrusion is mounted in the center of the filter, and the rings connected to using springs with hose

grille, the filter regenerates the filter sleeves efficiently.

The combination of the two regeneration mechanisms is very important from the point of

Q in terms of tissue regeneration efficiency. The regeneration efficiency in the proposed device is higher than in other objects using the principle of twisting the sleeve in combination with

5 conventional gas filtration scheme. This is due to the fact that when using a flow-through gas filtration scheme, a slight deformation of the layer of the settled bed is sufficient for efficient tissue regeneration. At the same time, under the influence of significant tangential stresses, an instantaneous breakdown (blowing out) of the fabric layer due to the breaking of bonds between the layer occurs.

g pti and cloth as a result of twisting the sleeve.

The use of the proposed filter in the industry will improve the reliability of work due to its effect.

effective regeneration of the sleeves and make it possible to operate the device when cleaning gases from fine dust.

Claims (1)

Invention Formula A bag filter including a housing with a recirculation system, inside of which, by means of the upper and lower nozzles, filter sleeves with two open ends, characterized in that, in order to increase operational reliability by increasing regeneration efficiency, the filter is provided with a shaft mounted on the axis of the housing with a protrusion fixed to the upper and lower nozzles by springs placed in the lower part of the sleeves the upper nozzles and the shaft of the tags, while the rings are fixed to the lower springs. Bad l ag 2 Editor A. Shandor Compiled by N. Kovalev Tehred M.Dntsyk Proofreader L. Patay Order 5919/4 Circulation 657 Subscription VNIIGM USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4