SU1200949A1 - Apparatus for regeneration of bag filtering cloth - Google Patents

Abstract

Device for regeneration of the filter fabric tubings comprising suction casing pulsator blowing nozzle ring, the guide tube mounted for axial movement, the additional annular nozzle mounted coaxially aspiration casing, and a regeneration zone between the nozzles, characterized in that, in order to increase regeneration efficiency and reduction of regeneration costs, it is equipped with a tube coaxially placed inside the guide tube and forming an aspiration channel with it The main opening of which is located in the regeneration zone, and the outlet - in the suction casing. (Lgo with 4;; o

Description

The invention relates to a device for the regeneration of filter bags and can be used in any industry where bag filters are used to clean dusty air.

The purpose of the invention is to increase the efficiency of regeneration and reduce costs during its implementation.

The proposed device provides simultaneous cleaning of the sleeve from the outside and from the inside. Outside, dust is removed with the help of an aspiration casing, and inside, an aspiration channel. In addition, the cost of regeneration of the sleeve is reduced, since there is no need for a special device for turning the sleeve when cleaning its inner surface.

The drawing schematically shows a device, General view.

The device comprises an aspiration casing 1, at the output end of which a throttle valve 2 is installed. A guide pipe 3 is located on the same axis as the aspiration casing 1 with a blowing annular nozzle 4, which can axially move in the aspiration casing 1 by means of a lifting mechanism 5 connected to the guide pipe 3. At the inlet end of the suction casing 1, an additional annular nozzle 6 is mounted coaxially to it, rigidly connected to the jack 7, which provides the possibility of axial movement of the additional annular nozzle 6 in the suction casing 1. A purge 4 and an additional annular 6 nozzle are connected to the pulsator 8 by hoses 9 and 10. The guide tube 3 is provided with a coaxially installed inside pipe 11, forming an aspiration channel 12 with it. The inlet 13 of the suction channel 12 is located in the regeneration zone 14, located between the purge 4 and the additional annular 6 nozzles, and the outlet 15 is at the bottom of the suction casing 1. To draw the sleeve 16 through the regeneration zone 14, the device has a pulling mechanism, consisting s from the drum 17, made in the form of "squirrel cage", and the clip 18.

A device for the regeneration of filter bags is as follows.

The sleeve 16 is closed with a muffled end in the clamp 18 and put open on the guide tube 3. The device is turned on, while the throttle valve 2 is opened and the pulsator 8 is turned on. Then, compressed air is supplied to the pulsator 8, which is pulsed through the hoses 9 and 10 and in turn enters the purge 4 and an additional 6 nozzles. Next, the guide pipe 3 with the purge nozzle 4 is brought closer to the additional annular nozzle 6 using ₅ lifting gear 5 or, conversely, the additional nozzle 6 is approached axially to the purge nozzle 4 using the jack 7. The nozzles 4 and 6 are brought together until until the distance between them becomes a multiple of ¹⁰ wavelengths of ring vibrations of the sleeve 16. This moment is determined by a sharp increase in the frequency of vibration of the walls of the sleeve 16.

After the onset of resonant vibrations in the regeneration zone 14, the drum 17 is turned on, and the sleeve 16 is pulled there and pulled out along the guide tube 3 under the influence of rarefaction in the suction casing 1. and the dust knocked out into the sleeve 16, with exhaust air is directed to the inlet 13 of the suction channel 12 and through its outlet 15 is thrown into the suction casing 1.

Due to the placement of the inlet opening ^{25 of the} suction channel 12 in the regeneration zone 14, the flow of dusty air from the inner cavity of the sleeve 16 under the influence of the vacuum created in the suction casing 1, moves only through the suction channel 12, resulting in ³⁰ dusty air to the cleaned portion of the sleeve 16 does not penetrate.

All dust knocked out of the sleeve 16, from the suction casing 1 is sent to the dust collector (not shown).

₃₅ Having extended the sleeve 16 to the full length, the pulling mechanism switches to the reverse stroke, while the drum 17 rotates until it completely cools the sleeve 16. After the regeneration is completed, the dust-free and folded sleeve 16 is removed from the drum 17 and placed in tara.

Thus, due to the suction channel made in the form of a pipe coaxially placed inside the guide pipe, the inlet of which is located ⁴⁵ in the regeneration zone, and the outlet communicates with the bottom of the suction casing, a higher degree of regeneration is ensured, since dust is removed simultaneously with outer and inner surfaces of the sleeve. This, in turn, leads to a decrease in the hydraulic resistance of the sleeve and _; therefore, to improve the filtration process.

Claims (1)

DEVICE FOR REGENERATION OF FILTERING FABRIC HOSES, comprising an aspiration casing, a pulsator, a purging annular nozzle, a guide tube mounted with axial movement, an additional annular nozzle mounted coaxially to the aspiration casing, and a regeneration zone between the nozzles, which is characterized in that regeneration and reduce the cost of regeneration, it is equipped with a pipe coaxially placed inside the guide pipe and forming with it an aspiration channel inlet from ERSTU which is disposed in the regeneration zone, and the output - in an aspiration housing. >