SU1780811A1 - Filter for purifying air from dust - Google Patents

Description

The invention relates to a device for dry gas cleaning from dust and can be used in metallurgical, chemical, electronic and other industries

A known filter comprising a cylindrical body with a filter element fixed therein, made with annular corrugations and provided with a regeneration device arranged along its axis, including a nozzle mounted with axial rotation and made in the upper part with a propeller, the blades of which communicate with the nozzle, and the lower part of the nozzle is in communication with the atmosphere, while the lower cavities of the propeller blades are made with longitudinal slots, to the edges of which plates connected to the corrugations are attached filter element.

The filter is cleaned from dust by a regeneration device that rotates under the influence of dusty air.

The disadvantage of this device is:

low regeneration efficiency when a large fractional scatter dust due to structural features of the regenerating device (readjustment of its maximum particle size) and, as a result, accumulation of dust in the corrugations, the wear of the filter cloth as a result of uneven gap ^- between them plates pylezabornogo element iz for stretching the canvas during operation and the possibility of accidental ingress of coarse dust, a difficult replacement of the filter element.

Closest to the proposed solution is a bag filter containing

1780811 A1, housing with nozzles for the entry of dusty and purified gas, a vertical elastic porous sleeve mounted on a hose grate equipped with a guide extending along the axis of the sleeve and a support flange fixed in the bottom of the sleeve (2). The regeneration of the sleeve from dust occurs when the walls of the sleeve are deformed by lowering or straightening it when, accordingly, the gas supply is turned off or on for cleaning.

The disadvantages of this device are: the lack of self-regeneration during the cleaning process, which reduces the filter operating time before regeneration, the large dimensions (height) of the filter element, the correspondingly large dimensions of the entire device, and the difficult replacement of the filter element.

The aim of the invention is to increase the efficiency of the regeneration of the filter element due to additional self-regeneration during the cleaning process, reducing the overall dimensions of the filter in height.

This goal is achieved by the fact that in the filter for cleaning air from dust, containing a housing with nozzles for entering dusty and purified gas and a filter element mounted with the possibility of vertical movement along the guide along its axis and a supporting flange, the filter is equipped with a vacuum chamber located above filter element, radial guides installed with the possibility of vertical movement along the guide and clamps freely suspended on the radial guides, while filters The ial element is made in the form of annular corrugations, the vertices of which are placed between the upper and lower concentric rings, and the clamps are attached to the upper rings.

The presence of rarefaction chambers and suspension of the filter element with annular corrugations to the radial guides ensure the movement of the filter element in the rarefaction zone and its return to the lower position, while shaking it and chipping off the dust layer due to deformation of the fabric, in addition, additional self-regeneration due to partial dust shaking with constant fluctuation of the lower corrugations in the flow of incoming air during the cleaning process. The implementation of the filter cloth in the form of ring corrugations allows you to compactly place it in the filter, which reduces the overall dimensions in height.

In FIG. 1 shows a filter for cleaning air from dust, general view: in FIG. 2 inoperative position of the filter element (initial state); in FIG. 3 - axonometric projection of the filter element; in FIG. 4 - node I in FIG. 1: in FIG. 5 - node II in FIG. 1; in FIG. 6 and 7 - mounting options of the filter cloth to the radial guides.

The filter contains a housing 1, a fan 2, an inlet pipe 3 of dusty and an outlet pipe 4 of purified air, a vacuum chamber 5, a vertical guide 6, fixed with a flange 7 to the bottom of the housing. A filter element 8 is installed on the guide. The filter element consists of a filter cloth, lower 9 and upper 10 concentric rings, to which the filter cloth is attached using clamps 11, 12, a support flange 13, mounted on a movable flange sleeve 14. The upper filter rings are suspended from using clamps 11 to the movable sleeves 15, moving along the radial guides 16.

There are 'other options for hanging the filter cloth on radial guides, for example, free hanging with a link 26 or with an elastic element 28, for example, a rubber stretch 28 and a collar 27. The radial guides are mounted in the upper part to the ring 17 with the possibility of rotation around the axis 18, and in the lower part - to the roller 19 moving in the groove of the support 20. The movement of the sleeve 14 is limited at the top by a pin 21, at the bottom - by a supporting sleeve 22. The outer ring of the filter fits into the groove on the stop 23 and is fixed by latches 24. For collection dust in the bottom of the housing 25. The dust collectors are provided tensioning the filter element in the area of flange 17 by the movement of the ring up the sleeve 14 and lockable in this position adjusting screw 26.

The device operates as follows. In the initial state, the filter element is in the lower position on the support sleeve 22 (see Fig. 2). At the initial moment of air purification, the fan 2 creates a vacuum in the chamber 5. The supporting flange 13 under the influence of the vacuum rises together with the sleeve 14 all the way up (see, Fig. 1). 1780 "i) shaking of the filter cloth occurs with a short-term dust separation, and radial guides that rotate on the axes 18 and slip with the roller 19 in the supports 20 change the angle of inclination. Moving sleeves 15 are lowered along the radial guides 16 under the action of the elastic forces of the upper rings 10.

In the embodiments shown in FIG. 6 and 7, the movement of the upper rings is carried out respectively using the link 26 and using the elastic element 28.

The filter cloth straightens and shakes off the dust due to deformation of the fabric / Dusty air enters the housing through the pipe 3. During the operation of the filter, the lower corrugations of the filter element under the influence of air flow and under conditions of free suspension carry out oscillatory movements of different directions, which contributes to the constant shaking off of dust, i.e., additional self-regeneration of the filter cloth during cleaning.

After the filter is finished (the fan is turned off), the pressure in the housing is equalized, the filter element falls down under the action of gravity, i.e., it hits the support sleeve 22, while the web is shaken and weakened (see, Fig. 2), which contributes to significant dust separation.

fixing the outer ring of the filter element and removing the pin 21. Then, the entire filter element is removed from the sleeve 14.

The proposed device allows for self-regeneration of the filter during the cleaning process, which avoids additional energy costs for cleaning, reduce the size of the filter due to the implementation of the filter element with ring corrugations. Easy filter change reduces capital costs.

Claims (1)

Claim A filter for cleaning air from dust, comprising a housing with nozzles for entering dusty and purified gas, a filter element mounted for vertical movement along a guide placed along its axis, and a support flange, characterized in that, in order to increase the efficiency of the process regeneration and reduction of the height of the filter, the filter is equipped with a vacuum chamber located above the filter element, radial guides installed with the possibility of vertical movement along ulation and clamps, freely suspended on the radial guides, the filter element is in the form of annular corrugations, the tops of which are placed between the upper and lower concentric ring- # 7z / £ Z (f rig.b _ig5 g-g ®ig. 7 Editor Compiled 44. Zotova Tehred M. Morgenthal Corrector A. Motyl Order 4232 Circulation. Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the USSR State Committee for Science and Technology 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.