CS258313B1 - Industrial filter pocket expander - Google Patents

Abstract

The expansion reinforcement of the pocket industrial filter enables its regeneration by compressed air backwashing. The essence of the solution lies in the fact that fastening strips are attached to the extreme vertical parts of the expansion reinforcement in their upper part, on which a pipe for the distribution of compressed air is horizontally attached. This is provided from below with nozzle holes that are coaxial with the ejector holes;, formed in a blanking plate firmly attached in the upper rectangular part of the expansion reinforcement. This, together with the compressed air distribution and ejectors, is inserted into the filter pockets as a separate assembly unit and connected to the compressed air supply.

Description

The invention relates to the expansion reinforcement of a pocket industrial filter regenerated by a compressed air purge and solves the problem of compressed air distribution in order to increase the ejector regeneration efficiency of this filter.

Compressed air backwash is one of the most efficient ways to regulate industrial filters used to capture particulate matter from flowing air. Said method of regeneration is mainly used in industrial filters having a filter fabric hose arrangement, where maintaining the alignment of the ejector located in the center of the outlet of the filter hose with the opposite nozzle opening of the compressed air outlet does not cause difficulties. Previously, this solution also occurred to a limited extent in the pocket arrangement of the filter fabric, where the individual individual pockets were a fixed part of the ejector lid against which the nozzle distributions were located, but which formed a separate separate unit. Ensuring the alignment of the nozzle orifices with the ejector was very problematic. In another embodiment, a rigid connection of the nozzle manifolds with an ejector lid was used, and individual filter pockets with reinforcements were then mounted thereto. The disadvantage of this solution was difficult to ensure tightness of individual filter pockets to the ejector lid. These embodiments of the pocket filters were unsuitable for operation due to the described disadvantages and their production was stopped.

The above-mentioned drawbacks are eliminated by the solution of the expansion reinforcement of the pocket industrial filter * regenerated by a compressed air purge, which is located inside the individual pockets of the multi-

on the partition wall of the filter housing by means of suspension sheets, the essence of which is that the upper horizontal rectangular part of the expansive reinforcement is provided in the entire surface firmly

- 2 with a blanking plate, in the long axis of which the ejector holes are formed and to the peripheral vertical rectangular parts of the expanding reinforcement are attached in their upper part fixing bars, which are equipped with suspension pins. The compressed air distribution pipe, fixed horizontally firmly to the spacing reinforcement in its longitudinal axis by means of fastening bars, has nozzle openings whose axes are positioned against the centers of the ejector openings of the blank sheet.

The higher effect of the expanding reinforcement thus performed is that it allows reliable operation of the compressed air backwash, which is reliable in operation, especially for filters with a pocket arrangement of the filter fabric. Since the spacing reinforcement together with the ejector holes and the compressed air distribution pipe is formed as one assembly, the problems of maintaining the mutual alignment of the ejector and nozzle holes are solved. By suspending the thus formed spacers in the interior of the filter pockets formed from the harmonically folded continuous web of the filter fabric, there is no need for a perfect sealing of the individual pockets against the blind plate with ejector holes, since the multi-cap insert is sealed to the filter wall as a whole. The space-saving pocket filters with compressed air purge allow an increase in the efficiency of these filters by up to 50% compared to existing regeneration systems, resulting in a reduction of investment costs for the construction of filter stations. Thus ensuring efficient regeneration of filter web ⁷ provides desired to prolong the filtration results in a significant reduction in penetration of the particulate fabric and increases its service life.

An exemplary embodiment of a spacer according to the invention is shown in the accompanying drawings, in which Fig. 1 is a cross-sectional view of a filter equipped with wire reinforcements for compressed air flushing; Fig. 2 is a longitudinal section of the same filter; 4 shows a cross-section of this reinforcement.

.258313

The filter operates so that the dusty air enters at its bottom into the filter housing 1, dust is trapped on the outer surface of the filter pocket inserts 2 through which the dusty air passes and which are formed by a harmoniously folded continuous web of filter fabric fixed by a mechanism not shown. on the edge strips 16 of the partition 3. The cleaned air leaves the filter housing 1 in the upper part. Inside the individual filter pouches 2, spacers 6 are inserted, ensuring the shape of the pouches during filtration and preventing adjacent walls of the individual pouches 2 from being filtered under pressure. the airplanes did not stick together. The spacing wire reinforcement 4 is formed of vertical rectangular pieces 6 which are connected by horizontal rectangular pieces 6. At the top of the peripheral vertical rectangular pieces 4 the spacing reinforcement 4 is fastened with fastening bars 2 equipped with suspension pins 10 intended to suspend the spacing reinforcement 4 by means of suspension rails 14 on the partition wall J of the filter housing 1. The upper horizontal rectangular part 2 of the spacer brace 6 is provided with a blanking plate 6 over its entire surface, in which the ejector openings vytvoř are formed in the longer axis and are thus situated in the vertical longitudinal axis of the spacer brace.

4. The compressed air distribution pipe 11 is fastened horizontally firmly by fastening strips 2 ^{in the} vertical longitudinal axis of the spreader reinforcement 4 and has nozzle openings 12 whose axes are positioned against the centers of the ejector openings 8 of the adhesive sheet. The spacing reinforcement 4 as a whole is inserted into the interior of the filter pocket 2 and hung by means of suspension pins 10 and suspension strip 14 on the intermediate wall J of the filter housing 1. The inlet opening of the compressed air distribution pipe 11 is connected via the wall of the filter housing 1 to the compressed air supply line 13, which is provided with a compressed air shutter 13. During regeneration, it is opened for a certain period of time and compressed air is introduced into the compressed air distribution pipe 11 through the supply pipe 15. This protrudes through the individual nozzle openings 12 and, when passing through the ejector openings 8 of the blanking sheet, sucks in the surrounding air by ejection effect, thereby achieving

- 4 effective backwashing. In this way, the dust layer retained on the outside of the filter fabric is separated and falls into the filter hopper. After the regeneration stage, the air stream reverses and the filtration stage continues.

The expansion supports of the pocket industrial filters solved according to the invention allow the use of these filters and regeneration by compressed air purification in all plants where the existing industrial filters are used up to now. This is mainly the collection of dust in the construction industry, agriculture, transport of loose materials. foundries, smelters and the like.

Claims (1)

Spacer of pocket air filter regenerated by compressed air purge, located inside individual pockets of multi-cap filter element, attached to the filter housing partition by means of a suspension bar, characterized in that the upper horizontal rectangular part (6) of the spacing reinforcement (4) is fixed a metal plate (7), in the long axis of which the ejector holes (8) are formed and to the peripheral vertical rectangular parts (5) of the expansive reinforcement (4), fastening bars (9) equipped with suspension pins (10) are fastened in their upper part; Compressed air (11) fixed horizontally firmly to the spacing reinforcement (4) in its longitudinal axis by fastening strips (9) has nozzle openings (12) whose axes are located against the centers of the ejector openings (8) of the blanking plate (7).