KR20080004180U - Nozzle for cleaning bag filter of dust collector - Google Patents

Abstract

The present invention relates to a nozzle for cleaning the bag filter of the dust collector. Its configuration is a dust collector including a bag filter (2, bag filter) installed in a state covered on the outside of the cage (4) to be a frame, and a cleaning nozzle (8) for removing dust adhering to the bag filter (2). In an apparatus; The nozzle (8), the elongated tubular body (10) is installed in the cage 4 is installed and provided with a plurality of injection holes 14 in the longitudinal direction; It is characterized in that it comprises an inlet pipe 12 into which the compressed air is introduced as being integrally connected to the upper portion of the body (10).

Nozzle, Bag Filter, Air Purification, Filtration, Cage, Dust, Dust Collection

Description

Nozzle for cleaning bag filter of dust collector

1 shows a side structure of a bag filter cage and a compressed air distribution pipe.

Figure 2 is an exploded perspective view of a bag filter showing an installation state of a nozzle according to an embodiment of the present invention.

3 is a side cross-sectional view of the state in which the bag filter is coupled.

4 is a schematic front configuration diagram of a dust collector in which the bag filter of the present invention is installed.

Explanation of symbols on the main parts of the drawings

2 ; Bag filter 4; Cage

8 ; Nozzle 10; Body

12; Inlet pipe 14; Jet hole

18; Bracket 100; Distribution pipe

The present invention relates to a dust collector, and more particularly, to a nozzle for cleaning the bag filter for removing dust and the like adhered to the bag filter installed for the filtration of air in the industrial dust collector.

Industrial dust collectors are used as a means for purifying air by removing dust and the like contained in air in various plants and subways. The basic structure of the dust collector is composed of a contaminated air inlet, a purifying unit and a purifying air discharge unit. The purifying unit is for removing or collecting harmful fine dust contained in contaminated air by physical, chemical or electrical methods. Representative of the physical purification method is a method using a bag filter (bag filter). In this method, contaminated air is passed through a bag filter made of woven or nonwoven fabric so that dust and the like adhere to the bag filter. Since a typical industrial dust collector is a large-capacity and highly polluted air purifier, a large number of bag filters are installed in the form of a cartridge in one dust collector.

Since a large amount of dust adheres to the bag filter in the industrial dust collector, it is necessary to periodically clean the bag filter. However, since it is difficult to clean a large number of bag filters manually by hand, the cleaning is usually performed automatically by mechanical means.

The present invention relates to a cleaning device for cleaning the bag filter in the above environment, and a nozzle used therefor. A conventional bag filter will be described with reference to FIG. 1 shows a side structure of a bag filter cage and a compressed air distribution pipe.

Since the bag filter 2 is made of a woven fabric or a nonwoven fabric, since the bag filter 2 has irregularity, the bag filter 2 is installed on the outside of the cage 4 of the frame chain. The contaminated air is drawn in from the outside of the bag filter 2 and purified after exiting from the upper direction as shown by the arrow direction. When the bag filter 2 is cleaned, the compressed air is sprayed from the inside of the bag filter 2 toward the outside in the opposite direction to remove dust adhering to the outer surface. In this case, since the injection hole of the distribution pipe 100 through which the compressed air is injected is positioned only in the upper part of the bag filter, the compressed air does not reach the lower part of the bag filter 2. Therefore, there existed a problem which cannot be cleaned satisfactorily over the whole bag filter 2.

An object of the present invention for the above problems relates to a device for removing dust from the bag filter by spraying compressed air in the industrial dust collector, the bag filter cleaning device to effectively clean the entire bag filter to It is to provide a nozzle. Specifically, the object of the present invention is to maximize the effect of the cleaning agent by spreading the compressed air for cleaning the entire bag filter.

The purpose of the above, the purifying air to collect the dust and the purifying air to discharge the polluted air inlet, the bag filter installed in the state covered with the outside of the cage to be contaminated air containing the dust and purifying to discharge the purge air Air exhaust unit; A dust collecting device comprising a cleaning nozzle for removing dust adhering to the bag filter by purifying compressed air in a direction opposite to a contaminated air inflow direction;

The nozzle is for allowing the compressed air supplied from the pneumatic generating means to reach the entire surface of the bag filter, and is installed in the cage is installed in the elongated tubular body in which a plurality of injection holes are provided along the longitudinal direction ; Is integrally connected to the upper portion of the body is achieved by a nozzle for cleaning the bag filter of the dust collector, characterized in that it comprises an inlet pipe through which compressed air is introduced.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Figure 2 is an exploded perspective view of a bag filter showing an installation state of a nozzle according to an embodiment of the present invention. 3 is a side cross-sectional view of the state in which the bag filter is coupled.

As described above, the bag filter 2 itself is amorphous or nonwoven fabric. Therefore, the bag filter 2 is installed in the state which covered the outside of the cage 4 of the flat hexagonal cylinder shape. The cage 4 is formed of a metal or a synthetic resin material, and has a plurality of air distribution holes 6 in its front and rear surfaces by punching.

Inside the cage 4, the nozzle 8 according to the present invention is charged in its longitudinal direction. The nozzle 8 is composed of an elongated tubular body 10 and an inlet tube 12 integrally coupled to the upper portion thereof. Inlet tube 12 may be part of a nozzle. In other words, the nozzle 8 is a name given intentionally for the description of the embodiments to be described later. In other words, the inlet pipe 12 may be a pipe of the same diameter and material as the nozzle body 10, where it will be functionally interpreted.

The nozzle body 10 is perforated with a plurality of injection holes 14 over its entire length along its longitudinal direction. As shown, the injection hole 14 is a rectangular ellipse form but need not necessarily be limited thereto. The injection hole 14 may be provided in one direction of the nozzle body 10 or in an opposite direction opposite thereto.

Compressed air generated from a pneumatic generating means (not shown) is introduced into the inlet pipe 12 and the nozzle body 10 through the distribution pipe (100). For reference, a conventional pulse valve controls the pneumatic injection of the distribution pipe.

Air flowing into the nozzle body 10 is injected toward the inner surface of the cage 4 and the inner surface of the bag filter 2 through the injection hole 14. The injection direction of the compressed air indicated by the arrow is opposite to the inflow direction of the contaminated air at the time of purification.

The bracket 18 is attached to the upper end of the nozzle body 10 by welding or the like. The bracket 18 allows the nozzle 8 to be placed over the cage 4. In addition, nozzle fixing means (not shown) may be further provided to prevent the nozzle body 10 from flowing inside the cage 4.

Another embodiment of the present invention will be described. This embodiment relates to an inlet pipe 12 that is integrally or assembled to the top of the nozzle body 10. The inflow pipe 12 is a venturi pipe. Further, inlet tube 12 may be a double venturi tube as shown. According to Bernoulli's theory, the fundamental theory of fluids, the fluid passing through the venturi tube has lower pressure and higher velocity. That is, the compressed air is injected from the nozzle 8 toward the bag filter 2 in the state where the speed is increased. This is a useful means for removing the dust attached to the bag filter 2 using a strong blowing force.

A plurality of nozzles 8 according to the present invention can be installed in one cage 4 in a row. Since this depends on the size of the cage 4, the number of nozzles installed is not related to the core of the present invention.

The concept of the present invention is applicable not only to the casing type (the space provided inside) bag filter as shown, but also to the bag filter (or screen type) installed in the vertical direction with respect to the inflow direction of the inlet air. It is possible.

The installation state of the nozzle as described above 4 simply looks at the schematic front configuration of the dust collector is installed the bag filter of the present invention.

Polluted air is introduced into the filtration chamber 20 in which the plurality of bag filter cages 4 are installed, and the purified air is discharged to the outside through the chimney 22. In the filtration chamber 20, a collection chamber 24 for collecting dust is installed. The polluted air is introduced by the blower 26 installed at the rear of the filtration chamber 20. Dust collected by the collection chamber 24 is discharged to the outside through a transfer screw.

According to the above configuration, there is provided a bag filter cleaning nozzle which can effectively remove the dust adhering to the bag filter in the dust collector. Specifically, it is possible to spray compressed air on the entire surface of the filter, so that the bag filter can be cleaned more cleanly, thus providing a nozzle that can greatly extend the life and filtration efficiency of the bag filter. In addition, according to an embodiment in which the inlet pipe is a venturi pipe, a nozzle for increasing the speed of air injected into the filter to remove or collect dust more quickly and effectively is provided.

Claims (2)

Contaminated air inlet for introducing contaminated air, including dust, and a purge part and purge air for collecting the dust using the bag filter 2 installed in a state covered outside of the cage 4 which becomes a frame. Purge air discharge for; A dust collecting apparatus comprising a cleaning nozzle (8) for removing dust adhering to the bag filter (2) in a purification process by spraying compressed air in a direction opposite to a contaminated air inflow direction; The nozzle (8) is intended to reach the entire surface of the bag filter 2, the compressed air supplied from the pneumatic generating means, it is installed in the cage 4 is installed in a plurality of longitudinal An elongated tubular body 10 in which the injection hole 14 is provided; Nozzle for bag filter cleaning of the dust collector, characterized in that it comprises an inlet pipe (12) into which the compressed air is introduced as being integrally connected to the upper portion of the body (10). The bag filter cleaning nozzle of claim 1, wherein the inlet pipe 12 is a venturi tube.

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