KR20170052840A - High-efficiency pressure air nozzle of bag filter - Google Patents

Abstract

The present invention relates to a technology for a dust filtering and collection apparatus in a production facility used in an industrial process and an atmospheric pollution prevention facility for particle matters such as the dust and powder generated in an industrial process and a waste combustion process. When draining the dust, powder, and particles attached to a filter fabric of a dust filtering and collection apparatus, a high-efficiency spray nozzle has a structure including an inner nozzle with a compressed air supply pipe installed thereon, multiple air current guide plates, and an outer nozzle sprays compressed air. By spraying the compressed air by using the inner nozzle, a large amount of surrounding air can be drawn in by the Venturi effect generated by the pressure difference on the upper surface between the inner nozzle and the outer nozzle having the upper part partially or fully open. Accordingly, a large amount of compressed air for dust draining can be drawn in regardless of the relatively small amount of compressed air supplied, thereby increasing the range of the dust draining, selecting a relatively long and large filter fabric, increasing the efficiency of draining and reducing the amount of residual dust on the filter fabric to extend the filter fabric replacement period and cost efficiency.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-efficiency compressed air injection nozzle for a filter dust collector,

The present invention relates to a compressed air injection nozzle for dust removal of a filter dust collector, and more particularly to a filter dust collector for collecting particulate air pollutants such as dust, As the use time is accumulated in the filtration step for filtering or collecting dust by filtering the particulate matter by filtering through the fine space, the fine space of the filter cloth is occluded by the fine particles and the filtration function is lowered or paralyzed. The present invention relates to a high-efficiency spray nozzle for a spray nozzle, which is a device for spraying compressed air to a filter cloth in order to shake off particulate matter attached to the filter cloth through a periodic draining operation of the filter cloth.

Due to the development of industrial processes and the increase in the use of fossil fuels, the pollution of the atmospheric environment is becoming increasingly severe. As a result, the Earth's atmospheric environment is deteriorating, causing harm to the human body, animals and plants, and causing global warming. It is becoming a risk factor.

In addition, powdered products having particles are widely used as a product in accordance with the improvement of human production level and industrial development, and the need to efficiently collect powder in this process is emerging.

Air pollutants include gaseous pollutants such as carbon monoxide, sulfur dioxide, hydrogen sulfide, nitrogen oxide gas, hydrogen chloride and fluorine and particulate pollutants such as dust, dust, aerosol, smoke, mist, smoke and smog. The products to be handled and intermediate products include flour, powdered milk, and minerals in the form of particles. The present invention relates to the removal and collection of particulate matter such as double dust, dust and powder.

There are gravitational dust collectors, centrifugal dust collectors, multi centrifugal dust collectors, cleaning type dust collectors, filter dust collectors, electrostatic dust collectors, spray towers, and the like, which are devices for removing and collecting particulate matter such as dust, dust and powder. .

The filter dust collector is a device that removes and collects dust, dust and powder generated in the air pollutants generated in the industrial process, waste incineration facilities, and industrial processes through the filter cloth and through the fine space of the filter cloth. As the filtration time accumulates The fine space of the filter cloth is blocked and the smooth filtration function can not be performed. In order to prevent this, the compressed air is injected momentarily in the opposite direction of the particles attached to the filter cloth, and dust, dust and powder adhering to the filter cloth are shaken to keep the filtering function.

The dust, dust and powder attached to the filter cloth may be shaken in a vibration type, an instantaneous impact air jet type, or a reverse flow type. The present invention relates to an instantaneous impact air jet type.

At present, there are various types of instantaneous impact impingement type for dust removal of filter dust collector. In general, however, the spray nozzle used has a circular hole in a compressed air supply pipe and a shape in which a small circular pipe is cut in a compressed air supply pipe, The nozzles are required to have a large amount of compressed air per unit filtration area, which results in a large size of related facilities such as a compressed air generating device and a dehumidifying device, and a large energy cost.

In addition, when compressed air is blown through a circular hole in the compressed air supply pipe, there is a slight difference depending on the supply flow rate and pressure. However, in general, the reach distance of the compressed air for exhaustion is about 2.5 m or less, In case of using the nozzle spraying method in which the circular tube is cut and welded in the vertical direction, since the reaching distance of the compressed air is less than about 4 m, there is a limit in the reach distance of the compressed air, It is necessary to replace the filter cloth according to the accumulation of the accumulated amount of exhaust gas, so that it is difficult to remove the filter cloth .

Therefore, excessive initial investment and maintenance costs are required due to the investment of exhaust air compressed air production facility and dehumidification facility, and energy consumption is excessively consumed in producing compressed air, so that the production cost is increased, The design of filtration dust collector filter bag is limited in length and size. If the filter bag is relatively long or large, the filtration filter bag due to the discharge of compressed air for exhausting is increased and the filter bag is clogged due to cumulative accumulation. Difficulties in maintenance and maintenance, and the occurrence of high cost.

Conventional technologies of the related art include Korean Patent 10-0584101 (Feb. 22, 2006) and Korean Patent 10-2009-0102977 (October 1, 2009).

Korean Patent Publication No. 10-0584101 discloses a deaerating air injection nozzle having an annular structure in which a structure having one cylindrical narrow gap is provided on the inner side of the annular nozzle and a compressed air injection tube is provided on the outer side, And the outer spraying pipe are passed through each other to discharge the compressed air for exhausting. When exhaustion is required, compressed air is passed through a narrow gap of the inner circumference at high speed to attract air around by the coanda effect to form a high-flow exhaust gas flow.

Korean Patent No. 10-2009-0102977 has similar characteristics in terms of jetting air using the Korean patent 10-0584101 and the Coanda effect. Korean Patent No. 10-2009-0102977 applies the same exhausted air injection principle as that of Korean Patent No. 10-0584101, and has similar air injection characteristics. Only the exhausting air injection tube is located in a rectangular shape along the tube on the upper surface rather than the side surface of the annular nozzle. When the compressed air is passed through a narrow gap of a rectangular structure covered with a cover on the upper part of the compressed air supply pipe, a large amount of air is injected by allowing a large amount of air around the outside of the compressed air supply pipe to flow.

The present invention has a limitation in the selection of the use length and the size of the filter cloth because a large amount of compressed air is required per unit area of the filter bag. Therefore, the filter cloth must be frequently replaced according to the accumulation of the dust accumulation amount, The present invention was made to solve the disadvantages of the filtration and dust collector caused by the replacement operation, the difficulties of maintenance and maintenance, and the cost incurred. The compressed air production facility, the compressed air storage tank, the control valve and the compressed air supply pipe The air is blown into the filter cloth which is waiting for the discharge of dust by the venturi effect and the surrounding air is attracted and flowed in a large quantity through the high efficiency injection nozzle of the invention. It is an object of the present invention to provide a spray nozzle.

The present invention is characterized in that when the dust, dust and powder adhering to the outside of the filter cloth are exhausted, compressed air is injected through a high efficiency injection nozzle composed of a tubular inner nozzle, a plurality of airflow guide plates, a tubular outer nozzle, When the compressed air is injected by the tubular inner nozzle, a large amount of ambient air is attracted and mixed by the pressure difference from the tubular outer nozzle which is opened at the upper part. As a result, even when a relatively small amount of compressed air is supplied, It is possible to select a comparatively long and large filter bag by increasing the reaching distance of the compressed air for exhausting due to the flow of the compressed air for exhausting the inside of the filter cloth and increasing the dust removing efficiency and decreasing the amount of exhaustion residue of the filter cloth, .

In order to achieve the above object, in the present invention, a plurality of filter cloths are installed in the filter dust collector, and the filter cloths corresponding to the heat are installed in a row in a row as one draining group according to the heat and the stage in which a plurality of filter cloths are installed. One evacuation group supplies compressed air for exhaustion to compressed air storage tank through compressed air production facility and compressed air supply pipe at all times. The stored compressed air is supplied to a compressed air supply pipe installed inside the filter dust collector through a control valve at the time of needing exhaustion, and the supplied compressed air is injected through a high efficiency injection nozzle installed in the same quantity as the arrangement amount of filter cloths. When the compressed air is injected by the inner nozzle, the pressure difference between the upper part and the outer nozzle, which is partially or totally opened, induces a large amount of ambient air to be mixed. Thus, even when a relatively small amount of compressed air is supplied, a large amount of compressed air for exhausting is introduced into the filter cloth.

A tank for storing exhaust air for compressed air is installed in the upper end portion of the filtering dust collector or in the vicinity thereof so as to be filled with compressed air at all times.

The filter cloths in the filter paper are arranged in a checkerboard pattern or in a row with a constant spacing.

Install a compressed air supply line at the top or the side of the bleb arrangement, one row or one row.

A control valve is installed at the part where the compressed air storage tank and the compressed air supply pipe are connected, and the compressed air is instantaneously supplied according to the preset time period and opening time.

In the lower part of the compressed air supply pipe, a high efficiency compressed air injection nozzle installed in the same quantity as the number of filter cloths is installed according to the filter cloth arrangement, and dust, dust and powder attached to the filter cloth according to the preset time period and opening time by the operation of the control valve .

The size and length of the inner nozzle, which is a component of the high-efficiency compressed air injection nozzle, depending on the purpose of the filter dust collector, the size and length of the filter cloth, the characteristics of dust, dust and powder, the size and length of the female threaded socket for fixing the inner nozzle and the outer nozzle The number, length, size, installation angle, and size and length of the outer nozzles of the plurality of guide plates for fixing the female threaded socket and the outer nozzle are different from each other.

For compressed air injection nozzles, the type and area of opening on top of the outer nozzle are different depending on the characteristics of dust, dust and powder.

In the compressed air injection nozzle, the number of guide plates for fixing the female threaded socket and the outer nozzle adjusts the quantity according to the characteristics of dust, dust and powder, and adjusts the angle of installation.

On the outer surface of the compressed air supply pipe, an air flow formation preventing plate is installed according to the characteristics of dust, dust and powder, and its structure, size and interval are controlled.

As described above, when the filter cloth is exhausted, the compressed air is injected through the high-efficiency injection nozzle of the present invention to eject compressed air by the internal nozzle, and the pressure difference between the upper and the outer nozzles, The venturi effect is maximized. Therefore, even when a relatively small amount of compressed air is supplied, a large amount of exhaust air for exhausting is introduced into the filter cloth to increase the reach distance of the compressed air, It is possible to select the filter cloth, increase the dust removing efficiency, and reduce the amount of dust residue in the filter cloth, thereby increasing the replacement cycle of the filter cloth. Ultimately, it is possible to overcome limitations on the size and length of the filter cloth, reduce the initial investment cost of compressed air production equipment, reduce energy consumption for compressed air production, and prevent the filter dust collector from stopping and replacing Can be reduced.

1 is a front view of a filtering and dust collecting apparatus provided with a compressed air injection nozzle for a hole-type exhaust ventilation which constitutes a conventional embodiment
FIG. 2 is a front view of a filter cleaner provided with a simple nozzle-attached compressed air injection nozzle for discharging exhaust gas, which constitutes a conventional embodiment
FIG. 3 is a front view of a filtering and dust collector provided with a high-efficiency compressed air injection nozzle for exhausting a gas, which constitutes a preferred embodiment of the present invention.
FIG. 4 is a front view of a dust collector with a high-efficiency compressed air injection nozzle for drafting and a filter for generating an airflow, which constitutes a preferred embodiment of the present invention; FIG.
FIG. 5 is a plan view of a filter dust collector provided with a high-efficiency compressed air injection nozzle for exhausting a dustbin constructed in accordance with a preferred embodiment of the present invention.
FIG. 6 is a plan view of a dust collector with a high-efficiency compressed air injection nozzle for discharging dust and a filter plate for airflow forming the preferred embodiment of the present invention
FIG. 7 is a perspective view of a high-efficiency compressed air injection nozzle for exhausting dust, which constitutes a preferred embodiment of the present invention.
FIG. 8 is an exploded perspective view of a high-efficiency compressed air injection nozzle for exhaust ventilation constructed in accordance with a preferred embodiment of the present invention.
FIG. 9 is a perspective view of a high-efficiency compressed air injection nozzle for exhausting and a disturbance plate for forming an air flow, which constitutes a preferred embodiment of the present invention;
FIG. 10 is a perspective view of a high-efficiency compressed air injection nozzle for exhausting and a disturbance plate for forming airflow, which constitute a preferred embodiment of the present invention;
11 is a front sectional view of a high-efficiency compressed air injection nozzle for exhaust ventilation constituting a preferred embodiment of the present invention
12 is a side cross-sectional view of a high-efficiency compressed air injection nozzle for exhaust ventilation constituting a preferred embodiment of the present invention
FIG. 13 is a side view of a high-pressure compressed air injection nozzle for dust removal and a disturbance plate for forming an air flow, which constitutes a preferred embodiment of the present invention

An outer nozzle having an upper portion entirely or partially opened when compressed air is injected by an internal nozzle by injecting compressed air through a high efficiency injection nozzle of the present invention at the time of exhausting dust, dust, and powder attached to the filter cloth of the filter dust collector; It is possible to maximize the effect of the venturi effect of attracting the surrounding air in a large amount by the pressure difference of the compressed air. Therefore, even when a relatively small amount of compressed air is supplied, a large amount of desorbed compressed air flows into the filter cloth, The reaching distance is improved, a relatively long and large filter can be selected, and the desorption efficiency is increased.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

The terms and words used in this specification and claims are to be construed in accordance with the technical idea of the present invention on the basis of the principle that the inventors can properly define the concepts of the terms and words in order to best explain the inventor's own invention It is interpreted as meaning and concept. Therefore, should not be construed in a conventional or dictionary sense. Therefore, the embodiments and objects shown in the drawings and the drawings and the objects shown in the drawings are only the most preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention. Therefore, It should be understood that there are numerous equivalents and variations.

The high efficiency compressed air injector 31 of the filtration and dust collector of the present invention comprises a tubular inner nozzle 32, a tubular outer nozzle 34, several air flow guide plates 35 between the tubular inner nozzle 32 and the tubular outer nozzle 34 And a female screw type socket 33 for fixing the outer nozzle 34 and the airflow guide plate 35 to the inner nozzle 32.

A small inner nozzle 32 having a relatively small diameter is provided in the compressed air supply pipe 11 and a tubular outer nozzle 34 having a diameter larger than that of the inner nozzle 32 and an upper portion entirely or partially opened is provided outside.

The inner nozzle 32 is of a male screw type and has an external thread shape and is installed by welding the upper end of the nozzle to the compressed air supply pipe 11.

A plurality of guide plates (35) are provided between the inner nozzle (32) and the outer nozzle (34) to effectively form the air flow of the outside air introduced by the venturi effect.

A plurality of airflow guide plates 35 are fixed to the outer nozzle 34 and a plurality of airflow guide plates 35 are fixed to the outer nozzle 34 by using a female screw type socket 33 conforming to the external thread size of the inner nozzle 32, And the other side is fixed to the outer surface of the female threaded socket 33 by welding and then the female threaded socket 33 is fixed to the male type inner nozzle 32 by screwing.

Dust, dust and powder are attached to one side of the filter cloth 3 due to accumulation of the operation time of the filter dust collector, and when the filtering function is deteriorated, the filter cloth 3 enters the dust exhaustion operation. The control valve 10 is operated in accordance with the preset time period and opening time and the compressed air is introduced into the compressed air supply pipe 11 for discharge by the instantaneous opening and closing of the control valve 10, The compressed air is injected through the inner nozzle 32 of the high efficiency injection nozzle of the present invention.

When the compressed air is injected through the inner nozzle 32, a negative pressure is generated on the upper part of the outer nozzle 34 in which the upper part is entirely or partially opened, and a large amount of the surrounding air is introduced due to the venturi effect due to the pressure difference. The flows of the near-air inflow due to the pressure difference and the compressed air dispersed through the inner nozzle 32 are shown in FIGS. 12 and 13. FIG.

Thus, the compressed air injected from the inner nozzle 32 of the high-efficiency injection nozzle through the compressed air supply pipe 11 for exhausting dust and the air introduced in a large amount by the venturi effect effectively exhaust dust, dust and powder attached to the filter cloth .

In addition, the size and length of the inner nozzle 32, which is a component of the high-efficiency compressed air injection nozzle, according to the purpose of installing the filter and dust collector, size, length, shape, The size and length of the female threaded socket 33 for fixing the inner nozzle 32 and the number of the guide plates 35 provided between the inner nozzle 32 and the outer nozzle 34, The size and length of the nozzle 34 are different from each other.

The damper plate 41 is installed on the outer surface of the compressed air supply pipe 11 in order to stably maintain the airflow flowing into the high efficiency compressed air injection nozzle 31. The damper plate 41 is provided for the purpose of installing the filter dust collector, (3) size, length, shape, and shape, size, and installation spacing are different according to the characteristics of dust, dust and powder.

1: dust or dust containing air or gas inlet
2: Filter and dust collector body
3: Filter cloth
4: Filter cover replacement
5: Damped air or gas discharge portion
6: Valve for dust and dust discharge
7: Collected dust and dust outlet
8: Compressed air inlet
9: Compressed air storage tank
10: Control valve
11: compressed air supply pipe for draining
12: Hole-shaped injection nozzle of compressed air supply pipe for exhaustion
21: Tubular injection nozzle for supplying compressed air for exhausting
31: High-efficiency injection nozzle for compressed air supply for exhausting
32: Compressed air for exhausting Tubular inner nozzle with external male thread
33: Female socket
34: Outside nozzle of high-efficiency main nozzle for compressed air supply for exhausting
35: a plurality of guide plates
41: obstruction plate for improving airflow formation

Claims (6)

Dust, dust and powder attached to a plurality of filter cloths provided by a single stage and a column are supplied to the filter dust collector through the compressed air storage tank 9, the control valve 10 and the compressed air supply pipe 11, The nozzles for spraying the compressed air for exhausting the compressed air in the compressed air supply pipe 11 are connected to the internal nozzles 32 and the external nozzles 34 through the high efficiency compressed air injection nozzles 31 A large amount of air in the vicinity of the inner nozzle 32 and the outer nozzle 34 is attracted and inflow from the upper part between the inner nozzle 32 and the outer nozzle 34 due to the pressure difference during the injection of the compressed air to form a large amount of exhaust air, Wherein the air effectively drains dust, dust and powder attached to the filter cloth. The method according to claim 1,
The size, length, and installation space of the inner nozzle 32 and the outer nozzle 34 can be varied depending on the characteristics of the dust, dust, and powder to be collected by the filter and the characteristics of the filter. The method according to claim 1,
The size, length, quantity, and angle of the guide plate 35 provided between the inner nozzle 32 and the outer nozzle 34 can be varied depending on the characteristics of dust, dust, and powder to be collected by the dust collector, Wherein the spray nozzle has a plurality of nozzles. The method according to claim 1,
The size and shape of the opening between the inner nozzle 32 and the outer nozzle 34 can be varied depending on the characteristics of dust, dust and powder to be collected by the filter and the characteristics of the filter and the dust collector. The method according to claim 1,
When the compressed air is injected into the highly efficient compressed air injection nozzle 31 provided in the compressed air supply pipe 11 according to the characteristics of dust, dust and powder to be collected by the filter and dust collector, and the characteristics of the filter and dust collector, (41) for improving the formation of an air flow outside the compressed air supply pipe (11) for the purpose of smoothness of the air flow of the gas such as air 6. The method of claim 5,
The size and spacing of the blocking plate 41 provided for improving the formation of the airflow outside the compressed air supply pipe 11 can be varied depending on the characteristics of dust, dust and powder to be collected by the filter and the characteristics of the filter and dust collector Injection nozzle.

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