KR102398311B1 - The wet scrubber - Google Patents

Abstract

A wet dust collector is provided. The wet dust collector includes a main body, a blowing fan, a plurality of spray nozzles, a water splash prevention plate, a first pipe, a first circulation pump, a filter device, a second pipe, a second circulation pump, and a dirt collection unit. Dust, dirt, odors, etc. are effectively removed. Production costs are reduced, and an installation space is minimized.

Description

The wet scrubber

The present invention relates to a wet dust collector, and more particularly, it is possible to remove foreign substances, dust, dust, odors, etc. contained in polluted air, etc. by filtering the dust powder, fine dust, etc. contained in the contaminated air by contacting it with water. It relates to a wet dust collector capable of discharging purified air by forming an air inlet at the bottom of the device to efficiently remove hazardous substances with high density from the atmospheric environment.

In general, a dust collector is a device that purifies air containing contaminants such as fine dust, various harmful gases, various germs, mold and viruses, and then discharges the clean air. These dust collectors function to provide a pleasant and healthy environment by not only purifying air, but also removing various odors and fine particles such as mites, pollen, and pet hair.

In general, dust collectors are divided into dry and wet types, and dry types can be further divided into electrostatic precipitation types and filter filtration types. The filter filtration type has a configuration in which air flows through the filters so that various particulates such as dust are filtered by the filter, but there is a disadvantage in that maintenance costs such as periodic filter replacement occur.

The electrostatic precipitation type has an advantage that there is no need to replace the filter because it does not use a filter. However, when dust accumulates on the dust collecting plate, the dust removal ability is weakened, and the purification ability is deteriorated. There are disadvantages.

On the other hand, the wet dust collector is a method of purifying by depositing or dissolving contaminants such as dust or gas in the process by contacting the sucked air with a wet cleaning agent such as water. Since there are advantages such as, its use is gradually increasing in recent years.

Korean Patent Registration 10-2065891 (Announcement Date January 13, 2020)

The technical problem to be solved by the present invention is to provide a wet dust collector that effectively removes dust, dust, odor, etc. contained in polluted air, reduces manufacturing cost and minimizes installation space by integrally configuring a dust collector .

Another technical problem to be solved by the present invention is to provide a wet dust collector capable of protecting other devices inside the wet dust collector by preventing water sprayed from the spray nozzle from splashing onto the ceiling inside the wet dust collector.

However, the technical problems to be solved by the present invention are not limited to the above problems, and may be variously expanded without departing from the technical spirit and scope of the present invention.

A wet dust collector according to an embodiment of the present invention for solving the above problems is divided into a nozzle accommodating space and a blowing space, a body having an air inlet formed in a lower bottom surface of the nozzle accommodating space, and installed in the blowing space, , a blowing fan operable to introduce external air into the body, a plurality of jet nozzles installed in the nozzle accommodating space and disposed in the middle and lower portions of the nozzle accommodating space to spray water, the blowing fan Between the lower part and the upper part of the plurality of injection nozzles, it is formed in a plate shape over the nozzle receiving space and the blowing space, and water sprayed from the plurality of injection nozzles is prevented from splashing into the ceiling part and the blowing fan in the body. A water splash prevention plate that transports the contaminated water discharged through the outlet formed on the side of the main body, the first pipe formed in a L-shape and having an ascending part and a descending part, and polluted water along the first pipe A first circulation pump for providing power to transfer, a filter device for filtering the contaminated water transported along the first pipe, and a filter device for transferring the filtered water through the filter device. A second pipe that exists, a second circulation pump that provides power for transferring the filtered water along the second pipe, and a waste collection unit that condenses the by-product after being filtered through the filter device and converts it into a waste form, , The plurality of spray nozzles are arranged in pairs to spray water in opposite directions on a pipe disposed in the middle part and the lower part of the nozzle accommodation space, respectively, and the pairs are a middle part in the nozzle accommodation space and repeatedly disposed on the pipes disposed at the lower part, the filtered water transported along the second pipe is provided to the plurality of spray nozzles and sprayed again, and the outer frame of the water splash prevention plate has a mesh structure A plurality of cylindrical filters are disposed inside the water splash prevention plate, and the cylindrical filter has a propeller-shaped frame formed on an upper surface and a lower surface thereof, and the A plurality of square-shaped holes are formed on the side of the cylindrical filter.

In some embodiments according to the present invention, the plurality of jet nozzles may be disposed so that the pairs disposed to jet water in opposite directions may jet water in different directions, respectively.

In some embodiments according to the present invention, a sensor device installed outside the main body and operating to sense the external air quality of the main body, and sensing information sensed by the sensor device are provided to automatically operate the blowing fan It may further include a control device to control.

In some embodiments according to the present invention, when the sensor device detects a contaminant or odor in the external air of the main body, the control device automatically operates the blowing fan to introduce external air into the nozzle receiving space. can

In some embodiments according to the present invention, the plurality of cylindrical filters may be disposed in a plurality of layers inside the water splash prevention plate.

Other specific details of the invention are included in the detailed description and drawings.

According to the present invention, it is possible to effectively remove dust, dust, odor, and the like using water and eco-friendly chemicals.

In addition, according to the present invention, it is possible to reduce the cost of installing a filter by providing a wet dust collector, and there is an effect that the dust collection cost can be reduced by circulating water and using it.

In addition, according to the present invention, the installation space can be reduced by configuring the wet dust collector in one main body, and the dust collection efficiency can be increased by using the spray nozzles sprayed in multiple directions.

In addition, according to the present invention, by automatically controlling the operation of the wet dust collector through the sensor device, it is possible to automatically perform the air purification operation when indoor air quality deteriorates.

In addition, according to the present invention, it is possible to prevent the water sprayed from the spray nozzle inside the wet dust collector from splashing onto the ceiling of the main body.

However, the effects of the present invention are not limited to the above effects, and may be variously expanded without departing from the spirit and scope of the present invention.

1 is a view showing a front view of a wet dust collector according to an embodiment of the present invention.
2 is a view showing a rear view of a wet dust collector according to an embodiment of the present invention.
3 is a view schematically showing a water splash prevention plate in the wet dust collector according to the present invention.
FIG. 4 is a view showing a cylindrical filter inside the water splash prevention plate of FIG. 3 .
5 is a view showing a front view of a wet dust collector according to another embodiment of the present invention.
6 is a view showing a rear view of a wet dust collector according to another embodiment of the present invention.
7 is a block diagram showing the configuration of a wet dust collector according to another embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be embodied in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

The terminology used herein is for the purpose of describing the embodiments, and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements mentioned. or addition is not excluded.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless specifically defined explicitly.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The same reference numerals are used for the same components in the drawings, and repeated descriptions of the same components are omitted.

The present invention relates to a wet dust collector that is installed in a large space such as a building or factory and uses circulated water to remove dust, dust, odor, and the like. In particular, in order to protect the devices operating inside the wet dust collector from moisture, a filter device for preventing water splashing is included.

The wet dust collector according to the present invention introduces dust, dust, odor, etc. into the nozzle accommodating space through a blower fan, and dissolves the dust, dust or odor through water sprayed using a plurality of spray nozzles installed in the nozzle accommodating space. After cleaning, the contaminated water is circulated through the filter, and the purified water passing through the filter is moved back to the injection nozzle to repeatedly remove dust, dust, and odors.

1 is a view showing a front view of a wet dust collector according to an embodiment of the present invention. 2 is a view showing a rear view of a wet dust collector according to an embodiment of the present invention. 3 is a view schematically showing the water splash prevention plate in the wet dust collector according to the present invention. FIG. 4 is a view showing a cylindrical filter inside the water splash prevention plate of FIG. 3 .

1 to 4, the wet dust collector 200 according to an embodiment of the present invention includes a body 210, a nozzle receiving space 211, a blowing space 212, an air inlet 213, and a blowing fan ( 220), spray nozzle 230, water splash prevention plate 232, outlet 240, first pipe 251, first circulation pump 252, second pipe 261, second circulation pump 262 ), a filter device 270 , and a waste collection unit 280 .

The body 210 includes a nozzle accommodating space 211 and a blowing space 212 , and an air inlet 213 is formed at a lower portion of the nozzle accommodating space 211 of the body 210 . A blowing fan 220 is installed in the blowing space 212 , and the blowing fan 220 operates to introduce external air into the nozzle accommodating space 211 . At this time, external air is introduced through the air inlet 213 of the lower body 210 . The external air may have a higher density than the atmosphere because it contains polluted substances or chemicals, and when the blower fan 220 operates, high-density pollutants present near the ground may flow into the nozzle accommodation space 211 . can

A plurality of spray nozzles 230 are disposed in the nozzle accommodating space 211 , and water circulating through the spray nozzles 230 is sprayed. At this time, the external air introduced into the nozzle receiving space 211 is in contact with the sprayed water and contaminants are collected. Contaminant particles collide and adhere to droplets sprayed through the spray nozzle 230, inter-particle aggregation due to particle diffusion, inter-particle agglomeration due to contaminant contaminant vaporization, condensing and cohesiveness promotion of vapor with contaminant particles as nuclei; Contaminants of the outside air are collected in the nozzle accommodation space 211 by a method such as adhesion of particles to a liquid film or bubble.

Two jet nozzles 230 are arranged in pairs on the pipe to jet water in opposite directions, that is, in a 180° direction. In addition, the pair of injection nozzles 230 are repeatedly arranged on the pipe, and in the pipe in which a plurality of pairs of the injection nozzle 230 are arranged, a plurality of pipes are disposed in the middle and the lower part of the nozzle accommodation space 211 as needed. can be placed. According to the arrangement structure of the spray nozzle 230 , the sprayed water is in full contact with the external air introduced from the air inlet 213 under the main body 210 , and contaminants can be collected.

Specifically, dust, dust, etc. are primarily removed by the spray nozzle 230 disposed in the middle portion, and secondary removal of dust, dust, etc. is performed by the spray nozzle 230 disposed in the lower portion. Dust and dust are primarily collected and removed through the spray nozzle 230 disposed in the middle, and in the area where the spray range of the spray nozzle 230 disposed in the lower part and the spray nozzle 230 disposed in the upper part overlap More strongly, dust and dust are secondarily decomposed and removed. In addition, water and chemicals are sprayed together through the spray nozzle 230 to remove odors and the like.

The water splash prevention plate 232 is formed in a plate shape over the nozzle accommodating space 211 and the blowing space 212 between the lower part of the blowing fan 220 and the upper part of the plurality of spray nozzles 230 . The water splash prevention plate 232 serves to prevent the water sprayed from the spray nozzle 230 from splashing onto the ceiling portion and the blowing fan 220 in the body 210 .

In particular, the outer frame of the water splash prevention plate 232 is formed in a mesh structure, a plurality of cylindrical filters 233 are disposed inside, and the cylindrical filter 233 has a propeller-shaped frame formed on the upper and lower surfaces, A plurality of square-shaped holes may be formed on the side surface.

The water splash prevention plate 232 prevents the water sprayed from the jet nozzle 230 from reaching the ceiling in the body 210 by a plurality of cylindrical filters 233 disposed therein, and the water splash prevention plate ( 232), it is possible to prevent the water sprayed from reaching the blowing fan 220 disposed on the upper portion. Water sprayed from the spray nozzle 230 may collide with the cylindrical filter 233 in the water splash prevention plate 232 and fall to the lower portion of the nozzle receiving space 211 and the blowing space 212 .

Water collecting contaminants is collected by falling on the lower part of the nozzle receiving space 211 and the lower part of the blowing space 212 , and the polluted water is discharged through the outlet 240 formed in the side of the main body 210 to the first It moves along the pipe 251.

Contaminated water flowing in the first pipe 251 is transferred to the filter device 270 according to the operation of the first circulation pump 252 , and the first pipe 251 is formed in a L-shape so that rising and falling parts are formed to exist. Contaminated water is transported along the rising part of the first pipe 251 by the first circulation pump 252, and the polluted water is again transported along the falling part of the first pipe 251 so as to have a free fall to move the potential energy. It is configured to pass through the first pipe 251 without clogging according to the energy conversion. When the shape of the first pipe 251 is --shaped, it is easier to transport the contaminated water when the shape of the D-shaped pipe is, and the water can flow without clogging the pipe.

Contaminated water passing through the first pipe 251 is filtered by the filter device 270 , and the filtered water is again transferred along the second pipe 261 by the second circulation pump 262 , and the second pipe The filtered water passing through 261 is transferred into the nozzle accommodating space 211 and injected again through the plurality of injection nozzles 230 . After the contaminated water is filtered through this series of processes, the filtered water is repeatedly supplied to the spray nozzle 230 .

The second pipe 261 is also formed in a L-shape, so that when the water filtered by the second circulation pump 262 flows along the second pipe 261, it uses a fall without clogging according to the kinetic energy conversion of potential energy. The filtered water may flow along the second pipe 261 . Even at this time, in the case where the shape of the second pipe 261 is −, it is easier to transport filtered water when the shape of the second pipe 261 is −, and water can flow without clogging the pipe.

After being filtered through the filter device 270 , the by-products are collected by the waste collection unit 280 , and are condensed in the waste collection unit 280 by a high-temperature and high-pressure device to be converted into a waste form. Filtering by-products are condensed in the waste collection unit 280 so that the filter device 270 can continuously operate, and the contaminated water and the filtered water are repeatedly circulated throughout.

In the wet dust collector 200 according to the present invention, a pair of spray nozzles 230 is disposed to spray water in opposite directions, that is, in a 180° direction, and accordingly, dust and dust are removed by the spray nozzle 230 disposed in the middle part. The dust and dust are secondarily decomposed more strongly in the area where the primary removal and the spraying range overlap with the spraying nozzle 230 disposed below. As water is sprayed from the spray nozzle 230 and falls, dust and dust are primarily and secondarily removed. Through this, the odor can also be removed. After removing dust, dust, and odor, the falling water is collected in the lower part of the nozzle receiving space 211 and the blowing space 212 and discharged through the outlet 240 formed on the side of the main body 210 to the first pipe ( 251) is followed.

On the other hand, as shown in FIG. 2, the direction in which the pair of spray nozzles 230 of the wet dust collector 200 according to the present invention are installed may be different for each pair, and the spray nozzle 230 disposed in the middle and the lower part It is possible to increase the removal efficiency of dust, dust, and odors by variously setting the area where the spraying ranges of the spraying nozzles 230 disposed in the overlapping area overlap.

The wet dust collector 200 according to the present invention performs purification several times using the spray nozzle 230 disposed in the middle part and the spray nozzle 230 disposed in the lower part, thereby further improving the purification of polluted air unlike the existing technology. By spraying water and chemicals from all directions, it is possible to efficiently remove pollutants and discharge fresh air to the outside, thereby promoting the comfort and freshness of the environment.

In addition, by performing the dust collection operation using a wet environment such as water instead of an expensive filter, the maintenance cost required for filter replacement can be reduced, and the dust collection performance can be improved by making it possible to completely remove soluble gas and fine dust. can be improved

5 is a view showing a front view of a wet dust collector according to another embodiment of the present invention. 6 is a view showing a rear view of a wet dust collector according to another embodiment of the present invention. 7 is a block diagram showing the configuration of a wet dust collector according to another embodiment of the present invention.

5 to 7 , the wet dust collector 201 according to another embodiment of the present invention includes a body 210, a nozzle receiving space 211, a blowing space 212, an air inlet 213, and a blowing fan ( 220), the injection nozzle 230, the water splash prevention plate 232, the sensor device 235, the control device 236, the outlet 240, the first pipe 251, the first circulation pump 252, the first It is configured to include two pipes 261 , a second circulation pump 262 , a filter device 270 , and a waste collection unit 280 .

The body 210 includes a nozzle receiving space 211 and a blowing space 212 , and an air inlet 213 is formed at a lower portion of the nozzle receiving space 211 of the body 210 . A blowing fan 220 is installed in the blowing space 212 , and the blowing fan 220 operates to introduce external air into the nozzle accommodating space 211 . At this time, external air is introduced through the air inlet 213 of the lower body 210 .

A plurality of spray nozzles 230 are disposed in the nozzle receiving space 211 , and water is sprayed through the spray nozzles 230 . At this time, the external air introduced into the nozzle receiving space 211 is in contact with the sprayed water and contaminants are collected. Contaminant particles collide and adhere to droplets sprayed through the spray nozzle 230, inter-particle aggregation due to particle diffusion, inter-particle agglomeration due to contaminant contaminant vaporization, condensing and cohesiveness promotion of vapor with contaminant particles as nuclei; Contaminants of the outside air are collected in the nozzle accommodation space 211 by a method such as adhesion of particles to a liquid film or bubble.

Two injection nozzles 230 are arranged as a pair on the pipe to spray water in opposite directions, that is, in a 180° direction. In addition, the injection nozzle 230 pairs are repeatedly arranged on the pipe, and in the pipe in which a plurality of pairs of the injection nozzle 230 are arranged, a plurality of pipes are disposed in the middle and the lower part in the nozzle accommodation space 211 as needed. can be placed. According to the arrangement structure of the spray nozzle 230 , the sprayed water is in full contact with the external air flowing in from the air inlet 213 under the body 210 , and contaminants can be collected.

Specifically, dust, dust, etc. are primarily removed by the spray nozzle 230 disposed in the middle portion, and secondary removal of dust, dust, etc. is performed by the spray nozzle 230 disposed in the lower portion. Dust and dust are primarily collected and removed through the spray nozzle 230 disposed in the middle, and in the area where the spray range of the spray nozzle 230 disposed in the lower part and the spray nozzle 230 disposed in the upper part overlap More strongly, dust and dust are secondarily decomposed and removed. In addition, water and chemicals are sprayed together through the spray nozzle 230 to remove odors and the like.

The water splash prevention plate 232 is formed in a plate shape over the nozzle accommodating space 211 and the blowing space 212 between the lower part of the blowing fan 220 and the upper part of the plurality of spray nozzles 230 . The water splash prevention plate 232 serves to prevent the water sprayed from the spray nozzle 230 from splashing onto the ceiling portion and the blowing fan 220 in the body 210 .

In particular, the outer frame of the water splash prevention plate 232 is formed in a mesh structure, a plurality of cylindrical filters 233 are disposed inside, and the cylindrical filter 233 has a propeller-shaped frame formed on the upper and lower surfaces, A plurality of square-shaped holes may be formed on the side surface.

The sensor device 235 is installed outside the main body 210 and operates to sense the air quality condition outside the main body 210 . When the air outside the main body 210 contains contaminants or an odor is generated from the outside air, it is detected and the sensing information is transmitted to the control device 236 . The control device 236 controls the operation of the blowing fan 220 by receiving the sensing information.

The control device 236 automatically controls the blowing fan 220 to operate when pollutants or odors are detected through the sensing information of the sensor device 235 . When the blowing fan 220 operates, external air is introduced into the nozzle accommodation space 211 . The outside air may have a higher density than the atmosphere because it contains polluted substances or chemicals, and when the blower fan 220 operates, high-density contaminants present in the vicinity of the ground are contained in the nozzle through the air inlet 213 . may be introduced into the space 211 .

Water collecting contaminants is collected by falling on the lower part of the nozzle receiving space 211 and the lower part of the blowing space 212 , and the polluted water is discharged through the outlet 240 formed in the side of the main body 210 to the first It moves along the pipe 251.

Contaminated water flowing in the first pipe 251 is transferred to the filter device 270 according to the operation of the first circulation pump 252 , and the first pipe 251 is formed in a L-shape so that rising and falling parts are formed to exist. Contaminated water is transported along the rising part of the first pipe 251 by the first circulation pump 252, and the polluted water is again transported along the falling part of the first pipe 251 so as to have a free fall to move the potential energy. It is configured to pass through the first pipe 251 without clogging according to the energy conversion. When the shape of the first pipe 251 is --shaped, it is easier to transport the contaminated water when the shape of the D-shaped pipe is, and the water can flow without clogging the pipe.

Contaminated water passing through the first pipe 251 is filtered by the filter device 270 , and the filtered water is again transferred along the second pipe 261 by the second circulation pump 262 , and the second pipe The filtered water passing through 261 is transferred into the nozzle accommodation space 211 and is sprayed again through the spray nozzle 230 . After the contaminated water is filtered through this series of processes, the filtered water is repeatedly supplied to the spray nozzle 230 .

The second pipe 261 is also formed in a L-shape, so that when the water filtered by the second circulation pump 262 flows along the second pipe 261, it uses a fall without clogging according to the kinetic energy conversion of potential energy. The filtered water may flow along the second pipe 261 . Even at this time, in the case where the shape of the second pipe 261 is −, it is easier to transport filtered water when the shape of the second pipe 261 is −, and water can flow without clogging the pipe.

After being filtered through the filter device 270 , the by-products are collected by the waste collection unit 280 , and are condensed in the waste collection unit 280 by a high-temperature and high-pressure device to be converted into a waste form. Filtering by-products are condensed in the waste collection unit 280 so that the filter device 270 can continuously operate, and the contaminated water and the filtered water are repeatedly circulated throughout.

It is to be understood that the above-described embodiments are illustrative in all respects and not restrictive, and the scope of the present invention will be indicated by the following claims rather than the foregoing detailed description. And it should be construed that all changes and modifications derived from the meaning and scope of the claims as well as equivalent concepts are included in the scope of the present invention.

200, 201: wet dust collector
210: body
211: nozzle receiving space
212: ventilation space
213: air inlet
220: blow fan
230: spray nozzle
232: water splash prevention plate
233: cylindrical filter
235: sensor device
236: control device
240: outlet
251: first pipe
252: first circulation pump
261: second pipe
262: second circulation pump
270: filter device
280: filth collection unit

Claims (1)

a body divided into a nozzle accommodating space and a blowing space and having an air inlet formed in a lower bottom surface of the nozzle accommodating space;
a blowing fan installed in the blowing space and operable to introduce external air into the body;
a plurality of spray nozzles installed in the nozzle accommodation space and respectively disposed in the middle and lower portions of the nozzle accommodation space to spray water;
Between the lower part of the blowing fan and the upper part of the plurality of injection nozzles, the nozzle receiving space and the blowing space are formed in a plate shape over the blowing space, and water sprayed from the plurality of injection nozzles is disposed between the ceiling portion in the main body and the blowing fan. a splash-proof plate to prevent splashing;
a first pipe that transports the polluted water discharged through the outlet formed on the side of the body, is formed in a L-shape, and has an ascending portion and a descending portion;
a first circulation pump providing power for transferring the contaminated water along the first pipe;
a filter device for filtering the contaminated water transferred along the first pipe;
a second pipe that transports filtered water through the filter device, is formed in a L-shape, and has an ascending portion and a descending portion;
a second circulation pump providing power for transferring the filtered water along the second pipe; and
Condensing the by-products after being filtered through the filter device and converting them into waste form; includes;
The plurality of injection nozzles are arranged in pairs so as to spray water in opposite directions in pairs on a pipe respectively disposed in the middle and lower portions of the nozzle accommodation space, and the pairs are disposed in the middle portion and in the nozzle accommodation space. It is repeatedly arranged on the pipe arranged in the lower part,
The filtered water transferred along the second pipe is provided to the plurality of spray nozzles and sprayed again,
The outer frame of the water splash prevention plate is formed of a mesh structure,
A plurality of cylindrical filters are disposed inside the water splash prevention plate, and a propeller-shaped frame is formed on an upper surface and a lower surface of the cylindrical filter, and a plurality of square-shaped holes are formed on the side surface of the cylindrical filter,
A wet dust collector in which the plurality of cylindrical filters are disposed in a plurality of layers inside the water splash prevention plate.

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