KR20160024822A - Wet Air Cleaning Unit using Electrostatic Precipitator - Google Patents

Abstract

The present invention relates to a wet type air purification device. More specifically, an electric dust collection reaction is applied to the wet type air purification device in order to increase the purification efficiency regarding contaminants which are not dissolved or adsorbed to water while making the substances adsorbed to an electric dust collection and purification unit flow down with water, thereby preventing adsorbed substances from lowering the ventilation efficiency of a filter.

Description

TECHNICAL FIELD [0001] The present invention relates to a wet air cleaning unit using an electrostatic precipitator,

The present invention relates to a wet air cleaning apparatus, and more particularly, to a wet air cleaning apparatus that applies an electrostatic dust collecting reaction to a wet air cleaning apparatus to increase the cleaning efficiency of contaminants that are not dissolved or adsorbed in water, To a wet air cleaning apparatus using an electric dust collecting apparatus which prevents water from flowing down through water to prevent a blowing efficiency of the filter from being lowered due to adsorbed water.

Background Art [0002] Air purifiers are used to purify air in a limited space by removing impurities in the air such as dust. Conventional air purifiers employ a dry air purifying method such as a filter type or an electric dust collecting type.

In the case of the filter type, there is a problem in that air is sucked by using a blowing device and dust in the air is filtered using a filter. However, there is a problem that the air resistance increases as dust accumulates, thereby deteriorating the efficiency of purification.

In the case of the electrostatic precipitator, dust or the like in the air is adhered to the electrode of the dust collecting unit while passing through the electrolytic space. In addition, there is a problem that the filtration material accumulates on the electrode, There is a problem that the dust is scattered again in the air.

In order to solve the above problem, a wet air purification method using water has recently been known. In the case of Korean Registered Patent No. 10-1010559 (registered on January 18, 2011) developed by the present applicant, A water supply pipe 60 formed in a zigzag form on the upper surface of the water filter 40, a water supply pipe 60 provided in the water filter 60 and an upper portion between the water filter and the water removal filter, A water film is formed by spraying water onto the string 41 through the water film, and air is passed through the water film to remove dust in the air passing through the water film through the water film to purify the air.

Therefore, in the wet air cleaning apparatus having the above-described structure, since water is continuously supplied and contaminants such as dust are not accumulated in the water film forming portion, the air resistance is not increased, .

However, air contains various kinds of chemicals as well as fine dust. Chemicals such as ammonia and sulfur oxides which are highly soluble in water can be easily removed through a wet air purification device, For example, in the case of nitrogen oxides, since the water film passes through it, it is not removed by a conventional wet cleaning apparatus but is discharged as it is.

Korean Registered Patent No. 10-1010559 (Registered on January 18, 2011)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an electrostatic precipitator capable of purifying pollutants which are not dissolved or adsorbed in water through an electrostatic precipitator, And a wet air cleaning apparatus using the apparatus.

The present invention relates to a wet air purification apparatus using an electrostatic precipitator in which a water film of a water filter is applied to an electrostatic precipitator and water adsorbed on an electrostatic precipitator is allowed to flow down through water to facilitate removal of adsorbed water adsorbed on the electrostatic precipitator. .

Another object of the present invention is to provide a wet air purification apparatus using an electric dust collector having a simple structure and a small size by integrally forming an air purification space and a water storage space.

A wet air purification apparatus using an electric dust collector according to the present invention comprises a first water filter provided inside a main body and having a water film formed thereon to purify air introduced into the main body, A wet air purification apparatus comprising a water supply unit and a drain unit for discharging water containing contaminants purified through the first water filter to the outside of the main body, An electrostatic precipitator provided at a downstream end of the first water filter for electrostatic precipitating reaction of the air containing the passed water; .

The electrostatic precipitator includes an electrostatic precipitator provided at an upstream end of the electrostatic precipitator and having a voltage applied thereto, and an electrostatic precipitator disposed at a downstream end of the electrostatic discharge plate and charged by electricity discharged from the discharge plate, A first upper frame; A first lower frame disposed on a lower side parallel to the first upper frame; A first string provided between the first upper frame and the first lower frame, the first string being a conductive material; And a first supply pipe provided at a front end of the first upper frame to supply water to the upper side of the first string; Wherein the water supply unit is connected to the first supply pipe to supply water to the first supply pipe and water is supplied to the first string through a first water supply hole formed in the outer surface of the first supply pipe, .

The first water filter may include: a second upper frame disposed on the upper side and hollow inside; A second lower frame disposed on a lower side parallel to the second upper frame; A second string disposed between the second upper frame and the second lower frame; And a second supply pipe provided at a front end of the second upper frame to supply water to the upper side of a second-1 string formed at a front end of the second string; Wherein the water supply unit is connected to the second supply pipe to supply water to the second supply pipe and water is sprayed to the second string through the second supply pipe, Water is supplied to the inside of the second upper frame and water is injected into the second 2-string formed at the rear end of the second string through the second water supply holes formed in the outer surface of the second upper frame.

The second string is composed of a second 2-string and a second 2-string arranged at a distance from the rear end of the second string. The second string is arranged between the second upper frame and the second lower frame And is wound.

In addition, the second upper frame longitudinal direction spacing of the second string is formed wider than the first upper frame longitudinal direction spacing of the first string.

The wet air cleaning apparatus may further include a second water filter provided at a downstream end of the electrostatic precipitating and purifying section, the second water filter may include a third upper frame disposed on the upper side; A third lower frame disposed on a lower side parallel to the third upper frame; A third string provided between the third upper frame and the third lower frame; And a third supply pipe provided at a front end of the third upper frame to supply water to an upper side of a third string formed at a front end of the third string; Wherein the third upper frame longitudinal spacing of the third string is formed to be narrower than the first upper frame longitudinal spacing of the first string.

The main body includes an air filtration space provided with the first water filter, the electrostatic precipitator and the second water filter on the upper side, and a water storage space in which water is stored on the lower side, The second water filter is fixed on the upper side of the air filtering space and the lower side is submerged in the water. On the second and third lower frames of the first water filter and the second water filter, 2 additional weight.

The first and second water holes are spaced apart from each other along the longitudinal direction of the first and second upper frames, and the diameters of the first and second water holes increase as the distance from the water supply side through the water supply portion increases .

The wet air purifying apparatus using the electric dust collector according to the present invention has the effect of removing not only fine dust but also chemicals which are not dissolved or adsorbed in water, thereby purifying human harmful substances and odorous substances. In addition, since the ionized contaminants are removed through the additional wet filter, the structure for removing the ionized contaminants is simplified, and the secondary contamination due to scattering of the contaminant-absorbed water is prevented.

In addition, there is an effect of promptly discharging the adsorbed material adsorbed on the electric dust collecting plate, thereby preventing deterioration of the blowing efficiency due to adsorbed matter.

In addition, there is an effect that the noxious gas generated in the electric dust collecting purifier is further purified by using a water filter to increase the air purifying efficiency.

Further, the structure is simple, the size is small, maintenance cost is low, and there is an effect that it can be applied to various places without being restricted by the installation space.

In addition, moisture of the final discharged air is minimized to prevent excessive moisture from being discharged in a high temperature and high humidity environment, and to maintain a comfortable indoor humidity.

1 is a cross-sectional view of a conventional wet air cleaning apparatus
2 is an enlarged perspective view of a conventional filter unit.
3 is a front schematic view of the wet air cleaning apparatus of the present invention
4 is a schematic front view of the filter part of the present invention
5 is an exploded perspective view of the electrostatic precipitator of the present invention
6 is a view showing a first water filter perspective view of the present invention
7 is a front view of the first water filter portion enlarged according to the present invention
8 is a view showing a second water filter perspective view of the present invention

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

3 is a cross-sectional view of a wet type air purifier 1000 (hereinafter, referred to as 'purifier') using an electric dust collector according to an embodiment of the present invention. As shown in the drawing, the purifier 1000 includes a main body 200 formed with an air filtration space 210 for air filtration on an upper side thereof, a water storage space 220 for storing water therein, A water supply unit 300 and a circulation pump 400 for circulating water in the space 220, a filter unit 500 provided on the air filtering space 210, A blowing fan 700 for blowing out the filtered air, and a case 100 in which the above-described configuration is accommodated.

A pollutant settling section 221 is formed below the water storage space 220 and a drainage section 222 is connected to the settling section 221 to discharge contaminants deposited on the settling section 221 .

An upstream end of the water supply unit 300 is connected to the water storage space 220 and a downstream end of the water supply unit 300 is connected to the filter unit 500 to connect the water stored in the water storage space 220 to the filter unit 500 ). The water supply unit 300 includes an inlet pipe 310 through which water is introduced from the water storage space 220 and a supply pipe 320 through which water is supplied to the filter unit 500. A circulation pump 400 is provided between the inflow pipe 310 and the supply pipe 320 so that water is circulated from the inflow pipe 310 to the supply pipe 320 by driving the circulation pump 400.

A suction port 230 for introducing air is formed on the upstream side of the air filtering space 210. A discharge port 240 for discharging the filtered air to the outside is formed on the downstream side of the air filtering space 210, And a filter unit 500 for purifying the introduced air. A blowing fan 700 for forcibly introducing outside air is provided on the discharge port 240.

Air is introduced into the air filtering space 210 through the suction port 230 provided in the air filtering space 210 by driving the blowing fan 700. [ The water stored in the water storage space 220 is supplied to the filter unit 500 along the water supply unit 300 by the circulation pump 400 so that the first and second water filters 510 and 530 And the electric dust-collecting purifier 520 (see FIG. 4), and the inflow air is purified and discharged through the filter unit 500 to the outside of the main body through the discharge port 240.

At this time, the filter unit 500 according to an embodiment of the present invention not only removes contaminants through the water film of the first water filter provided at the previous stage, but also through the electrostatic dust collecting reaction of the electrostatic precipitating purifier provided at the rear end of the first water filter The material that is not dissolved or adsorbed in water is ionized to enhance the adsorption property and the adsorbed material adsorbed to the electrostatic precipitating purifier can be quickly removed through the water supplied to the electrostatic precipitating purifier. For example, the ozone gas is removed through a second water filter installed at the rear end of the electrostatic precipitator, and the second water filter is provided with a water removing unit to remove the first water filter and the electrostatic precipitator The humid air that has passed through the part is removed from the moisture and discharged to the outside.

Hereinafter, a detailed embodiment of the filter unit 500 will be described in detail.

4 is a front view of a filter unit 500 according to an embodiment of the present invention. As shown in the figure, the filter unit 500 includes a first water filter 510 for wet cleaning of the introduced air, and an air filter (not shown) for subjecting the air containing moisture, which has passed through the first water filter 510, And a second water filter 530 for removing noxious gas and moisture of the humid air that has passed through the electrostatic dust collecting unit 520. [

The filter unit 500 sequentially arranges the first water filter 510, the electrostatic precipitator 520, and the second water filter 530 on the downstream side in the air flow direction.

5 is an exploded perspective view of an electrostatic precipitating purifier 520 according to an embodiment of the present invention. Referring to FIGS. 4 and 5, the electrostatic precipitator 520 includes a discharge plate 520a and an electrostatic precipitator 520b. The discharge plate 520a is applied with a normal discharge plate 520a to which a high voltage is applied so as to induce an electric force to the electric dust collection unit 520b to induce an electric dust collection reaction of contaminants. The electric dust collecting unit 520b is charged by electric power discharged through the discharge plate 520a and is configured to adsorb the pollutant passing through the first water filter 510 by an electrostatic precipitating reaction. The electric dust collection unit 529 includes a first string 523 arranged in the vertical direction for adsorbing contaminants, a first upper frame 524 disposed above and below the first string 523 for fixing the first string 523, A first lower frame 525 is formed. At this time, the first string 523 is formed along the longitudinal direction, and a plurality of the first strings 523 may be spaced apart at predetermined intervals along the longitudinal direction of the first upper frame 524 and the first lower frame 525.

 The first string 523 is made of a conductive material so that electricity discharged through the discharge plate 520a is charged. At this time, the first supply pipe 522 is provided at the upstream end of the first upper frame 524 so that the adsorbed material adsorbed to the first string 523 can be quickly removed. The first supply pipe 522 is communicated with the supply pipe 320 of the water supply unit 300 and is supplied with water to be sprayed to the first string 523. The first supply pipe 522 is provided with a first string 523 To the first string 523 through the first guide plate 522b arranged to be inclined toward the first string 523. Accordingly, the first supply pipe 522 has a hollow tubular shape inside and a first water supply hole 522a is formed on the lower side. The plurality of first water supply holes 522a are spaced apart from each other by a predetermined distance along the longitudinal direction of the first supply pipe 522 and the diameters of the first water supply holes 522a become larger as the distance from the supply pipe 320 on the first supply pipe 522 increases . The same amount of water is sprayed to each of the first strings 523 spaced apart from each other between the first upper frame 524 and the second lower frame 525, The efficiency of removing the adsorbed substance of the adsorbent is increased.

Also, water is continuously supplied to the first string 523 to flow down through the above-described structure, so that the adsorbed matter adsorbed on the electric dust collecting part 520b is quickly removed. At this time, the lower ends of the discharge plate 520a and the electric dust collection unit 520b are arranged above the water stored in the water storage space 220 to prevent a short circuit.

6 is a perspective view of a first water filter 510 according to an embodiment of the present invention. Referring to FIGS. 4 and 6, the first water filter 510 is disposed at the upstream end of the electrostatic precipitating section 520. The first water filter 510 is formed with a second upper frame 512 and a second lower frame 515 at upper and lower portions so that second strings 513 and 514 for guiding water can be wound . Accordingly, the second strings 513 and 514 are formed along the longitudinal direction, and may be spaced apart at predetermined intervals along the longitudinal direction of the second upper frame 512 and the second lower frame 515.

 The first water filter 510 is configured to remove contaminants having a large size among the air supplied to the electrostatic precipitator 520 so that the interval between the second strings 513 and 514 is set to be shorter than the interval between the first string 523, respectively.

The first water filter 510 is connected to a second supply pipe 511 at the front end of the second upper frame 512 to supply water to the second string 1 513 provided at the front side of the second strings 513 and 514, . The second supply pipe 511 is communicated with the supply pipe 320 and is supplied to the second-first string 513 to supply water to the second pipe 511. The second supply pipe 511 is connected to the second- And supplies water to the second-1 string 513 through the second-1 guide plate 511b arranged obliquely. Accordingly, the second supply pipe 512 has a hollow tubular shape inside, and a second-first water supply hole 511a is formed on the lower side. A plurality of second-type water holes 511a are arranged at a predetermined distance along the longitudinal direction of the second supply pipe 511, and the diameter of the second-first water hole 511a increases as the distance from the supply pipe 320 on the second supply pipe 511 increases .

The same amount of water is sprayed to each of the second -1 string 513 spaced apart from the second upper frame 512 and the second lower frame 515 through the above- The filtration efficiency of the filter 510 is increased.

In order to supply water to the second 2-string 514 provided on the rear side of the second strings 513 and 514, the second upper frame 512 is connected to the supply pipe 320, A second 2-2 guide plate 522b arranged to be inclined toward the second-second string 514 on the lower side of the second upper frame 512, And supplies the water to the second-second string 514 through the second- Accordingly, the second upper frame 512 has a hollow tubular shape inside, and a second water-supplying hole 512a is formed on the lower side. A plurality of second water holes 512a are arranged at a predetermined distance along the longitudinal direction of the second upper frame 512 and a diameter of the second water hole 512a is larger as the distance from the side connected to the supply pipe 320 on the second upper frame 512 Can be largely formed.

The upper side of the first water filter 510 is fixed to the upper side of the air filtration space 210 and the lower side of the first water filter 510 is submerged in the water stored in the water storage space 220. Accordingly, a first weight 516 for fixing the first water filter 510 to the lower side may be provided on the lower side of the second lower frame 515.

7 is a partially enlarged front view of a first water filter 510 of another embodiment of the present invention.

Referring to FIG. 7, the first water filter 510 of another embodiment of the present invention is shown as another method for injecting water into the second-1 string 513. As shown in the drawing, the first water filter 510 is provided on the upstream side of the second upper frame 512 so as to inject water into the second-1 string 513, except for the configuration of the second supply pipe 511, -1 water hole 512c is formed. Also, a second-first guide plate 512d for guiding the water sprayed through the second-first-water hole 512c to be sprayed onto the second-first string 513 is provided. The second-second guide plate 512d is disposed on the upstream side of the second upper frame 512 and is formed in the vertical direction. The lower end of the (2-1) guide plate 512d is formed to be inclined toward the (2-1) string 513.

8 is a perspective view of a second water filter 530 according to an embodiment of the present invention. 4 and 8, the second water filter 530 is disposed at the downstream end of the electrostatic dust collecting unit 520, and is used for removing the harmful gas generated in the electrostatic dust collecting unit 520 and for adsorbing moisture A third upper frame 532 and a third lower frame 535 are formed on the upper and lower portions, respectively, so that the third strings 533 and 534 can be wound. Therefore, the third strings 533 and 534 are formed along the longitudinal direction, and may be spaced apart at predetermined intervals along the length direction of the third upper frame 532 and the third lower frame 535.

The second water filter 530 is configured to remove the noxious gas generated by the electric dust collecting unit 520 and to remove the moisture of the humid air. Accordingly, the interval between the third strings 533, May be formed to be narrower than the interval between the first electrode 523 and the second electrode 523.

The second water filter 530 includes a third string 533 provided on the front side of the third strings 533 and 534 for removing harmful gas such as ozone generated in the electrostatic precipitator 521, The second water filter 530 is provided with a third supply pipe 531 at the front end of the third upper frame 532 in order to supply water to the 3-1 string 533.

The third supply pipe 531 is communicated with the supply pipe 320 and is supplied to the third-first string 533 to receive the water. The third supply pipe 531 is connected to the third-first string 533 And supplies water to the third -1 string 533 through the third guide plate 531b arranged obliquely. A water film is formed through the third -1 string 533 of the second water filter 530 to remove harmful gas such as ozone generated through the electrostatic dust collecting unit 520. The third supply pipe 531 has a hollow tubular shape inside and a third water supply hole 531a is formed on the lower side. A plurality of third water holes 531a are spaced apart from each other by a predetermined distance along the longitudinal direction of the third supply pipe 531 and the diameters of the third water supply holes 531a are larger as the distance from the supply pipe 320 on the third supply pipe 531 increases .

In this case, since the third-second string 534 provided on the rear side of the third strings 533 and 534 is configured to remove the moisture of air containing moisture, water is not supplied to the third-second string 534 . In addition, when the string structure is applied to remove moisture, the moisture adsorbed on the strings flows down along the strings, thereby preventing a decrease in the blowing efficiency due to adsorbed moisture.

The upper side of the second water filter 530 is fixed to the upper side of the air filtration space 210 and the lower side of the second water filter 530 is submerged in the water stored in the water storage space 220. Therefore, a second weight 536 for fixing the water filter 530 to the lower side may be provided on the lower side of the third lower frame 535.

The third-second string 534 of the second water filter 530 splashes water when contaminant-containing water falls on the bottom surface through the first string 523, And it is possible to prevent the indoor humidity from being increased due to the use of the wet air purifying device even in a high temperature and high humidity environment.

Referring to FIG. 6, a configuration in which water supplied through the second supply pipe 511 or the second upper frame 512 is uniformly supplied to the second strings 513 and 514 will be described in detail. (The second-string 513 will be described.)

A plurality of second-1 water holes 511a are formed on the second supply pipe 511 in order to inject the same amount of water into each of the second-1 strings 513 spaced apart at a predetermined interval, It is best to supply the water of the supply pipe 320 to the 2-1 water hole 511a in the same manner. However, since the configuration is complicated and the maintenance cost increases, the present invention has the following configuration. A plurality of second-type water holes 511a are formed along the longitudinal direction of the second supply pipe 511 at a predetermined distance, and the diameter of the second-first water hole 511a is increased as the distance from the supply pipe 320 is increased Respectively. That is, when the water supply part 320 is connected to one side of the second supply pipe 511, the size of the second-1 water supply hole 511a is gradually increased toward the other side of the second supply pipe 511, And the flow rate through the small diameter is made equal even if the water pressure is high.

The technical idea should not be construed as being limited to the above-described embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, such modifications and changes are within the scope of protection of the present invention as long as it is obvious to those skilled in the art.

1000: Wet air purifier
100: Case
200: main body 210: air filtering space
220: water storage space 221:
222: drain part 230: inlet
240: Outlet
300: water supply part 310: inflow pipe
320: Supply pipe
400: circulation pump
500: filter unit 510: first water filter
520: electric dust collector 530: second water filter
700: blowing fan

Claims (8)

A first water filter provided inside the main body and having a water film formed thereon to purify the air flowing into the main body; a water supply part supplying water to the first water filter; And a drainage portion for discharging the water containing the substance to the outside of the main body,
The wet air cleaning apparatus includes:
An electrostatic precipitator provided at a downstream end of the first water filter for electrostatic precipitating the air containing water that has passed through the first water filter;
Wherein the wet air cleaning apparatus comprises an electric dust collector.
The method of claim 1, wherein
Wherein the electrostatic dust-
And an electric dust collection unit disposed at the downstream end of the discharge plate and being charged through electricity discharged from the discharge plate,
Wherein the electric dust collecting unit comprises:
A first upper frame;
A first lower frame disposed on a lower side parallel to the first upper frame;
A first string provided between the first upper frame and the first lower frame, the first string being a conductive material; And
A first supply pipe provided at a front end of the first upper frame to supply water to the upper side of the first string; / RTI >
Wherein the water supply part is connected to the first supply pipe to supply water to the first supply pipe and water is sprayed to the first string through a first water supply hole formed in the outer surface of the first supply pipe, Wet air purifier using dust collector.
3. The method of claim 2,
Wherein the first water filter comprises:
A second upper frame disposed on the upper side and hollow inside;
A second lower frame disposed on a lower side parallel to the second upper frame;
A second string disposed between the second upper frame and the second lower frame; And
A second supply pipe provided at a front end of the second upper frame to supply water to an upper side of a second-1 string formed at a front end of the second string; / RTI >
The water-
The second supply pipe is connected to supply water to the second supply pipe, and water is injected to the second-1 string through the second supply pipe
The water-
Water is supplied into the second upper frame and water is injected into the second 2-string formed on the rear end of the second string through the second water supply holes formed in the outer surface of the second upper frame, , A wet air purification apparatus using an electric dust collector.
The method of claim 3,
Wherein the second string comprises:
String and a second 2-string arranged at a predetermined distance from the rear end of the second-1 string,
Wherein the second air bag is wound between the second upper frame and the second lower frame.
The method of claim 3,
The second upper frame longitudinal direction spacing of the second string,
Wherein the first string is wider than the first upper frame longitudinal direction gap.
The method of claim 3,
The wet air cleaning apparatus includes:
And a second water filter provided at a downstream end of the electric dust collection unit,
Wherein the second water filter comprises:
A third upper frame disposed on the upper side;
A third lower frame disposed on a lower side parallel to the third upper frame;
A third string provided between the third upper frame and the third lower frame; And
A third supply pipe provided at a front end of the third upper frame to supply water to an upper side of a third string formed at a front end of the third string; / RTI >
The third upper frame longitudinal direction spacing of the third string,
And the first string is narrower than the first upper frame longitudinal direction spacing of the first string.
The method according to claim 6,
The main body includes an air filtration space provided with the first water filter, the electrostatic precipitator and the second water filter on the upper side, and a water storage space in which water is stored on the lower side,
Wherein the first water filter and the second water filter are fixed on the upper side of the air filtration space and the lower side is submerged in the water,
And a first and a second weight are additionally provided on the second and third lower frames of the first water filter and the second water filter, respectively.
The method of claim 3,
Wherein the first and second water supply holes
Wherein a plurality of the first and second upper frames are spaced apart from each other along the longitudinal direction of the first and second upper frames, and the diameter increases as the distance from the side from which water is supplied through the water supply unit increases. .

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