KR101896021B1 - Air purifying device and air purifying method - Google Patents

Abstract

According to an embodiment of the present invention, an air purifying deice comprises: a case; a suction flow path sucking outdoor air into the inside of the case; a suction drive unit controlling the flow of the air sucked through the suction flow path; a tank accommodating a predetermined amount of water; a first discharge pipe primarily discharging the air sucked into an internal side of the tank; a discharge drive unit controlling the flow of the air discharged from the tank; a first pump supplying water to the tank; a second pump discharging water of the tank; and a second discharge pipe discharging water to the outside of the case.

Description

TECHNICAL FIELD [0001] The present invention relates to an air purifying device and an air purifying method,

The present invention relates to an air purification apparatus and an air purification method.

The subway transports passengers and cargo through the underground, and is quickly and safely used as public transportation in large cities. Such a subway has a problem that dust is generated when it is operated, and furthermore, since the platform where the subway is operated is closed, it is difficult for dust to escape from the platform.

In order to solve such a problem, a ventilation system is installed in the platform, but the conventional ventilation system discharges the polluted air generated inside the platform directly to the outside, and there is a problem of polluting the outside air.

The dust generated in the landing area may include fine dust (PM 10) having a particle size of 10 μm or less. These fine dusts are first-class carcinogens designated by the World Health Organization (WHO) and are harmful to humans, increasing the incidence and mortality rate. Particularly, PM 2.5, which has a particle size of 2.5 μm or less, has a serious effect on the human body even if it is exposed only for a short period of time, and it penetrates most people's alveoli to cause heart disease and respiratory diseases.

Therefore, the fine dust inside the platform can not only threaten the health of the passengers but also pollute the air discharged to the outside, so efforts for improving the air quality in the subway platform are required.

On the other hand, about 60,000 tons of groundwater is generated per day on the platform. However, most of these groundwater is left unused in rivers and sewage treatment plants.

Patent Document 1: Korean Patent Laid-Open No. 10-2017-0037407 (published on Apr. 04, 2014)

Embodiments of the present invention have been proposed to solve the above-mentioned problems, and an object of the present invention is to provide an air purification apparatus and an air purification method for purifying contaminated air.

It is another object of the present invention to provide an air purification apparatus and an air purification method for removing fine dust in air inside a landing platform.

The present invention also provides an air purification apparatus and an air purification method for removing ultrafine dust in air inside a landing platform.

The present invention also provides an air purification apparatus and an air purification method that utilize groundwater around a platform.

An air purifying apparatus according to an embodiment of the present invention includes: a case; A suction duct for sucking outside air into the case; A suction driving unit for controlling the flow of the air sucked through the suction path; A tank for receiving water by a predetermined amount; A first discharge pipe for primarily discharging the sucked air to the inside of the tank; A discharge driving unit for controlling the flow of the air discharged from the tank; A first pump for supplying water to the tank; A second pump for discharging the water in the tank; And a second discharge pipe for discharging water to the outside of the case may be provided.

The discharge driving part is provided on the upper side of the case, the tank is provided on the lower side of the case, the suction driving part is provided below the discharge driving part and is provided above the tank, May be provided below the discharge driving unit and above the suction driving unit.

In addition, the air outside the case may be moved downward through the suction passage to be purified in the tank, and the purified air may be moved upward to be discharged to the upper portion of the case through the suction passage.

In addition, the inside of the case can be the flow path of the purified air.

In addition, the case may include a plurality of suction ports spaced apart from each other along the circumference of the case; And a plant installation part provided between the suction ports, and one end of the suction path may be provided to correspond to the suction port.

In addition, the plants may be provided with a plant (Epipremnum aureum), at least one of ivy and Boston bracken.

In addition, the water in the tank may be selectively supplied to the outside of the plant installation part or the case, and the water inside the plant installation part may be discharged to the outside of the case through the second discharge pipe.

Further, the tank includes a main body having an open top; And a cover for covering the main body, wherein a space holding portion including a plurality of openings can be provided on the main body so as to maintain a gap with the cover.

In addition, the lower end of the cover is formed to be lower than the gap holding portion, and the air purified inside the tank is discharged through the opening of the gap holding portion, then is moved downward along the inner periphery of the cover, And can be moved upward within the case.

Further, the case may be installed in a subway platform.

The suction driving unit and the discharge driving unit may include a body; A motor provided inside the body to provide a driving force; And a blade rotating according to a driving force of the motor.

In addition, the water provided inside the tank may be groundwater generated in a subway platform.

In addition, one end of the first discharge pipe located inside the tank may be positioned at a predetermined distance outward from the center of the space formed inside the tank.

According to an embodiment of the present invention, there is provided an air cleaning method comprising: introducing dust into a case; The air introduced into the case is discharged into a tank provided inside the case through a suction driving unit; The air discharged from the water stored in the tank is purified in the tank and then discharged to the upper portion of the tank; And a purified air discharged from the tank is discharged to the outside of the case through a discharge driving unit provided inside the case.

In addition, the inside of the case can be the flow path of the purified air.

The air purifying device and the air purifying method according to the embodiment of the present invention have the effect of purifying contaminated air.

In addition, there is an advantage of removing fine dust in the air in the landing area.

In addition, there is an advantage of removing ultrafine dust in the air in the landing area.

In addition, there is an advantage of using ground water around the platform.

1 is a perspective view showing an air purifying apparatus according to an embodiment of the present invention.
Fig. 2 is a perspective view showing the internal construction of Fig. 1; Fig.
3 is an exploded perspective view of Fig.
Fig. 4 is a front view of Fig. 1 except for a first pump, a second pump and a second discharge pipe.
Fig. 5 is a front view of Fig. 1 except for a suction passage, a suction driving portion, a first discharge pipe, and a discharge driving portion.
6 is a flowchart illustrating an air purification method according to an embodiment of the present invention.

FIG. 1 is a perspective view showing an air purifying apparatus according to an embodiment of the present invention, FIG. 2 is a perspective view showing the internal construction of FIG. 1, FIG. 3 is an exploded perspective view of FIG. 1, FIG. 5 is a front view of FIG. 1 except for a suction passage, a suction drive portion, a first discharge pipe, and a discharge drive portion. FIG.

1 to 5, an air purifying apparatus 1 according to an embodiment of the present invention includes a casing 10, a suction passage 20 for sucking outside air into the casing 10, A first discharge pipe 40 for primarily discharging the sucked air from the inside of the case 10, a tank 50 for storing water by a predetermined amount, A first pump 70 for supplying water to the tank 50 and a second pump 70 for discharging the water inside the tank 50. The second pump 70 is a pump that discharges the water in the tank 50, And a second discharge pipe 90 for discharging water to the outside of the case 10. In the present embodiment, an example will be described in which the air purification apparatus 1 is installed in a subway platform. However, the installation position of the air purifier 1 is not limited to this. For example, the air purifier 1 may be installed in any facility, such as an underground parking lot, a tunnel, etc., .

The case 10 forms an outer shape. The case 10 can be opened for discharging the purified air. The case 10 includes a plurality of suction holes 110 installed along the periphery, and a plant installed between the adjacent suction holes 110 (120). ≪ / RTI > The case 10 can be provided with one side flat. For example, the case 10 may be provided in the shape of a column having a semicircular cross section, and thus may be installed in close contact with the landing wall. That is, the space in which the case 10 is installed in the landing area can be minimized.

The inlet 110 is provided on one side of the case 10 and may serve as a passage for allowing outside air to enter the inside. At this time, the intake port 110 is provided with a mesh structure to prevent foreign matter from entering, and a plurality of intake ports 110 may be provided along the circumference of the case 10 at predetermined intervals.

A plant installation part 120 may be provided at one side of the intake port 110. The plant installation part 120 is provided at a position that does not overlap with the intake port 110 and is preferably provided between each of the plurality of intake ports 110. At this time, the plant installation part 120 may be provided with an air purification plant capable of purifying various pollutants and harmful substances in the air. Air purifying plants remove indoor pollutants through the process of evaporation and interaction with microorganisms in the soil. Contaminants absorbed by the leaves can be used as metabolites of plants, some of which can be removed, And can be utilized as a nutrient source of soil microorganisms. In addition, temperature and humidity of the room can be controlled through the evaporation action of the leaves. For example, the plant installation part 120 may be provided with a skin indus- try (Epipremnum aureum) which is a popular indoor plant that is easy to grow indoors. However, the plants provided to the plant installation part 120 are not limited thereto, and various air purification plants such as ivy and Boston bracken may be provided. At this time, the height of the plant may be 50 cm or less.

Specifically, the plant installation part 120 may be provided in a protruding form to the outside of the case 10, and may be provided in an inclined form from the upper side to the lower side. At this time, the plant installation part 120 may be provided in an empty form so that the plant can be provided. Therefore, a certain amount of soil can be contained in the plant installation part 120, and an air purification plant can be planted in the soil. In addition, since the plant installation part 120 is provided in an inclined form, the water provided inside the plant installation part 120 can be easily discharged to the outside. The discharge process of the water inside the specific plant installation part 120 will be described later.

The dust contained in the air introduced into the interior through the inlet 110 may be primarily adsorbed to the plant provided to the plant installation 120. Particularly, dust can be adsorbed while the air comes in contact with the leaves of the plant provided in the plant installation part 120, so that air with some dust removed can be introduced into the case 100. Whereby the fine dust PM10 contained in the air can be partially removed.

A suction passage (20) may be provided inside the case (10). The suction passage 20 sucks the outside air into the case 10 and guides it to the tank 50. One end of the suction passage 20 is provided corresponding to the suction port 110 of the case 10 . Specifically, the suction passage 20 may be configured to suck outside air into the tube without discharging the air inside the tube to the outside. That is, the suction passage 20 can suck air outside the case 10 through the suction port 110. A suction drive unit 30 may be provided on the suction flow path 20 or on one side of the suction flow path 20 to provide a driving force for sucking air outside the case 10. [ For example, the air sucked through the suction passage 20 may be transmitted to the tank 50 through the suction driving portion 30. [

The suction drive unit 30 controls the flow of air and may include a suction body 310, a suction motor 320 that provides a driving force, and a suction blade 330 that rotates through a suction motor 320 have. Specifically, the suction driving unit 30 may be provided inside the case 10, may be provided below the suction port 110 of the case 10, and may be provided through the suction port 20 ).

The suction body 310 of the suction driving unit 30 may be provided with different areas or widths in the left and right direction perpendicular to the up and down direction of the space formed on the inner side according to the vertical position. For example, the suction driving unit 30 may include a suction body 310 having different diameters on the upper side, the middle side, and the lower side. Specifically, the upper side of the suction body 310 may be provided in a form in which the cross-sectional area gradually increases toward the lower side, the intermediate side may have a constant area, and the lower side may be provided in a shape in which the cross- have. At this time, the upper side of the suction body 310 may be connected to the suction passage 20, and the lower side may be connected to the first discharge pipe 40. The upper portion of the suction body 310 may be provided with an opening hole corresponding to the suction flow passage 20 and the lower portion may be provided with an opening hole corresponding to the first discharge pipe 40 have.

A suction motor 320 may be provided inside the suction body 310. The suction motor 320 may be provided on the middle side of the suction body 310, as it provides a driving force to the suction blade 330. At this time, the suction motor 320 may be fixed to one side of the suction body 310 so as not to block the rotation of the suction blade 330.

The suction blade 330 can rotate through the driving force of the suction motor 320. Specifically, the suction blade 330 can be rotated about the axis of the suction motor 320 as a center axis. At this time, the suction motor 320 and the suction blade 330 may be integrally provided, but the connection relationship between the suction motor 320 and the suction blade 330 is not limited thereto. For example, the suction motor 320 and the suction blade 330 may be separately provided and coupled.

When the suction blade 330 rotates through driving of the suction motor 320, external air can be introduced into the suction body 310 through the suction flow path 20. The air that has entered the suction body 310 can be moved from the upper side to the lower side of the suction body 310 in accordance with the rotation direction of the suction blade 330. At this time, the lower side of the suction body 310 through which the air is discharged has a gradually narrowed cross-sectional area, so that the air flowing into the suction body 310 may have a larger flow rate. Accordingly, the air can be easily discharged from the suction body 310.

The lower side of the suction driving unit 30 may be connected to the first discharge pipe 40. The first discharge pipe 40 primarily discharges the external air passing through the suction passage 20 and the suction driving portion 30 and may be connected to the suction driving portion 30 and the tank 50.

The air passing through the suction driving unit 30 can be discharged into the tank 50 through the first discharge pipe 40. The tank 50, which receives water therein, may include a main body 510 having an open upper portion and a cover 520 covering the main body 510. Specifically, the water inside the tank 50 may be ground water that naturally occurs in the vicinity of the platform or the platform. In other words, groundwater, which is conventionally abandoned in the subway platform, can be used for air purification.

The main body 510 accommodates water by a predetermined amount, and may be a space for accommodating the air discharged from the first discharge pipe 40. At this time, one end of the first discharge pipe 40 may extend through the cover 520 to the inside of the main body 510 and may be provided to be submerged in the water stored in the main body 510. That is, the water level of the main body 510 can be maintained so that the discharge port side of the first discharge pipe 40 is always immersed in water. Specifically, after the first discharge pipe 40 passes through the cover 520, one end of the first discharge pipe 40 may be positioned below the water inside the main body 510, 40 may be discharged into the water.

The air discharged into the water through the first discharge pipe 40 is in contact with water and can form bubbles. At this time, since the surface area of water and air contacting with the air bubbles is wider, more dust can be adsorbed on the water. Therefore, when the air passing through the first discharge pipe 40 is discharged into the water inside the main body 510, the dust in the air can be removed secondarily.

The purified air discharged into the water inside the main body 510 can be exposed to the outside of the water after a predetermined time. A vortex can occur when the air in the water exits the water, so that the dust in the air sinks into the water and only the purified air can be exposed out of the water.

That is, the dust in the air can be removed thirdarily, and the dust removed at this time may be ultrafine dust (PM 2.5). One end of the first discharge pipe 40 located inside the main body 510 may be positioned at a predetermined distance outwardly from the center of the space formed inside the main body 510. For example, the first discharge pipe 40 may be provided with an end portion for discharging air into the interior of the main body 510 in a bent shape toward the outer region in the central region of the main body 510. The first discharge tube 40 is provided with a plurality of first discharge tubes 40. The first discharge tubes 40 are arranged in such a manner that an end of discharging air into the interior of the body 510 extends from the center of the space formed inside the body 510 toward the outer region It can be provided in a bent shape. Accordingly, the plurality of first discharge pipes 40 in the main body 510 can discharge air at different heights. At this time, the cross-sectional area of the main body 510 on the side corresponding to the height of the first discharge pipe 40 can be provided in a shape widening toward the upper side. Accordingly, when the air is discharged through the first discharge pipe 40, vortices can be easily generated according to the shape of the main body 510, which gradually widens upward.

A cover 520 may be provided on the upper portion of the main body 510. At this time, the main body 510 is not completely closed through the cover 520, and a predetermined space may be provided between the main body 510 and the cover 520.

Specifically, the upper portion of the main body 510 may be provided with a gap maintaining portion 511 so as to maintain a gap with the cover 520 (see FIGS. 4 and 5). The cover 520 may be provided to cover the upper portion of the interval maintaining portion 511. The interval maintaining portion 511 may include a plurality of openings 511a so that the air inside the body 510 may leak out to the outside can do. At this time, the peripheral lower end of the cover 520 may be formed lower than the gap holding portion 511. Accordingly, when the air provided inside the main body 510 overflows, the cover 520 can be discharged to the outside through the opening 511a. At this time, since the lower end of the cover 520 is formed lower than the gap holding portion 510, The air discharged through the opening 511a can be moved downward along the inner periphery of the cover 520. The air discharged downward can flow inside the case 10 and can move upward through the discharge driving part 60. [ That is, the air inside the main body 510 flows downward through the cover 520 and can be raised and lowered again.

On the other hand, a discharge driving part 60 may be provided on the upper side of the case 10. The discharge drive unit 60 discharges the purified air discharged from the tank 50 to the outside of the case 10 and includes a discharge body 610, a discharge motor 620 for providing driving force, a discharge motor 620, And a discharge blade 630 rotating through the driving force of the discharge blade 630.

The discharge body 610 may be provided at a position higher than the suction port 110 of the case 10. [ At this time, the discharge body 610 may be provided so that the upper and lower portions thereof are opened, and the area or width of the cross-section in the left-right direction perpendicular to the up-and-down direction of the space formed on the inner side in each region may be provided differently. For example, the discharge body 610 may have different cross sectional areas in the upper side, the intermediate side, and the lower side in the lateral direction. Specifically, the upper side of the discharge body 610 may be provided in a shape in which the cross-sectional area decreases toward the lower side, the intermediate side may have a constant area, and the lower side may be provided in a shape in which the cross- . At this time, the uppermost side of the discharge body 610 may correspond to the opened upper side of the case 10.

An exhaust motor 620 may be provided inside the exhaust body 610. The exhaust motor 620 may be provided on the intermediate side of the exhaust body 610 as it provides a driving force to the exhaust blade 630. At this time, the discharge motor 620 may be fixed to one side of the discharge body 610 so as not to block the rotation of the discharge blade 630.

The discharge blade 630 can rotate through the driving force of the discharge motor 620. Specifically, the discharge blade 630 may be rotated about the axis of the discharge motor 620, which provides a force to cause air in the case 10 to flow. At this time, the discharge motor 620 and the discharge blade 630 may be provided integrally, but the connection relationship between the discharge motor 620 and the discharge blade 630 is not limited thereto. For example, the discharge motor 620 and the discharge blade 630 may be separately provided and coupled.

When the discharge blade 630 is rotated through the driving of the discharge motor 620, the purified air discharged from the tank 50 can be introduced into the discharge body 610. At this time, the air discharged from the tank 50 can be supplied to the discharge driving part 60 after passing through the suction driving part 30, the suction inlet 110 and the suction flow passage 20, May be provided as a flow path of air. That is, the purified air discharged from the tank 50 flows along the inside of the case 10 without being disturbed by the constitution of the suction driving portion 30, the inlet 110, the suction passage 20, And can be guided upward.

The air introduced into the discharge body 610 moves upward from the lower side of the discharge body 610 in accordance with the rotation direction of the discharge blade 630 and is discharged to the outside through the opened upper portion of the case 10 . At this time, since the discharge body 610 has a shape in which the sectional area is gradually narrowed from the lower side to the intermediate side where the discharge blade 630 is provided, the flow velocity of the air moving from the lower side to the upper side can be increased.

On the other hand, the tank 50 can be supplied with water, particularly, groundwater in a subway platform through the first pump 70. The first pump 70 supplies groundwater generated in the landing area to the interior of the tank 50. The supply amount and the supply time of the groundwater can be adjusted so that water can be pumped into the tank 50 by a predetermined amount. At this time, the first pump 70 may be connected to a first connection pipe 710 connected to an external water supply source and a second connection pipe 720 connected to the tank 50.

Specifically, when the first pump 70 is operated, external water can be supplied to the first pump 70 through the first connection pipe 710, and when the water is supplied to the second pump 70 according to the predetermined time and supply amount, And may be supplied into the tank 50 through the connection pipe 720.

The water in the tank 50 can be discharged through the second pump 80. [ The second pump 80 discharges the water inside the tank 50. The discharge time and the discharge amount can be adjusted so that the water in the tank 50 can be replaced according to a predetermined time. At this time, the second pump 80 may be connected to the third connection pipe 810 connected to the tank 50 and the fourth connection pipe 820 partially exposed to the outside.

Specifically, when the second pump 80 is operated, water inside the tank 50 can be supplied to the second pump 80 through the third connection pipe 810, And may be moved through the fourth connection pipe 820 in accordance with the second connection pipe 820. At this time, the fourth connection pipe 820 may include a branch pipe 821 corresponding to the plant installation part 120, so that the water moved along the fourth connection pipe 820 flows into the branch pipe 821 To the plant of each plant installation part 120. [0033] In other words, groundwater can be used not only for the purification of air, but also for the supply of plants.

The second pump 80 may be provided on the lower side of the case 10 and the fourth connection pipe 820 may be provided on the lower side of the case 10 to extend upward. The branch pipe 821 of the fourth connection pipe 820 may be partially exposed through one side of the case 10 and one side of the exposed branch pipe 821 may be exposed on the upper side of the plant installation part 120 As shown in FIG. That is, the water provided through the branch tube 821 can be easily provided to the plant of the plant installation part 120.

In addition, the fourth connection pipe 820 may include a second branch pipe 822 to discharge water directly to the outside of the case 10. The second branch pipe 822 penetrates the outside of the case 10 and can discharge the water inside the tank 50 to the outside of the case 10 without supplying the water to the plant installation part 120 . At this time, the water in the tank 50 is supplied to the plant installation part 120 through the branch tube 821 or discharged to the outside through the second branch tube 822 through a separate valve (not shown) Lt; / RTI >

On the other hand, the water inside the plant installation part 120 can be discharged through the second discharge pipe 90. Specifically, if water is supplied to the plant installation part 120 through the fourth connection pipe 820, it may be necessary to discharge water except for the amount required by the plant. At this time, the second discharge pipe 90 discharges unnecessary water in the plant installation part 120, and part of the water can be exposed to the outside of the case 10.

The case 10 may be provided with a plurality of through holes so as to correspond to the plant mounting portion 120 and the water of the plant mounting portion 120 may be introduced into the through hole. At this time, the second discharge pipe 90 can be connected to the through hole, so that the water of the plant installation part 120 can be supplied to the second discharge pipe 90.

Specifically, the second discharge pipe (90) may be connected to the plant mounting part (120) on one side and extend downward inside the case (10). At this time, the other side of the second discharge pipe (90) may be partially exposed through the case (10). That is, water in the plant installation part 120 can be discharged to the outside of the case 10 through the second discharge pipe 90. Although the second discharge pipe 90 is provided inside the case 10 in this embodiment, the installation position of the second discharge pipe 90 is not limited thereto. For example, the second discharge pipe 90 may be located outside the case 10 and connected to the plant mounting portion 10.

Hereinafter, the operation and effect of the air purifying apparatus 1 according to the embodiment of the present invention will be described.

Referring to FIG. 4, air outside the case 10 can be sucked into the suction passage 20 through the suction port 110 (A). At this time, the outside air may be supplied to the suction passage 20 after passing through the plants of the plant installation part 120. Thus, the outside air can be primarily adsorbed on the plant leaf by dust. The dust in the air removed through the plant may be a fine dust having a particle size of 10 탆 or less, thereby removing fine dust.

The dust-removed air can be supplied to the suction driving unit 30 (B). At this time, the suction driving unit 30 can drive the suction motor 310 and the suction blade 310 so that the air in the suction path 20 is moved toward the tank 50 side.

The air passing through the suction driving unit 30 can be supplied into the water inside the tank 50 (C). At this time, air can be introduced into the water and bubbles can be generated, so that dust in the air can be adsorbed on the water. That is, dust in the air can be removed secondarily.

The air provided in the water inside the tank 50 may be exposed to the outside of the water to be discharged into the space between the main body 510 and the cover 520 (D). At this time, air may be discharged out of the water to generate a vortex, so that dust in the air can be deposited on the water and removed. That is, the dust in the air can be removed in a tertiary manner. At this time, the dust to be removed may be ultrafine dust (PM 2.5), thereby removing ultrafine dust.

The plant of the plant installation part 120 and the air purified through the water inside the tank 50 can be moved upward along the inner space of the case 10 through the discharge driving part 60, (D). ≪ / RTI > That is, the inner space of the case 10 can be provided as a flow path of purified air.

In summary, the discharge driving portion 60 can be provided on the upper side of the case 10, the tank 50 can be provided on the lower side, and the suction driving portion (not shown) can be provided between the discharge driving portion 60 and the tank 60 40 may be provided. In addition, a suction passage 20 may be provided between the discharge drive portion 60 and the suction drive portion 30. [ The air outside the case 10 is sucked through the suction passage 20 and moved downward to be purified in the tank 50 and then moved upward again to pass through the suction passage 20, 10 to the open top.

Referring to FIG. 5, the tank 50 can receive external groundwater through the first pump 70 (a, b). At this time, the first pump 70 can be adjusted so that a preset amount of water can be accumulated in the tank 50.

The tank 50 should be replaced with water in order to continuously clean the outside air. Thus, the water inside the tank 50 can be discharged through the second pump 80 (c, d).

Water in the tank 50 discharged through the second pump 80 may be provided to the plant installation 120 (e). That is, there is an effect that groundwater can be recycled by supplying unnecessary groundwater to the air purification and plants.

The water provided to the plant installation part 120 can be discharged to the outside of the case 10 through the second discharge pipe 90 (f).

6 is a flowchart illustrating an air purification method according to an embodiment of the present invention.

Referring to FIG. 6, the air outside the case 10 may be introduced into the case 10 after the dust is adsorbed on the plant provided in the plant installation 120 (S100). At this time, the air can be sucked through the suction passage 20, and the suction passage 20 can be provided corresponding to the plurality of suction holes 110.

Air introduced into the case 10 through the suction passage 20 may be discharged into the tank 50 through the suction driving unit 30 (S200). Specifically, the tank 50 receives water therein, and air supplied into the tank 50 through the suction driving unit 30 can be supplied into the water. At this time, air and water can meet and bubbles can be generated, and dust in the air can be adsorbed on the water.

Air discharged from the water stored in the tank 50 can flow out of the water to form a vortex so that dust in the air sinks into the water and can be removed from the air. That is, the air can be purified by the water inside the tank 50.

The purified air can be exposed to the space between the body 510 of the tank 50 and the cover 520 (S300). Therefore, the purified air can flow inside the case 10. [ That is, the entire inside of the case 10 can be provided as a flow path of purified air.

The purified air provided inside the case 10 can be moved upward through the discharge driving portion 60 and thus can be discharged to the outside through the opened upper portion of the case 10 (S400). That is, purified air can be supplied to the platform.

Although the air purifying apparatus and the air purifying method according to the embodiments of the present invention have been described above as specific embodiments, the present invention is not limited thereto, and the present invention is not limited thereto. Should be interpreted as having. Skilled artisans may implement the pattern of features that have not been explicitly described in combination, substitution of the disclosed embodiments, but which, too, do not depart from the scope of the present invention. It will be apparent to those skilled in the art that various changes and modifications may be readily made without departing from the spirit and scope of the invention as defined by the appended claims.

1: air purifier
10: Case 20: Suction flow path
30: suction drive unit 40: first discharge pipe
50: tank 60:
70: first pump 80: second pump
90: Second discharge pipe

Claims (15)

case;
A suction duct for sucking outside air into the case;
A suction driving unit for controlling the flow of the air sucked through the suction path;
A tank for receiving water by a predetermined amount;
A plurality of first discharge pipes for primarily discharging the sucked air to the inside of the tank;
A discharge driving unit for controlling the flow of the air discharged from the tank;
A first pump for supplying water to the tank;
A second pump for discharging the water in the tank; And
And a second discharge pipe for discharging water to the outside of the case,
The tank may comprise:
An upper opened body; And
And a cover covering the main body,
A space-retaining portion including a plurality of openings is provided on the upper portion of the main body so as to maintain a gap with the cover, so that the main body is not completely closed through the cover,
The air in the main body leaks out through the opening,
The lower end of the cover is formed lower than the gap holding portion,
The air cleaned inside the tank is discharged through the opening of the gap holding part, then is moved downward along the inner periphery of the cover, moves upward in the case through the discharge driving part,
One end of the first discharge pipe located inside the tank is located at a predetermined distance outward from the center of the space formed inside the tank,
Sectional area of the main body on the side corresponding to the height of the first discharge pipe is provided in a form that widens toward the upper side
Air purifier.
The method according to claim 1,
The discharge driving unit is provided on the upper side of the case,
The tank is provided below the inside of the case,
Wherein the suction driving unit is provided below the discharge driving unit and is provided above the tank,
The suction passage is provided below the discharge driving portion and provided above the suction driving portion
Air purifier.
3. The method of claim 2,
The air outside the case moves downward through the suction passage to be purified in the tank and the purified air moves upward and is discharged to the upper portion of the case through the suction passage
Air purifier.
The method of claim 3,
And the inside of the case becomes the flow path of the purified air
Air purifier.
The method according to claim 1,
In this case,
A plurality of suction ports spaced apart from each other around the circumference of the case; And
And a plant installation part provided between the suction ports,
One end of the suction passage is provided to correspond to the suction port
Air purifier.
6. The method of claim 5,
Wherein the plants are provided with a plant (Epipremnum aureum) and at least one plant of ivy and Boston bracken
Air purifier.
6. The method of claim 5,
The water in the tank is selectively supplied to the plant mounting portion or the outside of the case,
Water in the plant installation part is discharged to the outside of the case through the second discharge pipe
Air purifier.
delete delete The method according to claim 1,
The case is installed in a subway platform
Air purifier.
The method according to claim 1,
The suction driving unit and the discharge driving unit may include:
Body;
A motor provided inside the body to provide a driving force; And
And a blade that rotates in accordance with a driving force of the motor
Air purifier.
The method according to claim 1,
The water provided inside the tank is groundwater generated in a subway platform
Air purifier.
delete Introducing air into the case into which dust has been adsorbed by the plant;
The air introduced into the case is discharged into a tank provided inside the case through a suction driving unit and a plurality of first discharge pipes;
The air discharged from the water stored in the tank is purified in the tank and then discharged to the upper portion of the tank; And
And the purified air discharged from the tank is discharged to the outside of the case through a discharge driving unit provided inside the case,
The tank may comprise:
An upper opened body; And
And a cover covering the main body,
A space-retaining portion including a plurality of openings is provided on the upper portion of the main body so as to maintain a gap with the cover, so that the main body is not completely closed through the cover,
The air in the main body leaks out through the opening,
The lower end of the cover is formed lower than the gap holding portion,
The air cleaned inside the tank is discharged through the opening of the gap holding part, then is moved downward along the inner periphery of the cover, moves upward in the case through the discharge driving part,
One end of the first discharge pipe located inside the tank is located at a predetermined distance outward from the center of the space formed inside the tank,
Sectional area of the main body on the side corresponding to the height of the first discharge pipe is provided in a form that widens toward the upper side
Air purification method.
15. The method of claim 14,
And the inside of the case becomes the flow path of the purified air
Air purification method.

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