KR101614906B1 - Air cleaning apparatus for using microbubble - Google Patents

Abstract

The present invention relates to an air cleaning apparatus using micro-bubbles and, more specifically, to an air cleaning apparatus using micro-bubbles in which a rotational disk fixed on a shaft of a motor and a fixing disk not fixed on the shaft are alternately spaced to be installed, and discharges purified air to the outside after collecting various pollutants in water by turning contaminated air introduced to the apparatus into bubbles based on a bubble generation device generating a large amount of micro-bubbles by being finely pulverized depending on the rotation of the disk while the bubbles pass through a slit hole of the rotational disk and the fixing disk by forming the slit hole in the rotational disk and the fixing disk.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air cleaning apparatus using micro bubbles,

The present invention relates to an air cleaning apparatus using micro bubbles, and more particularly, to an air cleaning apparatus using a micro bubble, in which a rotating disk fixed to a shaft of a motor and a fixed disk not fixed to the shaft are alternately spaced apart, And bubbles generated by the bubbles are finely pulverized according to the rotation of the rotary disk through the slit holes of the rotary disk and the fixed disk to generate a large amount of microbubbles, thereby microbubbing the contaminated air flowing into the apparatus The present invention relates to an air cleaning apparatus using microbubbles for collecting various pollutants in water and then discharging purified air to the outside.

In general, microbubbles are microscopic bubbles whose diameters can not be confirmed by eyes of several tens of micrometers (㎛) or less. They are 1 / 2,000 sizes of ordinary bubbles, 1) generate ultrasonic waves of 40KHz, 2) generate high sound pressure of 140db, and 3) generate instantaneous high temperature of 4,000 ~ 6,000 ℃.

That is, the normal bubbles rise in the water and rupture on the surface, but the micro bubbles are reduced by the pressure in the water and generate various energy and disappear.

Such microbubbles are mainly generated when water and air are vigorously rotated with ultra-fine bubbles.

The general principle of such a micro bubble generator is a method in which a liquid and a gas are mixed by a pump, a mixed fluid is secondarily pressurized in a mixing tank, and then a micro bubble is generated by a third injection through a discharge nozzle .

The microbubble generator having the above-described structure is applied to the wastewater treatment process in the environmental field, thereby greatly reducing the chemical processing process with minimal energy owing to agitation, aeration, flotation, and increase in the dissolved oxygen ratio of the foreign substance. It can be used for agricultural water supply method of hydroponic cultivation, underground irrigation and sprinkling farming method, to promote the growth of crops, to increase the sugar content of fruit water, to enable eco-friendly agriculture not to use pesticides, Separation removal, sterilization, floating separation of foreign matter, etc. contributes to improvement of agricultural product quality.

In addition, the micro bubble generator can be used as an oxygen generating means of aquaculture, thereby increasing the dissolved oxygen rate for high density culture and reducing the use of antibiotics due to an increase in bactericidal effect. It contributes to improvement of the skin health of the human body through the effect and the sterilizing effect.

However, the conventional devices for generating micro bubbles have a limitation in generating micro bubbles. In order to generate a large amount of micro bubbles, water and air must be fed at relatively high pressure. Therefore, And a large pump is used to aerate a large amount of air. Therefore, the size of the equipment is increased, so that the installation cost of the micro bubble generator is increased and the operation cost of the micro bubble generator is increased. There was a problem that it was impossible to use.

In order to solve such a problem, a micro bubble generating device such as that disclosed in Korean Patent Laid-Open Publication No. 10-2012-0008921 and Korean Patent Publication No. 10-1165818 is disclosed.

The aforementioned Patent Publication No. 10-2012-0008921 discloses a bubble generating chamber having a water inlet for introducing water and an air inlet for introducing air and a discharge port for discharging to improve the production efficiency of micro bubbles, A rotary disk provided between an inlet and an air inlet and a discharge port and provided with a plurality of induction holes which are inserted and rotated by a shaft of the motor and through which water introduced through a water inlet and an air inlet are guided; And a plurality of agitating pieces protruding in the direction of the rotary disc to stir the water and the air in accordance with the rotation of the rotary disc, .

In addition, the above-mentioned Japanese Patent Application Laid-Open No. 10-1165818 discloses a method in which water and air introduced into the interior of a housing through an inlet pipe are passed through a perforated plate provided in an inner lower portion of the housing to primarily crush the bubbles contained in the water, Through a nozzle induction tube provided on the upper portion of the nozzle, a nozzle for generating micro-bubbles composed of a vortex forming screw, a plurality of bubble grinding discs and a spacer, and is finely pulverized in a secondary state to be discharged to the outside through the discharge tube .

However, such a conventional micro bubble generator has a problem in that the amount of generated micro bubbles is limited due to the structure of the disk, and it is difficult to use the micro bubble generator for domestic use or miniaturization in structure. Particularly, There is a limitation in realizing an air purifying function using a micro bubble in which a virtuous cycle of water is essential in the apparatus because it is limited to producing micro bubble water by discharging it to the outside.

Korean Patent Publication No. 10-2012-0008921 Korean Patent Registration No. 10-1165818

SUMMARY OF THE INVENTION The present invention has been accomplished in order to solve the above problems, and it is an object of the present invention to provide a rotary disk and a fixed disk which are fixed to the shaft, Is passed through the slit hole of the rotary disk and the fixed disk and is finely pulverized according to the rotation of the rotary disk to generate a large amount of micro bubbles so that contaminated air flowing into the apparatus from the outside is microbubbed to collect various contaminants in water And to provide an air cleaning apparatus using micro bubbles that exhausts the purified air to the outside.

In addition, the present invention provides an air purifying method using a micro bubble which is formed by forming a slope in a rotating direction in a slit hole of a rotating disk or a fixed disk so that bubbles rise rapidly and are finely ground by a slope of a slit hole to generate a large amount of micro bubbles There is another purpose in providing the device.

In addition, the present invention provides an air cleaning apparatus using micro bubbles that can reduce power consumption and make it compact by generating a large amount of micro bubbles by rotating a rotating disk at a high speed between fixed disks using a DC motor There is a purpose.

Further, the present invention provides an air cleaning apparatus using micro bubbles that can reduce power consumption and simplify the apparatus because the blower fan that pressurizes the contaminated air into the outer cylinder by using the rotational force of the motor is operated There is another purpose.

In addition, the present invention is a concept of using water itself as a filter of an air purifying apparatus, in which various additives (fine dust removing agent, natural sterilizing agent, odor removing agent) are put into water to microbubble the air to primarily collect dust in the air And the water is circulated by the rotation of the rotating disk, the fine dust remaining in the fine bubbles is removed by the electrical adsorption force of the fine dust removing agent (char, activated carbon), and at the same time, the odor removing agent It is another object of the present invention to provide an air cleaning apparatus using microbubbles that enables sterilization of bubbles and deodorization by a natural disinfectant.

In the present invention, the blower fan is installed higher than the water level in the apparatus, and is connected to the air nozzle hole provided at the lowermost part of the apparatus by using the U-shaped air inflow pipe. Thus, before the air is blown, The air purifying device is provided with micro bubbles for eliminating defective factors such as water leakage by eliminating an artificial valve device between the air inlet pipe and the outer pipe by allowing the air to flow naturally into the device while the water level drops when the air is blown There is another purpose.

In the present invention, a foam layer of a certain thickness is formed at the uppermost part of the water in the apparatus by the rise of minute bubbles, which has the effect that the purified air in the apparatus stays briefly before the bubbles burst out. At this time, Another object of the present invention is to provide an air cleaning apparatus using a micro bubble which is provided with an ultraviolet ray irradiator on the bottom surface and finally sterilized.

According to an aspect of the present invention,

An outer tube formed into a cylindrical shape and storing water therein; A plurality of fixed disks formed in a cylindrical shape with an open top and a bottom and fixed to the inside of the outer cylinder and having a first shaft hole formed at a central portion thereof and a first slit hole formed outside the first shaft hole, ; A motor fixed to the outer cylinder; A plurality of rotary discs are vertically connected to the drive shaft of the motor by a coupler, a second shaft hole is formed at a central portion thereof, and a plurality of rotary discs having a second slit hole at an outer side of the second shaft hole, A driving shaft installed alternately and rotating the rotating disk according to the rotation of the motor to crush bubbles to generate micro bubbles; And an air nozzle provided between the bottom of the outer cylinder and the inner cylinder to supply the contaminated air to the inside of the inner cylinder through an air nozzle hole to generate bubbles and circulate the water of the outer cylinder in the inner cylinder by the rotational force and the water- And a nozzle unit provided with a water circulation port.

Here, the outer cylinder is provided with a cover having an air discharge hole for fixing the motor to the upper end and discharging the purified air, and a first valve is provided for supplying or discharging water to one side.

Here, the outer tube is provided with an ultraviolet ray irradiating means on the bottom surface of the cover, and a charging port is provided to discharge the additive to the cover of the outer tube.

Here, the inner cylinder is provided with a mesh-shaped disk filter so as to firstly crush the bubbles generated in the air nozzle hole at the inner lower end thereof.

Herein, the inner cylinder is provided with a plurality of bubbles in the water rotating along the inner wall surface of the inner cylinder by rotation of the rotary disk at the inner upper end thereof, and a plurality of A third band-shaped band filter in which a third slit hole is formed.

Here, each of the first slit holes of the fixed disk is formed radially with respect to the first shaft hole, and the widths thereof are formed to be equal to or different from each other, and each of the second slit holes Are formed radially with respect to the second shaft hole, and the widths thereof are formed to be the same or different from each other.

Here, each of the first slit holes may have the same length, or different lengths may be regularly arranged, each of the second slit holes may have the same length, or different lengths may be regular .

Here, each of the first slit holes and the second slit holes is formed to be vertically or inclined, and is formed to be symmetrical with respect to each other.

Here, the rotating disk is disposed such that the width of the second slit hole becomes gradually smaller as it goes up toward the upper side with respect to the driving shaft.

Here, it is preferable that the nozzle unit has the air nozzle hole and the air inflow pipe connected thereto, the air inflow pipe extending to the side of the outer pipe, the upper portion of the air inflow pipe being connected to the driving shaft of the motor, A second valve is provided in a branch pipe branching vertically downward from the lower portion of the air inflow pipe to discharge or supply water inside the inner pipe, do.

According to the air purifying apparatus using the micro bubble of the present invention, the rotary disk fixed to the shaft of the motor and the fixed disk not fixed to the shaft are alternately spaced apart, and the rotary disk and the fixed disk are provided with slit holes Bubbles are finely pulverized according to the rotation of the rotary disk through the slit holes of the rotary disk and the fixed disk to generate a large amount of microbubbles so that the contaminated air introduced into the apparatus from the outside is microbubbed, After collecting in the water, the purified air is discharged to the outside and used as a filter, so that only the polluted water can be reused after the use of the contaminated water, so that the contaminated air can be purified easily and hygienically.

Further, according to the present invention, by forming a slope in the slit hole of the rotating disk or the fixed disk in the rotating direction, bubbles and water can be rapidly raised and finely ground by the slope of the slit hole to generate a large amount of microbubbles.

According to the present invention, water is rapidly raised by the rotation of the disk, and the water is rotated and escaped out of the inner cylinder, thereby strongly promoting the inflow of water into the water circulation hole provided in the nozzle unit at the lower portion of the inner cylinder, It is possible to perform an air purifying function only with a predetermined amount of water supplied in the air.

According to the present invention, a rotating disk is rotated at a high speed between fixed disks using a DC motor to generate a large amount of micro bubbles, thereby reducing power consumption and making it compact.

According to the present invention, since the blower fan is driven using the rotational force of the direct current motor to pressurize the contaminated air into the outer cylinder, the power consumption can be reduced, and additives (fine dust remover, natural disinfectant, Odor eliminator, etc.) are injected through the inlet, and ultraviolet rays are irradiated to remove fine dust, sterilize and remove odors.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side cross-sectional view showing a configuration of an air cleaning apparatus using a micro bubble according to the present invention; FIG.
FIGS. 2A to 2D are top and cross-sectional views illustrating the structure of a fixed disk of an air cleaning apparatus using micro bubbles according to the present invention.
3A and 3B are perspective views showing the structure of a band filter of an inner cylinder in an air cleaning apparatus using micro bubbles according to the present invention.
4A to 4D are top and cross-sectional views illustrating a configuration of a rotary disk of an air cleaning apparatus using micro bubbles according to the present invention.
5 is a perspective view showing the structure of a nozzle unit of an air cleaning apparatus using micro bubbles according to the present invention.
FIG. 6 is an explanatory view showing a state in which a rotating disk and a fixed disk are arranged on a driving shaft according to an embodiment of the present invention.
7 is an explanatory view showing the operation of the air cleaning apparatus using micro bubbles according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure of an air cleaning apparatus using micro bubbles according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

FIG. 1 is a side sectional view showing the construction of an air cleaning apparatus using microbubbles according to the present invention, and FIGS. 2 (a) to 2 (d) are plan sectional views showing the structure of a fixed disk among air cleaning apparatuses using microbubbles according to the present invention, FIGS. 3A and 3B are perspective views showing the construction of a band filter of an inner cylinder in an air cleaning apparatus using microbubbles according to the present invention. FIGS. 4A to 4D are views FIG. 5 is a perspective view illustrating the structure of a nozzle unit of an air cleaning apparatus using micro bubbles according to the present invention, and FIG. 6 is a perspective view illustrating a structure of a nozzle unit according to an embodiment of the present invention. And Fig.

1 to 6, an air cleaning apparatus 1 using a micro bubble according to the present invention includes an outer cylinder 10, an inner cylinder 20, a motor 30, a drive shaft 40 and a nozzle unit 50, .

First, the outer cylinder 10 is formed of a metal or synthetic resin having a top surface opened in a cylindrical shape, and water is stored therein at a certain level or less.

Here, the outer cylinder 10 is provided with a cover 13 provided with an air discharge hole 11 for fixing a motor 30 to be described later at an upper end thereof and discharging clean air, The first valve 15 is provided.

The outer tube 10 is provided with an ultraviolet ray irradiation means 17 for generating ultraviolet rays such as an ultraviolet LED on the bottom surface of the cover 13 and is provided with a fine dust removing agent, An inlet 19 for discharging an additive such as a removing agent.

The inner shaft 20 is formed of a metal or a synthetic resin material having open top and bottom and is formed into a cylindrical shape and is fixedly installed in the outer cylinder 10. A first shaft hole 21 is formed at the center, A plurality of fixed disks 25 provided with the first slit holes 23 are fixedly installed in multiple stages by fixing bolts.

The inner tube 20 has a mesh-shaped disk filter 27 at the inner lower end thereof so as to firstly crush the bubbles generated in the air nozzle hole 51 of the nozzle unit 50 to be described below, The bubbles in the water rotating along the inner wall surface of the inner cylinder 20 are re-pulverized by the rotation of the rotating disk 47 of the drive shaft 40 to be described below, Band filter 29 in which a plurality of third slit holes 28 are formed in the direction of the band-shaped band filter 29.

2A to 2D, the first slit holes 23 of the fixed disk 25 are formed radially with respect to the first shaft hole 21, and the widths of the first slit holes 23 are equal to or different from each other , The lengths are formed to be the same, or the lengths are different from each other, are regularly arranged, are formed vertically, or are formed to have a slope in one direction.

3A and 3B, the band filter 29 is formed into a square band shape or a round shape, and is press-fitted into the inner upper end of the inner tube 20. As shown in FIG.

Further, the motor 30 is vertically fixed to the upper surface of the outer cylinder 10 as a DC motor. At this time, it is preferable to provide a controller (not shown) for controlling the rotation speed of the motor 30 and the power source.

The drive shaft 40 is vertically connected to the drive shaft of the motor 30 by a coupler 41 and formed with a second shaft hole 43 at the center thereof and a second shaft hole 43 formed outside the second shaft hole 43 A plurality of rotary discs 47 having second slit holes 45 are provided in a plurality of stages by means of spacers 49. The rotary discs 47 are provided alternately with the stationary disc 25 of the inner cylinder 20, The rotating disk 47 is rotated to crush the bubbles to generate micro bubbles. At this time, it is preferable that the rotary disk 47 maintains a distance of 1.0 to 2.0 mm from the fixed disk 25.

4A to 4D, the second slit holes 45 of the rotary disk 47 are formed radially with respect to the second shaft hole 43, and are formed to have the same width or different And are formed so as to have the same length or different lengths and are formed to be vertically formed or inclined in one direction and to be symmetrical with the inclination of the first slit hole 23 of the fixed disk 25 .

5, the nozzle unit 50 is formed in a cylindrical shape so as to engage with the bottom surface of the inner cylinder, and external air is supplied into the inner cylinder 20 through the air nozzle hole 51 to generate bubbles And a water circulation port 53 for circulating the water in the outer tub to the inner tub 20. At this time, bubbles are generated by supplying air from the outside through the air nozzle hole 51, and a bearing 55 is provided at the center of the upper surface to rotate the drive shaft 40.

The nozzle unit 50 is connected to the air nozzle hole 51 and the air inflow pipe 57. The air inflow pipe 57 extends to the side of the outer tube 10 and is connected to the air inflow pipe 57, And a blower fan 59 connected to the driving shaft of the motor 30 by a chain, a belt, or the like, for introducing the contaminated air into the air nozzle hole 51 by the rotation of the motor 30. At this time, the water of the outer cylinder 10 flows into the air inlet pipe 57 and remains at the same level as the water level. When the contaminated air flows through the blower 59, the water level is lowered by the pressure, Supply polluted air. The air inlet pipe 57 is provided with a second valve 58 at a branched branch 57a branching vertically downward from the bottom to discharge or supply water inside the inner cylinder 20. [

6 is a view illustrating a state in which a rotating disk and a fixed disk according to an embodiment of the present invention are disposed on a drive shaft. As shown in FIG. 6, four rotating disks 47 and three fixed disks The second slit hole 45 is formed to have a width of 2 mm, 1.5 mm, 1.0 mm, and 0.5 mm from the bottom to the top of the rotating disk 47, The first slit hole 23 is formed to have a width of 2 mm, 1.5 mm, 1.0 mm and 0.5 mm from the bottom to the top and the second slit hole 23 is formed in the second slit hole 45 of each rotating disk 25 And an interval between the fixed disk 25 and the rotating disk 45 is set to 1.5 mm.

In addition to the arrangement shown in Fig. 6, the first and second slit holes 23 and 45 may be formed to have the same interval, or both the rotary disc 47 and the fixed disc 25 may be inclined have.

Hereinafter, the operation of the air cleaning apparatus using the micro bubble according to the present invention will be described in detail with reference to the accompanying drawings.

7 is an explanatory view showing the operation of the air cleaning apparatus using micro bubbles according to the present invention.

First, when power is supplied while water is stored in the outer cylinder 10, the driving shaft 40 is rotated by the motor 30 to rotate the rotating disk 47.

At the same time, the fan 59 of the nozzle unit 50 is rotated and the contaminated air flows into the air inflow pipe 57.

The water in the air inlet pipe 57 is discharged to the inner cylinder 20 through the air nozzle hole 51 by the pressure so that the contaminated air flows into the inner cylinder 20 through the air nozzle hole 51.

Subsequently, when the air nozzle hole 51 of the nozzle unit 50 flows into the inner cylinder 20, air bubbles are generated by being mixed with the water circulated to the inner cylinder 20, and are raised and divided through the disk filter 27 .

The finely divided bubbles are changed into micro bubbles while passing through the second slit holes 45 of the rotary disk 47 and the first slit holes 33 of the fixed disk 35 by being rotated inside the inner cylinder 20, The air pollutants are primarily mixed with the water in the inner tube 20 and collected.

In addition, the bubbles contained in the water rush through the wall surface of the inner tube 20 due to the rotational force. At this time, vortex is generated while passing through the band filter 29, and the bubbles are subdivided once again and a plurality of kinds of additives The micro-dust in the bubbles is removed, sterilized, and the odor is removed.

At this time, the fine dust removal is based on the electrical attraction between the fine dust removing agent and the fine dust, and the plural kinds of additives use natural materials harmless to the human body.

The raised water in the inner tube 20 is discharged to the outer cylinder 10 and then moved to the lower portion of the outer cylinder 10 and then flows into the water circulation port 53 of the nozzle unit 50 to be circulated continuously .

On the other hand, if water is dropped by the micro bubble after a predetermined time, the air is discharged through the air discharge hole 11 of the outer cylinder 10. At this time, a foam layer is formed on the water surface by the micro bubble before the air is discharged. This is because the discharge of the purified air from the outer cylinder 10 is delayed to some extent to maximize the cleaning effect, And provides a time for ultimate sterilization treatment effectively by ultraviolet rays.

In addition, a plurality of kinds of additives used for removing fine dust, bacteria and odors are put into the outer cylinder 10 by the user through the inlet 19.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

The air purifying apparatus using micro bubbles according to the present invention can be applied to an air purifier, a vacuum cleaner, and the like.

10: outer tube 20: inner tube
23: first slot hole 25: fixed disk
30: motor 40: drive shaft
45: second slot hole 47: rotating disk
50: nozzle unit 51: air nozzle hole
53: Water circulation hole

Claims (10)

An outer tube formed into a cylindrical shape and storing water therein;
A plurality of fixed disks formed in a cylindrical shape with an open top and a bottom and fixed to the inside of the outer cylinder and having a first shaft hole formed at a central portion thereof and a first slit hole formed outside the first shaft hole, ;
A motor fixed to the outer cylinder;
A plurality of rotary discs are vertically connected to the drive shaft of the motor by a coupler, a second shaft hole is formed at a central portion thereof, and a plurality of rotary discs having a second slit hole at an outer side of the second shaft hole, A driving shaft installed alternately and rotating the rotating disk according to the rotation of the motor to crush bubbles to generate micro bubbles; And
And a circulation pump for circulating the water in the outer cylinder by the rotational force of the rotary disk and the water lift force And a nozzle unit provided with a water circulation port. The method according to claim 1,
In the outer tube,
Characterized in that a cover having an air discharge hole for fixing the motor to the upper end and discharging purified air is provided and a first valve is provided to supply or discharge water to one side of the air Cleaner. 3. The method of claim 2,
In the outer tube,
Characterized in that an ultraviolet ray irradiating means is provided on the bottom surface of the cover, and a charging port is provided to discharge the additive to the cover of the outer cylinder. The method according to claim 1,
In the inner cylinder,
And a mesh-type disk filter is provided at an inner lower end to crush the bubbles generated in the air nozzle hole at a first stage. The method according to claim 1,
In the inner cylinder,
A plurality of third slit holes are formed in the width direction in order to repulse the bubbles in the water rotating along the inner wall surface of the inner tube by rotation of the rotary disk at the inner upper end and promote the reaction of the contaminants with a plurality of kinds of additives And a band-type band filter is provided in the air cleaning unit. The method according to claim 1,
Each of the first slit holes of the fixed disk
The first shaft hole is formed radially with respect to the first shaft hole, and the widths thereof are formed to be the same or different from each other,
Wherein each of the second slit holes of the rotating disk includes:
Wherein the first and second shaft holes are formed radially with respect to the second shaft hole and are formed to have the same width or different from each other. The method according to claim 6,
Each of the first slit holes
The lengths may be the same or the lengths may be different from each other regularly,
Each of the second slit-
Wherein the lengths of the air bubbles are the same or the lengths thereof are different from each other regularly. The method according to claim 6,
The first slit hole and the second slit hole,
Wherein the air bubbles are vertically formed or formed to have an inclination and are formed to be symmetrical with respect to each other. The method according to claim 1,
The rotating disk includes:
Wherein a width of the second slit hole is gradually decreased from the upper side toward the upper side with respect to the driving shaft. The method according to claim 1,
The nozzle unit includes:
Wherein the air inlet pipe is connected to the air inlet pipe, the air inlet pipe extends to the side of the outer cylinder, and the upper end of the air inlet pipe is connected to the driving shaft of the motor, And a second valve is provided in a branch pipe branching vertically downward from a lower portion of the air inlet pipe to discharge or supply water in the inner pipe. Used air purifier.

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