KR102422308B1 - An air cleaner - Google Patents

Abstract

The present invention relates to an air purifying apparatus and, more particularly, to an air purifying apparatus having a simple structure to maximize dust collection efficiency, wherein the air purifying apparatus comprises: a housing (100) having a flow path formed therein, an inlet (101) formed at one side to introduce external air, and an outlet (102) formed at the other side to discharge internal air to the outside; a first dust collection unit (210) accommodated in the inner space of the housing (100) to receive electrical energy and primarily collect dust particles; and a second dust collection unit (220) disposed between the first dust collection unit (210) and the outlet. The first dust collection unit (210) includes: a first cell (211) disposed adjacent to the inlet (101); and a second cell (212) having at least one portion disposed more adjacent to the outlet (102) than the first cell (211). The second dust collection unit (220) includes a light source and a photocatalytic filter. In the air purifying apparatus, the first cell (211) and the second cell (212) are disposed not parallel to each other so that the transfer direction of the internal air makes the air flow become irregular by the first cell (211) and the second cell (212) through a direction change with respect to the imaginary line connecting the inlet (101) to the outlet (102), thereby increasing the resistance value of the air passing between the dust collection cells to improve the dust collection power, and as a result, maximizing the dust collection efficiency.

Description

An air cleaner

The present invention relates to an air purifying device, and more particularly, to an air purifying device having a simple structure and maximizing dust collection efficiency.

Recently, interest in air quality is high along with environmental issues.

Air pollution is a factor that has harmful effects on the human body, including respiratory diseases.

Among them, pollutants such as chemicals, oil, and foreign substances are included in the air exhausted from factories or workplaces in various fields. Since these pollutants become a factor of environmental pollution, the air must be purified and exhausted.

In the related art, filters of various types and materials have been proposed and used to purify the exhausted air, but in terms of actual effectiveness, unsatisfactory results are obtained.

On the other hand, synthetic resin filters are inconvenient to use because it is common to replace them with new filters after being used for one-time use. have.

In addition, such a conventional synthetic resin filter has a problem that the dust collection efficiency is not high.

Conventionally, after use, the synthetic resin filter is cleaned and reused by tearing, and the filter is clogged with fine dust and ultrafine dust, resulting in a decrease in air permeability and dust collection efficiency. And in the process of removing pollutants, there was a problem of re-discharge of air pollutants again.

Here, the process of removing contaminants could include a process of wiping off.

On the other hand, metal filters can be used for a long time through a simple cleaning process, so their use is increasing recently. There is an urgent need for an air purifying device.

JP 2015-516297 A

An object of the present invention for overcoming the above problems of the prior art is to provide an air purifier that maximizes dust collection efficiency even with a compact and simple structure.

a housing 100 having a flow path formed therein, an inlet 101 through which external air is introduced from one side, and an outlet 102 through which the inside air is discharged to the outside at the other side; a first dust collecting unit 210 accommodated in the inner space of the housing 100 and receiving electric energy to primarily collect dust particles; and a second dust collecting unit 220 disposed between the first dust collecting unit 210 and the outlet, wherein the first dust collecting unit 210 includes a first cell 211 disposed adjacent to the inlet 101 and , at least a portion of the second cell 212 disposed closer to the discharge port 102 than the first cell 211; and the second dust collecting unit 220 includes a light source and a photocatalytic filter, and the The first cell 211 and the second cell 212 are disposed not in parallel with each other, so that the transfer direction of the internal air is directed to the inlet 101 by the first cell 211 and the second cell 212 . ) and the imaginary line connecting the outlet 102 by changing the direction to make the air flow irregularly, increasing the resistance value of the air passing between the dust collecting cells to improve the dust collecting power. include

In addition, at least one of the first dust collecting unit 210 or the second dust collecting unit 220 includes an air purifier characterized in that it is slidably received and withdrawn through the side surface of the housing 100 .

In addition, the inside of the housing includes an air purifying device characterized in that the diffuser 300 is formed to diffuse the outside air flowing in through the inlet to the first cell 211 .

In addition, it includes an air purifier, characterized in that the voltage applied to the first cell (211) is greater than the voltage applied to the second cell (212).

In addition, at least one of the first cell 211 and the second cell 212 includes an air purifier characterized in that a wave portion 500 for disturbing the straightness of the internal air is formed.

In addition, the photocatalyst of the photocatalytic filter of the second dust collecting unit 220 includes an air purifier, characterized in that applied to the inner wall of the housing.

According to the present invention as described above, there are the following effects.

First, through the operation of the blower fan provided in the housing 100, external air is introduced into the housing 100 through the lower air inlet 101 of the housing 100, and then through a process of removing contaminants to be described below. Due to the reduction in the mass of the contaminants per unit volume, the air upward force by the blowing fan may be improved, resulting in an effect of improving the diffusion power of the air through the upper air outlet 102 .

Second, the first photocatalytic filter unit 221 may be provided on the first inner wall 110 along the longitudinal direction of the housing 100 in a direction in which the first photocatalytic filter is parallel to the first inner wall 110 .

Therefore, the advantage of improving the dust collection effect is exhibited by increasing the contact area of the photocatalyst of the internal air while having little influence on the flow of the internal air.

Third, since the second photocatalytic filter can be provided on the second inner wall 120 along the longitudinal direction of the housing 100 in a direction parallel to the second inner wall 120 , it has little effect on the flow of the internal air. As the contact area of the photocatalyst of air is increased, the advantage of improving the dust collection effect is exhibited.

Fourth, the cross section of the first dust collecting part 210 or the second dust collecting part 220 may include the wave part 500 in which the curves are formed alternately left and right with respect to the air traveling direction.

In other words, since the internal air travels while passing through the wave unit 500 and collides left and right, the resistance value increases, and the air wind speed between the cells is maintained constant, thereby improving the dust collection rate.

Fifth, since the photocatalyst of the photocatalytic filter of the second dust collecting unit 220 can be applied to the inner wall of the housing, a more compact size can be achieved, thereby escaping from the limitation of the installation space of the air purifier.

1 is a cross-sectional view of a dust collector according to a first preferred embodiment of the present invention.
2 is a side view of a dust collector according to a first preferred embodiment of the present invention.
3 is a cross-sectional view of a dust collector according to a second preferred embodiment of the present invention.
4 is a side view of a dust collector according to a second preferred embodiment of the present invention.
5 is a partial cross-sectional view of the first dust collecting unit 210 or the second dust collecting unit 220 according to the third preferred embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing each figure, like reference numerals are used for like elements.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. The term “and/or” includes a combination of a plurality of related listed items or any of a plurality of related listed items.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. shouldn't

Although arrows in the drawings shown below are only partially indicated, it should be understood that this is for briefly showing the direction of air flow, and is not concentrated in a specific area.

In addition, the photocatalyst in various embodiments of the present invention may include titanium oxide.

On the other hand, the concept of up and down described below may refer to the height from the ground, but more strictly, the area before passing through a certain point based on the flow direction of the air may be referred to as the lower portion, and the area passing through may be referred to as the upper portion.

For example, as shown in FIG. 1 , in the positional relationship between the sphere 101 and the first dust collecting unit 210 , the first dust collecting unit 210 is disposed on the upper side with respect to the inlet 101 , and the inlet 101 is the first dust collecting unit on the contrary. It can be said that it is arranged at the lower part with respect to 210, which is an expression applied even when the longitudinal direction of the housing 100 is a vertical arrangement perpendicular to the ground, that is, a vertical arrangement of the air purifier, and on the other hand, 5, the longitudinal direction of the housing 100 is the same as in the case of a horizontal arrangement parallel to the ground.

Even in the horizontal arrangement, the inlet 101 is disposed below the first dust collecting unit 210 , and it should be understood that this is because the description is based on the time-series flow of the air flow path.

1 is a cross-sectional view of a dust collector according to a first preferred embodiment of the present invention, and FIG. 2 is a side view of the dust collector according to a first preferred embodiment of the present invention.

The inlet 101 has a flow path formed therein and is a part through which external air is introduced from one side, and the outlet 102 is a part through which internal air is discharged from the other side of the housing 100 to the outside.

In this case, it may be preferable to use a diffuser in which the flow uniformity affects the flow expandability so that the speed of the air is formed indefinitely when the air is introduced.

It is a part that primarily collects dust particles.

The second dust collecting unit 220 may be disposed between the first dust collecting unit 210 and the discharge port 102 .

The first dust collecting unit 210 includes a first dust collecting cell 211 disposed adjacent to the inlet 101 , and a second dust collecting cell 212 , at least a portion of which is disposed closer to the outlet than the first dust collecting cell 211 . may include

The first dust collecting cell 211 and the second dust collecting cell 212 are disposed not in parallel with each other, so that the transport direction of the internal air is the inlet 101 by the first dust collecting cell 211 and the second dust collecting cell 212 . By changing the direction with respect to the imaginary line connecting the and the outlet 102, the flow of air is made irregular, so that the resistance value of the air passing between the dust collecting cells is increased, thereby improving the dust collecting power.

In more detail, the housing 100 may have a rectangular cross-section as a whole, and a rectangular column shape with an air flow path formed therein.

It may be preferable that the diffuser 300 communicating with the air inlet 101 be provided at the lower inside of the housing 100 .

The diffuser 300 may provide a flow that spreads so that the air introduced into the housing 100 through the air inlet 101 is blown upward in the housing 100 .

In more detail, the diffuser 300 may allow the air introduced into the housing 100 to be blown into dispersed air by the uniformity of the flow of the air in the housing 100 affecting the flow scalability.

The flow scalability may mean that the air flow is uniformly expanded.

In other words, the diffuser 300 can expand and disperse the wind direction constantly entering the inlet 101 , thereby improving dust collection efficiency.

The housing 100 may include a lower portion in which an air inlet 101 is formed so that external air is sucked while being placed on the floor.

In addition, the housing 100 may have an upper portion in which an air outlet 102 for discharging air toward the air while extending a predetermined distance upward from the lower portion is formed.

A blowing fan (not shown) may be provided on the housing 100 .

In other words, external air is introduced through the lower portion of the housing 100 by the transfer force of the blower fan, is converted into clean air inside the housing 100, and then discharged to the air through the upper air outlet 102 . do.

At this time, the external air refers to air existing in the space surrounding the outermost portion of each cross-section of the housing 100 , and the internal air refers to air passing through the inside of the housing 100 .

On the other hand, external air contains pollutants harmful to the human body (hereinafter referred to as 'pollutants') such as fine dust, ultrafine dust, VOC, and Nox.

Accordingly, after external air is introduced into the housing 100 through the air inlet 101 at the lower part of the housing 100 by the operation of the blower fan provided in the housing 100, contaminants to be described below are removed through the process. Due to the reduction in the mass of the contaminants per unit volume, the air upward force by the blowing fan may be improved, resulting in an effect of improving the diffusion power of the air through the upper air outlet 102 .

Such an effect may be further improved, in particular, through the removal of fine particles (PM) contained in the outside air.

On the other hand, the housing 100 may be provided with sidewalls extending in the vertical direction, and these sidewalls form an internal air flow path.

In more detail, the sidewall may include a first inner wall 110 and a second inner wall 120 that face each other.

The air inlet 101 may be formed on the lower side of the first inner wall 110 .

The first dust collecting unit 210 may include a first dust collecting cell 211 and a second dust collecting cell 212 provided inside the housing 100 at different heights and angles, respectively.

The first dust collecting cell 211 may have a first side portion adjacent to the first inner wall 110 , and a second side portion adjacent to the second inner wall 120 .

In addition, the first dust collecting cell 211 may have an inclination such that the height of the first dust collecting cell 211 gradually increases as it goes from the first side part 211c to the second side part 211d as a whole.

In addition, a first protrusion 401 having an inclination parallel to the first side portion 211c of the first dust collecting cell 211 may be formed on the lower side of the first inner wall 110 at the upper portion of the diffuser 300 .

In other words, the first protrusion 401 can be guided while being in close contact with the first side portion 211c of the first dust collecting cell 211 , and is formed inside a gap between the first dust collecting cell 211 and the first protrusion 401 . Air may not escape.

In addition, a third protrusion 403 having an inclination parallel to the third side surface 212c of the second dust collecting cell 212 may be formed on the upper side of the first inner wall 110 .

In other words, the third protrusion 403 can be guided while being in close contact with the third side surface 212c of the second dust collecting cell 212 , and is formed inside a gap between the second dust collecting cell 212 and the third protrusion 403 . Air may not escape.

Meanwhile, in the second dust collecting cell 212 , the third side part 212c may be adjacent to the first inner wall 110 , and the fourth side part 212d may be provided adjacent to the second inner wall 120 .

The second dust collecting cell 212 may have an inclination such that the height gradually decreases as it goes from the first side part 211c to the second side part 211d as a whole.

In other words, the first dust collecting cell 211 and the second dust collecting cell 212 are provided with an inclination to each other without being parallel to the bottom surface.

Meanwhile, the second dust collecting unit 220 may be provided on the first inner wall 110 and the second inner wall 120 , respectively.

In more detail, the second dust collecting unit 220 according to the first preferred embodiment of the present invention may include a photocatalytic filter and a light source.

The second dust collecting unit 220 may include a first photocatalytic filter unit 221 and a second photocatalytic filter unit 222 .

The first photocatalytic filter unit 221 may be provided on the first inner wall 110 between the first dust collecting cell 211 and the second dust collecting cell 212 .

In other words, the first photocatalytic filter unit 221 may be provided on the first inner wall 110 along the longitudinal direction of the housing 100 in a direction in which the first photocatalytic filter is parallel to the first inner wall 110 .

Therefore, the advantage of improving the dust collection effect is exhibited by increasing the contact area of the photocatalyst of the internal air while having little influence on the flow of the internal air.

In addition, it may be preferable that the first light source is provided on the second protrusion 402 to be irradiated toward the first photocatalytic filter of the first photocatalytic filter unit 221 .

In other words, since the first light source is provided on the second protrusion 402 provided on the second inner wall 120 , the light can be vertically incident toward the first photocatalytic filter.

Meanwhile, the second photocatalytic filter unit 222 may be provided on the second inner wall 120 above the second protrusion 402 .

The second photocatalytic filter unit 222 may include a second photocatalytic filter and a second light source.

More specifically, the second photocatalytic filter may be provided on the second inner wall 120 along the longitudinal direction of the housing 100 in a direction parallel to the second inner wall 120 .

Accordingly, the dust collection effect is improved by increasing the contact area of the photocatalyst of the internal air while having little influence on the flow of the internal air.

In addition, it may be preferable that the second light source is provided on the third protrusion 403 so as to be irradiated toward the second photocatalytic filter of the second photocatalytic filter unit 222 .

In other words, the second light source is provided on the third protrusion 403 provided on the first inner wall 110 , so that light may be vertically incident toward the second photocatalytic filter.

Meanwhile, the first dust collecting cell 211 may include a first ionizer 211a and a first dust collecting filter 211b.

In more detail, the first ionizer 211a may be formed by being attached to the lower portion of the first dust collecting filter 211b.

Therefore, the internal air may be provided to the first dust collecting cell 211 through the diffuser 300 , and the contaminants are charged through the first ionizer 211a provided in the first dust collecting cell 211 to have an electric charge. As a result, contaminants having an electric charge can be collected in the first dust collecting filter 211b.

In addition, the second dust collecting cell 212 may include a second ionizer 212a and a second dust collecting filter 212b.

In more detail, the second ionizer 212a may be formed by being attached to the lower portion of the second dust collecting filter 212b.

Accordingly, the internal air may be provided to the second dust collecting cell 212 through the diffuser 300 , and the contaminants are charged through the second ionizer 212a provided in the second dust collecting cell 212 to have an electric charge. As a result, contaminants having an electric charge can be collected in the second dust collecting filter 212b.

In this case, the voltage applied to the first dust collecting cell 211 may be greater than the voltage applied to the second dust collecting cell 212 .

More preferably, the first voltage applied to the first ionizer 211a of the first dust collecting cell 211 is 2 of the second voltage applied to the second ionizer 212a of the second dust collecting cell 212 . It may be desirable to be a ship.

On the other hand, the first dust collecting unit 210 can be accommodated by sliding into the housing 100 (see FIG. 3 ).

3 is a cross-sectional view of a dust collector according to a second preferred embodiment of the present invention, and FIG. 4 is a side view of the dust collector according to a second preferred embodiment of the present invention.

In a second preferred embodiment of the present invention, the second dust collecting filter 220 may be provided between the second dust collecting cell 212 and the air outlet 102 .

In other words, the second dust collecting filter 220 is provided on the upper side of the housing 100 while being provided above the second dust collecting cell 212 , thereby remaining contaminants remaining in the internal air passing through the second dust collecting cell 212 . can be finally filtered.

Although the second dust collecting filter 220 has an inclination with respect to the first dust collecting cell 211 and the second dust collecting cell 212, it may be preferable to be provided parallel to the bottom surface.

4 is a lateral sliding withdrawal view of the first dust collecting unit 210 and the second dust collecting unit 220 according to a second preferred embodiment of the present invention.

In other words, as shown in FIG. 4 , the first dust collecting cell 211 and the second dust collecting cell 212 forming the first dust collecting unit 210 and the photocatalytic filter forming the second dust collecting unit 220 are directed toward the side of the housing 100 . Sliding withdrawal and storage are possible.

Accordingly, there is an advantage in that the first dust collecting cell 211 and the second dust collecting cell 212 or the photocatalytic filter that is the second dust collecting unit 220 can be easily replaced and inspected.

6 is a partial cross-sectional view of the first dust collecting unit 210 or the second dust collecting unit 220 according to the third preferred embodiment of the present invention.

As shown in FIG. 6 , the cross-section of the first dust collecting unit 210 or the second dust collecting unit 220 may include a wave unit 500 having a curved shape alternately left and right with respect to the air traveling direction.

In other words, since the internal air progresses while passing through the wave part 500 and collides left and right, the resistance value is increased, and the air wind speed between the dust collecting cell and the dust collecting cell is maintained constant, so that the dust collection rate is improved.

On the other hand, the second dust collecting unit 220 of another embodiment of the present invention includes a light source and a photocatalytic filter, and the inner wall of the housing serves as a photocatalytic filter, so it may be desirable to produce a photocatalytic effect without attaching a separate photocatalytic filter.

On the other hand, it may be preferable that the air purifier according to another embodiment of the present invention be arranged horizontally.

That is, the longitudinal direction of the housing 100 can be arranged in parallel with the ground.

In other words, the height of the air inlet 101 and the air outlet 102 may be arranged side by side on the ground to be the same.

In addition, in the air purifying device according to another embodiment of the present invention, the photocatalyst of the photocatalytic filter of the second dust collecting unit 220 may be applied to the inner wall of the housing 100 .

As a result, the inner space of the housing 100 is saved, and a more compact housing can be taken, thereby freeing from the limitation of the installation space of the air purifier, and at the same time, the photocatalyst of the photocatalytic filter of the second dust collecting unit 220 is By being applied to the inner wall surface of the housing 100, it is possible to faithfully perform the role of a photocatalyst without affecting the internal air flow.

In addition, in the above-described various embodiments, the first dust collecting unit 210 may be rotatably installed.

In more detail, each of the cells constituting the first dust collecting unit 210, that is, the first dust collecting cell 211 and the second dust collecting cell 212 may be rotatably provided so that the angles can be different from each other.

Although not shown, the degree of pollution of the air around the housing 100 and the type and amount of pollution source are sensed by a sensing unit (not shown) provided in the housing 100, and accordingly, the flow amount and flow rate of the air inside the housing 100 is determined. can be set, and accordingly, the angles of the first dust collecting cell 211 and the second dust collecting cell 212 can be variably set to maximize the contaminant removal efficiency.

At this time, between the outer peripheral surface of the first dust collecting cell 211 and the second dust collecting cell 212 and the inner wall of the housing 100, according to the rotation of the first dust collecting cell 211 and the second dust collecting cell 212, the first dust collecting cell ( 211) and since a round portion (not shown) corresponding to the round surface drawn by the outer peripheral surfaces of the first dust collecting cell 211 and the second dust collecting cell 212 may be provided, each of the first dust collecting cell 211 and the second dust collecting cell 212 and the housing (100) It should be understood that the internal air is prevented from escaping through the gap between the inner walls, and the internal air can only flow through the first dust collecting cell 211 and the second dust collecting cell 212 .

In addition, the first rotational shaft of the first dust collecting cell 211 may be provided side by side with the first side part 211c and the second side part 211d at a midpoint between the first side part 211c and the second side part 211d. have.

A round part (not shown) may be formed in the first protrusion 401 along the trajectory drawn by the first side part 211c about the first rotation axis.

A round part (not shown) may be formed in the second protrusion 402 along the trajectory drawn by the second side part 211d about the first rotation axis.

In addition, the second rotation shaft of the second dust collecting cell 212 may be provided in parallel with the third side part 212c and the fourth side part 212d at a midpoint between the third side part 212c and the fourth side part 212d. .

A round part (not shown) may be formed in the second protrusion 402 along the trajectory drawn by the fourth side part 212d about the second rotation axis.

A round part (not shown) may be formed in the third protrusion 403 along the trajectory drawn by the third side part 212c about the second rotation axis.

100: housing
101: air inlet
102: air outlet
110: first inner wall
120: second inner wall
210: first dust collecting unit
211: first dust collecting cell
212: second dust collecting cell
211a: first ionizer
212a: second ionizer
220: second dust collecting unit
300: diffuser
401: first protrusion
402: second protrusion
403: third protrusion
500: wave part

Claims (6)

a housing 100 having a flow path formed therein, an inlet 101 through which external air is introduced from one side, and an outlet 102 through which the inside air is discharged to the outside at the other side;
a first dust collecting unit 210 accommodated in the inner space of the housing 100 and receiving electrical energy to primarily collect dust particles;
A second dust collecting unit 220 disposed between the first dust collecting unit 210 and the discharge port; including,
The first dust collecting unit 210 includes a first cell 211 disposed adjacent to the inlet 101 , and at least a portion of a second cell disposed closer to the outlet 102 than the first cell 211 . (212); including;
The first cell 211 includes a first ionizer 211a and a first dust collecting filter 211b, and the second cell 212 includes a second ionizer 212a and a second dust collecting filter 212b. including,
The second dust collecting unit 220 includes a light source and a photocatalytic filter, and the first cell 211 and the second cell 212 are not arranged in parallel with each other, so that the transport direction of the internal air is the first cell 211 and the second cell 212 make an irregular flow of air through a direction change with respect to an imaginary line connecting the inlet 101 and the outlet 102 by way of the air passing between the dust collecting cells. Increase the resistance value to improve the dust collection power,
The voltage applied to the first cell 211 is greater than the voltage applied to the second cell 212,
The housing 100 includes a first inner wall 110 and a second inner wall 120 , and a first side portion 211c of the first cell 211 and a third of the second cell 212 . A side portion 212c is disposed adjacent to the first inner wall 110 , and a second side portion 211d of the first cell 211 and a fourth side portion 212d of the second cell 212 are disposed in the first cell 211 . 2 is disposed adjacent to the inner wall 120,
The first cell 211 has an inclination that gradually increases in height from the first side part 211c toward the second side part 211d, and the second cell 212 has the third side part 212c. It has an inclination that gradually decreases in height as it goes in the direction of the fourth side part 212d from
A first protrusion 401 having an inclination parallel to the first side portion 211c of the first cell 211 is formed below the first inner wall 110 , and A third protrusion 403 having an inclination parallel to the third side surface 212c of the second cell 212 is formed on the upper side, and the second inner wall 120 of the first cell 211 is formed on the upper side. A second protrusion 402 having a slope parallel to the second side portion 211d and a slope parallel to the fourth side portion 212d of the second cell 212 is formed,
The second dust collecting unit 220 includes a first light source and a first photocatalytic filter unit 221 disposed between the first cell 211 and the second cell 212 , and the second cell 212 and the It includes a second light source and a second photocatalytic filter unit 222 disposed between the discharge port 102,
The first photocatalytic filter unit 221 is provided on the first inner wall 110 and is disposed between the first protrusion 401 and the third protrusion 403 , and the first light source is the first photocatalyst It is provided on the second protrusion 402 to irradiate light toward the filter unit 221,
The second photocatalytic filter unit 222 is provided on the second inner wall 120 and disposed above the second protrusion 402 , and the second light source is directed toward the second photocatalytic filter unit 222 . It is provided on the third protrusion 403 to irradiate light,
The first cell 211 and the second cell 212 are respectively rotatably installed so as to have different angles with each other, and the first axis of rotation of the first cell 211 is the first side part 211c. and the first side part 211c and the second side part 211d at the midpoint of the second side part 211d, and provided in parallel with the second side part 211d, and the second rotation axis of the second dust collecting cell 212 is the third side part provided in parallel with the third side part 212c and the fourth side part 212d at a midpoint between the 212c and the fourth side part 212d
air purifier.
According to claim 1,
At least one of the first dust collecting unit 210 or the second dust collecting unit 220 is characterized in that sliding storage and withdrawal through the side surface of the housing 100,
air purifier.
According to claim 1,
A diffuser 300 is formed inside the housing to diffuse the external air introduced through the inlet to the first cell 211 and provide it,
air purifier.
delete According to claim 1,
At least one of the first cell 211 and the second cell 212 is characterized in that a wave portion 500 for disturbing the straightness of the internal air is formed,
air purifier.
According to claim 1,
The photocatalyst of the photocatalytic filter of the second dust collecting unit 220 is coated on the inner wall of the housing,
air purifier.

Images