KR102017250B1 - Air cleaning apparatus for windows - Google Patents

Abstract

The present invention relates to an air purifier installed on a window (WF) including a window frame (F) having a window (W) coupled to be opened and closed, which comprises: a housing (10) fitted and coupled to a window frame (F); a detachable box (20) installed inside the housing (10), and installed with a box terminal (26) for supplying power; a plurality of plasma dust collecting filters (30) having a filter terminal (36) automatically connected to the box terminal (26) when being coupled to the detachable box (20) to receive power, forming a stacked structure when being coupled to the detachable box (20) to collect passing fine dust in air through a plasma dust collection method; a flow path conversion chamber (40) positioned at the housing (10) of a lower side of the detachable box (20), communicating the plasma dust collecting filters (30) with an indoor side (I) or communicating the plasma dust collecting filters (30) with an outdoor side (O) with respect to a window (WF); and a fan (50) positioned at the housing (10) of an upper side of the plasma dust collecting filters, and discharging air introduced into the flow path conversion chamber (40) to the indoor side (I) via the plasma dust collecting filters (30).

Description

Window cleaning plasma air purifier {Air cleaning apparatus for windows}

The present invention relates to a window type plasma air purifier, and more particularly, to a window type plasma air purifier that can be installed without changing the structure of the window.

Recently, the air quality of our country is very poor by the fine dust flowing from China or generated in the country, and the fine dust has become very serious enough to fundamentally change the recent life patterns.

The amount of fine dust varies depending on the size. For example, the thickness of human hair is 50 ~ 100㎛, dust of about 10㎛ size is filtered out of the respiratory tract, ultra-fine particles within 2.5㎛ penetrates the trachea directly into the bronchus or lungs to damage the alveoli, It is the cause of emphysema and asthma and has been designated as a Group 1 carcinogen by the WTO.

As such, the fine dust is very harmful to the human body, and thus, in order to minimize the inflow of fine dust into the body, many homes and offices are using an air purifier. Since the air purifier filters fine dust in the air, all windows are closed to prevent air from entering the air during use.

By the way, when you close the window and use the air purifier, you can remove the fine dust in the room, but the concentration of carbon dioxide in the room is increased by the carbon dioxide generated during breathing, and the smell from the food cooking process or furniture remains in the room. Air quality was reduced. That is, when the window is closed to use the air purifier, the concentration of carbon dioxide in the room is increased or the odor is left. On the contrary, when the window is opened for ventilation, external fine dust is introduced.

The present invention has been made to solve the above problems, and can be installed without changing the structure of the existing windows, provides a window type plasma air purifier that can purify the air in the large indoor space by the plasma dust collecting method. It aims to do it.

Another object of the present invention is to provide a window type air purifying apparatus which can remove fine dust in the air flowing into the room, prevent the rise of carbon dioxide concentration, and prevent the living odor from remaining.

In order to achieve the above object, the window-type plasma air purifying apparatus according to the present invention, which is installed in the window (WF) consisting of a window frame (F) that the window (W) is coupled to open and close, the window ( W) and the housing 10 having a slim shape to be coupled to the window frame (F); A detachable box 20 installed inside the housing 10 and stacking a plurality of plasma dust collecting filters 30 for collecting fine dust in the air by a plasma dust collecting method to form a stacked structure; Located in the lower housing 10 of the detachable box 20, the laminated structure of the plasma dust collecting filter 30 and the indoor side (I) to communicate with the window (WF), or the plasma dust collection A flow path conversion chamber 40 communicating the laminated structure of the filter 30 with the outdoor side O; Located in the upper housing 10 of the detachable box 20, the air flowing into the flow path conversion chamber 40 is discharged to the indoor side (I) after passing through the plasma dust collecting filter 30 laminated structure A fan 50; An interlock control unit 80 interlocked with the indoor air quality to control the operation of the fan 50; And a window frame fixing part (90) for fixing the housing (10) to the window frame (F). The detachable box 20 is installed inside the housing 10 and faces a box body 21 having an entrance 21a opened to the interior side I and an inner wall of the box body 21. As shown in the figure, a plurality of guide vanes 22 and 22 'supporting the plasma dust collecting filter 30 in a slidable manner and a front side of the box body 21 are opened and closed to open and close the entrance 21a. The first door 24 is formed on the opening and closing door 23, the lower side of the box body 21 to communicate with the flow path conversion chamber 40, and the upper side of the box body 21 A second channel 25 communicating with the fan 50, and a box terminal 26 for supplying power to the plasma dust collecting filter 30; The fan 50 is installed at an upper side of the box body 21 at an oblique angle to an inclined duct 50a communicating obliquely with the second flow path 25 formed at the upper side of the box body; The interlock control unit 80 is installed in the upper housing 10 of the fan 50 to measure the dust concentration of the discharged air, and then generates a first dust signal S1 corresponding to the first sensor 81. And a second sensor 82 installed in a predetermined space on the indoor side I to generate a corresponding second dust signal S2 after measuring indoor dust concentration, and the first dust signal S1. And the dust concentration comparison unit 83 which compares the second dust signal S2 with the air discharged by the fan 50 and the air dust concentration difference between the indoor side I, and the difference between the dust concentrations is equal to or less than a set value. A fan operation signal generator 84 for generating an operation signal S3 for stopping the operation of the fan 50; The window frame fixing part (90) includes a first plate bracket (91) which partially supports the window frame (F) at the outdoor side (O) and supports the rear surface of the housing (10), and at the indoor side (I). The second plate bracket 92 partially supports the window frame F to support the front surface of the housing 10, and penetrates the first plate bracket 91, the housing 10, and the second plate bracket 92. When the fastening bolt 93 and the height of the housing 10 is smaller than the height of the window frame (F), the intermediate support block 94 to be fitted to the bottom of the housing 10 and the window frame (F) It is characterized by including.

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In the present invention, the plasma dust collecting filter 30, the filter box 31 which is opened in the front and rear sides, a plurality of dust collecting plates 32 which are installed to face each other to be spaced apart inside the filter box 31, and the dust collecting plate Plasma wire 33 is provided spaced apart from the (32).

In the present invention, the plasma wire 33 has a form in which the dielectric film 33b and the ceramic film 33c are sequentially stacked on the wire body 33a.

In the present invention, the flow path conversion chamber 40, the conversion chamber box 41 is installed in the lower housing of the detachable box 20, and the indoor inlet 42 opened to the indoor side (I) and ,

An outdoor inlet 43 opened to the outdoor side O, and a shutter door 44 for opening and closing the outdoor inlet 43.

In the present invention, the outdoor side (O) is further provided with a loop (70) for preventing rain from entering the housing (10) side of the shutter door 44.

In the present invention, it further comprises a pre-filter unit 60 is built in the flow path conversion chamber 40 to collect the fine dust in the air supplied to the plasma dust collecting filter 30.

In the present invention, the pre-filter unit 60, the first pre-filter 61 is provided on the indoor inlet 42 side with the first passage 24 of the removable box 20 in between; And a second prefilter 62 installed at the outdoor inlet 43.

According to the present invention, it is possible to install without changing the structure of the existing windows, thereby enabling a universal application to many furniture.

In addition, the plasma dust collecting method can effectively purify the air in the large indoor space despite the size of the water. In particular, a plurality of plasma dust collecting filters 30 attached to and detached from the detachable box 20 form a stacked structure having a large volume, so that a large amount of air can be purified.

In addition, by selectively introducing indoor (I) or outdoor (O) air, it is possible to reduce the concentration of carbon dioxide generated during breathing as well as fine dust in the indoor (I) air, and the odor generated in the food cooking process or furniture, etc. Can be removed to enable high quality air purification.

1 is a perspective view for explaining that the window type plasma air purifying apparatus according to the present invention is coupled to the window;
FIG. 2 is a front view for explaining that the plasma air purifying apparatus of FIG. 1 is coupled to a window; FIG.
3 is a front view of the plasma air purifying apparatus of FIG. 2;
4 is a view for explaining the internal configuration of the plasma air purifying apparatus of FIG.
5 is a cross-sectional view taken along the line VV ′ of FIG. 4;
FIG. 6 is a view for explaining a plasma dust collecting filter detachable from a detachable box of FIG. 5 and a prefilter unit detachable from a flow path conversion chamber.
7 is a perspective view of the plasma dust collecting filter of FIG.
8 is an exploded perspective view of the plasma dust collecting filter of FIG.
9 is a view for explaining the configuration of the plasma wire of FIG.
FIG. 10 is a view for explaining that a loop is installed on the rear surface of the housing of FIG. 5 to prevent rainwater from entering the flow path conversion chamber;
FIG. 11 is a block diagram illustrating a configuration of an interlocking controller for controlling the fan of FIG. 5; FIG.
12 is a view for explaining that the window frame fixing part of FIG. 1 fixes the air purifier to the window frame.

Hereinafter, a window type plasma air purifying apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, what is described as "upper" or "upper" may include not only directly over and in contact but also overlying. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are only used to distinguish one component from another. Singular expressions include plural expressions unless the context clearly indicates otherwise. In addition, when a part is said to "include" a certain component, which means that it may further include other components, except to exclude other components unless otherwise stated. In addition, the terms "...", "module", etc. described in the specification mean a unit that processes at least one function or operation.

1 is a perspective view for explaining that the window type plasma air purifying apparatus according to the present invention is coupled to the window, Figure 2 is a front view for explaining that the plasma air purifying apparatus of FIG. 3 is a front view of the plasma air purifying apparatus of FIG. 2, FIG. 4 is a view for explaining an internal configuration of the plasma air purifying apparatus of FIG. 4, and FIG. 5 is a cross-sectional view along the line V-V ′ of FIG. 4. FIG. 6 is a view for explaining a plasma dust collecting filter detachable from a detachable box of FIG. 5 and a prefilter unit detachable from a flow path conversion chamber.

As shown, the window type plasma air purifying apparatus 100 according to the present invention, which is installed in the window (WF) consisting of a window frame (F) that the window (W) is coupled to open and close, the window frame (F) A housing 10 inserted into and coupled to the housing; A detachable box 20 installed inside the housing 10 and provided with a box terminal 26 for supplying power; Detachable in the removable box 20, when coupled to the removable box 20 has a filter terminal 36 that is automatically connected to the box terminal 26 is supplied with power, and has been coupled to the removable box 20 A plurality of plasma dust collecting filters 30 which form a stacked structure and collect fine dust in the air via a plasma dust collecting method; Located in the lower housing 10 of the detachable box 20, the plasma dust collecting filter 30 and the indoor side I communicate with each other based on the window WF, or the plasma dust collecting filter 30 and the outdoor side. A flow path conversion chamber 40 communicating (O); The fan 50, which is located in the upper housing 10 of the plasma dust collecting filter 30, discharges air introduced into the flow path conversion chamber 40 via the plasma dust collecting filter 30 and then discharges the air to the indoor side I. )and; A pre-filter unit 60 embedded in the flow path conversion chamber 40 for collecting fine dust in the air supplied to the plasma dust collecting filter 30; An interlock control unit 80 interlocked with the indoor air quality to control the operation of the fan 50; It characterized in that it comprises a; window frame fixing portion 90 for fixing the housing 10 in the window frame (F).

The housing 10 has a box shape fixed to the window frame F while the window W is partially opened, and is positioned on the outdoor side O with respect to the window WF as a rear surface. Is located on the indoor side (I).

3 and 5, the cover 15 is detachably installed on the front surface of the housing 10, and when the cover 15 is removed, the inner space of the housing 10 is the interior side I. Is opened. A cover discharge port 15a through which the air is discharged by the fan 50 is formed at the upper side of the cover 15, and a cover inlet 15b corresponding to the flow path conversion chamber 40 is formed at the lower side of the cover 15. In the present embodiment, the cover discharge port 15a is illustrated as a quadrangle shape, and the cover inlet port 15b is illustrated as having a plurality of perforated holes arranged in a matrix form.

5 and 6, the removable box 20 is installed inside the housing 10, the plasma dust collecting filter 30 is detachably coupled to replace the plasma dust collecting filter 30. . The detachable box 20 is provided to face the box body 21 and the inner wall of the box body 21 having the entrance 21a opened to the interior side I, and slide the plasma dust collecting filter 30. A plurality of stages that can be supported, in this embodiment, four stage guide vanes 22 and 22 ', an opening and closing door 23 which is provided at the front side of the box body 21 to open and close the doorway 21a, A first flow passage 24 formed at the lower side of the box body 21 and communicating with the flow path conversion chamber 40 and a second flow passage formed at the upper side of the box body 21 and communicating with the fan 50 ( 25). Inside the box body 21, a box terminal 26 that is automatically connected to the filter terminal 36 of the plasma dust collecting filter 30 when the plasma dust collecting filter 30 is coupled is provided.

The flow path conversion chamber 40 is configured to guide the indoor side I air to the plasma dust collecting filter 30 or to guide the outdoor side O air to the plasma dust collecting filter 30. The filter 30 is communicated, or the outdoor side R and the plasma dust collecting filter 30 are communicated. As shown in FIGS. 5 and 6, the flow path conversion chamber 40 is based on the conversion chamber box 41 installed in the lower housing 10 of the detachable box 20 and the window WF. An indoor inlet 42 opened to the inside side I, an outdoor inlet 43 opened to the outside side O, and a shutter door 44 for opening and closing the outdoor inlet 43.

The fan 50 is installed in the box body 21 to allow air introduced into the flow path conversion chamber 40 to be discharged to the discharge port 15a after passing through the plasma dust collecting filter 30. At this time, the fan 50, as shown in Figure 6, should be large in order to generate a large amount of air flow, and should be installed obliquely in order to place a relatively large fan 50 in the narrow housing (10). To this end, between the fan 50 and the box body 21, as shown in Figure 6, the inclined duct 50a for obliquely communicating the fan 50 and the second flow path 25 is provided.
As such, since the fan 50 is obliquely supported by the inclined duct 50a communicating with the second flow path 25 at the upper portion of the box body 21, the housing 10 is slim enough to fit the window frame F. Even inside one housing 10, it is possible to install a fan 50 that generates a large amount of air to increase the air purification capacity.

The prefilter unit 60 collects relatively large fine dust in the air supplied to the plasma dust collecting filter 30 after flowing through the flow path conversion chamber 40, and the first passage 24 of the detachable box 20 is provided. The first prefilter 61 is installed at the indoor inlet 42 and the second prefilter 62 is installed at the outdoor inlet 43.

7 is a perspective view of the plasma dust collecting filter of FIG. 5, FIG. 8 is an exploded perspective view of the plasma dust collecting filter of FIG. 7, and FIG. 9 is a view for explaining the configuration of the plasma wire of FIG. 8.

As shown, the plasma dust collecting filter 30 is to be attached to and detached from the detachable box 20 to collect the fine dust in the air passing through the plasma method, and the filter box 31 and the filter box (opened in the front and rear sides) 31 includes a plurality of dust collecting plates 32 installed to face each other to be spaced apart from each other, and a plasma wire 33 spaced apart from the dust collecting plates 32. In addition, the filter box 31 is provided with a filter terminal 36 which is automatically connected to the box terminal 26 and supplied with power when coupled to the detachable box 20, and the power supplied to the filter terminal 36 is a dust collecting plate. Plasma is generated between the 32 and the plasma wire 33.

Here, the plasma wire 33 has a form in which the dielectric film 33b and the ceramic film 33c are sequentially stacked on the wire body 33a.

Wire body 33a is formed of a material such as tungsten, SUS (Stainless Use Steel) -based, nickel-based metal series.

The dielectric film 33b is formed by oxidizing the surface of the wire body 33a at a predetermined temperature. The dielectric film 33b serves as a medium for attaching the ceramic film 33c to the wire body 33a.

The ceramic film 33c is formed by firing ceramic on the surface of the dielectric film 134. The ceramic film 33c is formed to a thickness of 7 to 10 micrometers (μm), the material is most preferably formed of barium titanate (BaTiO3).

The plasma wire 33 has a form in which the dielectric film 33b and the ceramic film 33c are sequentially stacked on the wire body 33a, so that a low voltage low current power supply, for example, 12V, 500mA input, 5.5kV, 440μA Plasma discharge is also generated at the output power source to increase discharge efficiency.

In the plasma dust collecting filter 30 having such a structure, when power is applied to the dust collecting plate 32 and the plasma wire 33 through the filter terminal 36, the plasma is collected by the potential difference between the dust collecting plate 32 and the plasma wire 33. Discharge is generated. Then, particles, such as dust and smoke, contained in the air introduced from the outside by the plasma discharge are ionized to have a polarity and stick to the dust collecting plate 33 to be collected. At this time, the electric field generated between the plurality of dust collecting plate 32 and the plasma wire 33 can also be expected to sterilize the effect.

In addition, by stacking a plurality of plasma dust collecting filters 30 in the detachable box 20, it becomes a three-dimensional stacked structure having a large volume, and as a result, the dust collecting space is increased, it is possible to maximize the dust collection capacity.

FIG. 10 is a view for explaining that a loop for preventing rainwater from entering the flow path conversion chamber is installed on the rear surface of the housing of FIG. 5.

As shown in the drawing, a roof 70 is provided on the rear surface of the housing 10, that is, the housing 10 on the outdoor side to prevent rainwater from entering the flow path conversion chamber 50. The loop 70 has a form completely surrounding the shutter door 44, the loop inlet 70a is located on the lower side of the shutter door (44). Accordingly, even if strong wind blows, it is possible to fundamentally prevent rainwater from flowing into the shutter door 44.

FIG. 11 is a block diagram illustrating a configuration of an interlocking controller for controlling the fan of FIG. 5.

The interlocking control unit 80 is installed in the upper housing 10 of the fan 50 and measures the dust concentration of the discharged air, and then generates a first dust signal S1 corresponding to the first sensor 81. And a second sensor 82 installed in a predetermined space on the indoor side I and generating a corresponding second dust signal S2 after measuring the indoor dust concentration, the first dust signal S1 and the second dust. The dust concentration comparison unit 83 which compares the signal S2 and the air discharged by the fan 50 with the air dust concentration difference between the indoor side I, and the fan 50 when the difference between the dust concentrations is equal to or lower than the set value. And a fan operation signal generator 84 generating an operation signal S3 for stopping the operation of the controller.

With this structure, the dust concentration comparison unit 83 compares the difference between the dust concentration D1 of the discharged air measured by the first sensor 81 and the air dust concentration D2 at the point away from the housing, When the concentration difference is less than or equal to the set value, it can be determined that the indoor side I has been sufficiently purified, and the fan operation signal generator 84 stops the operation of the fan 50.

12 is a view for explaining that the window frame fixing part of FIG. 1 fixes the air purifier to the window frame.

As shown, the window frame fixing portion 90, the first plate bracket 91 that is partially across the window frame (F) in the outdoor side (O) to support the back of the housing 10, and the indoor side (I) The second plate bracket 92, the first plate bracket 91, the housing 10, and the second plate bracket 92, which are partially caught by the window frame F and support the front surface of the housing 10. It includes a fastening bolt 93 is fastened through.

The first plate bracket 91 is formed with a first bracket groove 91a for supporting the front surface of the housing 10, and the shutter door 44 of the flow path conversion chamber 40 is operated in the second plate bracket 92. A second bracket groove 92a is formed to provide a space that can be provided.

At this time, when the height of the housing 10 is significantly smaller than the height of the window frame (F), the intermediate support block 94 is fitted to the housing 10 and the window frame (F) bottom. Accordingly, the housing 10 of the present invention can be fixed to the window frame F regardless of the size of the window frame F.

By the window frame fixing portion 90, it is not necessary to change the structure of the window frame (F) to join the housing 10, and thus can be widely used in many furniture.

Thus, according to the present invention, it is possible to install without changing the structure of the existing windows, thereby enabling a universal application to many furniture.

In addition, the plasma dust collecting method can effectively purify the air in the large indoor space despite the size of the water. In particular, a plurality of plasma dust collecting filters 30 attached to and detached from the detachable box 20 form a stacked structure having a large volume, so that a large amount of air can be purified.

In addition, by selectively introducing indoor (I) or outdoor (O) air, it is possible to reduce the concentration of carbon dioxide generated during breathing as well as fine dust in the indoor (I) air, and the odor generated in the food cooking process or furniture, etc. Can be removed to enable high quality air purification.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

100 ... Plasma Air Purifier
10 ... housing 15 ... cover
15a ... cover outlet 15b ... cover inlet
20 ... Detachable box 21 ... Box body
22, 22 '... guide wings 23 ... dogpedoes
24 ... Euro 1 25 ... Euro 2
26 ... box terminal 30 ... plasma dust filter
31 ... filter box 32 ... dust collector
33 ... plasma wire 33a ... wire body
33b ... dielectric film 33c ... ceramic coating layer
36 ... filter terminal 40 ... Euro conversion chamber
41 ... Conversion box 42 ... Indoor inlet
43 ... Outdoor inlet 44 ... Shutter door
50 ... fan 50a ... inclined duct
60 ... prefilter 61 ... first prefilter
62 ... second prefilter 70 ... loop
80 ... interlock control 81 ... first sensor
82 ... second sensor 83 ... dust concentration comparison
84 ... fan operation signal generator 90 ... window frame fixing part
91 ... First Plate Bracket 92 ... Second Plate Bracket
93 ... fastening bolt 94 ... intermediate support block

Claims (8)

As the window (W) is installed in the window (WF) consisting of a window frame (F) coupled to open and close,
A housing 10 having a slim shape to be coupled to the window W and the window frame F;
A detachable box 20 installed inside the housing 10 and stacking a plurality of plasma dust collecting filters 30 for collecting fine dust in the air by a plasma dust collecting method to form a stacked structure;
Located in the lower housing 10 of the detachable box 20, the laminated structure of the plasma dust collecting filter 30 and the indoor side (I) to communicate with the window (WF), or the plasma dust collection A flow path conversion chamber 40 communicating the laminated structure of the filter 30 with the outdoor side O;
Located in the upper housing 10 of the detachable box 20, the air flowing into the flow path conversion chamber 40 is discharged to the indoor side (I) after passing through the plasma dust collecting filter 30 laminated structure A fan 50;
An interlock control unit 80 interlocked with the indoor air quality to control the operation of the fan 50; And
A window frame fixing part (90) for fixing the housing (10) to the window frame (F);
The detachable box 20 is installed inside the housing 10 and faces a box body 21 having an entrance 21a opened to the interior side I and an inner wall of the box body 21. As shown in the figure, a plurality of guide vanes 22 and 22 'supporting the plasma dust collecting filter 30 in a slidable manner and a front side of the box body 21 are opened and closed to open and close the entrance 21a. The first door 24 is formed on the opening and closing door 23, the lower side of the box body 21 to communicate with the flow path conversion chamber 40, and the upper side of the box body 21 A second channel 25 communicating with the fan 50, and a box terminal 26 for supplying power to the plasma dust collecting filter 30;
The fan 50 is installed at an upper side of the box body 21 at an oblique angle to an inclined duct 50a communicating obliquely with the second flow path 25 formed at the upper side of the box body;
The interlock control unit 80 is installed in the upper housing 10 of the fan 50 to measure the dust concentration of the discharged air, and then generates a first dust signal S1 corresponding to the first sensor 81. And a second sensor 82 installed in a predetermined space on the indoor side I to generate a corresponding second dust signal S2 after measuring indoor dust concentration, and the first dust signal S1. And the dust concentration comparison unit 83 which compares the second dust signal S2 with the air discharged by the fan 50 and the air dust concentration difference between the indoor side I, and the difference between the dust concentrations is equal to or less than a set value. A fan operation signal generator 84 for generating an operation signal S3 for stopping the operation of the fan 50;
The window frame fixing part (90) includes a first plate bracket (91) which partially supports the window frame (F) at the outdoor side (O) and supports the rear surface of the housing (10), and at the indoor side (I). The second plate bracket 92 partially supports the window frame F to support the front surface of the housing 10, and penetrates the first plate bracket 91, the housing 10, and the second plate bracket 92. When the fastening bolt 93 and the height of the housing 10 is smaller than the height of the window frame (F), the intermediate support block 94 to be fitted to the bottom of the housing 10 and the window frame (F) Window type plasma air purifying apparatus comprising a. delete The method of claim 1, wherein the plasma dust collecting filter 30,
A filter box 31 opened in front and rear sides,
A plurality of dust collecting plates 32 installed to face each other to be spaced apart inside the filter box 31,
Window-type plasma air purifier, characterized in that it comprises a plasma wire (33) which is spaced apart from the dust collecting plate (32). The method of claim 3, wherein the plasma wire 33,
A window type plasma air purifier, wherein the dielectric film 33b and the ceramic film 33c are sequentially stacked on the wire body 33a. According to claim 1, wherein the flow path conversion chamber 40,
Conversion chamber box 41 is installed in the lower housing of the removable box 20,
An indoor inlet 42 opened to the indoor side I;
An outdoor inlet 43 opened to the outdoor side O;
Window-type plasma air purifier, characterized in that it comprises a shutter door (44) for opening and closing the outdoor inlet (43). The method of claim 5,
It is installed in the outdoor (O) housing (10), the window type plasma air purifier, characterized in that it further comprises a loop (70) for preventing rain from entering the shutter door (44) side. The method of claim 5,
The window-type plasma air purifier, which is further included in the flow path conversion chamber 40, further comprises a pre-filter unit 60 for collecting fine dust in the air supplied to the plasma dust collecting filter 30. The method of claim 7, wherein the prefilter unit 60,
With the first flow path 24 of the detachable box 20 interposed therebetween,
A first pre-filter 61 installed at the indoor inlet 42 side;
Window-type plasma air purifier, characterized in that it comprises a second pre-filter 62 is installed on the outdoor inlet (43) side.

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