KR102522169B1 - An air purifier comprising bi-directional fans with a discharge flow path - Google Patents

Abstract

The present invention includes a plurality of bi-direction fans each having a plurality of intake ports; a discharge passage 150 communicating with each discharge port of the plurality of bi-directional fans; and two or more discharge ports located in the discharge passage 150 and having different discharge directions.

Description

An air purifier comprising bi-directional fans with a discharge flow path}

The present invention relates to an air purifier having a plurality of two-way fans using a discharge passage.

An air purifier is a device that purifies air by taking in air containing pollutants by rotating a fan, filtering the air, and discharging it to the outside again.

A single-directional fan is commonly used in air purifiers. The unidirectional fan draws in air from one side of the left and right sides around the rotational axis of the fan and discharges air from the other side. The intake and filtered air is discharged vertically toward the upper side of the air purifier, and the filtered air purifies the air by convection over the entire space (room, living room, etc.) where the air purifier is located.

One of the indices referring to the performance of an air purifier is its capacity. Also referred to as air volume or area used, it is measured in units of volume per hour (eg 6.9 m 3 /min) or in terms of room area (eg 41.6 m 2 ). The larger the capacity of the air purifier, the faster it purifies a larger space.

A number of patents are known that use bi-directional fans to increase the capacity of such air purifiers. Here, the bidirectional fan is a fan that intakes air from both left and right sides around the rotational axis of the fan and discharges air from one side such as an upper side or a lower side.

JP 2016-016340A discloses an air purifier with one bi-directional fan. JP 2016-125371A discloses an air purifier with two bi-directional fans, each of which is designed to suck more air in a centrifugal principle. CN 205089654U discloses a vertical air conditioner with two two-way fans, the air intake principle being common with air purifiers.

However, all of the above conventional techniques are only aimed at expanding the capacity of the air purifier or increasing the amount of air sucked by the air purifier.

For example, an air purifier with a two-way fan has twice the air intake area compared to an air purifier with a unidirectional fan, but the air outlet area is the same. Consideration of is not confirmed in the prior art. In the prior art, it is simply stacking bi-directional fans.

When two-way fans are simply stacked, mutual interference may occur between air discharged to the outside of the air purifier. When interference occurs, the air forms a vortex, and in this case, the convection effect is reduced, so the capacity of the air purifier does not increase much, and only noise and power consumption by the fan increase.

(Patent Document 1) JP 2016-016340A

(Patent Document 2) JP 2016-125371A

(Patent Document 3) CN 205089654U

The present invention has been made to solve the above problems.

Specifically, in an air purifier using two or more bi-directional fans, by effectively arranging intake and outlet ports and adding a control mode specialized for bi-directional fans, customer satisfaction through various control modes while maximizing the capacity increase effect, which is an advantage of bi-directional fans We would like to propose an air purifier that can improve the

One embodiment of the present invention for solving the above problems, a plurality of bi-direction fans each having a plurality of intake ports (bi-direction fan); a discharge passage 150 communicating with each discharge port of the plurality of bi-directional fans; and two or more discharge ports located in the discharge passage 150 and having different discharge directions.

In addition, it is preferable that the outlets of the plurality of two-way fans are inclined in a vertical direction so as to face one side of the air purifier from the top.

In addition, the two-way fan includes an upper two-way fan 110 and a lower two-way fan 120, and two or more outlets located in the discharge passage 150 include an upper outlet 130 and a side outlet 140. It is desirable to do

In addition, a flow path conversion member 155 located in the discharge passage 150 so that the air in the discharge passage 150 is selectively discharged to either the upper discharge port 130 or the side discharge port 140 It is preferable to include more.

In addition, the side outlet 140 is preferably located in front of each outlet of the upper bi-directional fan 110 and the lower bi-directional fan 120 .

In addition, it is preferable that the number of flow path changing members 155 is the same as the number of side discharge ports 140 so that each of the flow path changing members 155 can close the side discharge ports 140 .

In addition, when the air in the discharge passage 150 is discharged to the side discharge port 140, when the upper discharge port 130 is closed and the air in the discharge passage 150 is discharged to the upper discharge port 130. Preferably, the side discharge port 140 is closed by the flow path conversion member 155 .

Also, it is preferable that the housings of the upper bi-directional fan 110 and the lower bi-directional fan 120 are rotatable.

In addition, a rotating member 101 is provided between the upper bi-directional fan 110 and the lower bi-directional fan 120, and the upper bi-directional fan 110 and the lower bi-directional fan are operated by the rotation member 101. It is preferable that 120 rotates and the discharge directions of the outlet 114 of the upper bi-directional fan 110 and the outlet 124 of the lower bi-directional fan 120 are changed.

In addition, it is preferable that the housings of the upper bidirectional fan 110 and the lower bidirectional fan 120 are staggered left and right.

In addition, the upper bidirectional fan 110 has staggered left outlets 114A and right outlets 114B, and the lower bidirectional fan 120 has staggered left outlets 124A and right outlets 124B. it is desirable

In addition, the discharge flow path 150 is plural, and the air discharged through the left discharge port 114A of the upper bi-directional fan 110 and the left discharge port 124A of the lower bi-directional fan 120 is directed to one of the flow channels. 150A, and the air discharged through the right outlet 114B of the upper bi-directional fan 110 and the right outlet 124B of the lower bi-directional fan 120 is discharged to another flow path 150B. it is desirable

In the air purifier, in the convection cleaning mode, the air in the discharge passage 150 is preferably discharged through the upper discharge port 130 by the passage switching member 155 .

In the air purifier, in the direct cleaning mode or the cooling mode, the air in the discharge passage 150 is preferably discharged through the side discharge port 140 by the passage switching member 155.

In addition, it is preferable that the RPMs of the upper bi-directional fan 110 and the lower bi-directional fan 120 are independently controlled.

In addition, the air purifier is preferably controlled to increase the RPM of the upper bi-directional fan 110 in the fine dust purification mode.

In addition, the air purifier is preferably controlled to increase the RPM of the lower bi-directional fan 120 in the large dust purification mode.

In addition, the first inlet 112 of the upper bidirectional fan 110 and the first inlet 122 of the lower bidirectional fan 120 are located on one side of the air purifier, and the first inlet of the upper bidirectional fan 110 The second intake port 113 and the second intake port 123 of the lower two-way fan 120 are preferably located on the other side of the air purifier.

In addition, the first inlet 112 of the upper bi-directional fan 110, the second inlet 113 of the upper bi-directional fan 110, the first inlet 122 of the lower bi-directional fan 120 and the lower bi-directional fan Preferably, one of the dehumidifying module 193 and the humidifying module 198 is located outside the second intake port 123 of the fan 120 .

In addition, the first inlet 112 of the upper bi-directional fan 110, the second inlet 113 of the upper bi-directional fan 110, the first inlet 122 of the lower bi-directional fan 120 and the lower bi-directional fan Preferably, flow path blocking members 199 are positioned outside the second intake ports 123 of the fan 120 .

In addition, one filter unit is positioned across the first inlet 112 of the upper bidirectional fan 110 and the first inlet 122 of the lower bidirectional fan 120, and the second inlet of the upper bidirectional fan 120 113 and the second intake port 123 of the lower two-way fan 120, the other filter unit is located, and it is preferable that the filter frame is located only at the outermost part of the filter units.

According to the present invention, a large amount of air is sucked in through four or more intake ports, filtered, and discharged through two or more outlet ports, thereby providing an air purifier with a high capacity. In particular, it is possible to provide an air purifier in which air discharged from a plurality of bi-directional fans is introduced into a common discharge passage and then purified air is discharged in a direction meeting a user's demand according to various modes.

In particular, "fine dust purification mode", "large dust purification mode", "remote cleaning mode", "short distance cleaning mode", "multiple room cleaning mode", "cooling mode" by independently and appropriately controlling the RPM of the two-way fan ", etc. can be provided in various modes.

For example, when you want to purify a large space as a whole, when you want to intensively purify the air around the air purifier, when there is a lot of fine dust, when you want to implement the function of a fan because the weather is hot, and so on. intention can be fulfilled.

One filter unit covering two or more intake ports located on the left and right sides may be used. By covering two or more intake ports in one filter unit, the entire area of the filter can be used evenly, and accordingly, the filter of the largest area is used to avoid the problem of replacing the filter even though a significant part of the filter is not used. can be solved

A dehumidification module and a humidification module may be freely selected for each of two or more air inlets located on the left and right sides. Accordingly, it is possible to perform various functions related to moisture, such as an air purifier-combined dehumidifier, an air purifier-combined humidifier, and an air purifier-combined dehumidifier.

1 schematically shows an air purifier according to the present invention. For explanation, the discharge passage, the dehumidification module, and the humidification module are omitted from the drawing.
2 schematically illustrates one embodiment of a bi-directional fan used in the present invention.
Fig. 3a schematically shows another embodiment of a bi-directional fan used in the present invention, and Fig. 3b schematically shows a cross-sectional view thereof.
4 shows a dehumidifying module and a humidifying module that may be included in the air purifier according to the present invention. For explanation, the air purifier body except for the dehumidifying module and the humidifying module is omitted from the drawing.
5 to 6 show various modes of the air purifier according to the present invention.

Hereinafter, "fine dust" means dust having a particle diameter of 10 μm or less, and dust having a particle diameter larger than that of fine dust is referred to as "large dust". Here, "dust" should be understood as a concept including all kinds of pollutants floating in the air as well as dust.

Hereinafter, the "RPM" of the fan means the rotation per minute of the fan, and controlling the RPM of the fan is to control the power of the fan or to control the number of rotations of the fan using other members. means inclusively.

Hereinafter, “upper” or “upper surface” means an upper or upper surface relative to the ground where the air purifier is installed, and “lower” or “lower surface” means a lower or lower surface relative to the ground, The direction connecting the upper and lower parts is referred to as a "vertical direction".

Hereinafter, the present invention will be described with reference to the drawings.

1. Description of air purifier

An air purifier according to the present invention includes a plurality of bi-direction fans each having a plurality of intake ports (eg, two intake ports); a discharge passage 150 communicating with each intake port of a plurality of bi-directional fans; and two or more discharge ports located in the discharge passage 150 and having discharge directions different from each other.

In the drawing, an air purifier having two bi-directional fans 110 and 120 is shown, but three or more may be sufficient. In this case, air discharged from all the two-way fans is discharged to the outside through the discharge passage 150 .

However, hereinafter, a case in which two bi-directional fans are provided will be described as an example for explanation.

1.1 Arrangement of two-way fan and structure of air purifier

As shown in FIG. 1 , the air purifier includes an upper bidirectional fan 110 and a lower bidirectional fan 120 .

The outlets of the upper two-way fan 110 and the lower two-way fan 120 are inclined in the vertical direction from the top toward one side. Through this, the air purified from the upper bi-directional fan 110 and the lower bi-directional fan 120 naturally flows into the discharge passage 150 located in front of the outlets.

As shown in FIG. 2, in one embodiment, the upper bi-directional fan 110 includes a fan 111, first intake ports 112 and second intake ports 113 located on the left and right sides of the fan 111, It includes a discharge port 114 through which air is discharged. Similarly, in the case of the lower bi-directional fan 120, the fan 121, the first inlet 122 and the second inlet 123 located on the left and right sides of the fan 121, and the outlet 124 through which air is discharged includes Air discharged from the outlets 114 and 124 flows into the discharge passage 150 .

The outlet of the air cleaner is an upper outlet 130 positioned on the upper surface and a side outlet 140 positioned on one side of the air cleaner. These communicate with the discharge passage 150 .

In other words, the discharge passage 150 communicates with the outlet 114 of the upper bi-directional fan 110 through which purified air is introduced and the outlet 124 of the lower bi-directional fan 120, while the purified air is discharged to the outside. The upper discharge port 130 and the side discharge port 140 are located.

A flow passage changing member 155 is positioned in the discharge passage 150 to determine whether the introduced air is discharged through either the upper discharge port 130 or the side discharge port 140 . This will be described later.

In one embodiment, the upper bi-directional fan 110 and the lower bi-directional fan 120 are rotatable. By rotating at a predetermined angle, the amount of air introduced into the discharge passage 150 may be adjusted or the flow direction may be changed without controlling the RPM of the bi-directional fan (or together with the RPM control).

Rotation of the upper bi-directional fan 110 and the lower bi-directional fan 120 may be implemented by separate rotation members respectively provided. In particular, by providing one rotation member 101 between the upper two-way fan 110 and the lower two-way fan 120 (see FIGS. 5 and 6) and operating the one rotation member 101, the upper two-way fan ( 110) and the lower two-way fan 120 can be rotated at once.

On the other hand, as shown in Fig. 3A, in another embodiment of the present invention, the housings of the bi-directional fans are staggered. In the case of the two-way fan shown in FIG. 2, left and right housings of mirror symmetrical shape are fastened with the fan 111 as the center, whereas in the embodiment shown in FIG. It is attached staggered by the angle of . In this case, two discharge ports are formed in the two-way fan.

In this configuration, referring to FIG. 3 , the upper two-way fan 110 has a left discharge port 114A and a right discharge port 114B, and the lower two-way fan 120 also has a left discharge port 124A and a right discharge port. (124B) is provided. There is no change in the intake manifold.

Air is discharged in two directions from one bi-directional fan by configuring two outlets, respectively. Unlike the one discharge passage 150 provided in the above-described embodiment, as shown in FIG. 3B, two Discharge passages 150A and 150B are provided on both sides of the air purifier. Accordingly, two upper discharge ports 130A and 130B and a total of four side discharge ports 140A and 140B are provided, and a total of four flow path conversion members 155 are provided for control thereof.

In this embodiment, purified air can be discharged from both sides as well as the top of the air purifier. In addition, the present embodiment can be implemented by manufacturing the left and right housings of the same bidirectional fan and changing only the fastening direction, which is economical because no separate equipment is required.

1.2 Euro transition member

The passage changing member 155 determines in which direction the air introduced into the discharge passage 150 is discharged. In the drawing, the flow path changing member 155 is shown as a flap that rotates around a rotation shaft fixed to the air purifier, but any other structure for changing the flow direction within the flow path may be used as a matter of course.

The passage switching member 155 operates between the first position and the second position.

As shown in FIG. 5, the first position is a position in which the flow path changing member 155 is in close contact with the inner wall of the flow path 150 so that the flow through the entire flow path 150 is achieved, and the second position is the flow path diverting member. Reference numeral 155 is a position at which a part of the passage 150 is opened.

Accordingly, when the passage switching member 155 is in the first position ( FIG. 5 ), the discharge passage 150 communicates with the upper discharge port 130 . That is, the air discharged from the upper two-way fan 110 and the lower two-way fan 120 flows upward along the flow path 150 without being discharged to the side discharge port 140 by the passage switching member 155, and then flows upward through the air purifier. is discharged upward through the upper discharge port 130. When the air is discharged to the top in this way, it is suitable for convection in a wide space.

When the passage switching member 155 is in the second position ( FIG. 6 ), the discharge passage 150 communicates with the side discharge port 140 . Accordingly, the air discharged from the upper bi-directional fan 110 and the lower bi-directional fan 120 does not flow upward in the flow path 150 and is discharged through the side outlet 140 provided at one side of the air cleaner. In this case, it is preferable that the upper discharge port 130 is closed. When the air is discharged to the side in this way, it is suitable for quickly purifying the space adjacent to the air purifier.

That is, the direction of the air discharged from the air purifier can be easily changed by the operation of the flow path changing member 155, and the control mode can be manipulated in various ways using this.

A specific control mode will be described below.

Meanwhile, the passage conversion member 155 may be provided in such a way as to close the side outlet 140 itself (see FIGS. 5 and 6). That is, when the passage switching member 155 is in the first position, it adheres to the inner wall of the passage 15 and closes the side outlet 140 (see FIG. 5). In this case, while the purified air is discharged upward through the upper discharge port 130, it is preferable to prevent contaminants from entering the discharge passage 150 without providing a separate additional member.

1.3 Intake

The two-way intake ports of the plurality of two-way fans are disposed to be commonly located on the left and right sides of the air purifier. In the illustrated embodiment, the first inlet 112 of the upper bidirectional fan 110 and the first inlet 122 of the lower bidirectional fan 120 are commonly located on the left side of the air purifier, and the upper bidirectional fan The second inlet 113 of 110 and the second inlet 123 of the lower two-way fan 120 are commonly located on the right side, which is the other side of the air purifier.

Since two intake ports are commonly located on the left and right sides, only one filter unit 160 is required on the left and right sides. That is, one filter unit is positioned across the first inlet 112 of the upper bidirectional fan 110 and the first inlet 122 of the lower bidirectional fan 120, and the second inlet 113 of the upper bidirectional fan 110 And another filter unit is located across the second intake port 123 of the lower two-way fan 120 .

It is preferable that the filter frame of the filter unit 160 is located only at the outermost part so that there is no filter frame crossing the center. That is, the filter frame is formed with the letter 口 instead of the letter 日, and the filter is located inside. Conventionally, when one filter unit is used for one intake port, the filter is often replaced while the filter adjacent to the filter frame is not utilized. It is used evenly as a whole, and accordingly, unused space is reduced, increasing the lifespan of the filter.

In addition, the first inlet 112 and the second inlet 113 of the upper bi-directional fan 110, the first inlet 122 and the second inlet 123 of the lower bi-directional fan 120 (that is, four inlets) Outside), the dehumidifying module 193 and the humidifying module 198 may be freely selected and located.

As shown in FIG. 4 , one dehumidification module 193 may include a heat exchanger 192 provided in a dehumidification module housing 191, and one humidification module 198 may include a humidification module housing 196 It may include a humidification filter 197 provided in. Of course, it is possible to implement various dehumidification and humidification modules, such as a heat transfer module instead of a heat exchanger or an ultrasonic humidifier instead of a humidification filter.

In FIG. 4, it is shown that the dehumidifying module 193 is provided on the left two intake ports and the humidification module 198 is provided on the right two intake ports, but as described above, the dehumidification module is provided on the upper two intake ports and the lower Various modifications are possible, such as providing a humidifying module to the two intake ports or providing them to cross each other.

Meanwhile, as shown in FIG. 1 , the first inlet 112 and the second inlet 113 of the upper bidirectional fan 110 and the first inlet 122 and the second inlet 123 of the lower bidirectional fan 120 ) The flow path blocking member 199 may be located at the outermost side (ie, the outermost side of the four intake ports). In this case, intensive air cleaning is possible by controlling a total of four passage blocking members 199 .

For example, when the two left and right upper intake ports are blocked by the flow path blocking member 199, intensive air cleaning is possible in the lower portion, and conversely, when the flow path blocking member 199 blocks the two left and right lower intake ports, the upper air cleaning is possible. Intensive air purification is possible. That is, when the flow path blocking member 199 is used, air inflow to either fan can be controlled without manipulating a power member that applies power to the upper bidirectional fan 110 and the lower bidirectional fan 120 .

1.4 Independent control of two-way fan

In the air purifier according to the present invention, the RPMs of the plurality of bi-directional fans can be independently controlled. In the illustrated embodiment, the RPMs of the upper bi-directional fan 110 and the lower bi-directional fan 120 are independently controlled. This is possible by independently controlling the power member (not shown) connected to each fan or by opening and closing the flow path blocking member 199 described above.

Through this, it is possible to implement various modes, such as intensively purifying fine dust at the top, intensively purifying large dust at the bottom, or discharging clean air further away.

The various modes of independent control are described in detail below.

2. Various air purification modes

In the air purifier according to the present invention, the operation of the flow path switching member 155, the on/off or RPM control of the upper bidirectional fan 110 and the lower bidirectional fan 120, the operation of the flow path blocking member 199, and the like are combined. Accordingly, various air cleaning modes may be provided to the user.

2.1 "Convection Clean Mode"

A general air purifier discharges purified air upward from the air purifier to purify the entire space by convection.

As shown in FIG. 5, similarly in the present invention, the flow path conversion member 155 is located in the first position so that the air introduced into the discharge flow path 150 is discharged upward through the upper discharge port 130. can do. At this time, it is preferable that the side discharge port 140 is closed by the passage conversion member 155 or a separate member.

2.2 "Direct Clean Mode" and "Cool Mode"

This is a method of directly discharging purified air through the side of the air purifier.

In this case, the degree of purifying the space as a whole is relatively insufficient compared to the convection purifying mode, but it is suitable for more quickly discharging purified air to the vicinity of the air purifier.

To this end, as shown in FIG. 6 , the passage switching member 155 is positioned in the second position and closes the upper discharge port 130 so that the air introduced into the discharge passage 150 passes through the side discharge port 140. It is discharged through the side of the air purifier.

In addition, since air is directly sprayed toward the user, it can be used like a fan in the summer season, so it can be implemented as a “cooling mode”.

Meanwhile, the flow path conversion member 155 according to the present invention may be composed of an upper flow path transition member 155A adjacent to the upper bidirectional fan 110 and a lower flow path transition member 155B adjacent to the lower bidirectional fan 120. The two flow path switching members 155A and 155B can be independently controlled.

For example, when the upper discharge port 130 is closed while the upper flow path diverting member 155A is in the first position and the lower flow path diverting member 155B is in the second position, the upper side of the air purifier is intensively concentrated. air is blown out

Conversely, when the upper discharge port 130 is closed while the upper flow path diverting member 155A is in the second position and the lower flow path diverting member 155B is in the first position, air is concentrated on the lower side of the air purifier. is discharged

In this way, even in the same "direct cleaning mode" or "cooling mode", air can be controlled to be intensively discharged from the upper or lower side of the side by independently controlling the two flow path switching members 155A and 155B.

2.3 Other modes

It is possible to implement a "fine dust purification mode".

In general, fine dust has a larger particle size than large dust, and floats at a certain height without sinking near the ground. Therefore, in order to intensively purify fine dust, the "fine dust purification mode" can be implemented by operating the RPM of the upper bi-directional fan 110 higher.

It is also possible to implement a "big dust purification mode".

Unlike fine dust, since large dust settles near the ground due to its particle size, in order to intensively purify large dust, it can be implemented by operating the lower bi-directional fan 120 at a higher RPM.

In another embodiment, the air purifier is provided with a fine dust sensor, and when the amount of fine dust is higher than a predetermined reference value, the above-described “fine dust purification mode” is implemented, and when the amount of fine dust is lower than a predetermined reference value, “large dust purification mode” is implemented. It can be.

Here, a total of five modes have been described as examples, but various modes that have not been described may be applicable.

For example, a "left air intensive purification mode" or a "right air intensive purification mode" in which only one side air intake port is opened using the flow path blocking member 199, a selective or automatic "dehumidification mode", etc. may be possible. . Even in this case, dehumidification or humidification may be performed automatically according to a predetermined humidity.

In the above, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but this is only exemplary, and those skilled in the art can make various modifications and equivalents from the embodiments of the present invention. It will be appreciated that embodiments are possible. Therefore, the scope of protection of the present invention should be defined by the claims.

101: rotating member
110: upper two-way fan
111: fan
112: first intake port
113: second intake port
114 (114A, 114B): discharge port (left discharge port, right discharge port)
120: lower two-way fan
121: fan
122: first intake port
123: second intake port
124 (124A, 124B): discharge port (left discharge port, right discharge port)
130 (130A, 130B): upper discharge port
140 (140A, 140B): side discharge port
150: discharge flow path
155: flow path conversion member
155A: upper flow path conversion member
155B: lower flow path conversion member
160: filter unit
191: dehumidification module housing
192: heat exchanger
193: dehumidification module
196 Humidification module housing
197 Humidification filter
198 Humidification module
199: flow path blocking member

Claims (21)

a plurality of bi-direction fans each having a plurality of intake ports;
a discharge passage 150 communicating with each discharge port of the plurality of bi-directional fans; and
It is located in the discharge passage 150 and includes two or more discharge ports having different discharge directions,
The two-way fan includes an upper two-way fan 110 and a lower two-way fan 120,
The two or more outlets located in the discharge passage 150 include an upper outlet 130 and a side outlet 140,
air cleaner.
According to claim 1,
The outlets of the plurality of two-way fans are inclined in the vertical direction toward one side of the air purifier from the top,
air cleaner.
delete According to claim 1,
It is located in the discharge passage 150, so that the air in the discharge passage 150 is selectively discharged to either the upper discharge port 130 or the side discharge port 140, further comprising a flow path conversion member 155 doing,
air cleaner.
According to claim 4,
The side outlet 140 is located in front of each outlet of the upper two-way fan 110 and the lower two-way fan 120,
air cleaner.
According to claim 5,
The number of the passage conversion members 155 is the same as the number of the side discharge ports 140, so that each of the passage conversion members 155 can close the side discharge ports 140.
air cleaner.
According to claim 6,
When the air in the discharge passage 150 is discharged to the side discharge port 140, the upper discharge port 130 is closed,
When the air in the discharge passage 150 is discharged to the upper discharge port 130, the side discharge port 140 is closed by the flow path conversion member 155.
air cleaner.
According to claim 1,
The housings of the upper two-way fan 110 and the lower two-way fan 120 are rotatable,
air cleaner.
According to claim 8,
A rotating member 101 is provided between the upper bi-directional fan 110 and the lower bi-directional fan 120,
By the operation of the rotating member 101, the upper two-way fan 110 and the lower two-way fan 120 rotate, and the discharge port 114 of the upper two-way fan 110 and the discharge port of the lower two-way fan 120 The discharge direction of (124) is changed,
air cleaner.
According to claim 1,
The housings of the upper two-way fan 110 and the lower two-way fan 120 are staggered left and right,
air cleaner.
According to claim 10,
The upper bi-directional fan 110 has staggered left outlets 114A and right outlets 114B, and
The lower bi-directional fan 120 has staggered left outlets 124A and right outlets 124B,
air cleaner.
According to claim 11,
The discharge passage 150 is plural,
The air discharged through the left outlet 114A of the upper bi-directional fan 110 and the left outlet 124A of the lower bi-directional fan 120 is discharged to one of the flow paths 150A,
The air discharged through the right outlet 114B of the upper bi-directional fan 110 and the right outlet 124B of the lower bi-directional fan 120 is discharged to another flow path 150B,
air cleaner.
According to claim 4,
The air purifier, in the convection cleaning mode,
The air in the discharge passage 150 is discharged through the upper discharge port 130 by the passage switching member 155.
air cleaner.
According to claim 4,
The air purifier, in a direct cleaning mode or a cooling mode,
The air in the discharge passage 150 is discharged through the side discharge port 140 by the passage switching member 155.
air cleaner.
According to claim 1,
The RPM of the upper bi-directional fan 110 and the lower bi-directional fan 120 are independently controlled,
air cleaner.
According to claim 15,
The air purifier, in the fine dust purification mode,
The RPM of the upper bi-directional fan 110 is controlled to increase more,
air cleaner.
According to claim 15,
The air purifier, in the large dust purification mode,
The RPM of the lower bi-directional fan 120 is controlled to increase more,
air cleaner.
According to claim 1,
The first inlet 112 of the upper bidirectional fan 110 and the first inlet 122 of the lower bidirectional fan 120 are located on one side of the air purifier, and the second inlet of the upper bidirectional fan 110 113 and the second inlet 123 of the lower two-way fan 120 are located on the other side of the air purifier,
air cleaner.
According to claim 18,
The first inlet 112 of the upper bi-directional fan 110, the second inlet 113 of the upper bi-directional fan 110, the first inlet 122 of the lower bi-directional fan 120 and the lower bi-directional fan ( 120), one of the dehumidification module 193 and the humidification module 198 is located outside the second intake port 123, respectively.
air cleaner.
According to claim 18,
The first inlet 112 of the upper bi-directional fan 110, the second inlet 113 of the upper bi-directional fan 110, the first inlet 122 of the lower bi-directional fan 120 and the lower bi-directional fan ( 120), the flow path blocking member 199 is located outside the second intake port 123, respectively.
air cleaner.
According to claim 18,
One filter part is positioned across the first inlet 112 of the upper bidirectional fan 110 and the first inlet 122 of the lower bidirectional fan 120, and the second inlet 113 of the upper bidirectional fan 120 ) and another filter unit located across the second inlet 123 of the lower bi-directional fan 120, and a filter frame located only at the outermost part of the filter units,
air cleaner.

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