KR20200082058A - A humidification air purifier comprising a flow passage control member - Google Patents

Abstract

The present invention provides an air purifier, and more specifically, to the air purifier including a flow path control member to select a plurality of discharge ports by controlling a plurality of discharge passages therein. The air purifier includes: a suction flow passage (171) through which air introduced from a suction port (170) flows; the flow path control member (150) of the suction port (170) in the suction flow passage (171); and a housing (100). The flow path control member (150) is installed in a flow passage between the suction passage (171) and the plurality of discharge ports (112, 122, 132).

Description

A humidification air purifier comprising a flow passage control member

The present invention relates to an air purifier, and more particularly, to an air purifier including a flow path control member so as to select a plurality of discharge ports by controlling a plurality of discharge flow paths therein.

Recently, as interest in air quality increases, demand for an air purifier capable of performing various functions according to seasons and indoor areas in one device is increasing.

Conventionally, an air purifier capable of performing both a humidifying function and an air cleaning function in one device has been introduced. However, since a plurality of discharge ports are not formed, various modes suitable for demand cannot be implemented, and even if there are multiple discharge ports, the switching mechanism between them is complicated and there is a fear of failure.

For example, Korean Patent Publication No. 10-2010-0057330 discloses an air purifier capable of selecting each flow path by applying a valve structure capable of switching each flow path and an air purifying, humidifying air purifying, and humidifying-only mode. do. Specifically, one valve moves to change the flow path to perform a humidification function and an air cleaning function. One discharge port is located on the upper side and the number of flow paths is two. However, in this type of air purifier, it is difficult to perform an air cleaning function according to various seasons due to the simple control of the valve, and one outlet can not select the flow path according to a plurality of outlets according to the area and air quality of the room, thereby satisfying various needs. There is a limit that can not.

As another example, Korean Patent Publication No. 10-2009-0058446 provides an air cleaning flow path and a humidification clean flow path as separate flow paths, and selectively opens and closes the air cleaning flow path and the humidification clean flow path with a flow path variable unit. Disclosed is an air purifier capable of controlling the amount of clean air and humidified air according to the environment or environment. Specifically, the flow path variable unit has a configuration that rotates to control a separate flow path. However, this type of air purifier has a limitation that it cannot satisfy various demands although one outlet must select a flow path according to a plurality of outlets according to the area and air quality of the room.

(Patent Document 1) Korean Patent Publication No. 10-2010-0057330

(Patent Document 2) Korean Patent Publication No. 10-2009-0058446

The present invention was devised to solve the above problems.

Specifically, the object of the present invention, it is possible to perform both the humidification function and the air cleaning function, it is possible to fluidly control a plurality of discharge flow paths using a flow path control member, the demand for changing the quality of various air in the indoor air It is to provide an air purifier that can satisfy.

In order to achieve the above object, the present invention, the inlet passage 171 through which the air flowing from the inlet 170 flows; A flow path control member 150 of the suction port 170 in the suction flow path 171; And a housing 100, wherein the flow path control member 150 is installed in a flow path between the suction flow path 171 and the plurality of discharge ports 112, 122, and 132.

The plurality of discharge ports (112, 122, 132) is a first discharge port 112 formed on one side of the housing 100; A second discharge port 122 formed on an upper side of the housing 100; A third discharge port 132 formed on the other side opposite to the one side of the housing 100; A first discharge flow path 111 communicating with the first discharge port 112 and the suction flow path 171; A second discharge flow path 121 communicating with the second discharge port 122 and the suction flow path 171; And a third discharge flow path 131 communicating with the third discharge port 132 and the suction flow path 171, and by the flow path control member 150, the suction flow path 171 is the first discharge. It is preferable to communicate with any one or more of the flow path 111, the second discharge flow path 121 and the third discharge flow path 131.

A guide for guiding air inside the third discharge flow path 131 even when the flow path control member 150 closes the third discharge flow path 131 at the inlet of the third discharge flow path 131 ( 160).

A humidification filter (133) located in the third discharge flow path (131); The humidifying filter 133 is a water receiving portion 135 is seated; And it is preferable to include a water tank 134 having a check valve in communication with the water receiving portion 135.

The first discharge port 112 is located on the side of the air purifier, and the air introduced into the suction flow path 171 is discharged to the first discharge port 112 by the flow path control member 150, thereby concentrating cleanly. It is preferred that the mode is performed.

It is preferable that the air introduced into the suction flow path 171 is discharged to the second discharge port 122 by the flow path control member 150, so that a clean circulation mode is performed.

It is preferable that the air introduced into the suction flow path 171 is discharged to the third discharge port 132 by the flow path control member 150, so that a humidification mode is performed.

The flow path control member 150 includes a plurality of units 151 and 152, but the plurality of discharge ports 112 communicating with the suction flow path 171 by relative rotation between the plurality of units 151 and 152 , 122, 132) can be changed.

The flow path control member 150 is formed into a b-shape by the relative rotation of the plurality of units 151 and 152, so that the suction flow path 171 is the first discharge flow path 111 by the flow path control member 150. , It is preferable to communicate with any two flow paths of the second discharge flow path 121 and the third discharge flow path 131.

It is preferable that air introduced into the suction flow path 171 is discharged to the first discharge port 112 and the second discharge port 122 by the flow path control member 150, so that a clean circulation concentration mode is performed.

It is preferable that the air introduced into the suction flow path 171 is discharged to the second discharge port 122 and the third discharge port 132 by the flow path control member 150, so that a humidified circulation mode is performed.

It is preferable that the air introduced into the suction flow path 171 is discharged to the first discharge port 112 and the third discharge port 132 by the flow path control member 150, so that a humidifying concentration mode is performed.

It includes a fan 180 located on the suction passage 171, the rotating portion of the fan 180 is sealed to the fan power member 181 of the fan 180 by a fan waterproof housing 185 It is desirable to be divided.

According to the present invention, the humidification function or the air cleaning function can be selectively performed only by simple operation of the flow path control member in the plurality of discharge flow paths inside the air purifier, and indoor air can be discharged through a plurality of appropriate flow paths and discharge ports. Therefore, the user can select a desired function in consideration of this.

For example, a plurality of air outlets are formed on one side, the other side, and the upper side, respectively, and the air can be discharged to the front to intensively ventilate a narrow space, or the air is discharged to the upper side to ventilate a wide space It might be.

In addition, since the flow path inside the air purifier is simply formed, there is little risk of failure of the air purifier, and the life of the air purifier can be extended. In addition, since the humidifying filter is located at the top, the user can easily detach it from the air purifier and wash or replace it.

The purpose of use of the discharge part at the front and rear is different from humidification and circulation, and the user can easily identify and use it by design alone.

That is, it is possible to perform various modes of adjusting the air quality according to the season and space.

In addition, there is a guide that guides some air to the humidifying filter even when the humidifying function is not in use. The guide allows the air to continuously flow through the humidifying filter, thereby preventing contamination and odor caused by long-term use of the humidifying filter.

1 is a front perspective view of an air purifier according to an embodiment of the present invention.
Figure 2 is a perspective view showing the rear of the air purifier according to an embodiment of the present invention.
3 is an exploded perspective view of an air purifier according to an embodiment of the present invention.
4 is a cross-sectional perspective view taken along line A-A' of the air purifier according to the embodiment of the present invention.
5 is a view showing a side view of an air purifier according to an embodiment of the present invention and a position of a flow path control member and air flow when operating in a clean concentration mode.
6 is a view showing the position of the flow path control member and the flow of air when operating in a clean circulation mode and a side view of an air purifier according to an embodiment of the present invention.
7 is a view showing the position of the flow path control member and the flow of air when operating in a humidifying mode and a side view of an air cleaner according to an embodiment of the present invention.
8 is a view showing a side view of an air purifier according to an embodiment of the present invention and a position of a flow path control member and air flow when operating in a clean circulation concentrated mode.
9 is a view showing a side view of an air purifier according to an embodiment of the present invention and a position of a flow path control member and air flow when operating in a multi-circulation mode.
10 is a view showing a side view of an air purifier according to an embodiment of the present invention and a position of a flow path control member and air flow when operating in a multi-intensive mode.
11 is a perspective view of an air cleaner according to an embodiment of the present invention and a view showing the flow of air when operating in a clean circulation concentrated mode.
12 is a perspective view showing the rear of the air purifier according to an embodiment of the present invention and a view showing the flow of air when operating in a multi-circulation mode.
13 is a perspective view of an air purifier according to an embodiment of the present invention and a view showing air flow when operating in a multi-intensive mode.

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

1. Description of the air purifier structure

1 to 4, the air purifier according to an embodiment of the present invention includes a housing 100, a plurality of discharge ports 112, 122, 132, a flow path control member 150, a guide 160, and a suction port 170 ), a fan 180, and a control unit 190. In the illustrated embodiment, the housing 100 is a rectangular parallelepiped shape, but the shape is not limited thereto and may be formed in another shape. The control unit 190 is located on the upper side of the housing 100 to perform a function of adjusting the mode of the air cleaner.

1) Description of multiple outlets (112, 122, 132)

A plurality of discharge ports 112, 122 and 132 may be formed inside the housing 100. The number of the plurality of discharge ports (112, 122, 132) is shown and described as three, but is not limited to the number depending on the situation.

The first discharge port 112 is located on the front surface of the housing 100. The first discharge port 112 is connected to the first discharge flow path 111 through which the air introduced from the intake port 170 moves to function to discharge air to the outside. When air is discharged through the first discharge port 112, the surrounding air of the air cleaner can be intensively cleaned. Accordingly, the user can select the first discharge port 112 when intensive and rapid air cleaning in a narrow space is required.

The second discharge port 122 is located on the upper side of the housing 100. The second discharge port 122 is connected to the second discharge flow path 121 through which the air introduced from the suction port 170 moves, and functions to discharge air to the outside. When air is discharged through the second discharge port 122, air is discharged upward and convection is performed. The overall air around the air purifier can be circulated. Accordingly, the user can select the second discharge port 112 when a large space of overall air circulation is required.

The third discharge port 132 is located at a rear portion facing the first discharge port 112 of the housing 100. The third discharge port 132 is connected to the third discharge channel 131 through which the air introduced from the suction port 170 moves, and functions to discharge air to the outside. Before air is discharged through the third discharge port 132, the air passes through the humidifying filter 133. The air that has passed through the humidifying filter 133 is humidified to increase the humidity of the indoor air. Accordingly, the user may select the third discharge port 132 in the dry season when the humidity is lowered.

The humidifying filter 133 is seated on the water receiving unit 135 having three sides open. Looking at the water receiving unit 135, the humidifying filter 133 is located on one side of the open three sides, and the water bottle 134 is located on the other side (see FIG. 3). When the check valve (not shown) is located on the lower surface of the water tank 134, when the water tank 134 is mounted on the air purifier (that is, when it is seated on the water receiving unit 135), water is the water receiving unit ( 135) to seep into the humidifying filter (133). The air flowing in the third discharge flow path 131 passes through the humidifying filter 133 and becomes wet moisture air and is discharged to the outside.

2) Description of the flow path control member 150

The flow path control member 150 is located at a portion where the plurality of discharge flow paths 111, 121, and 131 and the suction flow path 171 are in contact, and any one or more of the plurality of discharge flow paths 111, 121, and 131 may flow. Adjust the fluid connection. 5 to 7, the flow path control member 150 may rotate in a plate shape to perform a clean concentration mode, a clean circulation mode, and a humidification mode.

In addition, the flow path control member 150 may be composed of a plurality of units (151, 152) and a plurality of discharge ports (112, communicating with the suction passage 171) by the relative rotation between the plurality of units (151, 152) 122, 132) may be changed. 8 to 10, the first unit 151 and the second unit 152 are composed of two units, and the first unit 151 and the second unit 152 are relatively rotated to form a letter C. The plurality of units 151 and 152 of the flow path control member 150 may rotate to perform a clean circulation concentration mode, a humidification concentration mode, a humidification circulation mode, and the like.

The shape and configuration of the flow path control member is to close the plurality of discharge flow paths 111, 121, and 131. Even if the configuration is not shown in the embodiment, if the multiple discharge flow paths 111, 121, and 131 are closed, they are formed into different shapes. Can be.

As described above, the flow path control member 150 can flexibly control a plurality of discharge flow paths 111, 121, and 131 according to the indoor air environment, thereby enabling various modes according to the quality of the indoor air.

3) Description of the guide 160

The guide 160 is located at the inlet portion of the third discharge flow path 131 adjacent to the flow path control member 150.

If the air does not go through the humidification filter 133 when the humidification function is not used, water may accumulate and gradually become odorous, and air may enter the outside to become dusty and contaminate the filter. In the present invention, the guide 160 Even if the third discharge flow path 131 is not used, some air is continuously guided to the third discharge flow path 131 to allow air to pass through, thereby preventing odor and preventing contamination.

4) Description of the inlet 170

The inlet 170 is a place where the indoor air to be cleaned flows in, and the introduced indoor air is cleaned by the first functional filter 177a, the second functional filter 177b, and then discharged again. In the illustrated embodiment, the inlet 170, the first functional filter 177a, the second functional filter 177b, and the like are illustrated as being located under the housing 100, but are not limited thereto, and the housing 100 It can be located anywhere inside.

The first functional filter 177a and the second functional filter 177b may be composed of a fine dust filter, a deodorizing filter, a hepa filter, etc., but may be any of various filtering devices as necessary.

In the illustrated embodiment, the shapes of the first functional filter 177a and the second functional filter 177b are square plate shapes, but their shapes may also be formed in other shapes.

5) Description of the fan 180

The fan 180 performs a function of introducing and discharging indoor air into the interior of the housing 100. That is, indoor air flows into the housing 100 through the suction port 170 by the rotation of the fan 180.

The rotation speed of the fan 180 can be adjusted as needed. That is, it may be rotated at a high speed to increase the flow rate of the indoor air flowing into the housing 100, or may be rotated at a low speed to reduce the flow rate.

On the other hand, when using the humidification function, water leaking or condensation for reasons such as the humidification filter 133 flows into the electric components of the fan 180 (right side of FIG. 5), which may cause trouble. In the air purifier according to the present invention, to prevent water from entering the fan power member 181, such as when water leaks from the humidifying filter 133, between the core and blade of the fan 180 and the electric parts of the fan 180 The watertight fan waterproof housing 185 is placed in the.

2. Description of how to use the air cleaner

The air purifier according to an embodiment of the present invention may perform various modes according to the state or season of indoor air.

Six modes are exemplarily described. Specifically, the flow path control member 150 is not divided into units, and a plurality of discharge ports 112, 122, and 132 are closed (in the following 1) to 3) modes), and the flow path control member 150 is multiple It is divided into units (151, 152), and the mode is divided into the embodiments (4) to 6) mode in which the discharge port is closed in a b-shape.

The flow path control member 150 rotates to close the second discharge port 122 and the third discharge port 132 to perform a clean concentration mode, and closes the first discharge port 112 and the third discharge port 132 to be clean. In the circulation mode, the first discharge port 112 and the second discharge port 122 may be closed to perform a humidification mode. In the second embodiment, the plurality of units 151 and 152 of the flow path control member 150 rotate to close the third discharge port 132 to clean the concentrated circulation mode, and the second discharge port 122 to close the humidification concentration mode, The humidification circulation mode may be performed by closing the first discharge port 112.

Hereinafter, each mode of the air purifier and its effects will be described in detail with reference to FIGS. 5 to 13.

1) Clean concentration mode

The clean concentration mode will be described with reference to FIG. 5.

Here, the air introduced into the intake 170 is flowed through the first functional filter 177a and the second functional filter 177b in the intake flow path 171, and the air flows through the flow path control member 150. 1 is directed to the discharge passage 111. At this time, the air is guided by the guide 160 in the third discharge flow path 131 so that the humidifying filter 133 always has little air to prevent odor of the humidifying filter 133 and pollution.

Air is discharged through the first discharge port 112. As the first discharge port 112 is installed on the front surface, the clean concentration mode enables intensive cleansing at a desired position around the air cleaner, thereby enabling intensive indoor circulation of air. In the clean circulation mode, which will be described later, instead of using the first discharge port 112, since the second discharge port 122 located on the upper side is used, the entire circulation of air is performed, and the difference is that it takes time to achieve cleanness around the air cleaner. have.

Therefore, a relatively narrow indoor space and a clean concentration mode can be used when intensive cleaning is required.

2) Clean circulation mode

The clean circulation mode will be described with reference to FIG. 6.

Here, the air introduced into the intake 170 is flowed through the first functional filter 177a and the second functional filter 177b through the intake flow path 171, and the air flows through the flow path control member 150. 2 is directed to the discharge passage 121. At this time, the air is guided by the guide 160 in the third discharge flow path 131 so that the humidifying filter 133 always has little air to prevent odor of the humidifying filter 133 and pollution.

Air is discharged through the second discharge port 122. As the second discharge port 122 is installed on the upper side, in the clean circulation mode, indoor large circulation occurs that greatly circulates the entire indoor space due to convection. The above-described clean concentration mode has a difference in that it is difficult to circulate the entire indoor space because the second discharge port 122 is not used.

Therefore, a clean circulation mode can be used when an air cleaning function of a large indoor space is required.

3) Humidification mode

The humidification mode will be described with reference to FIG. 7.

Here, the air introduced into the intake 170 is flowed through the first functional filter 177a and the second functional filter 177b through the intake flow path 171, and the air flows through the flow path control member 150. 3 The discharge flow path 131 is directed.

Air is discharged through the third discharge port 132. The third discharge port 132 may be used when a humidification function is required as it includes a humidification filter 133.

Therefore, the humidification mode can be used when the humidification function is intensively required due to a decrease in humidity rather than air cleaning.

4) Clean circulation concentrated mode

The clean circulation concentration mode will be described with reference to FIGS. 8 and 11.

Here, the air introduced into the intake 170 is flowed through the first functional filter 177a and the second functional filter 177b in the intake flow path 171, and the air flows through the flow path control member 150. The first discharge flow path 111 and the second discharge flow path 121 are directed. At this time, the air is guided by the guide 160 in the third discharge flow path 131 so that the humidifying filter 133 always has little air to prevent odor of the humidifying filter 133 and pollution.

Air is discharged through the first discharge port 112 and the second discharge port 122. The first discharge port 112 is installed on the front surface to allow intensive indoor circulation, and the second discharge port 122 is formed as an upper side surface, thereby generating large indoor circulation that circulates the entire indoor space largely due to convection. The clean circulation concentrated mode uses the functions of the clean concentrated mode and the clean circulation mode.

Therefore, when a clean function of a large indoor space is required at the same time as an intensive clean function of a narrow indoor space, a clean circulation concentrated mode can be used. In particular, it is useful when humidifying air is not required, such as spring and summer.

5) Humidification circulation mode

The humidifying circulation mode will be described with reference to FIGS. 9 and 12.

Here, the air introduced into the intake 170 is flowed through the first functional filter 177a and the second functional filter 177b through the intake flow path 171, and the air flows through the flow path control member 150. The second discharge flow path 121 and the third discharge flow path 131 are directed.

Air is discharged through the second discharge port 122 and the third discharge port 132. The second discharge port 122 is formed as an upper side, and can be used when a humidification function and an air cleaning function are required as the indoor large circulation that circulates largely throughout the indoor space due to convection phenomenon. The third discharge port 132 may be used when a humidification function is required as it includes a humidification filter 133. The humidification circulation mode uses the functions of the clean circulation mode and the humidification mode.

Therefore, the humidification circulation mode can be used when circulating air in a large indoor space and when a humidification function is also required. In particular, it is useful when humidified air is needed, such as autumn and winter.

6) Humidification concentration mode

The humidifying concentration mode will be described with reference to FIGS. 10 and 13.

Here, the air flowing into the intake 170 is flowed through the first functional filter 177a and the second functional filter 177b in the intake flow path 171, and is separated by the flow path control member 150. The first discharge flow path 111 and the third discharge flow path 131 are directed.

The air is discharged through the first discharge port 112 and the third discharge port 132. The first discharge port 112 is formed on the front surface to intensively clean the narrow indoor space, and the third discharge port 132 may perform a humidification function by including a humidification filter 133. The humidification concentration mode is used by adding the functions of the clean concentration mode and the humidification mode.

Therefore, the humidification-intensive mode can be used when intensive cleanliness and humidification functions are required for a narrow indoor space. In particular, it is useful when a limited amount of humidified air is needed in a small space.

As described above, the present specification has been described with reference to 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 understood that embodiments are possible. Therefore, the protection scope of the present invention should be defined by the claims.

100: housing
111: first discharge flow path
112: first outlet
119: second outlet grill
121: second discharge flow path
122: second outlet
129: second outlet grill
131: third discharge flow path
132: third outlet
133: humidification filter
134: bucket
135: water receiving section
139: third outlet grill
150: flow path control member
151 first unit
152 second unit
160: guide
170: inlet
171: suction passage
177a: first functional filter
177b: second functional filter
180: fan
181: fan power member
185: fan waterproof housing
190: control unit

Claims (13)

A suction passage 171 through which air flowing in from the suction port 170 flows;
A flow path control member 150 in the suction flow path 171; And
Housing 100 and
The flow path control member 150 is installed in the flow path between the suction flow path 171 and a plurality of discharge ports (112, 122, 132),
air cleaner.
According to claim 1,
The plurality of discharge ports (112, 122, 132)
A first discharge port 112 formed on one side of the housing 100;
A second discharge port 122 formed on an upper side of the housing 100;
A third discharge port 132 formed on the other side opposite to the one side of the housing 100;
A first discharge flow path 111 communicating with the first discharge port 112 and the suction flow path 171;
A second discharge flow path 121 communicating with the second discharge port 122 and the suction flow path 171; And
And a third discharge flow path 131 communicating with the third discharge port 132 and the suction flow path 171,
By the flow path control member 150, the suction flow path 171 communicates with any one or more flow paths of the first discharge flow path 111, the second discharge flow path 121, and the third discharge flow path 131. felled,
air cleaner.
According to claim 2,
A guide for guiding air inside the third discharge flow path 131 even when the flow path control member 150 closes the third discharge flow path 131 at the inlet of the third discharge flow path 131 ( 160),
air cleaner.
According to claim 3,
A humidification filter 133 located in the third discharge flow path 131;
The humidifying filter 133 is a water receiving portion 135 is seated; And
Including the water tank 134 having a check valve communicating with the water receiving portion 135,
air cleaner.
According to claim 2,
The first discharge port 112 is located on the side of the air cleaner,
The air introduced into the suction flow path 171 is discharged to the first discharge port 112 by the flow path control member 150 to perform a clean concentration mode.
air cleaner.
According to claim 2,
The air introduced into the suction flow path 171 is discharged to the second discharge port 122 by the flow path control member 150, and a clean circulation mode is performed.
air cleaner.
According to claim 4,
The air introduced into the suction flow path 171 is discharged to the third discharge port 132 by the flow path control member 150, so that a humidification mode is performed.
air cleaner.
According to claim 2,
The flow path control member 150 includes a plurality of units (151, 152),
The plurality of discharge ports (112, 122, 132) communicating with the suction passage 171 may be changed by the relative rotation between the plurality of units (151, 152),
air cleaner.
The method of claim 8,
The flow path control member 150 is formed in a b-shape by the relative rotation of the plurality of units (151, 152),
The suction flow path 171 is in communication with any two flow paths of the first discharge flow path 111, the second discharge flow path 121 and the third discharge flow path 131 by the flow path control member 150 ,
air cleaner.
The method of claim 9,
The air introduced into the suction flow path 171 is discharged to the first discharge port 112 and the second discharge port 122 by the flow path control member 150, whereby a clean circulation concentration mode is performed.
air cleaner.
The method of claim 9,
The air flowing into the suction passage 171 is discharged to the second discharge port 122 and the third discharge port 132 by the flow path control member 150, so that a humidification circulation mode is performed.
air cleaner.
The method of claim 9,
The air flowing into the suction flow path 171 is discharged to the first discharge port 112 and the third discharge port 132 by the flow path control member 150, so that a humidifying concentration mode is performed.
air cleaner.
According to claim 1,
It includes a fan 180 located on the suction passage 171,
The rotating part of the fan 180 is partitioned to be sealed to the fan power member 181 of the fan 180 by a fan waterproof housing 185,
air cleaner.

Images