KR20190001334A - Humidification air purifier that can perform both one of humidification function and air cleaning function - Google Patents

Abstract

A humidification air purifier is disclosed. More specifically, according to an embodiment of the present invention, the humidification air purifier comprises: an air cleaning unit (100); a first flow path (200) in which air discharged from the air cleaning unit (100) flows; a first discharge unit (300) formed at one side of the first flow path (200); a humidification unit (400) placed at the other side of the first flow path (200); and a flow path control member (500) opening or closing at least one of one side of the first flow path (200) or the other side of the first flow path (200).

Description

[0001] The present invention relates to a humidifying air purifier capable of selectively performing a humidifying function and an air purifying function,

The present invention relates to a humidifying air purifier, and more particularly, to a humidifying air purifier capable of controlling an internal flow path to perform a humidifying function, an air purifying function, a humidifying function and an air purifying function, respectively.

Recently, respiratory diseases due to fine dust are increasing. Respiratory diseases caused by such fine dusts may be caused not only by infants and elderly people but also by healthy adults.

Accordingly, examples of devices that have been attracting attention are humidifiers and air cleaners.

In the case of a humidifier, it functions to increase the humidity of the indoor room by evaporating the water. The humidifier can be classified into ultrasonic vibration type, heating type, and natural vaporization type according to the method of vaporizing water.

There are some differences according to the humidification method, but most humidifiers vaporize the water supplied through the water tank and discharge it to the outside of the humidifier to control the humidity of the room. The humidifying filter absorbs water and then discharges the absorbed water to the outside of the humidifier together with the air to increase the humidity of the room.

On the other hand, the air purifier mainly serves to keep the indoor air clean. Air purifiers can be broadly divided into a filter system and an electric dust collection system.

Particularly, a filter-type air cleaner mainly removes contaminants in the air by using an air purifying filter to filter and adsorb. Specifically, after the contaminated indoor air flows into the air purifier, the process of purifying the indoor air is repeated and the indoor air is purified again.

Humidifiers and air purifiers are functionally different, but both have a common feature as a device for increasing indoor air quality. As described above, there is a growing interest in the quality of the air, and there is an increasing demand for a humidifying air cleaner in which a humidifier and an air purifier can be both performed in a single device without having a separate humidifier and an air cleaner .

Accordingly, techniques for a humidifying air purifier capable of performing humidification function and air purifying function have been introduced.

For example, Korean Patent Publication No. 10-1691259 discloses a humidifying air purifier that simultaneously performs a humidifying function and an air purifying function. More specifically, the present invention discloses a humidifying air purifier capable of simultaneously performing a humidifying function and an air purifying function by rotating one moisture disk.

However, this type of humidifying air purifier must always perform the humidification function and the air purifying function at the same time. That is, there is a limitation that only the humidifying function or the air purifying function can be performed according to need.

As another example, Korean Patent Publication No. 10-1694036 discloses an air purifier having an optional humidifying function. Specifically, the apparatus includes a first filtering unit that is a HEPA filter and a second filtering unit that is in contact with water particles. The mode changing door may change a mode to perform only an air purifying function or perform both an air purifying function and a humidifying function Thereby starting the air purifier.

However, since this type of air purifier simultaneously performs the humidification function and the air purifying function in the second filtering section, there is a limit that the humidification function must be simultaneously performed in order to obtain a stronger air cleaning effect. That is, if the user desires to maximize the function of the air purifying function, the humidifying function must always be performed even if there is no necessity of humidification.

Korean Patent Registration No. 10-1691259 (December 23, 2016) Korean Patent Registration No. 10-1694036 (Feb.

It is therefore an object of the present invention to provide a humidifying air purifier capable of performing both a humidifying function and an air purifying function and simultaneously performing a humidifying function and an air purifying function, .

In order to achieve the above object, the present invention provides an air conditioning system comprising: an air purifying unit (100); A first flow path 200 through which the air discharged from the air purifier 100 flows; A first discharge part 300 formed at one side of the first flow path 200; A humidifier 400 positioned on the other side of the first flow path 200; And a flow control member (500) for opening or closing at least one side of the first flow path (200) or the other side of the first flow path (200).

When one side of the first flow path 200 is opened by the flow path control member 500 and the other side of the first flow path 200 is closed, a clean enhanced mode may be performed.

The concentrated circulation mode can be performed when one side of the first flow path 200 is closed by the flow path control member 500 and the other side of the first flow path 200 is opened.

When the one side of the first flow path 200 and the other side of the first flow path 200 are both opened by the flow path control member 500, the multi cycle mode can be performed.

The humidifying unit 400 may further include a humidifying filter 440.

When one side of the first flow path 200 is closed by the flow path control member 500 and the other side of the first flow path 200 is opened, all the humidification concentration modes can be performed.

The flow control member 500 may be installed adjacent to the first discharge portion 300 so that the first discharge portion 300 may be closed by the flow control member 500.

The air purifying unit 100 may further include a first blowing unit 110 positioned inside the air purifying unit 100.

The rotational speed of the first air-blowing unit 110 may be adjusted and the speed of the air flowing into the air cleaner 100 or the flow rate of the air flowing into the air cleaner 100 may be controlled by the controlled rotational speed of the first air- Any one or more can be adjusted.

And a second blowing part 210 positioned at another side of the first flow path 200 adjacent to the air purifying part 100.

The rotation speed of the second airflow-supplying part 210 can be adjusted and the speed of the airflow flowing in the first flow path 200 or the flow rate of the air flowing through the first airflow- Any one or more can be adjusted.

The humidifying unit 400 may include a second discharging unit 420 for discharging the air introduced into the humidifying unit 400 to the outside of the humidifying unit 400.

The humidifier 400 may further include a third blowing unit 430 positioned inside the second discharging unit 420.

The rotational speed of the third blowing unit 430 can be adjusted and the speed or flow rate of the air flow discharged to the outside of the humidifying unit 400 by the controlled rotational speed of the third blowing unit 430 May be adjusted.

The air purifying unit 100 may further include at least one of a deodorizing filter 120a and an air purifying filter 120b.

The humidifying air cleaner further includes a case 10 in which the air purifying unit 100, the first flow path 200, the first discharging unit 300, The portion 400 and the flow control member 500 can be positioned.

The humidifier 400 may further include a cistern 600. The cistern 600 may include a first receptacle 610 for receiving the water generated by the humidifier 400 .

The cistern 600 further includes a drain passage part 620 through which the water contained in the first receiving part 610 is drained and a second receiving part The water accommodated in the first accommodating portion 610 may be discharged to the second accommodating portion 18b through the drain passage portion 620. [

According to the present invention, the humidifying function or the air purifying function can be selectively performed by simply changing the flow path inside the humidifying air purifier, so that the user can easily select a desired function.

Further, since the flow path inside the humidifying air purifier is simply formed, there is less possibility of failure of the humidifying air purifier, and the service life of the humidifying air purifier can be prolonged.

In addition, the simple structure inside the humidifying air purifier allows the user to easily disassemble the humidifying air purifier to clean or replace the humidifying or air purifying filter.

Further, since the plurality of air blowing portions provided in the humidifying air purifier are selectively controlled, the intensity of the humidifying effect or the air cleaning effect can be adjusted as necessary. That is, the flow rate or speed of the inflow or discharge air can be controlled in multiple stages by selectively controlling the speed of each inflow portion.

Therefore, the humidification or air cleaning capacity can be increased to be used in a large space, or the humidifying or air cleaning capacity can be reduced for use in a narrow space, so that the size of the space in which the humidifying air purifier can be used is varied.

In addition, a plurality of discharge openings for the purified air are formed on the front and upper sides, respectively, so that the purified air can be discharged to the front to intensively ventilate the narrow space, and the purified air can be discharged upward to ventilate the wide space have.

In addition, the drainage structure inside the humidifying air cleaner is improved, and water that may be generated when using the humidifying air cleaner can be easily discharged.

1 is a perspective view of a humidifying air cleaner according to an embodiment of the present invention.
FIG. 2 is a perspective view showing the rear side of the humidifying air purifier of FIG. 1. FIG.
3 is a partially exploded perspective view of the humidifying air cleaner of FIG.
4 is a partially exploded perspective view of the humidifying air cleaner of FIG.
FIG. 5 is a view showing the position of the flow control member and the flow of air when the humidifying air purifier of FIG. 1 is operated in the clean enhanced mode.
FIG. 6 is a view showing a part of the components of the humidifying air purifier of FIG. 5 in order to show the position of the flow control member and the air flow.
FIG. 7 is a view showing the position of the flow control member and the flow of air when the humidifying air purifier of FIG. 1 is operated in the concentrated circulation mode.
FIG. 8 is a view showing a part of the components of the humidifying air purifier of FIG. 7 in order to show the position of the flow control member and the air flow.
FIG. 9 is a view showing the position of the flow control member and the flow of air when the humidifying air purifier of FIG. 1 is operated in the multi-circulation mode.
FIG. 10 is a view showing a part of the components of the humidifying air cleaner of FIG. 9 in order to show the position of the flow control member and the air flow.
11 is a view showing the position of the flow control member and the flow of air when operated in the humidified concentration mode according to an embodiment of the present invention.
12 is a view in which some components are omitted in order to clearly show the position of the flow control member inside the humidifying air purifier of FIG. 11 and the flow of air.
13 is a view showing a drainage structure inside the humidifying air cleaner according to the embodiment of the present invention.
Fig. 14 is a top view of the drainage structure of Fig. 13; Fig.
15 is a perspective view showing the drainage structure of FIG.

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

1. Humidified air Of the purifier (1)  Explanation

(1) humidified air Of the purifier (1)  Explanation of External Structure

1 to 4, a humidifying air purifier 1 according to an embodiment of the present invention includes a case 10.

The air purifier 100, the first flow path 200, the first discharge portion 300, the humidifier 400, the flow path control member 500, and the cistern (not shown) 600 are accommodated. In the illustrated embodiment, the case 10 is in the form of a rectangular parallelepiped, but its shape is not limited thereto and may be formed in various shapes.

The case 10 includes a front face portion 12, an upper face portion 14, a side face portion 16, and a back face portion 18.

The front portion 12 forms the front surface of the case 10. Referring to Fig. 4, the front portion 12 is detachably mounted to the case 10. As shown in Fig. Alternatively, the front portion 12 may be formed integrally with the top surface portion 14, the side surface portion 16, and the back surface portion 18, which will be described later.

In the illustrated embodiment, the side of the front portion 12 is partially bent to form a portion of the side portion 16. [

The front portion 12 includes an air inlet portion 12a and a humidifying air outlet 12b.

The air inlet 12a forms an inlet through which the room air flows into the air purifying unit 100 to be described later. In the illustrated embodiment, the air inlet 12a is formed with a plurality of circular holes. The shape of the air inlet portion 12a may be formed in any shape in which room air can be introduced.

The humidifying air discharge port 12b forms an air discharge port through which the air discharged from the humidifying part 400 or the air mixed with the water flows into the room. In the illustrated embodiment, the humidifying air outlet 12b is formed as a circular hole. The humidifying air outlet 12b may be formed in any shape through which air and water can pass.

However, it is preferable that the shape of the second discharging portion 420 of the humidifying portion 400 is the same as that of the second discharging portion 420 described later.

The upper surface portion 14 forms the upper side of the case 10. In the illustrated embodiment, a panel is formed on a part of the upper surface portion 14, and an opening is formed on the other part of the upper surface portion 14. The water tank 410 to be described later can be detachably mounted through the opening of the upper surface portion 14. [

The side surface portion 16 forms both side surfaces of the case 10. In the illustrated embodiment, a portion of the front portion 12 is bent to form a portion of the side portion 16. A handle 16a is formed on the side surface portion 16 so that the user can easily move the humidifying air cleaner 1. [

The back surface portion 18 forms the back surface of the case 10. A second receiving portion 18a, which will be described later, is formed on the inner side of the back surface portion 18. A description thereof will be given later.

Referring to FIG. 2, the humidifying air purifier 1 further includes a first discharging portion 300.

The first discharging portion 300 is a portion discharged from the humidifying air cleaner 1 after the air discharged from the air purifying portion 100 to be described later flows in the first flow path 200. A detailed description thereof will be described later.

(2) humidified air Of the purifier (1)  Explanation of internal structure

3 to 12, a humidifying air purifier 1 according to an embodiment of the present invention includes an air purifying unit 100, a first flow path 200, a first discharging unit 300, a humidifying unit 400, A flow control member 500, and a cystone 600. [

1) air (100)  Explanation

The air purifying unit 100 is a part for purifying indoor air and performing an air purifying function. To this end, the indoor air flows into the air purifying unit 100 to be purified, and then is discharged to the room again.

In the illustrated embodiment, the air purifying unit 100 is located below the humidifying air purifier 1. Without being limited thereto, the air purifying unit 100 may be located anywhere inside the humidifying air purifier 1.

The air purification unit 100 includes a first air supply unit 110, a filter case 120, a deodorization filter 120a, and an air purification filter 120b.

The first blow-in unit 110 functions to introduce indoor air into the air purifying unit 100. That is, the indoor air is introduced into the air purifying unit 100 through the air inlet 12a of the front portion 12 of the case 10 by the rotation of the first air inflow portion 110.

The rotational speed of the first blowing fan 110 can be adjusted as needed. That is, it may be rotated at a high speed to increase the flow rate of indoor air introduced into the air purifier 100, or may be rotated at a low speed to reduce the flow rate. Of course, the speed of the flow of the indoor air flowing into the air purifying unit 100 according to the rotation speed of the first blowing unit 110 can also be adjusted.

The filter case 120 is a portion into which at least one of the deodorization filter 120a and the air purification filter 120b to be described later is inserted. That is, both the deodorization filter 120a and the air purification filter 120b may be inserted into the filter case 120, or only one of them may be inserted.

In order to maximize the air purification effect, it is preferable that both the deodorization filter 120a and the air purification filter 120b are inserted.

The deodorization filter 120a removes odors present in the indoor air introduced into the air purifying unit 100. [ The deodorization filter 120a may be formed of any component capable of removing odor.

The air purifying filter 120b purifies the indoor air flowing into the air purifying unit 100. The air purifying filter 120b may include a high efficiency particulate air filter, but any other filtering device is possible.

The shape of the deodorization filter 120a and the air purifying filter 120b may be a square plate shape or a shape of the filter case 120. However, . However, it is preferable that the deodorization filter 120a and the air purification filter 120b are formed in the same shape as the filter case 120 into which the deodorization filter 120a and the air purification filter 120b are inserted.

2) Description of the first flow path 200

The first flow path 200 forms a passage through which the air discharged from the air purifier 100 flows.

A first discharging part 300 to be described later is formed on one side of the first flow path 200 and a humidifying part 400 to be described later is disposed on the other side of the first flow path 200. This will be described later.

The first flow path 200 includes a second flow-in part 210 and a second flow path 220.

The second air inflow part 210 accelerates the flow of the air so that the flow of air flowing in the first flow path 200 is directed toward the first discharge part 300 or the humidifying part 400.

And the second air-rich portion 210 is located at another side of the first flow path 200. Referring to FIG. 5, in the illustrated embodiment, the second inflow portion 210 is located below the first flow path 200. The position of the second inflow portion 210 may be located at any position capable of flowing air in the first flow path 200. [

However, it is preferable that the second air inflow portion 210 is positioned adjacent to the air purifying portion 100.

The rotational speed of the second blowing fan 210 can be adjusted as needed. That is, it may be rotated at a high speed to increase the flow rate of the air flowing in the first flow path 200, or may be rotated at a low speed to reduce the flow rate. Of course, the speed of the flow of the air flowing in the first flow path 200 may be adjusted according to the rotation speed of the second airflow 210.

The second flow path 220 is located on the other side of the first flow path 200. The humidifying part 400 to be described later may not be positioned adjacent to the first flow path 200 but may be located apart from the first flow path 200 by a certain distance. At this time, the second flow path 220 forms a flow path through which the air introduced into the other side of the first flow path 200 flows into the humidification part 400.

That is, when the humidifier 400 is positioned adjacent to the other side of the first flow path 200, the second flow path 220 may not be formed.

3) First The discharging portion 300  Explanation

The first discharge portion 300 is a portion where the air that has flowed in the first flow path 200 is discharged to the room.

In the illustrated embodiment, the first discharge portion 300 is located on the upper side of the case 10. The first discharge portion 300 is formed in a grill shape, and the shape of the first discharge portion 300 is not limited thereto, and any structure capable of discharging air can be formed.

The first discharge portion 300 is formed to be inclined with respect to the first flow path 200. Alternatively, the first discharging portion 300 may be formed in parallel with the upper surface portion 14 of the case 10.

The first discharge portion 300 may be closed by a flow control member 500 to be described later. When the first discharging portion 300 is closed, the inflow and outflow of air through the first discharging portion 300 are completely blocked. Therefore, even when the humidifying air cleaner 1 is not used, foreign dust can be prevented from flowing into the humidifying air cleaner 1 through the first discharging portion 300.

4) (Not shown) of the humidifier 400  Explanation

The humidifying unit 400 is a part that is introduced from the air purifying unit 100 and is discharged from the humidifying air purifier 1 after humidifying the air that has flowed through the first flow path 200.

The humidifying part 400 may be positioned adjacent to the other side of the first flow path 200 or may be spaced apart from the other side of the first flow path 200 by a predetermined distance.

The second flow path 220 in which air flows from the first flow path 200 to the humidification part 400 is formed when the humidification part 400 is spaced apart from the other side of the first flow path 200 by a certain distance .

The humidifying unit 400 includes a water tank 410, a second discharging unit 420, a third air supplying unit 430, a humidifying filter 440, a humidifying filter case 450 and a humidifying filter installing unit 460 .

The water tank 410 stores water for indoor humidification. The water stored in the water tank 410 is supplied to the humidifying unit 400 and is absorbed by the humidifying filter 440 so that the particles are reduced and then discharged to the room.

In the illustrated embodiment, the water bottle 410 is detachably mounted at an upper portion of the case 10. Without being limited thereto, the water tank 410 may be located anywhere that can supply the water stored in the water tank 410 to the humidifying unit 400. [

An upper surface portion of the water tank 410 forms an upper surface of the water tank, and a side surface portion of the water tank 410 forms one side surface of the water tank. When the water bottle 410 is mounted on the upper side of the case 10, the upper face portion of the water bottle 410 forms a part of the upper face portion 16 of the case 10, (16).

The second discharge portion 420 is a portion where the air introduced into the humidifier 400 is discharged to the room. The air introduced into the humidifying unit 400 may be discharged immediately without a separate humidification process, or may be humidified and mixed with water and discharged. This will be described later.

In the illustrated embodiment, the second discharging portion 420 is in the form of a circular grill, and the shape of the second discharging portion 420 is not limited thereto, and any structure capable of discharging air into the room can be formed.

It is preferable that the shape of the second discharge portion 420 is formed to be the same as the shape of the humidifying air outlet 12b of the front portion 12 of the case 10. [

The third blowing-out portion 430 accelerates the flow of the air discharged from the second discharge portion 420 into the room or the air mixed with the water.

And the third discharge portion 430 is positioned to be included in the second discharge portion 420. Alternatively, the third air-rich portion 430 may be located inside the second discharge portion 420.

The rotational speed of the third blowing fan 430 can be adjusted as needed. That is, the second discharge portion 420 may be rotated at a high speed to increase the flow rate of air discharged into the room or mixed with water, or may be rotated at a low speed to reduce the flow rate. Of course, the speed of the flow of the indoor air flowing into the air purifying unit 100 discharged from the second discharging unit 420 to the room can be adjusted according to the rotational speed of the third blowing unit 430.

The rotational speed of the third blowing fan 430 may be adjusted in accordance with the rotational speed of the first blowing fan 110 or the second blowing fan 210.

The humidifying filter 440 is a portion where the water supplied from the water tank 410 is absorbed. The water absorbed by the humidifying filter 440 is widely distributed along the surface area of the humidifying filter 440, and the size of each water particle is reduced. Therefore, the water absorbed by the humidifying filter 440 is more likely to be mixed with the air discharged into the room from the humidifier 400.

In the illustrated embodiment, the humidifying filter 440 is formed in a circular shape. Alternatively, the shape of the humidifying filter 440 may be formed in a shape other than a circular shape. It is preferable that the humidifying filter case 440 is formed in the same shape as the humidifying filter case 450 so that the humidifying filter case 440 can be mounted on the humidifying filter case 450.

The humidifying filter case 440 is mounted on the humidifying filter case 450. The user can separate the humidifying filter case 450 from the humidifying air purifier 1 and then clean or replace the humidifying filter 440 by separating the humidifying filter case 450 from the humidifying filter case 450.

In the illustrated embodiment, the humidifying filter case 450 is formed in a circular shape. Alternatively, the shape of the humidifying filter case 450 may be formed in a shape other than a circular shape. It is preferable that the humidifying filter case 440 is formed in the same shape as the humidifying filter 440 so that the humidifying filter case 440 can be mounted regardless of the shape of the humidifying filter case 450.

The humidifying filter installing portion 460 is a portion where the humidifying filter case 450 is installed. The humidifying filter mounting portion 460 may be connected to the cystone 600 to be described later.

The humidifying filter mounting portion 460 may include a separate locking device (not shown) so that the user can easily remove the humidifying filter case 450.

5) Description of the flow control member 500

The flow control member 500 controls the flow of air so that the flow of the air flowing in the first flow path 200 is directed to one or more of the first discharge portion 300 and the humidifying portion 400.

In the illustrated embodiment, the flow control member 500 is installed adjacent to the water can 410. The present invention is not limited thereto and the installation position of the flow control member 500 can be installed anywhere that the flow of the air flowing in the first flow path 200 can be controlled.

The flow control member 500 may be formed in a plate shape and is not limited thereto and may be formed into any structure capable of opening and closing one side of the first flow path 200 and the other side of the first flow path 200 .

In the illustrated embodiment, the flow path control member 500 is rotationally moved so that one side of the first flow path 200 and the other side of the first flow path 200 are opened or closed. Alternatively, the flow control member 500 may horizontally move to open or close one side of the first flow path 200 and the other side of the first flow path 200, and may be operated in any manner for this purpose .

When the flow control member 500 closes one side of the first flow path 200, the flow path control member 500 can close the first discharge portion 300. For this purpose, the flow control member 500 may be installed adjacent to the first discharge portion 300.

When the first discharge portion 300 is closed by the flow control member 500, the inflow or outflow of air from the first discharge portion 300 is completely blocked.

Therefore, even when the humidifying air cleaner 1 is not used, foreign dust can be prevented from flowing into the humidifying air cleaner 1 through the first discharging portion 300.

The flow control member 500 may open or close one side of the first flow path 200 or any other side of the first flow path 200.

That is, one side of the first flow path 200 is opened by the flow path control member 500, the other side of the first flow path 200 is closed, one side of the first flow path 200 is closed, And the other side of the housing 200 can be opened.

Further, one side of the first flow path 200 and the other side of the first flow path 200 may be opened by the flow path control member 500.

The process of opening and closing one side of the first flow path 200 and the other side of the first flow path 200 by the flow control member 500 and thus the change of the air flow and thus the air cleaning function or the humidification function are performed as described below do.

6) The cystoton 600  Explanation

The cistern 600 receives water that is not absorbed by the humidifying filter 440 and water droplets that may be generated during the discharge of the water particles that have been reduced through the humidifying filter 440 .

The cistern 600 is located below the humidifying filter case 450 and may be connected to the humidifying filter mounting portion 460 at an upper side of the cystone 600. Also, the system 600 may be included in the humidifier 400.

Referring to FIGS. 13 to 15, the cen- tern 600 includes a first accommodating portion 610 and a drain passage portion 620.

The first accommodating portion 610 is a kind of groove formed inside the cystone 600. The first water containing portion 610 is filled with water that is not absorbed by the humidifying filter 440 and water droplets that may be generated during the discharge of the water particles that have been reduced through the humidifying filter 440 .

In the illustrated embodiment, the first receiving portion 610 is formed on one side of the cystone 600. The first accommodating portion 610 is connected to a drain passage portion 620 to be described later so that the firstarily received water accommodated in the first accommodating portion 610 passes through the drain passage portion 620 to the second accommodating portion 18a ). ≪ / RTI >

The drain passage portion 620 forms a passage through which the water received in the first receiving portion 610 can flow into the second receiving portion 18a. For this purpose, the drain passage portion 620 may be formed to connect the first receiving portion 610 and the second receiving portion 18a.

At this time, the drainage passage portion 620 is closed so that the water flowing inside the drainage passage portion 620 is separated from the drainage passage portion 620 and does not flow out to other parts inside the humidifying air cleaner 1 .

The water primarily accommodated in the first accommodating portion 610 flows into the second accommodating portion 18a formed inside the back surface portion 18 via the drain passage portion 620. [ Therefore, the water inside the humidifying air cleaner 1 can be removed only by discharging the water contained in the second containing portion 18a of the back surface portion 18.

2. Humidified air Of the purifier (1)  Each operation Mode  Explanation

The humidifying air purifier 1 according to the embodiment of the present invention can perform various modes according to the indoor air condition or the season.

5 to 12, the respective modes of the humidifying air purifier 1 and the effects thereof will be described in detail.

(1) Clean Strengthening Mode  Explanation

The clean enrichment mode will be described with reference to Figs. 5 and 6. Fig.

The clean enrichment mode is an operation mode that maximizes the indoor air purification function. That is, it can be utilized when the necessity of purifying the air in the entire indoor space is very high.

More specifically, in this mode, the air purified in the humidifying air cleaner 1 is discharged from the first discharging portion 300 formed on the upper side of the humidifying air cleaner 1. When the purified air is discharged upward, an indoor general circulation which circulates the entire enclosed space by the convection phenomenon is generated.

Therefore, the air cleaning process in a wide indoor space can be performed by this mode.

When the clean enrichment mode is started, one side of the first flow path 200 is opened by the flow path control member 500, and the other side of the first flow path 200 is closed. Accordingly, the air discharged from the air purifying unit 100 and flowing through the first flow path 200 is directed to the first discharge unit 300 formed at one side of the first flow path 200.

The inflow and outflow process of the air will be described as follows.

First, contaminated room air flows in the air purifying unit (100). At this time, the first air-blowing unit 110 included in the air purifying unit 100 is operated, and indoor air can be introduced into the air purifying unit 100 more effectively.

The air purifying unit 100 includes at least one of a deodorizing filter 120a and an air purifying filter 120b. Of course, in order to maximize the air purification function, it is preferable that both the deodorization filter 120a and the air purification filter 120b are included.

The air is purified while passing through the deodorization filter 120a and the air purifying filter 120b introduced into the air purifying unit 100 and discharged to the first flow path 200. [

The air purifying unit 100 and the first air supplying unit 110 included in the air purifying unit 100 are operated while the humidifying air purifier 1 is operated in the clean enhanced mode, ). Therefore, the air entering the first flow path 200 starts to flow in the first flow path 200.

At this time, the second air-blowing portion 210 located on the other side of the first flow path 200 accelerates the flow of air flowing in the first flow path 200. The accelerated air is discharged to the room through the first discharge portion (300). Of course, the discharged air is purified air that has undergone a purification process.

While the humidifying air cleaner 1 is operated in the clean enhanced mode, the above process is repeated to purify the room air.

The clean enrichment mode is mainly used for fine dust, and it can be useful in the spring when the yellow dust that occurs in China is severe.

(2) Intensive circulation Mode  Explanation

The concentrated circulation mode will be described with reference to Figs. 7 and 8. Fig.

The concentrated circulation mode is an operation mode in which the circulation function of the indoor air is maximized for a certain space in the room. That is, it can be utilized when the necessity of the circulation of the indoor air through the air blowing is high.

More specifically, in this mode, the air purified in the humidifying air cleaner 1 is discharged from the second discharging portion 420 formed toward the front surface of the humidifying air cleaner 1. When the purified air is discharged to the front, intensive small circulation occurs in a narrow space for a short time.

Therefore, by this mode, a rapid indoor air cleaning process can be performed for a certain space in the room.

When the concentrated circulation mode is started, one side of the first flow path 200 is closed by the flow path control member 500 and the other side of the first flow path 200 is opened. The air that has been discharged from the air purifying unit 100 and has flowed through the first flow path 200 is directed to the humidifying unit 400 located on the other side of the first flow path 200.

The inflow and outflow process of the air will be described as follows.

First, contaminated room air flows in the air purifying unit (100). At this time, the first air-blowing unit 110 included in the air purifying unit 100 is operated, and indoor air can be introduced into the air purifying unit 100 more effectively.

The air purifying unit 100 includes at least one of a deodorizing filter 120a and an air purifying filter 120b. Of course, in order to maximize the air purification function, it is preferable that both the deodorization filter 120a and the air purification filter 120b are included.

The air is purified while passing through the deodorization filter 120a and the air purifying filter 120b introduced into the air purifying unit 100 and discharged to the first flow path 200. [

The air purifying unit 100 and the first air supplying unit 110 included in the air purifying unit 100 are operated while the humidifying air purifier 1 is operated in the concentrated circulation mode, ). Therefore, the air entering the first flow path 200 starts to flow in the first flow path 200.

At this time, the second air-blowing portion 210 located on the other side of the first flow path 200 accelerates the flow of air flowing in the first flow path 200. The accelerated air flows into the humidifier 400 located on the other side of the first flow path 200.

At this time, the humidifier 400 may be positioned a certain distance away from the first flow path 200. In this case, the second flow path 220 connecting the humidifier 400 and the first flow path 200 is formed, so that air introduced into the other side of the first flow path 200 flows in the second flow path 220 And may be introduced into the humidifying unit 400.

The humidifying unit 400 includes a humidifying filter 440 that is detachably mounted. Therefore, when the humidifying function is not required, the humidifying filter 440 can be removed. When the humidifying filter 440 is removed, the flow of air discharged from the second discharging portion 420 of the humidifier 400 can be further strengthened.

The third blowing part 430 included in the humidifying part 400 accelerates the flow of air flowing out of the humidifying part 400. Accordingly, the flow rate and the flow rate of the air discharged into the room from the second discharge portion 420 of the humidifier 400 can be further increased.

While the humidifying air cleaner 1 is operated in the concentrated circulation mode, the above process is repeated to circulate the indoor air.

Since the indoor air flowing into the humidifying air cleaner 1 always flows through the air purifying unit 100 and the air discharged to the room from the second discharging unit 420 of the humidifying unit 400 is discharged through the purifying process It is clean air through. That is, even when the humidifying air cleaner 1 is operated in the concentrated circulation mode, the indoor air can be kept clean.

The concentrated circulation mode can be useful for the summer when the humidity is high and the temperature is high and the air circulation and blowing function are highly required.

(3) Multi cycle Mode  Explanation

The multi-cycle mode will be described with reference to Figs. 9 and 10. Fig.

The multi-circulation mode is an operation mode in which both the indoor air purifying function and the indoor air circulating function are performed. That is, it can be utilized when the pollution degree of the indoor air is high and the necessity of the circulation of the indoor air through the air blowing is also high.

When the multi-circulation mode is started, one side of the first flow path 200 and the other side of the first flow path 200 are both opened by the flow path control member 500. The air that has been discharged from the air purifying unit 100 and has flowed through the first flow path 200 is branched by the flow path control member 500 to be directed to the first discharging unit 300 and the humidifying unit 400.

The inflow and outflow process of the air will be described as follows.

First, contaminated room air flows in the air purifying unit (100). At this time, the first air-blowing unit 110 included in the air purifying unit 100 is operated, and indoor air can be introduced into the air purifying unit 100 more effectively.

The air purifying unit 100 includes at least one of a deodorizing filter 120a and an air purifying filter 120b. Of course, in order to maximize the air purification function, it is preferable that both the deodorization filter 120a and the air purification filter 120b are included.

The air is purified while passing through the deodorization filter 120a and the air purifying filter 120b introduced into the air purifying unit 100 and discharged to the first flow path 200. [

The air purifying unit 100 and the first air supplying unit 110 included in the air purifying unit 100 are operated while the humidifying air purifier 1 is operated in the multi circulation mode, ). Therefore, the air entering the first flow path 200 starts to flow in the first flow path 200.

At this time, the second air-blowing portion 210 located on the other side of the first flow path 200 accelerates the flow of air flowing in the first flow path 200. The accelerated air flows into the humidifier 400 located on the other side of the first flow path 200.

At this time, the humidifier 400 may be positioned a certain distance away from the first flow path 200. In this case, the second flow path 220 connecting the humidifier 400 and the first flow path 200 is formed, so that air introduced into the other side of the first flow path 200 flows in the second flow path 220 And may be introduced into the humidifying unit 400.

The humidifying unit 400 includes a humidifying filter 440 that is detachably mounted. Therefore, when the humidifying function is not required, the humidifying filter 440 can be removed. When the humidifying filter 440 is removed, the flow of air discharged from the humidifier 400 can be further strengthened.

9 is a multi-circulation mode in which the humidifying filter 440 is removed and the blowing function is further enhanced. In the embodiment shown in FIG. 10, the humidifying filter 440 is mounted, and a blowing function and a humidifying function It is a multi-cycle mode in which both can be performed. That is, the effect of the multi-circulation mode can be diversified by attaching or detaching the humidifying filter 440.

The third blowing part 430 included in the humidifying part 400 accelerates the flow of air flowing out of the humidifying part 400. Accordingly, the flow rate and the flow rate of the air discharged into the room from the second discharge portion 420 of the humidifier 400 can be further increased.

While the humidification air purifier 1 is operated in the multi-circulation mode, the above-described process is repeated to circulate indoor air.

Since the indoor air flowing into the humidifying air cleaner 1 always flows through the air purifying unit 100 and the air discharged to the room from the second discharging unit 420 of the humidifying unit 400 is discharged through the purifying process It is clean air through. That is, even when the humidifying air cleaner 1 is operated in the multi-circulation mode, the indoor air can be kept clean.

The multi - circulation mode can be useful for autumn season where air circulation and blowing function are required much due to sudden diurnal difference. Also, it is possible to adjust the indoor humidity according to the weather by mounting or removing the humidifying filter 440.

(4) Concentration of humidification Mode  Explanation

The humidification concentration mode will be described with reference to Figs. 11 and 12. Fig.

The humidification concentration mode is an operation mode in which the humidification function of the indoor air is maximized. That is, it can be utilized when the indoor air is very dry and the need for humidification is high.

When the humidification concentration mode is started, one side of the first flow path 200 is closed by the flow path control member 500 and the other side of the first flow path 2 (00) is opened. The air that has been discharged from the air purifying unit 100 and has flowed through the first flow path 200 is directed to the humidifying unit 400 located on the other side of the first flow path 200.

The inflow and outflow process of the air will be described as follows.

First, contaminated room air flows in the air purifying unit (100). At this time, the first air-blowing unit 110 included in the air purifying unit 100 is operated, and indoor air can be introduced into the air purifying unit 100 more effectively.

The air purifying unit 100 includes at least one of a deodorizing filter 120a and an air purifying filter 120b. Of course, in order to maximize the air purification function, it is preferable that both the deodorization filter 120a and the air purification filter 120b are included.

The air is purified while passing through the deodorization filter 120a and the air purifying filter 120b introduced into the air purifying unit 100 and discharged to the first flow path 200. [

The air purifying unit 100 and the first air supplying unit 110 included in the air purifying unit 100 are operated while the humidifying air purifier 1 is operated in the humidified concentration mode, ). Therefore, the air entering the first flow path 200 starts to flow in the first flow path 200.

At this time, the second air-blowing portion 210 located on the other side of the first flow path 200 accelerates the flow of air flowing in the first flow path 200. The accelerated air flows into the humidifier 400 located on the other side of the first flow path 200.

At this time, the humidifier 400 may be positioned a certain distance away from the first flow path 200. In this case, the second flow path 220 connecting the humidifier 400 and the first flow path 200 is formed, so that air introduced into the other side of the first flow path 200 flows in the second flow path 220 And may be introduced into the humidifying unit 400.

The humidifying unit 400 includes a humidifying filter 440 that is detachably mounted. Therefore, air mixed with water is discharged from the second discharge portion 420 of the humidifier 400, thereby increasing the humidity of the room.

The third blowing part 430 included in the humidifying part 400 accelerates the flow of air flowing out of the humidifying part 400. Therefore, the flow rate and the flow rate of the air mixed with the water discharged into the room from the second discharge portion 420 of the humidifier 400 can be further increased.

While the humidifying air cleaner 1 is operated in the humidified concentration mode, the above process is repeated to raise the humidity of the room air.

Since the indoor air flowing into the humidifying air cleaner 1 always flows through the air purifying unit 100 and the air discharged to the room from the second discharging unit 420 of the humidifying unit 400 is discharged through the purifying process It is clean air through. That is, even when the humidifying air purifier 1 is operated in the humidification concentration mode, the indoor air can be kept clean.

The humidification concentration mode can be used mainly in the low winter season.

In summary, the flow of air flowing in the first flow path 200 of the humidifying air cleaner 1 can be controlled by the flow path control member 500 according to the selected operation mode. Therefore, the indoor air quality can be improved by selecting various operation modes according to the indoor air condition or the seasonal change.

Specifically, if indoor air pollution is high, indoor air quality can be improved by using a clean enhanced mode, a concentrated circulation mode when indoor air circulation is required, and a humidified concentration mode when indoor air is low due to low humidity.

In particular, the indoor air quality can be improved in various forms by utilizing the multi-circulation mode capable of performing the humidification function or the blowing function simultaneously with the air cleaning function.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It can be understood that it is possible.

1: Humidification air purifier
10: Case
12: Front side
12a: Air inlet
12b: Humidification air outlet
14:
16:
16a:
18:
18a:
100:
110:
120: Filter case
120a: deodorization filter
120b: air purifying filter
200: First Euro
210: second power supply
220: 2nd Euro
300: first discharge portion
400: humidifier unit
410: Bucket
420: second discharge portion
430: Third bundle
440: Humidification filter
450: Humidifier filter case
460: Humidifying filter mounting portion
500: flow control member
600: Sistern
610:
620:

Claims (18)

An air purification unit 100;
A first flow path 200 through which the air discharged from the air purifier 100 flows;
A first discharge part 300 formed at one side of the first flow path 200;
A humidifier 400 positioned on the other side of the first flow path 200; And
And a flow control member (500) for opening or closing at least one of the one side of the first flow path (200) or the other side of the first flow path (200)
Humidification air purifier.
The method according to claim 1,
Wherein the clean channel mode is performed when one side of the first flow path (200) is opened by the flow path control member (500) and the other side of the first flow path (200)
Humidification air purifier.
The method according to claim 1,
Wherein the concentrated circulation mode is performed when one side of the first flow path (200) is closed by the flow path control member (500) and the other side of the first flow path (200)
Humidification air purifier.
The method according to claim 1,
Circulation mode is performed when one side of the first flow path (200) and the other side of the first flow path (200) are both opened by the flow path control member (500)
Humidification air purifier.
The method according to claim 1,
The humidifying unit 400 further includes a humidifying filter 440,
Humidification air purifier.
6. The method of claim 5,
Wherein the humidification concentration mode is performed when one side of the first flow path (200) is closed by the flow path control member (500) and the other side of the first flow path (200)
Humidification air purifier.
The method according to claim 1,
The flow path control member (500)
(300) so that the first discharge portion (300) can be closed by the flow path control member (500). The first discharge portion (300)
Humidification air purifier.
The method according to claim 1,
The air purifying unit (100) further includes a first blowing unit (110) positioned inside the air purifying unit (100)
Humidification air purifier.
9. The method of claim 8,
The rotational speed of the first blowing fan 110 can be adjusted,
Wherein at least one of a speed or a flow rate of the air flowing into the air cleaner (100) is controlled by a controlled rotational speed of the first airflow (110)
Humidification air purifier.
The method according to claim 1,
Further comprising a second air-rich portion (210) located on another side of the first flow path (200) adjacent to the air purifying portion (100)
Humidification air purifier.
11. The method of claim 10,
The rotational speed of the second air-rich part 210 can be adjusted,
Wherein at least one of a speed or a flow rate of the air flow flowing in the first flow path (200) is controlled by the regulated rotational speed of the second airflow (210)
Humidification air purifier.
The method according to claim 1,
The humidifying unit (400)
And a second discharging unit (420) for discharging the air introduced into the humidifying unit (400) to the outside of the humidifying unit (400)
Humidification air purifier.
13. The method of claim 12,
The humidifying unit (400)
Further comprising a third air-rich portion (430) located inside the second discharge portion (420)
Humidification air purifier.
14. The method of claim 13,
The rotational speed of the third air-rich portion 430 can be adjusted,
Wherein at least one of a velocity or a flow rate of the air flow discharged to the outside of the humidifier (400) is controlled by the adjusted rotational speed of the third air-rich portion (430)
Humidification air purifier.
The method according to claim 1,
The air purifying unit 100 further includes at least one of a deodorization filter 120a and an air purifying filter 120b.
Humidification air purifier.
The method according to claim 1,
Further comprising a case (10)
The air purifying unit 100, the first flow path 200, the first discharging unit 300, the humidifying unit 400, and the flow path control member 500 are located inside the case 10 ,
Humidification air purifier.
17. The method of claim 16,
The humidifying unit 400 further includes a cistern 600,
The cistern 600 is provided with a first receiving portion 610 for receiving the water generated in the humidifier 400,
Humidification air purifier.
18. The method of claim 17,
The cistern 600 further includes a drain passage portion 620 through which water contained in the first receiving portion 610 is drained,
A second accommodating portion 18b is formed inside the back surface portion 18 of the case 10,
The water accommodated in the first accommodating portion 610 passes through the drain passage portion 620 and is discharged to the second accommodating portion 18b,
Humidification air purifier.

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