KR20160139799A - Air cleaner with humidification of wet type - Google Patents

Abstract

The wet type humidifying air purifier according to the present invention is a wet type humidifying air purifier for purifying contaminated air by passing contaminated air into the air purifier and contacting pollutants with water to remove contamination sources, The inflow water is brought into collision with the rotating impeller to disperse the water particles into fine water particles so as to increase the contact contact with the air so that the contaminants in the air are introduced into the reservoir together with the water impregnated or precipitated, And a plurality of blades connected to the rotary ring at one side and a rotary plate at the other side, the rotary type impeller having a space inside and having an inner side opened, And a second rotary motor which is connected to the first rotary motor and is driven to be coupled to the first rotary motor, A main body for guiding air introduced into the main body through a scroll-shaped duct formed along a medial side of the main body and discharging the air through a discharge port formed at a lower end of the main body; A storage tank in which a vertical partition is installed so as to be partitioned into a reservoir and a purifier and an inflow hole is formed in one side of the rib, and a suction pump installed in the purifier, And a pipe-type first supply part connected to one side of a ring-shaped jet opening connected to the motor and having a plurality of nozzles that are inserted or interfaced with the opening of the main body.

Description

[0001] The present invention relates to a wet type humidification air cleaner,

The present invention relates to a wet type humidifying air cleaner, and more particularly, to a wet type humidifying air cleaner that removes contamination by passing contaminated air into an air cleaner and bringing a pollutant into contact with water, Water flows into the inside and impinges on the rotating impeller to disperse the water particles into fine water particles so as to increase the contact contact with the air so that the contaminants in the air are introduced into the reservoir together with the water impregnated in the air Or settling, and has a function of humidifying the indoor environment.

Generally, an air purifier is a device which removes contaminants through a purifying medium and discharges clean air including fine dust, various noxious gases, germs, fungi, and viruses.

The air purifier has various functions such as eliminating living odors, removing small particles such as mites, pollen, pet hair, and preventing diseases caused by air inflows, in addition to an air purifying function.

The air purifier is divided into two types, namely, dry type and wet type, and the dry type is divided into an electric dust collecting type and a filter type.

The electrostatic precipitator has the advantage that there is no need to replace the filter because there is no filter. However, if the dust collects on the electrostatic precipitator, the cleaning ability is lowered and the dust removing ability is weak.

The filter filtration formula is suitable for the yellow sand bar because it filters the various fine particles through the filter while flowing air between the filters. However, since the filter needs to be replaced periodically, there is a disadvantage that the filter replacement cost is required for maintenance have.

The wet type air cleaner has a merit that it does not need to exchange the filter by contacting the inhaled air with water and precipitates the suspended material in water, and the noise is small and it can function as a humidifier .

However, in the conventional wet type air cleaner, since the sensor that senses the water level uses a method of operating in direct contact with water, there is a problem of malfunction due to water. In addition, when water is pumped, the water stored in the case part is rotated together with the rotation of the water pump, so that a certain amount of water can not be secured and contact between the sprayed water and the sucked air is not properly performed. .

Korean Patent No. 10-1270551 (entitled "Wet Air Cleaning Device")

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is therefore an object of the present invention to provide a clean air purifier, The water collides with the centrifugal force of the external air introduced by the transverse flow impeller which rotates after the water is injected into the air cleaner, and the water is sufficiently dispersed into the fine particles while being in contact with the air so that the contaminants contained in the air penetrate into the water, For example,

Wherein the fine particles of the water containing the pollutant impinge on the inner circumferential surface of the body of the air cleaner or the outer circumferential surface of the impact portion to be introduced into the storage tank by the load of water,

The water introduced into the air cleaner is dispersed in fine particles by the rotation of the transverse flow impeller to extend the contact time for a certain period of time with the air introduced into the air cleaner, and,

And has a purpose of allowing the water introduced into the air cleaner to be dispersed by the impingement of the transverse flow impeller to have a function of humidifying the indoor environment.

The present invention relates to a transverse flow impeller including a plurality of blades having a space therein and an inner side opened and a rotary ring on one side and a rotary plate on the other side,

A first rotary motor connected to the center of the rotary plate of the transverse impeller and connected to the rotary motor,

A main body accommodating the transverse impeller and guiding air introduced from one opening through a duct of a scroll shape formed along the inner side and discharging the air through an outlet formed at the lower end,

A vertical partition wall is provided in the lower part of the main body so as to pass through the discharge port of the main body and has a space therein and is divided into a storage part and a purifier part, The tank,

And a pipe-type first supply unit connected to one side of a ring-shaped injection hole connected to a suction motor installed inside or outside the purification unit, which is connected to the inside of the purification unit of the storage tank and has a plurality of nozzles, A humidifying air cleaner is provided.

As described above, the wet type humidifying air purifier according to the present invention is a wet type humidifying air purifier according to the present invention, in which the contaminated air from the outside is forcedly introduced into the air purifier through the transverse impeller installed inside the air purifier, while at the same time, The water impinges on a transverse flow impeller which rotates and injects into the purifier, and the water is dispersed into fine particles, so that the contaminants contained in the air come into contact with the air to be infiltrated into water to be introduced into the storage tank, The fine particles are caused to collide with the inner circumferential surface of the main body of the air cleaner or the outer circumferential surface of the impact portion so as to be introduced into the storage tank by the load of water and that the water introduced into the air cleaner is sprayed by the rotation of the cross- It is possible to prolong the contact time with air introduced into the air cleaner while being dispersed, As a source of contamination in the water being sufficient to penetrate, while the water introduced into the air cleaner to the dispersion of the cross-flow type impeller impact has the effect that to have wet Functionality of an indoor environment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an embodiment of a wet type humidifying air cleaner according to the present invention (1). FIG.
FIG. 2 is a schematic exploded view of the wet type humidifying air cleaner according to the present invention shown in FIG.
3 is a perspective view of a crossflow type impeller in a wet type humidifying air cleaner according to the present invention shown in Fig.
FIG. 4 is a partial horizontal sectional view of a crossflow type impeller in a wet type humidifying air cleaner according to the present invention shown in FIG. 1; FIG.
Fig. 5 is a vertical cross-sectional view of a blade of a transverse impeller in a wet type humidifying air cleaner according to the present invention shown in Fig. 1
FIG. 6 is a perspective view of a storage tank in a wet type humidifying air cleaner according to the present invention shown in FIG. 1; FIG.
FIG. 7 is an internal structural view of the storage tank in the wet type humidifying air cleaner according to the present invention shown in FIG. 1; FIG.
FIG. 8 is a perspective view of a ring-shaped jetting nozzle bottom face (a) and a disk-shaped jetting nozzle bottom face of the first supply portion in the wet type humidifying air cleaner of FIG. 1 according to the present invention.
FIG. 9 is a cross-sectional view of external air and water flow by operation in the wet type humidifying air cleaner of FIG. 1 according to the present invention; FIG.
10 is a front perspective view (a) and a bottom perspective view (b) of a transverse impeller in a wet type humidifying air cleaner according to the present invention.
11 is a partial horizontal sectional view of the crossflow type impeller in the wet type humidifying air cleaner according to the present invention shown in Fig.
12 is a sectional view of the external air and water flow according to an embodiment (2) of the wet type humidifying air cleaner according to the present invention.
Fig. 13 is a sectional view of a flow in which the direction of the blades of the transverse impeller is reversed by the embodiment (2) of the wet type humidifying air purifier according to the present invention, and the outside air and water are moved.
Fig. 14 is a cross-sectional view of a wet type humidifying air cleaner according to an embodiment (2) of the present invention, in which concave and convex portions are formed on both sides of a moving portion connected to an upper portion of a discharge port to move outside air and water.
FIG. 15 is a cross-sectional view of a wet type humidifying air cleaner according to an embodiment (2) of the present invention, in which an ejection port is provided outside a transverse impeller to move outside air and water.
FIG. 16 is a structural view of a purified humidifying air cleaner according to the present invention, in which a purifier unit is separated inside a storage tank; FIG.

In order to achieve the above-mentioned object, the following embodiments will be described in detail with reference to the drawings.

As shown in FIGS. 1 to 9, according to the present invention, there are provided a main body 100a having a closed upper portion, a plurality of through holes 101 penetrating the entire outer circumferential surface and having an inner space with its lower portion opened, ,

A support plate 250 formed at the center of the opening hole 240 and having an opening in the upper surface corresponding to the inner space of the main body 100a while having a space therein, A plurality of support pieces 251 radially connected from the outer periphery to the inner periphery of the opening hole 240 are formed and the inner space is partitioned by the partition 230 A storage tank 200 in which an inlet hole 231 is formed in one side of the partition 230,

A plurality of blades installed inside the main body 100a and spaced apart from the inner circumferential surface of the main body 100a by a predetermined width and connected to the upper rotating plate 310 and the lower rotating ring 320, Type impeller 300 including the impeller 330,

The impeller 300 is installed inside the transverse impeller 300 and is spaced apart from the inner circumferential surface of the transverse impeller 300 by a predetermined width. The lower end of the transverse impeller 300 is fixed to the upper part of the support plate 250 of the storage tank 200, A first impact portion 400a having an upper portion closed and an open lower portion,

A support shaft 530 having a lower end fixed to the upper portion of the support plate 250 of the storage tank 200 and extending to a predetermined length into the first impact portion 400a,

The rotary shaft 510 is fixed to the upper end of the support shaft 530 and connected to the center of the rotary plate 310 of the transverse impeller 300 through the center of the upper surface of the first impact portion 400a, 510 includes a first rotating motor 500a having a binding shaft 520 fixed through a third through hole 102 formed at the center of the upper surface of the main body 100a with the upper end thereof being inward,

And is connected to a suction motor 620 installed inside or outside the purifying unit 220 so as to be connected to the inside of the purifying unit 220 of the storage tank 200, And is protruded through the second through hole 401 formed on the upper surface of the first impact portion 400a to extend upward into the first impact portion 400a through the hole 252 to be inserted into the rotary plate 310 of the transverse impeller 300, And a first supply part 600a of a pipe type connected to one side of a ring-shaped injection port 610 provided between the lower part and the upper part of the first impact part 400a and having a plurality of nozzles 611 spaced apart from the lower part. A humidifying air purifier 10 (hereinafter referred to as an 'air purifier') is provided.

2 and 9, the air purifier 10 includes an upper body 100a, a lower storage tank 200, a transverse impeller 300 provided in the body 100a, The first impingement 300 has a first impingement part 400a, a support shaft 530 that is installed inside the first impingement part 400a, and a second impingement part 400b fixed to the upper end of the support shaft 530, A first rotating motor 500a which penetrates the transverse impeller 300 and is coupled to the transverse impeller 300 to rotate the transverse impeller 300 and a second impeller 300 which communicates with the inside of the purifying part 220 of the storage tank 200, And a first supply part 600a extending upward into the injection part 400a and connected to the injection port 610 above the first impact part 400a.

The main body 100a has a cylindrical shape in which an upper portion is sealed, a lower portion is opened and an inner space is formed, and a plurality of through holes 101 penetrating the entire outer circumferential surface are formed, or an outer circumferential surface is formed in a net shape.

For example, a plurality of through holes 101 are formed on the outer circumferential surface of the main body 100a, and external air is supplied to the outside of the main body 100a through the through hole 101 of the main body 100a, So that air in the main body 100a flows into the main body 100a.

6 and 7, the storage tank 200 provided at the lower portion of the main body 100a includes an opening hole 240 formed in the upper surface corresponding to the inner space of the main body 100a, A plurality of support pieces 251 radially connected from the outer periphery of the support plate 240 formed at the center of the support hole 240 to the inner periphery of the support hole 240 are formed, A vertical partition 230 is provided in the partition 230 so as to be partitioned by the partition 220 and an inlet 231 penetrating through the partition 230.

The through hole 240 formed in the upper surface of the storage tank 200 corresponds to the opened lower portion of the main body 100a and water particles containing harmful substances in the introduced air of the main body 100a, The support plate 250 bounded by the radial support piece 251 formed at the center of the opening hole 240 is formed at the center of the opening hole 240, So that the first impact portion 400a and the lower end of the support shaft 530 are fixed.

In addition, water and air are prevented from being leaked and leaked on the upper surface of the storage tank corresponding to the lower end of the main body.

The storage tank 200 is divided into a vertical partition 230 divided into a storage unit 210 and a purifier 220 and the storage unit 210 of the storage tank 200 is opened The purifying unit 220 of the storage tank 200 may be configured such that the water introduced into the storage unit 210 is discharged to the outside through the partition wall 210, The water of the purifying part 220 flows into the storage part 210 through the inflow hole 231 of the partition 230. The water of the purifying part 220 flows into the purifying part 220 through the inflow hole 231 of the partition 230, Through a filter 232 installed in the main body of the apparatus.

As shown in FIGS. 2 and 3, the cylindrical transverse impeller 300 installed inside the main body 100a is installed on the inner peripheral surface of the main body 100a so as to be spaced apart from the main body 100a by a predetermined width, And a plurality of blades 330 connected to the upper rotating plate 310 and the lower rotating ring 320.

A plurality of blades 330 are radially spaced apart from each other around the outer periphery of the rotary plate 310 and the outer periphery of the lower rotary ring 320 at an upper portion of the transverse impeller 300, The shape of the blade 330 is a shape of a blade 330 that allows the outside air to flow into the inside of the transverse impeller 300 by the direction of rotation of the crossflow impeller 300. For example, The impeller 300 may be curved with a predetermined curvature or may be formed by the centrifugal force of the transverse impeller 300 rotating so as to have a slope &thetas; inclined in the longitudinal direction of the vertical direction of the blade 330 as shown in FIG. Is discharged to the opened lower portion of the transverse impeller 300 and the outside air is allowed to flow through the spaces between the blades 330 or by the shape of the blades 330 of the transverse impeller 300 River Typically to have a structure that allows the outside air is introduced into the cross-flow type impeller 300.

In other words, as shown in FIGS. 4 and 5, the impeller 300, which has a curved shape with a curved horizontal cross section of the blade 330 of the transverse impeller 300 and has a slope inclined downward in the longitudinal direction, The outer air is rotated in the direction of rotation of the first rotary motor 500a so that the outer air is drawn into the impeller 300. At this time, the impeller 300 forcibly rotates the impeller 300 At this time, the external air rotating inside the impeller 300 passes through the inclined portion of the blade 330 and the open impeller 300, so that the external air flows into the impeller 300, And is moved downwardly from the inside of the impeller 300 by the lower portion and discharged to the lower portion of the impeller 300.

In addition, the external air introduced by the centrifugal force of the rotating impeller 300 generates a vortex, and the rotation time and the rotation path of the air are further increased to more reliably separate the fine dust or the like contained in the outside air can do.

The structure of the transverse flow impeller 300 is a structure of a blade 330 that allows the outside air to flow into the transverse flow impeller 300. The present invention is limited to the structure of the transverse flow impeller 300 of the above- It is not.

2 and 9, the first impact portion 400a is installed in the transverse impeller 300 so as to be spaced apart from the inner circumferential surface of the impeller 300 by a predetermined width, 200, and has a space inside and an upper part closed and a lower part opened or closed.

The external air introduced through the through hole 101 of the main body 100a flows into the inside of the transverse impeller 300 by the rotation of the transverse flow impeller 300 and the introduced external air flows into the first impact portion 400a, The water jetted through the nozzle 611 of the jetting port 610 flows through the outer circumferential surface of the first impact portion 400a through the first supply portion 600a to be described later, The fine dust or harmful substance contained in the outside air is contained in the water and flows along the outer circumferential surface of the first impact portion 400a to be stored in the storage portion of the storage tank 200 through the opening hole 240 of the storage tank 200. [ (210).

As shown in FIGS. 2 and 9, the lower end of the support shaft 250 is fixed to the upper portion of the support plate 250 of the storage tank 200, and the upper end of the support shaft 530 extends to a predetermined length inside the first impact portion 400a. A first rotary motor 500a is provided and a rotary shaft 510 connected to an upper portion of a first rotary motor 500a which rotates by driving the first rotary motor 500a is connected to the first impact portion 400a, The first impingement part 400a penetrates the center of the top surface of the first impingement part 400a and penetrates the center of the top surface of the first impingement part 400a, The first impact portion 400a is formed so as not to rotate due to the rotation of the rotation axis 510 and the rotation axis 510 passing through the first impact portion 400a is not formed, The upper end of which is fixedly coupled to the center of the rotary plate 310 of the transverse impeller 300 and rotated by the driving of the first rotary motor 500a, Lt; / RTI >

And a binding shaft 520 fixed through the upper third central through hole 102 of the main body 100a with the upper end of the rotating shaft 510 inserted thereinto, And supports the rotation shaft 510 and supports the vibration due to the rotation of the rotation shaft 510.

As shown in FIGS. 2 and 8, the pipe-shaped first supply part 600a is connected to a suction motor (not shown) installed in the purifier 220 or inside the purifier 220, 620 to move the water contained in the purifying part 220 upward to extend into the first impact part 400a through the first through hole 252 formed on one side of the support plate 250 of the storage tank 200, And is installed between the lower part of the rotating plate 310 of the impeller 300 and the upper part of the first impact part 400a and protruded through the second through hole 401 formed on the upper surface of the first impact part 400a, Type injection port 610 formed with the nozzle 611 of the nozzle 611 of FIG.

That is, the water contained in the purging portion 220 of the storage tank 200 is moved by the operation of the suction motor 620 to move to the ring-shaped injection port 610 formed in a state of being hovered above the first impact portion 400a And is jetted through the nozzle 611 of the jetting port 610 to flow to the outer circumferential surface of the first impact portion 400a.

The operation of the air cleaner 10 will now be described with reference to FIG.

The suction motor 620 associated with the first supply part 600a moves the water contained in the purifier 220 of the storage tank 200 to discharge water from the nozzle part 610. The first rotary motor 500a rotates the rotary shaft 510 to rotate along the outer peripheral surface of the first impact portion 400a, The impeller 300 is rotated to pressurize the interior of the main body 100a by pressure increase due to the centrifugal force so that the air outside the main body 100a flows into the through hole 101 formed on the outer peripheral surface of the main body 100a, And the introduced external air is guided to the interior of the transverse impeller 300 in a centrifugal force or a pressurized state to collide with the outer circumferential surface of the first impact portion 400a at a high pressure so that the outer circumferential surface of the first impact portion 400a , That is, fine dust contained in the direct air that directly impinges, or the like The fine dust and the like separated from the outside air are absorbed into the water particles by the centrifugal force inside the impeller and the water containing fine dust or the like is moved downward through the outer circumferential surface of the first impact portion 400a, Through the opening hole 240 of the storage tank 200.

The contaminated water flowing into the storage part 210 of the storage tank 200 precipitates fine dust or the like on the bottom surface of the storage part 210 and fine dust or the like that has not settled is discharged into the inflow hole 231 of the partition 230, And the purified water is introduced into the purifying part 220 so that only purified water flows into the purifying part 220 and then flows into the inside of the main body 100a again, .

10 and 11, the transverse impeller 300 has a blade 330 installed radially between the outer circumferential surface of the lower rotating plate 310 and the outer circumferential surface of the upper rotating ring 320, .

As the rotary shaft 510 rotates by the driving of the first rotary motor 500a, the transverse impeller 300 rotates. At this time, through the inner side of the body 100c opened by the rotation of the transverse impeller 300, The external air is introduced into the transverse flow impeller 300 and the external air contained in the transverse flow impeller 300 rotating again flows through the space between the blades 330 of the transverse flow impeller 300 by centrifugal force, And collides with the inner peripheral surface of the main body 100c at a high pressure.

A transverse impeller 300 including a plurality of blades 330 having an inner space and an inner side opened and a rotary ring 320 on one side and a rotary plate 310 on the other side, as shown in FIG. 12, Wow,

A first rotary motor 500a which is coupled and connected to the center of the rotary plate 310 of the transverse impeller 300,

And a discharge port 112 formed at the lower end thereof for discharging the air introduced from the one opening 111 through the duct 110 in the form of a scroll formed along the inner side of the impeller 300, (100c)

The inner space is provided at a lower portion of the main body 100c so as to pass through the discharge port 112 of the main body 100c and the inner space is partitioned into the storage part 210 and the purifying part 220, A storage tank 200 in which an inlet hole 231 penetrating the partition wall 230 is formed on one side of the partition wall 230,

And is connected to a suction motor 620 installed inside or outside the purifying unit 220 to be moved into the purifying unit 220 of the storage tank 200 and is connected to the opening 111 of the main body 100c And a first supply portion 600a of a pipe type connected to one surface of a ring-shaped injection port 610 formed with a nozzle 611. The wet type humidification air cleaner 10 includes:

The structure of the transverse flow impeller 300 and the structure of the first rotary motor 500a have the same structure and operating method as those of the above-described technology, The installation direction is changed only due to the structure of the installation.

12, when the transverse flow impeller 300 is rotated by driving the first rotary motor 500a, outside air is introduced through the opening 111 of the main body 100c. At this time, the suction motor 620, The water contained in the purifying part 220 moves through the first supplying part 600a and flows into the nozzles 610 of the jetting port 610 formed at the end of the first supplying part 600a in the opening 111 of the main body 100c Water is sprayed through the impeller 300 and the water is injected into the transverse impeller 300. At this time, water is dispersed as fine particles by the rotation of the transverse impeller 300, Fine dust particles in the outside air permeate into the water particles by the collision between the water particles and the outside air and are discharged through the discharge port 112 of the main body 100c into the space between the reservoir 200 (210).

The water stored in the storage part 210, that is, the contaminated water containing fine dust or the like is deposited on the bottom surface of the storage part 210, and the contaminated water that has not yet settled is deposited on the inflow hole 231 of the partition 230 Filtered through the filter 232, and introduced into the purifier 220.

In addition, although the shape of the storage tank described above has a tetrahedral structure, it can be variously changed into a cylindrical shape or a polygonal shape, and can be manufactured in various forms incorporating the technique of the present invention at the use place or at the request of the user .

13, the direction of the blade 330 of the transverse impeller 300 is formed in a direction opposite to the direction of the blade 330 of the transverse impeller 300 shown in FIG. 12, To / from the discharge port 112, as shown in FIG.

As shown in FIGS. 14 and 15, wet type humidified air (air) is formed in the vertical movement part 113 connected to the discharge port 112 in association with the duct 110, Thereby providing a purifier 10.

The convex and concave portions 114 are formed inside the moving portion 113 so that water and air move while passing through the moving portion 113 where the plurality of concave and convex portions 114 are formed, The efficiency of adsorption of fine dust in the air to water is increased.

12, Fig. 13 and Fig. 14, a pipe-shaped (not shown) connected to one side of a ring-shaped injection port 610 having a plurality of nozzles 611 formed therein or interposed in the opening 111 of the main body 100c, The injection port 610 connected to the end of the first supply part 600a is connected to the outside of the transverse impeller 300 in the longitudinal direction outside the horizontal transverse impeller 300 as shown in Fig. The water injected through the nozzles 611 of the jetting port 610 is horizontally installed so as to be sprayed on the outer circumferential surface of the transverse flow impeller 300. The water is forcedly discharged to the outside by the rotation of the transverse flow impeller 300, The impeller 300 collides with the inner wall of the duct 110 outside the transverse impeller 300. At this time, fine particles in the outside air permeate into the water particles due to collision between the water particles and the outside air, 113 to the storage tank 200 through the discharge port 112, It is to be introduced into the storage unit 210. The

16, the storage unit 210 of the storage tank 200 is formed in the same shape as that of the main body 100a and installed in the lower portion of the main body 100a. At this time, A plurality of pores 221 are formed on the bottom or bottom surface of the outer circumferential surface of the purifying part 220. At this time, a filter (not shown) is formed on the bottom or bottom surface of the outer circumferential surface, So that the polluted water received in the storage unit 210 is introduced into the purifying unit 220 through the bottom of the outer circumferential surface of the purifying unit 220 or the bottom surface of the purifying unit 220 by the filter, The purified water stored in the purifier 220 is moved by the suction motor 620 installed inside the purifier 220 or the suction motor provided outside the storage part 210 through the connection pipe.

In addition, an air transfer port 211 is formed in the upper part of the outer surface of the storage tank 220 to control the pressure in the storage tank 200.

As described above, the wet type humidifying air cleaner can be manufactured by variously changing the design. Thus, the principle of the wet humidifying air cleaner can be manufactured by limiting the construction of the present invention through the embodiments, Can be easily fabricated by self-design change.

Air purifier: 10, main body: 100a, 100c, through hole: 101, storage tank: 200, storage part: 210, purification part: 220, partition wall: 230, opening hole: 240, supporting plate: 250, The first impingement part 400a and the first rotation motor 500a are connected to a rotation shaft 510 and a coupling shaft 520 is connected to the first supply part 600a and the ejection port 610 and the suction motor 620

Claims (3)

A transverse flow impeller 300 including a plurality of blades 330 having an inner space and an inner side opened and connected to a rotary ring 320 on one side and a rotary plate 310 on the other side,
A first rotary motor 500a which is coupled and connected to the center of the rotary plate 310 of the transverse impeller 300,
And a discharge port 112 formed at the lower end thereof for discharging the air introduced from the one opening 111 through the duct 110 in the form of a scroll formed along the inner side of the impeller 300, (100c)
The inner space is provided at a lower portion of the main body 100c so as to pass through the discharge port 112 of the main body 100c and the inner space is partitioned into the storage part 210 and the purifying part 220, A storage tank 200 in which an inlet hole 231 penetrating the partition wall 230 is formed on one side of the partition wall 230,
And is connected to a suction motor 620 installed inside or outside the purifying unit 220 to be moved into the purifying unit 220 of the storage tank 200 and is connected to the opening 111 of the main body 100c And a first supply part (600a) of a pipe type connected to one surface of a ring-shaped injection port (610) formed with a nozzle (611). The wet type humidifying air cleaner according to claim 1, wherein protrusions (114) protruding from both sides of a vertical moving part (113) connected to the discharge port (112) in association with the duct (110) . The apparatus according to claim 1, wherein a ring-shaped injection port (610) formed with a plurality of nozzles (611) connected to an end of the first supply part (600a) is not in contact with the opening (111) Type impeller (300) is horizontally installed outside the transverse impeller (300) in the longitudinal direction outside the horizontal transverse-flow impeller (300), characterized in that the jetting port (610) connected to the end of the first supply part Cleaner.

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