KR20180032023A - Outlet structure of humidifier - Google Patents

Abstract

The present invention relates to an outlet structure of a humidifier. The outlet structure of a humidifier according to the present invention is formed at a portion where an upper body and a lower body are coupled and an outlet is separated when the upper body is opened. By doing so, the outlet can be cleaned more easily, and hence cleanliness can be maintained easily and reliability of a product can be enhanced. In addition, at the outlet of the humidifier, vortex formation and vortex of water particles due to vortex formation are induced in spraying, and water is guided to the outlet and discharged to the outside in a finely divided and lighter ultra-fine particle state. Therefore, a problem of accumulating a large amount of water in vicinity of the outlet or in front of the outlet, which is generated when the water particles are sprayed as being in a conventional state of not being a minute particle, can be solved.

Description

Outlet structure of humidifier < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a humidifier used for appropriately maintaining the humidity of the ambient air, and more particularly, to an air outlet structure of a humidifier in which atomized water is sprayed.

A humidifier is a device that makes water into particles or water vapor and injects it into the air in order to create a comfortable environment and a favorable humidity for the human body. Humidifiers are also used to relieve respiratory illnesses caused by dry air.

Among the humidifiers, ultrasonic humidifiers are widely used. Ultrasonic humidifiers use ultrasonic vibrators to cause vibrations in water. These vibrations cause water particles on the surface of the water to be ejected out of the humidifier in the form of fine particles. .

Most humidifiers including such an ultrasonic humidifier are configured to spray granulated water or water vapor formed therein from the outside through a discharge port. Usually, the discharge port is formed in a hole structure in either the humidifier main body or the lid.

In this way, the humidifier is able to propagate a lot of germs and fungi when it is not frequently cleaned due to the characteristic that the water is stored in the water and the water is atomized and sprayed to the outside, so that the humidifier directly influences the user's respiratory system. This is very important.

In addition, in the conventional humidifier, the heated water particles in the water tank are not decomposed finely so that they are sprayed in a state that they are not properly made into fine particles. Therefore, when a large amount of water is accumulated in the vicinity of the discharge port or in the vicinity of the discharge port, This wetting problem is occurring. Accordingly, there is a problem in that it is necessary to wipe or clean the front or vicinity of the discharge port periodically.

Korean Patent Publication No. 10-2015-0012991 Korean Patent No. 10-0836684

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a discharge port in which an upper body and a lower body are combined, And to provide a ventilation structure of a humidifier which can enhance the reliability of a product.

In addition, it is an object of the present invention to induce swirling phenomenon of water particles due to vortex formation and vortex at the time of spraying at the humidifier outlet, and to be guided to the discharge port and discharged to the outside in a finely divided and lighter ultra fine particle state.

According to an aspect of the present invention, there is provided a humidifier comprising: a body having a water tank therein; a body having an upper body that is openably and closably coupled to an upper portion of the lower body; And an outlet for discharging the atomized water to the outside; A bottom portion of a lower portion of the upper body is formed with a vortex forming portion connected to the outlet and having a protruding structure of a predetermined height formed inside the lower body, And forms a swirling inclined surface inclined downward from the bottom surface to the inside of the lower body.

Another type of humidifier includes a body having a water tank therein and a body having an upper body that is openably and closably coupled to an upper portion of the lower body, and a body provided at one side of the body, And a separator plate coupled to a bottom surface of the upper body and covering an upper portion of the water tank; Wherein a part of the projecting structure which is connected to the discharge port is formed with a protrusion structure of a predetermined height formed on the bottom of one side of the lower part of the separating plate and formed inside of the lower body, And forms a swirling inclined surface inclined downward from the bottom surface to the inside of the lower body.

At this time, it is preferable that the protruding structure has a concave surface on the separator and a convex surface on the back surface.

Preferably, the protruding structure further includes a vortex curved surface connected to the vortex slope and formed to have a predetermined radius of curvature upward from the vortex slope.

The apparatus may further include a vibrating unit provided inside the body and vibrating the water stored in the water tank using a vibrator that generates ultrasonic waves to atomize the water.

Preferably, the outlet is formed at a portion where the lower body and the upper body are coupled to each other.

The above and other objects and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: In addition to the principal task solutions as described above, various task solutions according to the present invention will be further illustrated and described.

The outlet structure of the humidifier according to the present invention is such that the outlet is formed at a place where the upper body and the lower body are merged. Therefore, when the upper body and the lower body are combined, the outlet is used as a discharge port. It can be cleaned. Accordingly, it is easy to maintain the cleanliness of the humidifier and the reliability of the product can be improved.

In addition, since the vapors are formed at the outlet of the humidifier and the vortex of the water particles is induced by the vortex, the fine particles are more finely disintegrated and lighter, and are guided to the outlet and discharged to the outside. It is possible to solve the problem of accumulating a large amount of water near or in front of the discharge port.

1 is an external perspective view of a humidifier according to an embodiment of the present invention.
2 is an external perspective view of a humidifier according to an embodiment of the present invention, in which the upper body is opened.
FIG. 3 is a cross-sectional view showing the internal structure of a humidifier according to an embodiment of the present invention, and is a diagram of a low water level state.
FIG. 4 is a cross-sectional view showing an internal configuration of a humidifier according to an embodiment of the present invention, and is a diagram in a high-level state.
FIG. 5 is a cross-sectional view illustrating an internal structure of a humidifier according to an embodiment of the present invention, in which the upper body is opened.
FIG. 6 is a cross-sectional view illustrating an internal structure of a humidifier according to an embodiment of the present invention, showing a discharge port including a separation plate in detail.
FIGS. 7 and 8 are detailed views showing a vortex forming part on the front and back surfaces of a separator plate in a humidifier according to an embodiment of the present invention.
9 is a view illustrating a process of forming a vortex at an outlet of a humidifier according to a vortex forming unit in a humidifier according to an embodiment of the present invention.
10 to 12 are views of various directions of the vibration part of the humidifier according to the embodiment of the present invention.
13 is a reference view for explaining a vibration damping noise reducing structure of a humidifier according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is an external perspective view of the humidifier according to the embodiment of the present invention, Fig. 2 is an external perspective view of the upper body in an opened state, Fig. 3 is an internal structural view of the low water state, 4 is an internal configuration diagram in a high-level state, and Fig. 5 is an internal configuration diagram in a state in which an upper body is opened.

1 to 5, the humidifier according to an embodiment of the present invention includes an upper body 100 and a lower body 200 constituting a body, and a vibration unit 300 provided inside the body. .

First, the upper body 100 will be described.

The upper body 100 may include a control unit (not shown) including an electric circuit or the like for controlling the humidifier and may include a fan 110, a hinge unit 120, a rotary unit 130, 140), and the like.

It is preferable that the upper body 100 is configured so as to cover the water tub 210 provided in the lower body 200 by being openably and closably connected to the upper body 200. [ This is explained in detail below.

The control unit basically controls the vibrator 330 of the vibrating unit 300 or controls the fan 110 to introduce air into the water tank so as to atomize the water W stored in the water tank 210 do. The control unit is preferably configured to perform a function by operating an operation switch (not shown) configured on the upper body 100 or the lower body 200 or the like.

The control unit can be configured to be the same as or similar to the configuration of the electric circuit of the known ultrasonic humidifier. The control unit is preferably formed on the upper body 100. However, the control unit may be formed on the lower body 200 or divided into the upper body 100 and the lower body 200 if necessary.

The fan 110 is installed in the water tub 210 to suck outside air into the water tub 210 so that the water droplets can be discharged to the outside of the humidifier. A filter (not shown) may be configured to purify the outside air supplied into the water tub 210 in association with the fan 110. Meanwhile, it is preferable that the fan 110 is configured in the upper body 100, but it is also possible to configure the lower body 200 according to requirements such as design conditions of the humidifier.

The hinge unit 120 is configured to hinge the upper body 100 and the lower body 200 together. Accordingly, the user can lift the upper body 100 from the lower body 200 with the hinge part 120 as the center. When the upper body 100 is lifted from the lower body 200, the vibrating part 300 connected to the upper body 100 can be lifted together with the upper body 100 (refer to FIG. 5). This configuration allows the user to easily separate the water tub 210 from the lower body 200 without separating the vibration part 300. [

The swing unit 130 is configured to hinge the swing unit 300 to the upper body 100. Accordingly, it is preferable that the vibration unit 300 is configured to be able to move upward or downward according to the level of the water stored in the water tub 210 about the rotary unit 130 (see FIGS. 3 and 4) . This movement of the vibration unit 300 will be described in detail below.

The rotary unit 130 may include a variable resistor (not shown). The variable resistor is configured such that the resistance value changes according to the angle at which the vibration unit 300 rotates from the rotation unit 130. The height of the vibration unit 300 or the height of the vibrator 330 So that the control unit can refer to the control unit to inform the user of the water replenishment timing. However, the present invention is not limited to this, and it is also possible to configure a water level sensor or the like in the vibration unit 300 so as to measure the water level. This is explained below again.

The separation plate 140 is configured to perform a function of blocking the lower portion of the upper body 100 and is configured to protect the control unit and the like provided in the upper body 100 from moisture.

Since the separating plate 140 is disposed on the upper part of the water tub 210 and exposed to moisture, it is frequently cleaned or sterilized for clean use. 2, the upper body protrusion 101 formed at the lower center of the upper body 100 is separated from the upper body 100 by the separating plate (not shown) 140 or a groove / protrusion inserted into the separating plate groove 141 formed at the center of the separating plate 141. At this time, a separator plate coupling cover 142 may be formed in the separator plate groove 141 to support the shape of the groove / projection of the separator plate 140 and the upper body 100, ) To prevent water intrusion and the like.

The separation plate 140 is preferably made of a heat-resistant material (for example, stainless steel) such as metal or glass that is easy to clean or sterilize.

Next, the lower body 200 will be described.

The lower body 200 preferably includes a water tank 210 for storing water.

The water tank 210 is configured such that the upper part thereof is widely opened to facilitate cleaning, and may be configured to be detachable from the lower body 200 if necessary.

The user may adopt a method of boiling water by applying heat to the water tub 210 after filling the water in the water tub 210 to sterilize the water tub 210. For this purpose, It is preferably formed of a heat-resistant material (for example, stainless steel).

Meanwhile, a water heating unit (not shown) for boiling water in the water tank 210 may be further provided below the water tank 210. The heat generating part is composed of a coil or the like, and when electricity is supplied, the heat generating part can heat water in the water tub 210. The control unit is preferably configured to be interlocked with a separate switch (not shown) or the like for operating the heat generating unit.

In the above description, the water tank 210 is detachable from the lower body 200. However, depending on the conditions, the water tank 210 may be integrally formed with the water tank.

As shown in FIG. 6, a discharge port 250 is formed at one side of the lower body 200 or the upper part of the water tub 210 to discharge the atomized water to the outside of the humidifier.

The constitution of the vortex forming part 145 of the separator plate 140 connected to the discharge port 250 or the discharge port 250 will be described in detail with reference to FIGS. 6 to 9. FIG.

In the present invention, a vortex forming part having a protruding structure of a predetermined height, which is connected to the discharge port and formed on the inner side of the lower body, is formed on the lower surface of the lower part of the upper body. That is, the protruding structure of the vortex forming portion may form a swirling inclined surface having an inverted triangular section inclined downward from the bottom surface of the upper body 100 to the inside of the lower body 200 at a portion connected to the discharge port.

Alternatively, as shown in Figs. 6 to 9, the separator plate 140 constituting the lower portion of the upper body 100 may be detachably configured. The vortex forming part 145 is formed on the underside of the lower side of the separating plate 140 and has a protruding structure of a predetermined height formed inside the lower body 200 and connected to the discharge port 250 A portion of the protruding structure connected to the discharge port 250 may form a swirl inclined surface inclined downward from the bottom surface of the separator plate 140 to the inside of the lower body 200.

Here, the protruding structure may be a vortex inclined surface inclined downward, and an inverted triangular structure may be formed in the cross section.

9, when water is filled in the water tank 210 of the lower body 200 and then water is boiled by applying heat to the water tank 210, the water in the water tank 210 The water particles are atomized at the lower part thereof. The raised water particles then collide against the vortex forming portion 145 of the inverted triangular cross section to form a vortex. That is, it is possible to discharge the water droplets that have been atomized in the water tub 210 through the fan 110 to the outside of the humidifier. The water droplets that are atomized by the wind blowing through the fan are discharged from the vortex forming portion 145), a vortex is formed near the vertex of the inverted triangular section, and vortexing of the water particles occurs due to the vortex. Thus, the fine particles are finely decomposed by the wind blown through the fan 110, and the fine particles naturally flow into the vortex forming part 145 of the discharge port 250 So that it can be guided toward the discharge port 250 while being lifted up on the inclined surface of the inverted triangle to be discharged to the outside.

This induces vortex formation through the vortex forming part 1145 and the phenomenon of the water particles to be whirled, and is decomposed and lighter than the water particles raised in the water tank 210, and is guided from the discharge port 250 to be discharged to the outside. As a result, it is possible to improve the problem of accumulation of a large amount of water sprayed in the vicinity of the discharge port 250 or in front of the discharge port 250 without being raised into water particles in the water tank 210.

In this case, the vortex curved surface 144 formed with a rounded curved shape having a predetermined radius of curvature is formed on the opposite side of the discharge port 250 in the inverted triangular cross section of the vortex forming part 145, And a straight inclined surface 143 can be formed at the entrance side. This can induce a vortex phenomenon because the upward spray particle can rotate along the curved surface 144 when it collides with the vortex forming portion 145, and the water particles generated by the vortex phenomenon In the form of disintegrated fine particles, the atomized fine particles in the form of lighter particles can flow down along the straight inclined surface 143 during the outflow through the discharge port 250 (silding effect).

In order to facilitate induction of vortex flow and vorticity of water particles due to vortex formation and vortex when the sprayed particles heated by the water tank 210 hit the separation plate 140, The first circular protrusion 149, the second circular protrusion 148, and the third circular protrusion 147 are formed while increasing the size of the radius in the form of concentric circles around the groove 140.

The vortex forming portion 145 forming the vortex curved surface 144 and the vortexing inclined surface 143 as the protruding structure may have a concave structure on the surface and a convex structure on the back surface of the partition plate 140, (See Figs. 2 and 6 to 8). In addition, the first circular protrusion 149, the second circular protrusion 148, and the third circular protrusion 147 are formed in the separating plate 140 in a concave surface and the back surface forms a convex structure, It is possible to more easily induce the phenomenon of the water particles due to the eddy current and to easily make the water particles of the water tank 200 into fine particles.

The predetermined height of the protruding structure needs to be set to a minimum of 20 mm or more. In FIG. 8, a case where the height is set to 23 mm is shown as an example. However, the present invention is not limited thereto. .

The separation plate 140 may further include a vibration unit 300 for vibrating the water stored in the water tank 210 using a vibrator for generating ultrasonic waves to atomize the water. The insertion port 146 may be formed.

Also, the outlet 250 is preferably formed at a portion where the lower body 200 and the upper body 100 are coupled to each other. That is, the discharge port 250 is not formed in only one of the lower body 200 and the upper body 100, and a portion where the lower body 200 and the upper body 100 are coupled to each other cooperate to discharge the passage .

To this end, a lower discharge forming portion 255 having a concave structure is formed at an upper side of the lower body 200 (see FIGS. 1 and 6). An upper discharge forming portion 256 for blocking the upper portion of the lower discharge forming portion 255 is formed at a lower side of the upper body 100. Accordingly, the lower discharge forming portion 255 and the upper discharge forming portion 256 are coupled to each other to form the discharge port 250.

When the water tank 210 provided in the lower body 200 is configured to be detachable and the separating plate 140 constituting the lower portion of the upper body 100 is configured to be detachable as described above, The lower discharge forming part 255 and the upper discharge forming part 256 forming the discharge port 250 are formed on the upper side 215 of the water tray 210 and the lower side 145 of the separator 140 desirable.

Also, it is preferable that the discharge port 250 is formed to be upwardly inclined from the inside of the water tub 210 to the outside of the humidifier. The structure of the upward inclined outlet 250 allows water droplets that have been atomized in the water tank 210 to spread to the vicinity of the humidifier and that water droplets formed at the end of the water outlet 250 do not flow to the outside of the humidifier, To flow naturally. For this purpose, the lower discharge forming portion 255 is formed to be inclined upward from the inner side to the outer side. The upper discharge forming portion 256 is connected to the vortex forming portion 145 having a structure protruding from the lower surface of the upper plate 100, that is, the lower surface of the lower plate 200 to the inner side of the lower plate 200, (255) to form an upwardly inclined outlet (250) structure.

Referring to FIG. 1, the outer end 251 of the outlet 250 is preferably formed to have a U-shaped concave upper end of the lower body 200, It is preferable that the lower end of the body 100 is formed in a horizontal structure, that is, a straight structure, so that the lower shape of the upper body 100 is maintained as it is in other parts. This is because the shape of the discharge port 250 is mostly formed in the lower body 200 and hardly deformed in the upper body 100 side, so that the appearance of the humidifier can be improved.

2 and 5, when the upper body 100 is lifted up, the discharge port 250 is formed as the discharge port 250 is formed at the coupling portion between the upper body 100 and the lower body 200. [ The discharge port 250 is also opened so that the user can clean the discharge port 250 more easily and maintain the cleaned state.

In addition, the vortex forming part 145 forms a curved vortex curved surface 144 on the opposite side of the discharge port 250 and forms a straight inclined surface 143 on the inlet side of the discharge port 250, When the sprayed particles collide with the vortex forming part 145, they can rotate along the vortex curved surface 144 to facilitate the induction of the vortex phenomenon, and the vortexing of the water particles due to the vortex is generated, It is possible to make the lighter particles flow down along the straight inclined surface 143 (silding effect) during the outflow through the discharge port 250, so that the outer surface of the light water particle Can be facilitated.

In the embodiment described above, the structure in which the discharge port 250 is formed at the joint portion of the lower body 200 and the upper body 100, that is, the discharge port 250 is formed in a structure in which the body is vertically separated The present invention is not necessarily limited to this, and it is also possible to use the same structure as that of the embodiment of the present invention so long as the bodies are mutually cooperatively formed to form the discharge port 250, ) Can also be configured.

In other words, if the exhaust port 250 can be separated from the humidifier in the longitudinal direction in the longitudinal direction, various modifications can be made based on the above-described embodiment. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the present invention.

Next, the vibration unit 300 will be described with reference to Figs. 10 to 12. Fig.

The vibrating unit 300 is configured to be able to atomize the water stored in the water tub 210 by using a vibrator that generates ultrasonic waves.

It is preferable that the vibration unit 300 is coupled to the upper body 100 through the rotary unit 130 so that the vibration unit 300 can move up and down according to the water level as a whole.

The portion where the vibration unit 300 is coupled to the upper body 100, that is, the portion where the rotary unit 130 is positioned, is preferably positioned on the path through which the external air is introduced by the fan 110. Since the periphery of the rotary part 130 is relatively difficult to clean or sterilize unlike the part of the separation plate 140 of the upper body 100, the connection structure is placed in the external air inflow path, It is desirable to prevent the external air introduced from approaching the moisture around the swivel portion 130.

The vibrating part 300 includes a vibrating support 310 having an upper end rotatably mounted on the upper body 100 and a vibrator mounting part 320 provided at a lower end of the vibrating support 310 to which the vibrator 330 is installed And the like.

For convenience of explanation, the vibrator mount 310 will be described first, and the vibration mount 320 and the drowning noise reduction structure will be described.

It is preferable that the vibrator mount 320 is installed in a structure perpendicular to the end of the vibration mount 310. The vibrator mounting base 320 is preferably made of a material capable of buoyancy in water (for example, hollow structure) or a material (for example, a material having a specific gravity lower than that of water).

It is preferable that the vibrator mounting base 320 is configured to be bent toward the portion where the vibrating portion 300 is coupled to the upper body 100, that is, the swinging portion 130 as illustrated in the figure, So that the vibrator 330 can be positioned in the water even in the process of floating the vibrating part 300 as a whole by the buoyancy when the water is large.

A vibrator 330 is installed at a central portion of the vibrator mount 320. The vibrator 330 is a well known structure for generating ultrasonic waves by being installed in a humidifier. In this embodiment, the vibrator 330 is not separately described, ) Will be described with a configuration including a diaphragm.

Next, the vibration support 310 is formed by bending twice in the form of a long bar, and includes a connecting portion 311 connected to the turning portion 130, and a connecting portion 311 bent in a direction inclined at an end of the connecting portion 311 And a lower connecting portion 315 which is bent at the lower end of the inclined supporting portion 313 and connected to the vibrator mounting base 320 desirable.

Here, the connecting portion 311 may be configured such that the middle portion C thereof is detachable, so that the vibration support 310 is detachable from the rotation portion 130. If the vibration unit 300 is configured to be detachable from the upper body 100, the user can separate the vibration unit 300 as needed, and moreover, the vibration unit can be more easily cleaned So that it can be conveniently performed.

In the case where the connecting portion 311 is configured to be detachable, a connecting circuit for controlling the vibrator 330 and the like or for applying electricity is configured in the separated portion. The connection circuit configuration can be easily configured by applying a conventional electric circuit connection structure using a structure in which terminals are mutually connected, so that specific illustrations and explanations thereof are omitted.

The inclined support portion 313 is preferably arranged so as to reduce dripping noise by causing the vibrator 330 to collide with water particles in a fine granular state when they protrude above the water surface ('R' portion in the figure). For this purpose, it is preferable that the inclined supporting portion 313 is positioned to be inclined with respect to the vibration transmission direction so that the inclined supporting portion 313 passes through the upper right side of the vibrator 330, that is, the opposite side, more preferably, naturally flows down after the collided water drops collide.

The inclined support portion 313 constituted as described above constitutes the drowning reduction structure according to the present invention.

The inclined supporting portion 313 and the lower connecting portion 315 of the vibration supporting member 310 and the vibrator mounting base 320 connected to the inclined supporting portion 313 and the lower connecting portion 315 are formed into a substantially U- Shaped structure. Particularly, the inclined supporting portion 313 located on the opposite side of the vibrator mounting base 320 is positioned so that the water droplets can hit the water when the water jumps over the water surface due to the vibration generated in the vibrator 330, The force of collision of water drops is dispersed by being inclined with respect to the vibration mount 320, and the collided water droplets naturally flow down to minimize the dripping noise.

However, the present invention is not limited thereto. Alternatively, a drowned-sound reduction structure may be formed separately or additionally on the inclined support portion 313 so that the dowel- . For example, a part of the inclined support portion 313 can be changed from a rod-like structure to a plate-like structure. In this case, the contact area of the water can be expanded by the plate-like structure, so that the dripping noise can be further reduced. In addition, it is also possible to provide a separate structure capable of reducing dripping noise in the inclined support portion 313 so that the protruding water droplets collide with each other. At this time, the inclined support portion 313 does not have to pass through the opposite side of the vibrator 330, but may be supported by the inclined support portion 313 or its peripheral structure so that water droplets that are splashed may be reduced It is.

As described above, the technical ideas described in the embodiments of the present invention can be performed independently of each other, and can be implemented in combination with each other. While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art. It is possible. Accordingly, the technical scope of the present invention should be determined by the appended claims.

100: upper body 101: upper body projection
110: fan 120: hinge part
130: turning part 140: separating plate
141: separation plate groove 142: separation plate coupling cover
143: vortex slope 144: vortex curved surface
145: vortex forming part 200:
210: water tank 250: outlet
255: lower discharge forming portion 256: upper discharge forming portion
300: vibrating part 310: vibration supporting part
311: connecting portion 313: inclined support portion
315: Lower connection part 320: Oscillator mounting part
330: oscillator

Claims (9)

A lower body having a water tank therein, a body having an upper body openably and closably coupled to an upper portion of the lower body, and a discharge port provided at one side of the body for discharging water atomized inside thereof to the outside,
A vortex forming part connected to the discharge port on a bottom surface of the lower part of the upper body and having a protruding structure of a predetermined height formed inside the lower body,
Wherein a portion of the protruding structure connected to the discharge port forms a swirl inclined surface inclined downward from the bottom surface of the upper body to the inside of the lower body.
The method according to claim 1,
Wherein the protruding structure further comprises a vortex curved surface connected to the vortex slope and formed to have a predetermined radius of curvature upward from the vortex slope.
The method according to claim 1 or 2,
Further comprising a vibrating part provided inside the body for vibrating the water stored in the water tank using a vibrator that generates ultrasonic waves to atomize the water.
The method according to claim 1 or 2,
Wherein the outlet is formed at a portion where the lower body and the upper body are coupled to each other.
A body having a lower body having a water tank therein and an upper body that is openably and closably coupled to an upper portion of the lower body; a discharge port provided at one side of the body for discharging water atomized inside thereof to the outside; And a separator plate coupled to a bottom surface of the sieve and covering an upper portion of the water tank;
A vortex forming part connected to the discharge port and having a protruding structure of a predetermined height formed on the inner side of the lower body is formed on a bottom surface of the lower side of the separating plate,
Wherein a portion of the protruding structure connected to the discharge port forms a swirl inclined surface inclined downward from the bottom surface of the separator to the inside of the lower body.
The method of claim 5,
Wherein the protruding structure further comprises a vortex curved surface connected to the vortex slope and formed to have a predetermined radius of curvature upward from the vortex slope.
The method according to claim 5 or 6,
Further comprising a vibrating part provided inside the body for vibrating the water stored in the water tank using a vibrator that generates ultrasonic waves to atomize the water.
The method according to claim 5 or 6,
Wherein the outlet is formed at a portion where the lower body and the upper body are coupled to each other.
The method according to claim 5 or 6,
Wherein the protruding structure is formed in a concave shape on the surface of the separator and a convex shape on the back surface.

Images