KR20120005293A - A cyclone humidifier having minute humidification function - Google Patents

Abstract

PURPOSE: A cyclone humidifier with a micro-humidification function is provided to keep a water reservoir and a water storage container clean by discharging only fine water particles through a simple structure. CONSTITUTION: A cyclone humidifier with a micro-humidification function comprises a water reservoir(200), a cap(300), an air blower(370), and a swirl generating device. The water reservoir stores water. The top of the water reservoir is opened. The cap opens and closes the top of the water reservoir and has a vapor vent for discharging vapor to outside. The air blower is installed inside the cap and generates air flow. The swirl generating device makes a swirl inside the water reservoir from the air flow generated by the air blower.

Description

A Cyclone Humidifier having minute humidification function

The present invention relates to a humidifier, and more particularly, to a cyclone-type humidifier for separating and discharging only fine water particles having a predetermined size or less using centrifugal force.

Living indoors for a long time, continuous inhalation of dry air in the room, causing various respiratory diseases. Therefore, in order to maintain indoor humidity at an appropriate level, a humidifier is used to granulate water and spray it into the room.

In such a humidifier, when an ultrasonic signal generated by an electric circuit is applied to a vibrator submerged in water, the vibrator vibrates to generate ultrasonic waves, and an electric heat that generates steam by heating water with an ultrasonic humidifier, a heater or an electrode that uses the effects of the vibration. Food humidifiers and filter vaporized humidifiers for evaporating water by passing air through a wet filter.

However, the humidifier is slightly different depending on the humidification method, but the size of the water particles scattered during the humidification is not convection properly in the room. Thus, only the part where the humidifier is installed is locally humidified, and the entire room is not humidified.

In addition, when water particles are scattered into the atmosphere, water particles having relatively large particles are combined with atmospheric dust by surface tension, and water particles combined with dust are inhaled by the respiratory tract, causing respiratory diseases, or indoors. Adsorbed to the circuit portion of the precision home appliances (for example, video player, audio player, TV, etc.) provided in the may cause a malfunction of the home appliances.

1 shows a configuration of a humidifier according to the prior art to solve this problem.

According to the drawings, the humidifier according to the prior art is mounted on one side of the base 20, the base 20 is provided with components such as a vibrator, the reservoir 20 for storing water, the other side of the base 20 It is composed of a spray furnace 60 and the like seated on the discharge of the steam to the outside.

Water is stored in the reservoir (10) stored in the reservoir 10 through the passage 22, the water is accumulated, and when the user operates the humidifier, the water is granulated by the vibrator (26). The granulated water (steam) is introduced into the inlet 32 by the air flow generated by the blower 50 and moves to the outlet 34.

At this time, a narrow slit 36 is formed between the inlet 32 and the outlet 34 of the steam outlet 30, and the partition 38 is provided at the front end of the slit 36. Therefore, in the case of relatively large water particles introduced into the inlet 32, the bulkhead 38 or the upper end of the inlet 32 is hit by the own weight and falls downward, and only the fine water particles are slits 36. After passing through the outlet 34, the spray hole 62 is sprayed to the outside.

However, in the case of the aforementioned fine humidifier according to the related art, the structure of the steam outlet 30 is complicated, so that it is difficult for the user to manage the humidifier cleanly, and the steam passes through the narrow slit 36 to the outside. Since it is sprayed, there is a problem that the spray amount is small.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, in the humidifier for controlling the humidity of the indoor air, while implementing a micro-humidification device using a cyclone method while at the same time the low container and the reservoir To facilitate the cleaning to maintain a hygienic indoor environment.

Humidifier according to the present invention for achieving the object as described above, the cap portion is provided with a cylindrical reservoir for storing water and the upper surface is open, and a steam exhaust port for opening and closing the upper portion of the reservoir and discharge the steam to the outside And a blower installed inside the cap unit to generate an air flow, and a swirl flow generating unit configured to generate a swirl flow in the inside of the low container by the air flow generated in the blower. do.

According to the embodiment of the swirl flow generating means, it comprises a blower cut out a portion of the bottom surface is installed the blower, and the inclined portion formed inclined at a predetermined angle in the circumferential direction of the bottom surface and the water storage container at one end of the blower It is preferable to be.

And, according to another embodiment of the swirl flow generating means, the blower is a portion cut off the bottom surface is installed the blower, the blower is installed inclined at a predetermined angle in the circumferential direction of the bottom surface and the reservoir is installed the blower It is preferable to be.

In addition, according to the embodiment of the low container, it is preferable that the diameter is gradually reduced from the top end to the bottom.

At this time, according to the embodiment of the cap portion, it is preferable to include a lower plate formed with the suction portion, and an upper plate formed with a discharge port in a position corresponding to the suction portion.

In addition, according to another embodiment of the humidifier according to the present invention, a water storage and the upper surface of the reservoir is opened, the cap portion is provided with a steam exhaust opening for opening and closing the upper portion of the reservoir and discharge steam to the outside, and It is characterized in that it comprises a swirl flow generating means for generating a swirl flow in the interior of the reservoir.

As described above, according to the ultrasonic humidifier according to the present invention, the following effects can be expected.

That is, by providing a humidifier with a simple structure to humidify only fine water particles, there is an advantage to maintain a hygienic indoor environment by allowing the reservoir and the reservoir of the humidifier to be cleanly managed.

1 is a cross-sectional view showing the configuration of an ultrasonic humidifier according to the prior art,
Figure 2 is a perspective view showing the overall appearance of the ultrasonic humidifier according to a specific embodiment of the present invention,
Figure 3 is a schematic cross-sectional view showing the internal configuration of the ultrasonic humidifier according to a specific embodiment of the present invention.

Hereinafter, a preferred embodiment of the humidifier according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing the overall appearance of the humidifier according to a specific embodiment of the present invention, Figure 3 is a schematic cross-sectional view showing the internal configuration of the humidifier according to a specific embodiment of the present invention.

As shown in the figure, the humidifier according to an embodiment of the present invention stores the water and the upper surface of the low water container 200, the cap portion capable of opening and closing the upper portion of the water storage container 200, the steam exhaust 380 is formed 300, and the steam generator 100 is coupled to the lower end of the cap 300 to granulate water.

The steam generator 100 generates an ultrasonic wave to vibrate the particles 110, a water level sensor 130 to sense the height of the water to stop the operation of the humidifier, and a float to float the vibrator. And 150.

The float 150 has a substantially ring shape. The vibrator 110 is integrally installed with the float 150 at a central portion of the float 150. At this time, the vibrator 110 is installed below a certain height than the float 150. The water level sensor 130 is installed on one side of the vibrator 110 is configured integrally with the float 150.

An empty space (not shown) is formed between the outer surface of the vibrator 110 and the inner surface of the float 150 so that the guide portion 172 of the guide portion 170 to be described later is fitted. The float 150 is made of a material having a specific gravity lower than that of water, and serves to float the vibrator 110 and the water level sensor 130 to a predetermined height from the surface of the water.

The water level sensor 130 is located below a certain height than the float 150. Therefore, if there is little water in the reservoir 200 so that the float 150 cannot float the steam generator 100, the steam generator 100 is seated on the bottom of the container. At this time, when the humidifier is continuously operated and the water level in the low container 200 becomes lower than the water level sensor 130, an electric signal is generated to block the operation of the vibrator in the circuit unit.

The storage container 200 is formed in a substantially cylindrical shape, the bottom surface is blocked to store water, the upper portion has a shape that is open so that the cap 300 to be described later is mounted. And the low container 200 is preferably formed so that the diameter becomes smaller from the top end to the bottom.

The cap part 300 includes a lower plate 310 having a suction port 320 and an upper plate 350 having a discharge hole 360. The suction port 320 and the discharge port 360 are connected to communicate with each other to form a steam exhaust 380. The upper plate 350 and the lower plate 310 are coupled to open and close each other. And the cap portion 300 is coupled to open and close the upper portion of the storage container (200). An air blower 370 for generating an airflow may be installed in the cap 300.

A blower 330 is formed on the bottom surface of the lower plate 310 corresponding to the position where the blower 370 is installed. The blower 330 is for blowing the air flow generated from the blower 370 into the inside of the low container 200, and is formed by cutting a portion of the bottom surface of the lower plate 310.

In addition, an inclined portion 340 is formed at one end of the tuyere 330 to be inclined at a predetermined angle with the bottom surface of the lower plate 310. At this time, the inclined portion 340 is preferably formed to be inclined along the circumferential direction of the storage container 200. The inclined portion 340 is a swirl flow in the reservoir 200 because the air flow discharged from the tuyere 330 is discharged inclined in the circumferential direction of the storage vessel 200 along the inclined portion 340. Serves to form.

In addition, in order to form the swirl flow, not only the above structure but also other structures may be considered. For example, it may be considered that the blower 370 is inclined at a predetermined angle with the bottom surface on which the blower 330 is formed. At this time, the blower 370 is preferably installed in the circumferential direction of the storage container 200. Even in this case, since the air flow generated from the blower 370 is inclined through the blower 330, the swirl flow is formed in the storage container 200.

The bottom side of the bottom plate 310 has a suction port 320 for sucking the steam generated in the steam generating unit 100 is formed. The periphery of the suction port 320 is formed to gradually increase in height from the bottom surface of the lower plate 310 to the periphery of the suction port 320 so that water vapor is easily blown out. The discharge plate 360 is formed at a position corresponding to the suction hole 320 of the lower plate 310. The discharge hole 360 is formed to be recessed downward. Ends facing the suction port 320 and the discharge port 360 are formed to be in close contact with each other. Therefore, when the user operates the humidifier, an air flow is generated by the blower 370 installed in the cap 300, and the blower 330 formed on the bottom surface of the lower plate 310 on which the blower 370 is installed. The air flows out of the storage container 200 by the inclined portion 340, and the water vapor generated in the steam generating unit 100 by the air flow generated at this time is composed of the inlet 320 and the outlet 360. The steam is discharged to the outside through the exhaust vent (380). That is, the suction port 320 and the discharge port 340 cooperate to guide the discharge of water vapor to the outside.

A guide part 170 may be installed at the lower end of the cap part 300. The guide portion 170 has a substantially thin cylindrical shape and a slit is formed in the central portion in the longitudinal direction. At this time, the remaining pillar portion is formed on the lower surface of the cap portion 300 to form a guide portion 172 extending downward, and the lower portion is installed on the guide portion 172 to form a bottom surface 174. The guide part 172 is inserted into a space (not shown) formed between the inside of the float 150 and the outside of the vibrator 110 to change the water level of the reservoir 200 as the steam generator 100 changes. It serves to guide the movement in the vertical direction. The steam generator 100 is seated on the bottom surface 174 when water in the reservoir 200 falls below a predetermined amount. That is, the lowest position of the vibrator 110 is regulated by the bottom surface 174. And the upper end of the guide portion 172 is coupled to the lower end of the cap 300 to be described later. Therefore, when the handle of the cap 300 is lifted, the cap 300, the guide 170, and the steam generator 100 are lifted together.

In this case, the vibrator 110 may not be configured integrally with the float, but may be configured to be seated on the guide unit without the float. In this case, the vibrator 110 is operated in a state in which the vibrator 110 is immersed in water by being seated on the bottom surface of the guide part installed in the storage container 200.

Hereinafter will be described in detail the process of the fine humidification of the humidifier according to a specific embodiment of the present invention as described above.

When a certain amount of water is stored in the reservoir 200, and the user operates the operation button of the humidifier, the electric signal generated from the circuit board (not shown) is sent to the vibrator 110. Accordingly, when the vibrator 110 vibrates to generate ultrasonic waves, water is granulated and splashed out.

In addition, when the blower 370 installed in the cap part 300 operates and blows out the airflow through the blower 330, and the airflow moves along the inclined part 340, the swirl flow occurs in the storage container 200. Done.

At this time, the water particles generated by the vibrator 110 is swirled in the reservoir 200 due to the descending swirl flow generated by the tuyere 330 and the inclined portion 340, the large water particles are centrifugal force As it turns into, it hits the wall of the reservoir and falls to the floor. In addition, as the ascending swirl flow is formed in the center of the descending swirl flow, the fine water particles rise along the ascending swirl flow and are blown out through the inlet 320 and the outlet 360. In particular, since the diameter of the low container 200 is formed so as to decrease from the top to the bottom, as the speed of swirl flow increases toward the bottom of the low container 200, large water particles have a sufficient centrifugal force It is effectively hit the wall surface of the reservoir 200 to fall to the floor.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and it is understood that those skilled in the art can make various modifications and adaptations within the scope of the claims. Self-explanatory

100: vibration part 110: vibrator
130: water level sensor 150: float
170: guide part 172: guide part
174: bottom 200: water container
300: cap 310: bottom plate
320: suction port 330: air vent
340: inclined portion 350: upper plate
360: outlet 370: blower
380: steam exhaust

Claims (6)

A cylindrical reservoir containing water and having an open top surface;
A cap part capable of opening and closing an upper portion of the reservoir and having a steam exhaust port for discharging steam to the outside;
A blower installed inside the cap to generate an airflow; And
Cyclone humidifier, characterized in that it comprises a swirl flow generating means for causing the air flow generated in the blower to generate a swirl flow in the interior of the low container. According to claim 1, wherein the swirl flow generating means,
A blower cut out a part of the bottom surface on which the blower is installed;
And an inclined portion formed at one end of the tuyere to be inclined at a predetermined angle in the circumferential direction of the bottom surface and the low container. According to claim 1, wherein the swirl flow generating means,
A blower cut out a part of the bottom surface on which the blower is installed;
The blower is a cyclone humidifier, characterized in that installed inclined at a predetermined angle in the circumferential direction of the bottom surface and the low container is installed the blower. The low water container according to any one of claims 1 to 3, wherein
Cyclone humidifier, characterized in that formed to gradually decrease in diameter from the top to the bottom. The method of claim 4, wherein the cap portion,
A lower plate on which an inlet is formed,
And a top plate having a discharge port connected to the suction port at a position corresponding to the suction port. A reservoir for storing water and having an upper surface open;
A cap part capable of opening and closing an upper portion of the reservoir and having a steam exhaust port for discharging steam to the outside; And,
Cyclone humidifier characterized in that it comprises a swirl flow generating means for generating a swirl flow in the interior of the low container.

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