KR101346249B1 - Natural Evaporation Type Humidifier - Google Patents

Abstract

The present invention relates to an evaporative humidifier, by placing an evaporation tube of a porous material having excellent water absorption in contact with water to improve the water absorption amount and by concentrating air blowing inside the evaporation tube to improve the evaporation amount, Improves the amount of water evaporated to improve the overall humidification and humidification performance, and by heating the water stored in the storage tank or heating the blower air, improves the amount of water evaporated and prevents the growth of bacteria, making it more hygienic and humidified. This excellent evaporative humidifier is provided.

Description

Natural Evaporation Type Humidifier

The present invention relates to an evaporative humidifier. More specifically, by placing an evaporation tube of a porous material having excellent water absorption in contact with water to improve the water absorption amount and by condensing the air inside the evaporation tube to improve the evaporation amount, the water absorption amount and the water evaporation amount of the evaporation tube are improved, It is possible to improve the amount of humidification and humidification performance, and by heating the water stored in the storage tank or the blowing air, it is possible to improve the evaporation amount of the water and to prevent the propagation of bacteria. It is about.

Generally, a humidifier is used as an apparatus for increasing humidity in the air, and the humidifier is classified into an ultrasonic humidification method, a heating humidification method, a natural evaporative humidification method, and a forced evaporative humidification method.

Among them, a humidifier generally used in homes or offices is an ultrasonic humidification method or a forced evaporative humidification method. The humidification method has a relatively large amount of humidification and is widely used due to its relatively large humidification effect. However, as the social interest in the humidifier bacteria and toxic substances increases, its use has been greatly reduced.

Ultrasonic humidification method or forced evaporative humidification method is composed of an ultrasonic vibrator or a blower fan to granulate the water in the tank and blow it into the air. There was a problem that it is supplied with moisture. In particular, nanoparticle sized toxic substances present in the liquid water itself are contained in the aerosol water particles together with the water particles due to its operational structure of atomizing the liquid water and supplying it into the air in the aerosol state. Inhalation into the respiratory tract may cause serious toxic effects on the human body.

On the other hand, the heater humidification method is configured to boil water to 100 ℃ through the heater to supply water to the air in the state of steam, there is a risk of burn near the steam outlet because the water vapor is a high temperature state, even in this case nanoparticle size There is a risk of inhalation of toxic substances into the human respiratory tract with water vapor, which is not widely used due to high power consumption.

Therefore, in recent years, the natural evaporative humidifier which is harmless to the human body has been greatly spotlighted, the general natural evaporative humidifier according to the prior art, the amount of humidification is very small, the humidification effect is very small, the board is not used, the water in the tank When stored for a long time, the risk of breeding bacteria in the tank is very high and this also has a problem such as adversely affecting the health of a person.

The present invention has been invented to solve the problems of the prior art, an object of the present invention is to place the evaporation tube of a porous material having excellent water absorption in contact with water to improve the water absorption amount and to blow air concentrated inside the evaporation tube to evaporate amount By improving the moisture absorption amount and the moisture evaporation amount of the evaporation tube to provide an evaporative humidifier that can improve the overall humidification amount and humidification performance.

Another object of the present invention is to provide an evaporative humidifier which is more hygienic and humidified by improving the evaporation amount of water and preventing bacterial propagation by heating water stored in a storage tank or heating blown air.

The present invention, the main case; A storage tank disposed in the inner space of the main case and configured to store water therein; A portion of the evaporation tube of porous material penetrated and coupled to the storage tank to absorb water by being introduced into the water stored in the storage tank; And a blowing fan for blowing air to pass through the inner space of the evaporation tube, one end of the evaporation tube being exposed to the outer space of the main case, and the water absorbed by the evaporation tube evaporates to evaporate the evaporation tube. It provides an evaporative humidifier characterized in that the air is blown to the outer space in the state of steam with the air passing through.

In this case, the evaporative humidifier may further include a blower duct connecting the blower fan and the evaporation tube so that the air blown by the blower fan is concentrated to the inner space of the evaporation tube.

In addition, the storage tank may be equipped with a tank heating heater to heat the water stored in the internal space.

In addition, the bath heater may be controlled by a separate control unit so that the water stored in the storage tank is heated to 60 ℃ to 70 ℃.

In addition, a duct heating heater is mounted inside the blowing duct so that the air blown by the blowing fan is heated, and the air blown by the blowing fan is heated by the duct heating heater to be configured to pass through the evaporation tube. Can be.

In addition, the evaporation tube may be formed in a zigzag form in the inner space of the storage tank to increase the contact area with the water stored in the storage tank.

In addition, the evaporation tube may be formed in the form of a plurality of branches in the inner space of the storage tank so as to increase the contact area with the water stored in the storage tank.

In addition, a spiral baffle may be formed in the inner space of the evaporation tube to allow air to pass through the vortex in the inner space of the evaporation tube.

According to the present invention, by placing the evaporation tube of a porous material having excellent water absorption in contact with water to improve the water absorption amount and by concentrating air blowing inside the evaporation tube to improve the evaporation amount, thereby improving the water absorption amount and the water evaporation amount of the evaporation tube There is an effect that can improve the overall amount of humidification and humidification performance.

In addition, by heating the water stored in the storage tank or by heating the blowing air, it is possible to improve the amount of evaporation of the water and to prevent bacterial propagation, which is more hygienic and excellent humidification performance.

In addition, by increasing the area of contact with water by forming the evaporation tube in a zig-zag or branched form in the storage tank internal space, the water absorption can be increased and thus the air flow path can be increased to increase the water evaporation amount. There is an effect that can improve the overall amount of humidification.

In addition, by mounting a baffle to control the air flow in the evaporation tube inner space, there is an effect that can adjust the amount of water evaporation by adjusting the air flow path according to the user's needs.

1 is a conceptual diagram schematically showing the basic configuration of the evaporative humidifier according to an embodiment of the present invention,
2 is a conceptual diagram schematically showing the configuration of an evaporative humidifier according to another embodiment of the present invention;
3 is a view schematically showing the configuration of the evaporation tube of the evaporative humidifier according to an embodiment of the present invention,
4 and 5 are diagrams schematically showing the arrangement of the evaporation tube of the evaporative humidifier according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a conceptual diagram schematically showing the basic configuration of the evaporative humidifier according to an embodiment of the present invention, Figure 2 is a conceptual diagram schematically showing the configuration of an evaporative humidifier according to another embodiment of the present invention. .

Evaporative humidifier according to an embodiment of the present invention comprises a main case 100, the storage tank 200, the evaporation tube 600 and the blowing fan 300.

The main case 100 is configured to form an external shape of the humidifier, and an accommodating space is formed therein so that components such as a storage tank 200, an evaporation tube 600, and a blowing fan 300 are accommodated. One side of the main case 100 is formed with a through hole 130 so that one end of the evaporation tube 600 is in communication with each other, and water vapor evaporated through the evaporation tube 600 is discharged to the outside through the through hole 130. It is configured to be. In addition, the through hole 130 may be coupled to a separate discharge cap 110 having a discharge port 111 formed on one side, accordingly, the water vapor evaporated through the evaporation tube 600, the discharge hole of the discharge cap 110 ( 111 may be blown out to the outside.

The storage tank 200 is disposed in the inner space of the main case 100 and is formed in a container shape having an upper surface open to store water therein. The storage tank 200 is inserted into the evaporation tube 600 and the coupling port 210 is formed on the bottom surface to be coupled through, the water tank 200 is detached to one side of the storage tank 200 is detachable. Possibly combined. That is, the water supply container 120 penetrates through the main case 100 and is detachably coupled to one side of the storage tank 200 so as to supply water to the storage tank 200. When the water level of the water stored in the water tank 200 is lowered, a predetermined amount of water is configured to be supplied to the storage water tank 200 through a check valve (not shown). Since the water supply container 120 and the storage tank 200 are widely used in a general humidifier, detailed description thereof will be omitted.

The evaporation tube 600 is formed of a porous tube material so as to absorb the water, a portion of the coupling port 210 of the storage tank 200 to absorb the water is introduced into the water stored in the storage tank 200 Are coupled through. At this time, a separate sealing member 220 may be inserted between the evaporation tube 600 and the coupling port 210 so that water in the storage tank 200 does not leak. In addition, one end of the evaporation tube 600 is coupled to communicate with the through-hole 130 formed on one side of the upper end of the main case 100 is disposed to be exposed to the external space of the main case 100, such an evaporation tube 600 Water vapor evaporated through the through hole 130 is configured to be discharged to the outside. On the other hand, the evaporation tube 600 is formed of a material having an excellent water absorption function, it may be formed of a porous material including polyethylene according to an embodiment of the present invention.

The blowing fan 300 is disposed inside the main case 100 and blows air to pass through the inner space of the evaporation tube 600. A blower 140 is formed at one side of the main case 100 to allow the outside air to flow in for a smooth blowing function of the blowing fan 300. In addition, a blower duct connecting the blower fan 300 and the evaporator tube 600 such that the air blown by the blower fan 300 is concentrated and blown into the inner space of the evaporator tube 600 at the discharge port of the blower fan 300. 310 may be mounted.

According to this structure, the evaporative humidifier according to an embodiment of the present invention absorbs water while the evaporation tube 600 comes into contact with the water stored in the storage tank 200, and in this state, the internal space of the evaporation tube 600 is absorbed. Since the air is blown by the blowing fan 300 to pass through, the water absorbed in the evaporation tube 600 can be evaporated smoothly, and the evaporated water vapor is in the state of water vapor together with the air passing through the evaporation tube 600. It is blown to the outer space of the case (100).

At this time, the evaporation tube 600 and the blower fan 300 are interconnected by a separate blower duct 310 so that the air blown by the blower fan 300 is centrally blown into the inner space of the evaporation tube 600, The amount of evaporation of the evaporation tube 600 is further increased, whereby the amount of humidification of the humidifier is further improved.

That is, the evaporative humidifier according to an embodiment of the present invention is formed of a porous material of the evaporation tube 600 is excellent in water absorption, by blowing air intensively in the internal space of the evaporation tube 600, Since the amount of water evaporated in the evaporation tube 600 may be improved, the amount of humidification of the humidifier may be further increased.

Meanwhile, as illustrated in (a) of FIG. 2, a separate tank heating heater 510 may be mounted in the storage tank 200 to heat the stored water. In addition, the bath heating heater 510 may be operation controlled by a separate control unit 400, the operation may be controlled so that the water stored in the storage tank 200 is heated to about 60 ℃ to 70 ℃. Water temperature of about 60 ℃ to 70 ℃ corresponds to a temperature that can eradicate all the bacteria breeding in the storage tank (200). Meanwhile, in order to maintain the water temperature, a separate temperature sensor 700 may be mounted in the storage tank 200, and the controller 400 receives a water temperature value measured by the temperature sensor 700 to receive a water tank heating heater ( The operation of the 510 may be controlled.

According to such a structure, since the water stored in the storage tank 200 is heated to a temperature at which germs cannot be propagated, bacteria and the like cannot be propagated in the storage tank 200 unlike the prior art, and thus vaporized and discharged in a cleaner state. can do. In addition, since the temperature of the water absorbed in the evaporation tube 600 also increases as the temperature of the water stored in the storage tank 200 increases, the amount of evaporation through the evaporation tube 600 further increases.

That is, the evaporation phenomenon occurs more actively as the relative humidity decreases at the current temperature and more actively as the air is blown. The humidifier according to an embodiment of the present invention is a room temperature of the water stored in the storage tank 200. By heating higher, the temperature of the space inside the evaporation tube 600 is increased in the state absorbed by the evaporation tube 600, and thus the amount of saturated water vapor in the space inside the evaporation tube 600 increases, so that the relative humidity is reduced and evaporated. This happens better. At this time, since the air blowing continuously to the space inside the evaporation tube 600 as described above, the evaporation phenomenon is further accelerated.

Meanwhile, as illustrated in FIG. 2B, a separate duct heating heater 520 may be installed in the blowing duct 310. Accordingly, the air blown by the blower fan 300 is heated, and since the heated air passes through the evaporation tube 600 and is discharged to the outside with water vapor, the space inside the evaporation tube 600 is heated by the heated air. Is increased, and thus evaporation is more likely to occur on the same principle as described above.

Therefore, the evaporative humidifier according to an embodiment of the present invention may be equipped with heating heaters 510 and 520 in the storage tank 200 or the blower duct 310 to prevent germ propagation and increase the amount of humidification at the same time. Effective and effective humidification effect can be achieved.

3 is a view schematically showing the configuration of the evaporation tube of the evaporative humidifier according to an embodiment of the present invention.

Evaporation tube 600 according to an embodiment of the present invention may be formed to increase the contact area with the air in the internal space to improve the amount of evaporation, for this purpose is to flow the air to the internal space of the evaporation tube 600 A separate baffle 610 may be formed that can lead to a longer length.

The baffle 610 may be configured to be spiral, for example, as shown in FIG. 3A so that the flow of air forms a vortex in the internal space of the evaporation tube 600. Accordingly, since the air passes through the evaporation tube 600 with sufficient time in the space inside the evaporation tube 600, the air discharged from the evaporation tube 600 to the outside may include more water vapor. In particular, when the duct heating heater 520 is mounted to the blower duct 310 or the tank heating heater 510 is mounted to the storage tank 200, the vortex-type air flows in the space inside the evaporation tube 600. The temperature raising effect can be further increased, which further increases the amount of evaporation.

The baffle 610 may be formed in various structures without being formed in a spiral shape. For example, the baffle 610 may be formed in a shape such that air flow is induced in a zigzag form as shown in FIG. .

The baffle 610 may be coupled to be movable to adjust the height protruding in the space inside the evaporation tube 600, through which the user changes the arrangement of the baffle 610 according to the amount of evaporation, the flow of air Can be adjusted to pass relatively quickly or slowly.

In addition, the baffle 610 is for controlling the flow of air, but may be formed of a separate material from the evaporation tube 600, otherwise, the baffle 610 is formed of the same porous material as the evaporation tube 600 to increase the amount of water absorption. It is preferable that the water is absorbed through the baffle 610.

4 and 5 are diagrams schematically showing the arrangement of the evaporation tube of the evaporative humidifier according to an embodiment of the present invention.

Evaporation tube 600 according to an embodiment of the present invention is preferably formed to improve the amount of water absorption and evaporation, for this purpose it may be formed to increase the contact area with the water stored in the storage tank (200).

For example, as illustrated in FIG. 4, the storage tank 200 may be formed in a zigzag form, or as illustrated in FIG. 5, in a plurality of branches in the storage tank 200. .

That is, the evaporation tube 600 is formed in a zigzag or branched form so that the section introduced into the water in the state in which the storage tank 200 is filled with water may increase. As shown in 5, it is preferably formed to be positioned adjacent to the bottom surface of the storage tank 200 and arranged horizontally.

Accordingly, the contact area between the evaporation tube 600 and water is increased to absorb more water in the evaporation tube 600, and the flow path of air passing through the evaporation tube 600 is increased to contact the air. As the area is also increased, evaporation also takes place more actively. That is, the water absorption amount and the evaporation amount of the evaporation tube 600 is increased at the same time. According to this structure, the evaporative humidifier according to an embodiment of the present invention can be used more effectively as the overall amount of humidification is further improved.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: main case 200: storage tank
300: blowing fan 310: blowing duct
400: control unit 510: water tank heating heater
520: duct heating heater 600: evaporation tube

Claims (8)

Main case;
A storage tank disposed in the inner space of the main case and configured to store water therein;
A portion of the evaporation tube of porous material penetrated and coupled to the storage tank to absorb water by being introduced into the water stored in the storage tank;
A blowing fan for blowing air to pass through the inner space of the evaporation tube; And
Spiral baffles formed in the interior space of the evaporation tube to allow air to pass through forming an vortex in the interior space of the evaporation tube
And one end of the evaporation tube is exposed to an external space of the main case, and water absorbed in the evaporation tube is evaporated and blown to the external space in a vapor state together with air passing through the evaporation tube. Evaporative humidifier.
The method of claim 1,
And an air blowing duct connecting the air blowing fan and the evaporation tube so that the air blown by the air blowing fan is concentrated in the inner space of the evaporation tube.
3. The method of claim 2,
Evaporative humidifier, characterized in that the storage tank is equipped with a water tank heating heater to heat the water stored in the inner space.
The method of claim 3, wherein
The bath heater is evaporative humidifier, characterized in that the operation is controlled by a separate control unit so that the water stored in the storage tank is heated to 60 ℃ to 70 ℃.
3. The method of claim 2,
A duct heating heater is mounted inside the blowing duct so that the air blown by the blowing fan is heated, and the air blown by the blowing fan is heated by the duct heating heater to pass through the evaporation tube. Evaporative humidifier.
6. The method according to any one of claims 1 to 5,
The evaporative tube is evaporative humidifier, characterized in that formed in a zigzag form in the inner space of the storage tank to increase the contact area with the water stored in the storage tank.
6. The method according to any one of claims 1 to 5,
The evaporative tube is evaporative humidifier, characterized in that formed in the form of a plurality of branches in the storage tank inner space to increase the contact area with the water stored in the storage tank.



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