JP2021196065A - Humidification air cleaner having sterilization function - Google Patents

Abstract

To provide a humidification air cleaner having functions of killing, reducing, and excluding microorganisms in a higher level.SOLUTION: A humidification air cleaner includes take-in part 10, a humidification part 13, sterilization parts 11, 12, and a delivery part 14. The take-in part 10 takes air in from the exterior. The humidification part 13 humidifies the air taken in by the take-in part 10. The sterilization parts 11, 12 sterilize the air taken in by the take-in part 10. The delivery part 14 delivers the air processed by the humidification part 13 and the sterilization parts 11, 12 to the exterior.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to a humidified air purifier, and more specifically to a humidified air purifier having a sterilizing function.

As an air purifier that purifies the indoor air by taking in the air outside the machine, performing a predetermined treatment, and sending it out of the machine, an air purifier equipped with a mechanism for sterilization has been proposed. (See, for example, Patent Document 1.)
Patent Document 1 proposes a sterilizing air purifier that uses ethanol, sodium hypochlorite solution, ozone water, electrolyzed water, and the like in combination.

Japanese Unexamined Patent Publication No. 2008-036020

New infectious diseases such as bacterial / viral infectious diseases such as pathogenic Escherichia coli such as O-157, charcoal bacillus, HIV, bird influenza virus, SARS, COVID-19, etc. are appearing one after another. There is an increasing need for prevention and countermeasures against such bacterial and viral infections. In addition, it is said that humidification of indoor air is effective as a preventive method against bacterial and viral infections.

The present disclosure addresses such needs and provides a humidified air purifier having a higher level of sterilization, sterilization, and sterilization functions.

One aspect of the present disclosure is a humidified air purifier, which includes an intake section, a humidifying section, a sterilization section, and a delivery section. The intake section takes in air from outside the aircraft. The humidifying section humidifies the air taken in by the intake section. The sterilizer section sterilizes the air taken in by the intake section. The delivery unit sends out the air after processing by the humidifying unit and the sterilizing unit to the outside of the machine.

According to such a configuration, bacteria and viruses in the air can be sterilized, sterilized, and sterilized, and the moisturized air can be sent out of the humidified air purifier. This can effectively contribute to the prevention and countermeasures of infectious diseases such as bacteria and viruses.

In one aspect of the present disclosure, the sterilizing unit may have a heating unit and an irradiation unit. The heating part is sterilized by heating. The irradiation unit sterilizes by irradiating light including wavelengths in the ultraviolet region.
According to such a configuration, double sterilization by different means can be performed, and a higher sterilization effect can be exhibited.

In one aspect of the present disclosure, the humidifying section may have a water receiving tank and a porous material. The receiving tank stores water. A part of the porous material is immersed in the water stored in the water receiving tank.
According to such a configuration, since the porous material can absorb and evaporate water due to its unique structure, it is possible to humidify the air without providing a separate special configuration.

It is an external view of a humidified air purifier. It is a schematic diagram which shows the internal structure of the main body in a humidified air purifier. It is a schematic diagram which shows the flow of the air in a humidified air purifier. It is a schematic diagram which shows the air flow in a humidified air purifier of a modification. It is a schematic diagram which shows the internal structure of the main body in the humidified air purifier of another modification. It is a schematic diagram which shows the flow of the air in the humidified air purifier shown in FIG. FIG. 3 is an external view showing a state in which the opening / closing door is open in the humidified air purifier shown in FIG.

Hereinafter, exemplary embodiments of the present disclosure will be described with reference to the drawings.
[1. composition]
The humidified air purifier 1 of the present disclosure is a device that purifies the air by sterilizing and humidifying the air taken in from the outside of the machine, and then sends the purified air to the outside of the machine. The term "sterilization" as used herein means that sterilization and sterilization are also included.

As shown in FIG. 1, the humidified air purifier 1 includes a rectangular main body 2 and a water tank 3 for storing water for humidification and supplying it to the inside of the main body 2. The main body 2 has an intake unit 10 that takes in air inside the main body 2, and a delivery unit 14 that sends out the air after the sterilization and humidification treatment from the inside of the main body 2 to the outside. The water tank 3 is attached to the main body 2.

FIG. 2 is a schematic view showing the internal structure of the main body 2. The main body 2 has a heating unit 11, a chamber 20, and a control unit 25, in addition to the above-mentioned intake unit 10 and delivery unit 14. Further, the main body 2 has an irradiation unit 12, a humidifying unit 13, and a cooling pipe 24 in the chamber 20.

The intake portion 10 has an intake port 10A which is a through hole connecting the inside and the outside of the main body 2. Air is taken into the inside of the main body 2 through the intake port 10A.
The delivery unit 14 has a delivery port 14A and a fan 14B. The delivery port 14A is a through hole connecting the inside and the outside of the main body 2. The air after the sterilization and humidification treatment is sent out from the inside of the main body 2 to the outside through the delivery port 14A. Further, the fan 14B can forcibly send air from the inside of the main body 2 to the outside.

The heating unit 11 is a unit that sterilizes the air by heating the air taken in from the intake unit 10. The heating unit 11 has a heater 11A and a heat insulating material 11B. The heater 11A has an elongated shape and is provided horizontally so as to be located below the intake portion 10. The heater 11A may be, for example, a far infrared heater. The heat insulating material 11B is provided below the heater 11A, and insulates the heat from the heater 11A so that the heat from the heater 11A is not transferred to the installation surface of the humidified air purifier 1. The heating unit 11 corresponds to the sterilization unit.

The chamber 20 is one of the small chambers formed inside the main body 2 and has a rectangular parallelepiped space. The chamber 20 is provided with an irradiation unit 12 on the upper side and a humidifying unit 13 on the lower side in a rectangular parallelepiped space. Further, the chamber 20 is provided with a partition wall 21 in the region of the irradiation unit 12. The partition wall 21 is a wall surface extending downward from the upper wall 22 forming the upper surface of the chamber 20. The lower end of the partition wall 21 is located at substantially the same height as the upper end of the porous ceramic material 13B in the humidifying portion 13, which will be described later.

The irradiation unit 12 is a unit that sterilizes the air taken in from the intake unit 10 by irradiating the air with ultraviolet rays. The irradiation unit 12 has a plurality of LED lamps 12A. The LED lamp 12A is an LED lamp that irradiates ultraviolet rays centered on a wavelength of 254 nm. Each of the plurality of LED lamps 12A is provided in the chamber 20 so as to hang from the upper wall 22. The irradiation unit 12 corresponds to the sterilization unit.

The humidifying unit 13 is a unit that humidifies the air taken in from the intake unit 10. The humidifying portion 13 has a water receiving tank 13A and a plurality of porous ceramic materials 13B. Water is supplied to the water receiving tank 13A from the water tank 3. Each of the plurality of porous ceramic materials 13B has a rectangular parallelepiped shape and is provided in the chamber 20 so as to extend upward from the lower wall 23 forming the lower surface of the chamber 20. In a state where water is supplied from the water tank 3 to the water receiving tank 13A, the lower portions of the plurality of porous ceramic materials 13B are each immersed in water.

The cooling pipe 24 is a pipe for passing air and has a hollow and elongated shape. The cooling pipe 24 is horizontally provided in the water receiving tank 13A. In a state where water is supplied from the water tank 3 to the water receiving tank 13A, the cooling pipe 24 is surrounded by water.

The control unit 25 is an operation panel for controlling the operation of the humidified air purifier 1, and has an operation interface 25A for the user of the humidified air purifier 1 to operate. The user of the humidified air purifier 1 can make various settings of the humidified air purifier 1 via the operation interface 25A.

[2. Sterilization and humidification treatment]
Next, a process of sterilizing and humidifying the air taken into the inside of the main body 2 by the humidified air purifier 1 will be described with reference to FIG. The plurality of arrows in FIG. 3 indicate the flow of air taken into the main body 2, respectively.

First, the air taken into the inside of the main body 2 from the intake port 10A in the intake section 10 (hereinafter, also simply referred to as air) is guided to the heating section 11 as shown by an arrow V. The air induced in the heating unit 11 is heated to 100 ° C. to 300 ° C. by the heater 11A and sterilized (hereinafter, also referred to as heat sterilization).

The heat-sterilized air is subsequently guided inside the cooling tube 24 and flows inside the cooling tube 24, as indicated by the arrow W. In this process, the hot air is primarily cooled by heat exchange with the water that fills the periphery of the cooling pipe 24.

The primary cooled air is subsequently guided to the region of the chamber 20 where the irradiation section 12 and the humidifying section 13 are provided, as indicated by the arrow X. Here, the water in the water receiving tank 13A is absorbed by the porous ceramic material 13B due to the capillary phenomenon of the porous ceramic material 13B in the humidifying portion 13. Then, the air is humidified by the evaporation of water from the porous ceramic material 13B. Further, the air is further cooled, that is, secondary cooled by the heat of vaporization when water evaporates from the porous ceramic material 13B. At this time, at the same time, the air is sterilized by irradiation with ultraviolet rays from the LED lamp 12A in the irradiation unit 12 (hereinafter, also referred to as ultraviolet sterilization).

As described above, the partition wall 21 is provided in the chamber 20. Therefore, as shown by the arrow Y, the air that has been secondary cooled and sterilized by ultraviolet rays once flows downward so as to wrap around the partition wall 21, and flows toward the opposite side of the partition wall 21.

The air that wraps around the opposite side of the partition wall 21 is continuously sterilized by secondary cooling and ultraviolet rays, and is guided to the delivery unit 14. Then, as shown by the arrow Z, the air is sent out to the outside of the main body 2 through the delivery port 14A.

[3. effect]
According to the embodiment described in detail above, the following effects can be obtained.
(3a) The humidified air purifier 1 includes an intake unit 10, a humidifying unit 13, a heating unit 11 and an irradiation unit 12 corresponding to a sterilizing unit, and a sending unit 14. The intake unit 10 takes in air from the outside of the humidified air purifier 1. The humidifying unit 13 humidifies the air taken in by the intake unit 10. The heating unit 11 and the irradiation unit 12 sterilize the air taken in by the intake unit 10. The delivery unit 14 sends out the air treated by the humidifying unit 13, the heating unit 11, and the irradiation unit 12 to the outside of the machine.

According to such a configuration, it is possible to sterilize, sterilize, and sterilize bacteria and viruses in the air, and to send the moisturized air to the outside of the humidified air purifier 1. This can effectively contribute to the prevention of infectious diseases such as bacteria and viruses.

(3b) The humidified air purifier 1 has a heating unit 11 that sterilizes by heating, and an irradiation unit 12 that sterilizes by irradiation of light including a wavelength in the ultraviolet region.
According to such a configuration, double sterilization can be performed by heating and irradiation of light including a wavelength in the ultraviolet region, and a higher sterilization effect can be exhibited.

(3c) The humidifying section 13 has a water receiving tank 13A for storing water and a porous ceramic material 13B which is a porous material partially immersed in the water stored in the water receiving tank 13A.
According to such a configuration, since the porous ceramic material 13B can absorb and evaporate water by the capillary phenomenon, it is possible to humidify the air without providing a special configuration.

[4. Other embodiments]
(4a) The main body 2 may have a cooling pipe 24B provided in the air flow path from the intake port 10A to the heating unit 11 instead of the cooling pipe 24, for example, as shown in FIG. In this case, heat exchange is performed between the air flowing from the intake port 10A to the heating unit 11 and the air flowing from the heating unit 11 to the chamber 20 through the cooling pipe 24B. As a result, the high-temperature air that has been sterilized by heating is cooled, and the air that is to be sterilized by heating is heated, so that the amount of heating in the heating unit 11 can be reduced. The main body 2 may have both a cooling pipe 24 and a cooling pipe 24B.

(4b) As shown in FIGS. 5 and 6, for example, the intake unit 10 has a layer in which air flows from the intake port 10A toward the heating unit 11 and a layer in which air flows from the heating unit 11 toward the chamber 20. It may have a multilayer structure 10C that is alternately overlapped. In the multilayer structure 10C, the layers in which air flows from the heating unit 11 toward the chamber 20 are connected in series via a pipe. Note that FIG. 6 is a schematic view showing the flow of air in a cross-sectional view of the humidified air purifier shown in FIG.

In this case, since the contact area between the air having a temperature difference increases, heat exchange can be performed more efficiently. Therefore, the amount of heat in the heating unit 11 can be further reduced.
(4c) The irradiation unit 12 may have a fluorescent lamp 12B that radiates ultraviolet rays instead of the LED lamp 12A, for example, as shown in FIGS. 5 and 6. Further, for example, the irradiation unit 12 may have both an LED lamp 12A and a fluorescent lamp 12B.

(4d) As shown in FIG. 7, for example, the main body 2 may be formed with an openable / closable door 26 at a part of the side walls forming the side surface of the chamber 20. Then, the humidified air purifier 1 may be operated with the opening / closing door 26 opened in a situation where people do not enter or leave the space where the humidified air purifier 1 is installed, for example, at night.

(4e) The functions of one component in the above embodiment may be dispersed as a plurality of components, or the functions of the plurality of components may be integrated into one component. Further, a part of the configuration of the above embodiment may be omitted. Further, at least a part of the configuration of the above embodiment may be added or substituted with respect to the other configurations of the above embodiment. It should be noted that all aspects included in the technical idea specified from the wording described in the claims are embodiments of the present disclosure.

1 ... Humidified air purifier, 2 ... Main body, 3 ... Water tank, 10 ... Intake part, 11 ... Heating part, 11A ... Heater, 12 ... Irradiation part, 12A ... LED, 12B ... Fluorescent lamp, 13 ... Humidifying part, 13A ... water receiving tank, 13B ... porous ceramic material, 14 ... sending part.

Claims (3)

The intake part that takes in air from the outside of the machine,
A humidifying section that humidifies the air taken in by the intake section,
A sterilizer that sterilizes the air taken in by the intake, and a sterilizer.
A delivery unit that sends out the air after processing by the humidifying unit and the sterilizing unit to the outside of the machine.
Equipped with a humidified air purifier. The humidified air purifier according to claim 1.
The sterilizing part is
A heating part that sterilizes by heating and
Irradiation part that sterilizes by irradiation of light including wavelength in the ultraviolet region,
Has a humidified air purifier. The humidified air purifier according to claim 1 or 2.
The humidified part is
A water tank that stores water and
A porous material that is partially immersed in the water stored in the water receiving tank, and
Has a humidified air purifier.

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