KR20220121536A - Thermo-hygrostat sterilizing the heat exchanger and humidifier by UV as one body - Google Patents

Abstract

The present invention relates to a thermos-hygrostat capable of UV sterilization of a heat exchanger and a humidifier as one body. More specifically, the thermos-hygrostat comprises: a casing; a heat exchanger exchanging heat with air introduced into the casing; a humidifier disposed to face the heat exchanger to provide moisture to the air passing the heat exchanger; a UV lamp radiating an ultraviolet ray between the heat exchanger and the humidifier; and a blower allowing the air to be introduced into the casing and allowing the introduced air to leak to the outside of the casing by passing the heat exchanger and the humidifier. The present invention can integrally and simultaneously sterilize the heat exchanger and the humidifier only by the UV lamp, thereby simplifying a structure and facilitating maintenance and management.

Description

Thermo-hygrostat sterilizing the heat exchanger and humidifier by UV as one body

The present invention relates to a thermo-hygrostat, and more particularly, to a thermo-hygrostat capable of simultaneously sterilizing a heat exchanger and a humidifier by integrating a heat exchanger and a humidifier and irradiating them with ultraviolet rays at the same time.

The thermo-hygrostat is used for the preservation and maintenance of computer room equipment, computer media, public records, libraries, and cultural assets. It is used in the field of Smart Farming.

Air-conditioning products such as thermo-hygrostat, home air conditioner, and vehicle air conditioner are equipment that manages air quality using air, water, and heat. .

Therefore, the thermo-hygrostat consumes a lot of power in the refrigeration cycle, that is, in the four devices of evaporation, compression, condensation, and expansion. When the humidity falls below the humidity, additional power consumption occurs in the humidifier for humidification.

A heat exchanger and a humidifier that perform the evaporation action of the refrigeration cycle are installed inside the thermo-hygrostat. In the heat exchanger, condensed water is generated on the surface during the refrigeration cycle and becomes contaminated, and the humidifier becomes contaminated with bacteria multiplying inside.

In this way, contamination is inevitable in the heat exchanger and humidifier of the thermo-hygrostat, and in order to remove bacteria, etc. caused by such contamination, Korean Patent Publication No. 10-2119531 (name: air conditioner with air purification function) uses UV lamp to emit ultraviolet rays. The above prior art (10-2119531) irradiates UV rays only to the heat exchanger and does not irradiate the humidifier with UV rays, so the effect is limited in that pollution in the humidifier cannot be prevented. There are disadvantages.

Registered Patent 10-2119531

The present invention has been devised to solve the problems of the prior art, and a heat exchanger and a humidifier that not only sterilize a heat exchanger and a humidifier at the same time, but also simplify the structure by integrating the heat exchanger and humidifier and facilitate contamination management of equipment. An object of the present invention is to provide a thermo-hygrostat that can be sterilized by ultraviolet rays integrally.

In accordance with the present invention for solving the above problems, a thermo-hygrostat in which a heat exchanger and a humidifier can be sterilized by ultraviolet rays integrally includes: a casing; a heat exchanger for exchanging the air introduced into the casing; a humidifier disposed to face the heat exchanger and providing moisture to the air that has passed through the heat exchanger; a UV lamp irradiating ultraviolet rays between the heat exchanger and the humidifier; and a blower for allowing air to flow into the casing as well as for allowing the introduced air to flow out of the casing through a heat exchanger and a humidifier.

Here, it is installed between the heat exchanger and the humidifier and is configured to further include a connection frame for integrally connecting the heat exchanger and the humidifier, and the UV lamp is installed across the connection frame.

Specifically, the heat exchanger has a refrigerant tube disposed inside a frame forming the exterior, the humidifier is a vaporization humidifier made of a porous plate inside the frame forming the exterior, and the connection frame is air inside the frame forming the exterior The heat exchanger, the humidifier, and the connecting frame have the same shape and size, and the heat exchanger, the humidifier and the connecting frame have the same shape and size. It is integrated with the module of

Here, a plurality of UV lamps are installed on the side plate of the connection frame at regular intervals up and down, and each UV lamp is disposed to cross between the heat exchanger and the humidifier, so that the heat exchanger and the humidifier are integrally UV sterilized over the entire area. It is possible.

And an installation hole through which the UV lamp is installed is formed in the side plate of the connection frame, and the multi-socket part to which the plurality of UV lamps are electrically connected is coupled to the outside of the connection frame.

On the other hand, the casing is provided with an operating panel equipped with a general operation button and an equipment sterilization button, and when the general operation button is pressed, the blower is operated to operate the constant temperature and humidity process, and when the equipment sterilization button is pressed, the constant temperature The UV lamp irradiates ultraviolet rays to the surface of the heat exchanger and humidifier while the constant humidity process is not operated.

In addition, the operation panel is further provided with an air sterilization button, and when the air sterilization button is pressed, the blower is operated to operate the constant temperature and humidity process, and the UV lamp irradiates ultraviolet rays to the surfaces of the heat exchanger and humidifier.

The thermo-hygrostat in which the heat exchanger and the humidifier of the present invention can be sterilized together with UV light can sterilize the heat exchanger and the humidifier at the same time with a UV lamp irradiating UV between the heat exchanger and the humidifier. Since there is no need to provide a separate means, the structure can be simplified, the operation is convenient, and there are advantages of easy maintenance.

In addition, since the heat exchanger and the humidifier are integrated to form one module, transport and management are easy, and there is an advantage in that it is easy to assemble inside the casing.

In addition, it is possible to select general constant temperature and humidity operation, equipment sterilization operation, and air sterilization operation through selective lighting of the UV lamp, which has the advantage of being able to actively respond to contamination inside the thermo-hygrostat and indoor air.

In addition, since the sterilization of the heat exchanger and the humidifier is carried out at the same time, there is an advantage in that the sterilization time can be shortened.

1 is a view showing a thermo-hygrostat capable of UV sterilization integrally with a heat exchanger and a humidifier according to the present invention.
2 and 3 are views showing a heat exchanger, a humidifier, and a connection frame of the thermo-hygrostat shown in FIG. 1;
4 is an exploded view of a heat exchanger, a humidifier, and a connection frame of the thermo-hygrostat shown in FIG. 1;
5 is an exploded view of the UV lamp in the connection frame of the thermo-hygrostat shown in FIG.

Hereinafter, an embodiment of a thermo-hygrostat in which a heat exchanger and a humidifier according to the present invention can be sterilized by ultraviolet rays will be described in detail with reference to the accompanying drawings.

1 is a view showing a thermo-hygrostat in which a heat exchanger and a humidifier according to the present invention can be sterilized together with UV light, FIGS. 2 and 3 are views showing a heat exchanger, a humidifier and a connection frame of the thermo-hygrostat shown in FIG. 1 , and FIG. 4 FIG. 1 is an exploded view of the heat exchanger, the humidifier, and the connection frame of the thermo-hygrostat shown in FIG. 1 . 5 is an exploded view of the UV lamp in the connection frame of the thermo-hygrostat shown in FIG. 4 .

The thermo-hygrostat in which the heat exchanger and the humidifier according to the present invention can be sterilized by UV in one unit includes a casing (10), a heat exchanger (20) installed inside the casing (10), and a humidifier (30) installed inside the casing (10) ), a connection frame 40 connecting the heat exchanger 20 and the humidifier 30, a plurality of UV lamps 50 installed in the connection frame 40, and the casing 10 installed inside It is configured to include a blower (60), a heater (70) installed inside the casing (10), and a filter (80) installed on the suction port (11) side of the casing (10).

The casing (10) forms the exterior of a thermo-hygrostat, and has an intake port (11) formed on one side and an outlet port (12) on the other side.

The suction port 11 is provided at the lower part of one side of the casing 10 , and when the blower 60 is operated, air from the outside of the casing 10 is introduced into the casing 10 through this place.

The outlet 12 is provided on the upper surface or the upper side of the casing 10, and the air introduced into the casing 10 through the inlet 11 goes through an air conditioning process and then passes through the casing 10. discharged to the outside.

In the heat exchanger 20, a refrigerant pipe 21 through which a refrigerant flows is disposed inside a rectangular frame forming an exterior. Here, the heat exchanger 20 is an evaporator for cooling the air and exchanges heat with the external air introduced into the casing 10 . The external air introduced into the casing (10) passes through the heat exchanger (20) and the temperature drops.

The humidifier 30 is a vaporization type humidifier that is made of a porous material and contains a large amount of moisture inside a rectangular frame forming the exterior. It is installed to provide moisture to the air that has passed through the heat exchanger (20). That is, external air flows into the casing 10 by the suction force generated by the blower 60 , then passes through the heat exchanger 20 , and then passes through the humidifier 30 , while moisture is contained in the air.

The connection frame 40 is installed between the heat exchanger 20 and the humidifier 30 to integrate the heat exchanger 20 and the humidifier 30 into a module.

The connection frame 40 is made of a rectangular frame, and external air passes inside the frame, and the heat exchanger 20 is fixed to the front side of the connection frame 40 and the humidifier 30 is fixed to the rear side. That is, the heat exchanger 20, the humidifier 30, and the connection frame 40 have the same shape and size as the frames constituting their respective exteriors, and the heat exchanger 20 and the humidifier ( 30) is integrally combined into one module disposed to face the front and rear.

At this time, an empty space is created between the heat exchanger 20 and the humidifier 30 by the connection frame 40 . Therefore, the external air introduced into the casing 10 passes through the heat exchanger 20 and then moves to the humidifier 30 through the inside of the connection frame 40 and passes through the humidifier 30 .

On the other hand, although not shown in the drawing, a plurality of water spray nozzles (not shown) are installed on the upper part of the connection frame 40, and a water hose (not shown) supplied with water from the outside is connected to the water spray nozzles. In this case, water may be supplied to the surface of the humidifier 30 . Therefore, it is possible to supply moisture to the humidifier 30 from which moisture has been removed through a constant temperature and humidity process, etc., so that it can absorb water.

When water is supplied to the humidifier 30 in this way, it is possible to increase the cooling effect using the heat of evaporation.

The UV lamp 50 sterilizes the surface of the heat exchanger 20 and the surface of the humidifier 30 by irradiating ultraviolet rays in the space between the heat exchanger 20 and the humidifier 30 .

In other words, the UV lamp 50 is installed across the connection frame 40 in a horizontal direction, a vertical direction or an inclined direction, and one or more are installed in the connection frame 40 at regular intervals. Therefore, in a state where the UV lamp 50 is positioned between the heat exchanger 20 and the humidifier 30, ultraviolet rays are irradiated in all directions.

The UV lamp 50 irradiates ultraviolet rays over the entire area of the heat exchanger 20 and the humidifier 30 with a plurality of openings at regular vertical intervals in the space between the heat exchanger 20 and the humidifier 30 without any gaps. By doing so, the heat exchanger 20 and the humidifier 30 can be effectively sterilized. The UV lamp 50 irradiates UV-C (Ultraviolet-C) with a wavelength of 100 to 280 nanometers (nm), and UV-C is widely known to effectively remove various bacteria, viruses, and the like.

In an embodiment of the present invention, a structure in which the UV lamp 50 is installed horizontally to the connection frame 40 is presented. To this end, a plurality of installation holes 41 through which the UV lamp 50 is installed are formed at regular intervals up and down on one side of the connection frame 40 . And a multi-socket part 51 to which a plurality of UV lamps 50 are electrically connected is coupled to the outside of the connection frame 40 in which the installation hole 41 is drilled. At this time, each installation hole 41 of the connection frame 40 must be drilled at a position corresponding to each socket provided in the multi-socket unit 51 . And the upper and lower ends of the multi-socket part 51 and the side surfaces of the connection frame 40 at positions corresponding thereto are respectively formed with fastening holes 42 and 52 through which the bolts pass.

By the above-described configuration, a plurality of UV lamps 50 are inserted through each installation hole 41 of the connection frame 40 in a state in which they are all connected to the multi-socket part 51 and are connected by fastening the bolts up and down. Fastening to the frame 40 is completed. And when replacement and cleaning of the UV lamp is required, the replacement operation can be performed from the outside of the connection frame 40 without disassembling the heat exchanger 20 and the humidifier 30 .

The blower 60 allows air to be introduced into the casing 10 and the introduced air flows out to the outside of the casing 10 through the heat exchanger 20 and the humidifier 30 . That is, when the blower 60 is operated, the blower 60 generates a suction force, and the outside air is introduced into the casing 10 by this suction power, and then is discharged to the outside of the casing 10 through a constant temperature and humidity process.

The heater 70 is installed inside the casing 10 to control the temperature of the introduced external air.

The filter 80 is installed inside the casing 10 , and may be installed on the inlet 11 side of the casing 10 to purify the outside air flowing into the casing 10 , It can be installed on the outlet 12 side to purify the air that has passed through the heat exchanger 20 and the humidifier 30 and then discharged to the outside of the casing 10, and the inlet 11 side and the outlet port ( 12) can be installed on both sides.

The thermo-hygrostat according to the present invention configured as described above is operated by the operation of the operating panel 13 provided in the casing 10 .

That is, the operation panel 13 is provided with a general operation button 13a, an equipment sterilization button 13b, and an air sterilization button 13c to select a general operation, an equipment sterilization operation, and an air sterilization operation according to the situation.

The general operation operated by the general operation button 13a is a mode of constant temperature and humidity operation with the UV lamp 50 turned off. That is, when the general operation button 13a is pressed, the blower 60 is operated and the outside air flows into the casing 10 and then passes through the heat exchanger 20 and the humidifier 30 sequentially to achieve an appropriate temperature and humidity level. After being converted into air, a constant temperature and humidity process that is discharged to the outside of the casing 10 is operated.

The equipment sterilization operation operated by the equipment sterilization button 13b sterilizes the heat exchanger 20 and the humidifier 30 with ultraviolet rays irradiated from the UV lamp 50 while the constant temperature and humidity operation is stopped. That is, when the equipment sterilization button 13b is pressed, the blower 60 is not operated, so the constant temperature and humidity process is not operated, and the UV lamp 50 is turned on to emit ultraviolet rays on the surface of the heat exchanger 20 and the humidifier 30. investigate

The air sterilization operation operated by the air sterilization button 13c is an operation mode in which the air is sterilized with ultraviolet rays irradiated from the UV lamp 50 while the constant temperature and humidity operation is performed. That is, when the air sterilization button 13c is pressed, the blower 60 is operated and a constant temperature and humidity process for the external air introduced into the casing 10 is operated while the UV lamp 50 is operated. ) and the surface of the humidifier 30 are irradiated with ultraviolet rays. Therefore, by irradiating ultraviolet rays to the air passing through the heat exchanger 20 and the humidifier 30, bacteria and viruses contained in the air can be sterilized.

10: casing 11: intake port
12: outlet 13: operating panel
13a: General operation button 13b: Equipment sterilization button
13c: air sterilization button 20: heat exchanger
30: humidifier 40: connection frame
50: UV lamp 60: blower
70: heater 80: filter

Claims (7)

a casing 10;
a heat exchanger 20 for exchanging the air introduced into the casing 10;
a humidifier (30) disposed to face the heat exchanger (20) and providing moisture to the air that has passed through the heat exchanger (20);
a UV lamp 50 for irradiating ultraviolet rays between the heat exchanger 20 and the humidifier 30;
A blower (60) for allowing air to flow into the casing (10) and allowing the introduced air to flow out of the casing (10) through the heat exchanger (20) and humidifier (30); A thermo-hygrostat that can sterilize UV rays with a heat exchanger and a humidifier in one unit.
The method according to claim 1,
It is installed between the heat exchanger 20 and the humidifier 30 and further includes a connection frame 40 for integrally connecting the heat exchanger 20 and the humidifier 30,
The UV lamp (50) is a thermo-hygrostat capable of UV sterilization integrally with a heat exchanger and a humidifier, characterized in that it is installed across the connection frame (40).
3. The method according to claim 2,
The heat exchanger 20 has a refrigerant tube 21 disposed inside a frame forming an exterior,
The humidifier 30 is a vaporization type humidifier made of a porous material inside the frame forming the exterior,
The connection frame 40 has an empty structure so that air can pass through the inside of the frame forming the exterior,
The heat exchanger 20 , the humidifier 30 , and the connecting frame 40 have the same shape and size as the frames forming their respective exteriors, and the heat exchanger 20 and the humidifier around the connecting frame 40 . (30) is a thermo-hygrostat capable of UV sterilization integrally with a heat exchanger and a humidifier, characterized in that they are integrated into a single module disposed to face each other.
3. The method according to claim 2,
A plurality of UV lamps 50 are installed on the side plate of the connection frame 40 at regular intervals up and down, and each UV lamp 40 is disposed to cross between the heat exchanger 20 and the humidifier 30 . A thermo-hygrostat capable of UV sterilization in which a heat exchanger and a humidifier are integrated.
5. The method according to claim 4,
An installation hole 41 through which the UV lamp 50 is installed is formed in the side plate of the connection frame 40, and the plurality of UV lamps 50 are electrically connected to the outside of the connection frame 40 A thermo-hygrostat capable of UV sterilization integrally with a heat exchanger and a humidifier, characterized in that the multi-socket part 51 is coupled.
The method according to claim 1,
The casing 10 is provided with an operating panel 13 provided with a general operation button 13a and an equipment sterilization button 13b, and the blower 60 is operated when the general operation button 13a is pressed. The constant temperature and humidity process is operated, and when the equipment sterilization button 13b is pressed, the constant temperature and humidity process is not operated and the UV lamp 50 irradiates ultraviolet rays on the surfaces of the heat exchanger 20 and the humidifier 30 . A thermo-hygrostat capable of UV sterilization in which a heat exchanger and a humidifier are integrated.
7. The method of claim 6,
The operation panel 13 is further provided with an air sterilization button 13c, and when the air sterilization button 13c is pressed, the blower 60 is operated to operate the constant temperature and humidity process, and the UV lamp 50 is A thermo-hygrostat capable of sterilizing the heat exchanger (20) and the humidifier (30) with UV rays as one unit, characterized in that UV rays are irradiated to the surfaces of the heat exchanger (20) and the humidifier (30).

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