KR20230075250A - Duct-installed air conditioning system - Google Patents

Abstract

The present invention relates to an air conditioning system that ventilates, cools, heats, and humidifies the indoor space of a building. It is a technology related to a duct installation type air conditioning system that not only provides a clean and hygienic indoor environment, but also facilitates maintenance and management of buildings.
The main configuration of the present invention is an air conditioning housing connected to and installed in a ceiling duct of a room divided into a plurality in a building; a damper installed inside the air conditioning housing and opening and closing; a total heat exchanger installed inside the air conditioning housing; a cooling/heating coil installed inside the air conditioning housing; and a humidifier installed inside the air conditioning housing, wherein the air conditioning housing is implemented by being connected to a main duct through which external air is introduced from a supply fan.

Description

Duct-installed air conditioning system {Duct-installed air conditioning system}

The present invention is a technology related to an air conditioning system that ventilates, cools, heats, and humidifies the indoor space of a building. More specifically, the indoor space of a building is individually air-conditioned to prevent the spread of various contagious diseases or viruses. It is a technology related to a duct installation type air conditioning system that not only prevents and provides a pleasant and hygienic indoor environment, but also facilitates maintenance and management of the building.

In general, recent buildings have become large and high-rise due to industrial development, and accordingly, various facilities such as air conditioning, sanitation, power, lighting, crime prevention, disaster prevention, and water treatment are installed in a complex manner. Various management systems have been proposed.

In recent years, a lot of effort has been put into insulation in buildings to save energy, and much attention has been paid to indoor ventilation to provide a pleasant and hygienic indoor environment.

Therefore, an air conditioning system is installed to insulate and ventilate the building. This air conditioning system forcibly sucks in and discharges indoor and outdoor air through a ventilation fan, and is equipped with a total heat exchanger and cooling and heating facilities. , Indoor air and outdoor air are sucked in and discharged through a duct installed on the ceiling of the room to provide a pleasant indoor environment.

As a prior art related to an air-conditioning duct for a building in which construction is convenient in a narrow space and construction time is reduced, Korean Patent Registration No. 10-0638599 (air-conditioning duct for building) has been proposed.

Since this prior art can be constructed with only a minimum installation space, it prevents bumping into components placed in the building, provides an effect of not covering the components, and also provides an effect such as taping or arc welding at the connection part of the duct. It does not require a post-processing process, so it provides overall convenience in construction and the effect of shortening construction time.

In addition, as a prior art related to a flexible duct for air conditioning in a building, Korean Patent Registration No. 10-1579913 (Eco-friendly and low-noise flexible duct for heating, cooling, and air conditioning) has been proposed.

This prior art provides a flexible endothelium that realizes a cylindrical body by introducing a wire into the overlapped portion along with spiral rotational adhesion of the endothelium, and spirally rotates the outer skin directly on the outer periphery of the flexible endothelium to maintain a gap from the flexible endothelium. It provides effects that can realize not only rapid production but also eco-friendliness and low noise.

However, the "air-conditioning duct of a building" proposed in the prior art ventilates and air-conditions the indoor space of a building divided into a plurality of parts collectively, so that various contagious diseases or viruses are introduced into the building through filters of air conditioners or air-conditioning facilities. There is a spreading problem.

This is because the indoor space of the building cannot be air-conditioned individually, so various contagious diseases or viruses can spread to the inside of the building in the process of inhaling and discharging indoor and outdoor air through the filter of the air conditioner or air conditioning and heating equipment. However, there is also a problem in that it is difficult to maintain and manage the air conditioning system in the building.

Republic of Korea Patent Registration No. 10-0638599. Republic of Korea Patent Registration No. 10-1579913. Republic of Korea Patent Registration No. 10-1654528. Republic of Korea Patent Registration No. 10-1661481.

The present invention is a technology devised to improve the problems caused by the "air conditioning duct of a building" presented in the prior art, and an air conditioning housing is connected and installed to a duct of an indoor ceiling in a building, and a total heat exchanger and air conditioning are installed inside the air conditioning housing. An object of the present invention is to provide a duct installation type air conditioning system capable of individually air conditioning an indoor space of a building by installing a coil, a humidifier, and the like.

In addition, the embodiment of the present invention prevents the spread of various contagious diseases or viruses in the building by individually air-conditioning the indoor space of a building divided into a plurality of compartments, provides a pleasant and hygienic indoor environment, and maintains and maintains the building. An object of the present invention is to provide a duct installation type air conditioning system that is easy to manage.

The present invention, in order to realize the desired object as described above,

An air conditioning housing connected to and installed in a ceiling duct of a room divided into a plurality of buildings; a damper installed inside the air conditioning housing and opening and closing; a total heat exchanger installed inside the air conditioning housing; a cooling/heating coil installed inside the air conditioning housing; and a humidifier installed inside the air conditioning housing, wherein the air conditioning housing is implemented by being connected to a main duct into which external air is introduced from an air supply fan.

In addition, as an embodiment of the present invention, the damper is disposed on one side of the air conditioning housing where the main duct is located in the inner space of the air conditioning housing, and is installed to electrically open and close the air conditioning housing.

In addition, as an embodiment of the present invention, the total heat exchanger is characterized in that an exhaust duct is connected to the outside of the air conditioning housing to introduce indoor air discharged to the outside.

In addition, as an embodiment of the present invention, the heating and cooling coil is installed adjacent to the total heat exchanger in the inner space of the air conditioning housing, and heat medium is supplied through the outdoor unit from the outside of the building.

In an embodiment of the present invention, an air conditioning housing is installed connected to a duct of an indoor ceiling of a building, and an electric heat exchanger, a cooling/heating coil, and a humidifier are installed inside the air conditioning housing, thereby individually air-conditioning the indoor space of a building divided into a plurality of compartments. It is possible to operate and control the air conditioning system easily, and there is an effect of reducing the air conditioning cost and energy of the building.

In addition, the embodiment of the present invention prevents the spread of various contagious diseases or viruses inside the building by individually air-conditioning the indoor space of a building divided into a plurality, provides a pleasant and hygienic indoor environment, and air-conditioning in the building. There is an effect that the maintenance and management of the system is easy.

1 is a configuration diagram showing an embodiment of the present invention.
Figure 2 is a main part configuration diagram showing an embodiment of the present invention.
Figure 3 is a configuration diagram showing the installation state of the air conditioning housing in the present invention.
Figure 4 is a configuration diagram showing the installation state of the total heat exchanger in the present invention.
Figure 5 is a side cross-sectional view showing the installation state of the cooling and heating coils in the present invention.

The main configuration according to the embodiment of the present invention, the air conditioning housing 20 connected to the ceiling duct 21 of the interior (10) (10a) partitioned into a plurality in the building; a damper 30 installed inside the air conditioning housing 20 and opening and closing; a total heat exchanger 40 installed inside the air conditioning housing 20; a cooling/heating coil 50 installed inside the air conditioning housing 20; and a humidifier 60 installed inside the air conditioning housing 20, and the air conditioning housing 20 is installed and connected to the main duct 110 through which external air flows from the air supply fan 100. .

In the main configuration of the above embodiment, the air conditioning housing 20 has a function in which a damper 30, a total heat exchanger 40, a cooling/heating coil 50, a humidifier 60, etc. are installed in an internal space, and the air conditioning housing 20 has As shown in FIGS. 1 to 3 in the drawings, it is connected and installed to the ceiling duct 21 of the indoor 10 (10a) divided into a plurality in a large or high-rise building, and is configured in a rectangular or cylindrical shape.

In the above, the air conditioning housing 20 can be manufactured in a rectangular or cylindrical shape by bending an iron plate like a general duct, and is individually connected and installed to the ceiling duct 21 of the plurality of partitioned rooms 10 and 10a. do.

That is, the air conditioning housing 20 is individually disposed on the ceiling of the room 10 and 10a, and an indoor ventilation duct 21 is installed connected to the air conditioning housing 20, and the ventilation duct 21 A diffuser 22 through which outside air is introduced into the room is connected to and installed so that indoor air and outside air are introduced and discharged, thereby ventilation of the room.

Meanwhile, the air conditioning housings 20 individually disposed on the ceiling of the indoor 10 (10a) are installed connected to the main duct 110 through which external air is supplied, and the main duct 110 is connected to the air supply fan 100 from outside the building. ) is supplied with outside air.

In addition, in the main configuration of the embodiment, the damper 30 serves to open and close the inner space of the air conditioning housing 20, and as shown in FIG. 3, the damper 30 is a main duct in the inner space of the air conditioning housing 20 It is disposed on one side where 110 is located, and is installed to open and close the air conditioning housing 20.

In the above, the damper 30 can be applied in various structures such as prismatic, circular, and curtain-shaped, but it is preferable to apply an existing electric motorized air tight damper, and the damper 30 is a building management center. The air conditioning housing 20 is opened and closed by being driven remotely.

In addition, in the main configuration of the embodiment, the total heat exchanger 40 serves to exchange heat between indoor air and outside air, and as shown in FIG. 3, the total heat exchanger 40 is a damper in the inner space of the air conditioning housing 20 It is installed adjacent to (30), and outside air is introduced through the main duct (110) and the damper (30).

In the above, the total heat exchanger 40 has a function of transferring the heat or cold of the indoor air discharged to the outside to the outside air flowing into the room, and a HEPA filter and a pre-filter are installed therein, and the indoor air and the outside air exchange heat. Heat or cold is transmitted through the element.

On the other hand, in the total heat exchanger 40, outside air is introduced through the main duct 110 and the damper 30, and as shown in FIG. (41) is connected to the indoor air discharged to the outside is introduced, the heat or cold air of the indoor air is transferred to the outside air.

In addition, in the main configuration of the above embodiment, the cooling/heating coil 50 has a function of heating or cooling the outside air flowing into the room, and the cooling/heating coil 50, as shown in FIGS. It is installed adjacent to the total heat exchanger 40 in the inner space, and heats or cools external air introduced through the total heat exchanger 40.

In the above, the cooling/heating coil 50 is supplied with heat from the outside of the building through the outdoor unit 200, and the outdoor unit 200 is remotely operated from the management center of the building according to the indoor temperature to heat or cool the heating/cooling coil 50. By supplying the heat medium, the outside air introduced through the total heat exchanger 40 is heated or cooled to cool and heat the indoor space.

In addition, in the main configuration of the embodiment, the humidifier 60 has a function of adjusting the humidity of the indoor space, and the humidifier 60, as shown in FIGS. 3 and 4 in the drawing, the air conditioning coil ( 50), and controls the humidity of outside air introduced into the room through the cooling/heating coil 50.

In the above, the humidifier 60 may apply various methods such as ultrasonic, heating, and complex types, but it is preferable to apply a humidifier of an existing heating method, and water is supplied from a separately installed water tank to humidify.

On the other hand, the humidifier 60 is operated remotely from the management center of the building according to the indoor humidity, and controls the humidity of the indoor space by spraying water in fine particles to the outside air flowing into the room through the cooling/heating coil 50.

In the embodiment of the present invention having such a configuration, an air conditioning housing is connected to and installed in a ceiling duct of a room divided into a plurality of rooms in a large or high-rise building, and a damper, a total heat exchanger, a cooling/heating coil, a humidifier, etc. are installed inside the air conditioning housing. , it is configured to individually air-condition the indoor space of a building divided into many parts.

Therefore, the embodiment of the present invention prevents the spread of various contagious diseases or viruses inside the building by individually air-conditioning the indoor space of a building divided into a plurality of parts, provides a pleasant and hygienic indoor environment, and also improves the quality of the building. Maintenance and management are made easy.

In the above, the preferred embodiments of the present invention have been described with reference, and it is not limited to the above embodiments, and those skilled in the art through the above embodiments do not deviate from the gist of the present invention. It can be implemented with various changes in .

10 (10a): indoor 20: air conditioning housing
21: duct 22: diffuser
30: damper 40: total heat exchanger
41: exhaust duct 50: heating and cooling coil
60: humidifier 100: air supply fan
110: main duct 200: outdoor unit

Claims (4)

an air conditioning housing 20 connected to the ceiling duct 21 of the interior 10 (10a) partitioned into a plurality of buildings;
a damper 30 installed inside the air conditioning housing 20 and opening and closing;
a total heat exchanger 40 installed inside the air conditioning housing 20;
a cooling/heating coil 50 installed inside the air conditioning housing 20; and
A humidifier 60 installed inside the air conditioning housing 20; includes,
The air conditioning housing (20) is connected to and installed in the main duct (110) through which outside air is introduced from the air supply fan (100).
According to claim 1,
The damper 30,
A duct installation type air conditioning system characterized in that it is disposed on one side of the air conditioning housing (20) where the main duct (110) is located in the inner space of the air conditioning housing (20) and is installed to electrically open and close the air conditioning housing (20).
According to claim 1,
The total heat exchanger 40,
A duct installation type air conditioning system characterized in that an exhaust duct (41) is connected to the outside of the air conditioning housing (20) so that indoor air discharged to the outside is introduced.
According to claim 1,
The cooling and heating coil 50,
A duct installation type air conditioning system characterized in that it is installed adjacent to the total heat exchanger (40) in the inner space of the air conditioning housing (20), and a heat medium is supplied through the outdoor unit (200) from outside the building.

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