KR20230063673A - Air conditioning apparatus for sports utility to prevent spread of infectious disease - Google Patents

Abstract

The present invention relates to a cooling/heating air-conditioning apparatus for sports facility installation for preventing an infection source from spreading, which senses pollution information of indoor air of structures such as sports facilities, and contrasts the sensed information and setting information to execute one between a ventilation mode in which outdoor air is supplied to indoor space after sterilizing the outdoor air and existing indoor air is discharged to outdoor space and a circulation mode in which polluted indoor air is sucked to be sterilized and is then resupplied to the indoor side to maintain indoor air with a sterilized infection source. The cooling/heating air-conditioning apparatus for sports facility installation for preventing an infection source from spreading comprises: a control part acquiring result information from contrasting setting information of an operating part and sensing information of a sensing part; a cooling/heating member executing indoor cooling or indoor heating by discharging outdoor air or indoor air introduced by control of the control part in accordance with the acquired result information after changing the temperature of the outdoor air or the indoor air; and a sterilizing member sterilizing an infection source included in air flowing into the cooling/heating member. The control part, the cooling/heating member, and the sterilizing member are provided in an air-conditioning housing having the shape of a box with a moving path formed by a plurality of partitions and allowing air to move therein while the operating part and the sensing part are not provided in the air-conditioning housing. The moving path is opened and closed by a ventilation damper and a circulation damper opened and closed by a control signal of the control part to realize one between a circulation mode and a ventilation mode.

Description

Air conditioning apparatus for sports utility to prevent spread of infectious disease}

The present invention detects contamination information of indoor air in a structure such as a sports facility, sterilizes outdoor air by comparing the detection information and setting information, and then supplies air to the room and exhausts the existing indoor air to the outdoors at the same time. Or, it relates to a cooling/heating/air conditioner for installation in sports facilities to prevent the spread of infectious agents capable of maintaining indoor air in which infectious agents are sterilized by executing any one of a circulation mode in which polluted indoor air is sucked in, sterilized, and re-supplyed to the indoor side.

Accidents in which infectious diseases unexpectedly spread frequently occur as spaces requiring infection prevention are contaminated by infectious agents (viruses or bacteria), including the recent SARS, MERS, and COVID-19 incidents.

As a result, entry and exit facilities such as airports and ports, which are the inflow routes of overseas infectious diseases, medical facilities such as hospitals where infectious disease patients are concentrated, nursing homes and daycare centers where sensitive classes with weak immunity are crowded, and unspecified number of people entering and leaving The importance of managing contamination by infectious agents (viruses or bacteria) in multi-use facilities such as public facilities and means of transportation such as cars, trains, airplanes, and ships frequently used by an unspecified number of people is emerging.

In particular, ceiling system air conditioners, stand or wall-mounted air conditioners are used to supply cooling and heating in small indoor sports facilities, and a separate air purifier is installed to assist in improving indoor air quality.

However, indoor sports facilities have a problem that causes infection because viruses/bacteria remain and spread indoors because internal air is continuously circulated due to air conditioning and heating, and small indoor sports facilities have separate ventilation facilities. Since it is not installed, it is not possible to forcibly exhaust indoor polluted air or viruses/bacteria, resulting in an increase in the infection rate.

Domestic Patent Registration No. 10-2177840 (Announcement date: 2020.11.13.) Domestic Patent Publication No. 10-2021-102033 (published date: 2021.08.19.) Domestic Patent Publication No. 10-2021-116338 (published date: 2021.09.27.)

In order to solve the above-mentioned conventional problems, the present invention has a function of circulating indoor air, as well as ventilation that exhausts indoor air to the outdoors and at the same time supplies sterilized outdoor air to the room, thereby preventing infection by infectious agents. It aims to prevent

In order to solve the above-mentioned technical problem, the cooling and heating air conditioner for installing sports facilities for preventing the spread of infectious agents according to the present invention is a control unit that obtains result information obtained by mutually contrasting setting information of the control unit 110 and detection information of the detection unit 120. (100) and the cooling/heating member (200) for cooling or heating the room by varying the temperature of the indoor air or outdoor air introduced by the control of the control unit (100) according to the obtained result information and then discharging it. Including a sterilization member 300 that sterilizes infectious agents included in the air introduced into the cooling and heating member 200, but the control unit 100 excluding the control unit 110 and the sensing unit 120, the cooling and heating member 200 ), the sterilization member 300 is provided in the air conditioning housing 400 in the shape of a housing in which a moving path through which air moves is formed by a plurality of partition walls 410, and the moving path is provided with a control signal from the control unit 100 It is opened and closed by the bypass damper 420 for opening and closing the bulkhead 410 by, characterized in that any one of the circulation mode or ventilation mode can be implemented.

In addition, the circulation mode and the ventilation mode are operated based on the result information obtained by the control unit 100, but the control unit 100 controls the partition wall 410 by the bypass damper 420 when the ventilation mode is executed. In the closed state, outdoor air introduced into the air conditioning housing 400 by suction of the air supply fan 210 is supplied to the indoor side of the structure 10 via the sterilization member 300 and the cooling and heating member 200, and at the same time the indoor air After passing through the duct 11 by the suction of the exhaust fan 220, the air passes through the air conditioning housing 400 so that it can be exhausted to the outdoors, and when the circulation mode is executed, the bypass damper 420 When indoor air is sucked into the duct 11 by the suction of the exhaust fan 220 in a state where the partition wall 410 is opened, the sterilization member 300 and the cooling/heating member 200 pass through the opened partition wall 410. ) to be re-supplied to the indoor side through the air supply fan 210.

In addition, the sensing unit 120 is preferably at least one of a CO ₂ sensor and a temperature/humidity sensor.

According to the present invention, unlike the prior art, the control unit 100 compares the detection information of the sensor 120 and the setting information of the control unit 110, and sterilization of the infectious agent according to the outdoor temperature according to the result information. Ventilation mode that exhausts polluted indoor air to the outdoors while supplying outdoor air, or circulates only indoor air within the structure 10, but sterilizes infectious agents contained in circulating indoor air. Effects that can prevent infection will have

1 is a conceptual diagram showing a cooling and heating air conditioner for installing sports facilities for preventing the spread of infectious agents according to the present invention.
2 is a detailed view of a cooling and heating air conditioner for installing sports facilities for preventing the spread of infectious agents according to the present invention.
3 is a view showing the flow of indoor and outdoor air when a ventilation mode is applied to a cooling and heating air conditioner for installing sports facilities for preventing the spread of infectious agents according to the present invention.
4 is a view showing the flow of indoor air when a circulation mode is applied to a cooling and heating air conditioner for installing sports facilities for preventing the spread of infectious agents according to the present invention.

Hereinafter, various embodiments will be described in more detail with reference to the accompanying drawings. The embodiments described in this specification may be modified in various ways. Certain embodiments may be depicted in the drawings and described in detail in the detailed description. However, specific embodiments disclosed in the accompanying drawings are only intended to facilitate understanding of various embodiments. Therefore, the technical idea is not limited by the specific embodiments disclosed in the accompanying drawings, and it should be understood to include all equivalents or substitutes included in the spirit and technical scope of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a cooling/heating air conditioner (hereinafter, simply referred to as an 'air conditioner') for preventing the spread of infectious agents according to the present invention for installation in sports facilities will be described in detail with reference to the accompanying drawings. Prior to description, the structure 10 described below has been described as an example of a sports facility in which a number of people, such as fitness, badminton, table tennis, foot volleyball, etc., can exercise indoors, but this is only one embodiment Note that

First, as shown in FIGS. 1 and 2, the air conditioner 1 according to the present invention is largely composed of a control unit 100, a sterilization member 300, and a cooling and heating member 200, which will be described later. As shown, the rest of the components except for the control unit 110 and the sensing unit 120 are installed together inside the air conditioning housing 400 made of a metal material such as aluminum or stainless in the shape of a hollow housing, It is buried and installed to enable maintenance on the ceiling of the structure 10, which is a facility.

At this time, it is preferable that a moving path through which indoor air or outdoor air can move is formed inside the air conditioning housing 400 by a plurality of partition walls 410, and the partition walls 410 include filters 310 as well as bypasses. It is preferable that the damper 420 is installed so that it can be opened and closed under the control of the control unit 100 .

Accordingly, when the user manipulates the setting information through the control unit 110 indoors and transmits it to the control unit 100, the sensing information of the sensor 120 detects CO ₂ contained in the indoor air, indoor temperature and humidity, and the like. in the control unit 100, by selectively executing any one of the ventilation mode and the circulation mode in contrast to each other, the cooling and heating member 200 and the sterilization member 300 including the heat exchanger provided inside the air conditioning housing 400 Through this, the temperature of the indoor air is kept constant, and at the same time, it is possible to sterilize the infectious agents that may exist in the room.

More specifically, the control unit 100 controls the heating and cooling member 200 and the sterilization member 300, which will be described later, but selects one of the ventilation mode and the circulation mode according to the degree of contamination of indoor air through the control. It is configured to maintain a constant indoor air temperature as well as sterilize infectious agents contained in the indoor air inside the structure 10 by executing the structure 10, and includes a manipulation unit 110 and a sensing unit 120.

For example, as shown, the control unit 110 is fixedly installed on a wall so that the setting information can be changed by being manipulated by the user indoors of the structure 10, and the corresponding setting information is operated through a plurality of switches including a display.

In addition, the setting information set by the control unit 110 is transmitted to the control unit 100 provided inside the air conditioning housing 400 through a cable or the like and then stored, and the stored setting information is detected by the sensing unit 120. It is used as a value that can be contrasted with information.

In addition, the sensing unit 120 is installed in the structure 10 in the same manner as the above-described control unit 110, but detects at least one of the numerical value of CO ₂ contained in the indoor air, the indoor temperature and the indoor humidity. and transmits the detection information to the control unit 100.

In addition, the sterilization member 300 is configured to sterilize infectious agents contained in indoor air or outdoor air flowing into the cooling/heating member 200 when the ventilation mode or the circulation mode is executed.

To this end, the sterilization member 300 can sterilize infectious agents contained in indoor/outdoor air by using UV lamps or ultrasonic waves effective for sterilization therein.

In addition, the cooling and heating member 200 uses electricity applied through the control of the control unit 100 as a necessary power source to adjust the temperature of the indoor air of the structure 10 to circulate only indoor air to enable cooling or heating, or to circulate only the indoor air in the structure (10) An air supply fan 210 and an exhaust fan 220 are configured to supply outside outdoor air to the room while exhausting the existing indoor air to the outside.

To this end, as shown, at least one air supply fan 210 is provided on the ceiling of the structure 10 so that it can be connected to the cooling and heating member 200 through a duct, etc. The sterilized indoor air or outdoor air is supplied, and at least one exhaust fan 220 is installed close to the bottom surface of the structure 10 to enable intake of indoor air.

In addition, indoor air sucked through the exhaust fan 220 is exhausted to the outdoors through the air conditioning housing 400 or passed through the sterilization member 300 to the cooling/heating member 200 according to the selection of the mode determined by the controller 100. It is re-supplied so that air can be supplied to the indoor side through the air supply fan 210.

For example, when the control unit 100 detects that the concentration of CO ₂ detected by the sensor 120 exceeds the setting information set by the control unit 110, the ventilation mode is set, and when it detects that the concentration is lower than that, the circulation mode is set. each applies. In addition, the control unit 100 executes either a ventilation mode or a circulation mode so that the temperature deviation of the indoor air of the structure 10 does not become severe according to the temperature of the outside air, and the corresponding ventilation mode is applied in the summer and circulation The mode is mainly applied in winter.

As shown in FIG. 3 , when the ventilation mode is applied, in a state where the partition wall 410 is closed by the bypass damper 420, the outdoor air is supplied to the inside of the air conditioning housing 400 through the operation of the air supply fan 210. Air is supplied to the inside of the structure 10 through the sterilization member 300 and the cooling/heating member 200 through the moving passage, and at the same time, the air present in the room passes through the duct 11 by suction of the exhaust fan 220 It has a structure that exhausts to the outside.

At this time, it is preferable that either one of the outdoor air supplied to the room and the indoor air exhausted to the outside is supplied and exhausted through a plurality of filters 310 provided inside the air conditioning housing 400.

On the other hand, when the circulation mode is applied, as shown in FIG. 4 , the exhaust fan 220 operates in a state in which the bulkhead 410 is opened through OPEN of the bypass damper 420 through the control of the control unit 100. A circulation structure in which indoor air is supplied to the room by the air supply fan 210 by passing through the duct 11 and the open partition wall 410 through the sterilization member 300 and the cooling and heating member 200 in order by the intake of let it have

As described above, in the air conditioning apparatus 1 according to the present invention, the detection information of the sensor 120 and the setting information of the operation unit 110 are compared with each other in the control unit 100 differently from the prior art, and according to the result information Ventilation mode that supplies outdoor air in which infectious agents are sterilized according to the temperature of the outdoor air and exhausts contaminated indoor air to the outdoors at the same time, or circulates only indoor air in the structure 10, but sterilizes the infectious agents contained in the circulating indoor air It is possible to have the effect of implementing infection prevention.

As described above, the present invention has been described by specific details such as specific components and limited embodiments and drawings, but these are provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , Those skilled in the art in the field to which the present invention belongs can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and it will be said that not only the claims to be described later, but also all modifications equivalent or equivalent to these claims belong to the scope of the present invention. .

1: Cooling and heating air conditioner for installation in sports facilities to prevent the spread of infectious agents according to the present invention
100: control unit
110: control unit 120: detection unit
200: cooling and heating member
210: supply fan 220: exhaust fan
300: sterilization member
310: filter
400: air conditioning housing
410: bulkhead 420: bypass damper
10: Structures
11: duct

Claims (3)

Control unit 100 for obtaining result information obtained by mutually contrasting setting information of the manipulation unit 110 and detection information of the sensing unit 120;
a cooling/heating member 200 that cools or heats the room by varying the temperature of the indoor air or outdoor air introduced under the control of the control unit 100 according to the obtained result information and then discharging the air; and
A sterilization member 300 for sterilizing infectious agents contained in the air flowing into the heating and cooling member 200; including,
The control unit 100, the cooling and heating member 200, and the sterilization member 300, excluding the control unit 110 and the detection unit 120, have a moving path through which air moves by a plurality of partition walls 410. It is provided in the air conditioning housing 400 in the shape of an enclosure, and the moving path is opened and closed by the bypass damper 420 controlled by the control signal of the control unit 100 to implement either a circulation mode or a ventilation mode. A cooling and heating air conditioner for installing sports facilities to prevent the spread of infectious agents, characterized in that to enable.
According to claim 1,
The circulation mode and the ventilation mode are operated based on the result information obtained by the control unit 100, but the control unit 100 determines that the partition wall 410 is closed by the bypass damper 420 when the ventilation mode is executed. In this state, outdoor air introduced into the air conditioning housing 400 by suction of the air supply fan 210 is supplied to the inside of the structure 10 through the sterilization member 300 and the cooling and heating member 200, and at the same time, the indoor air After passing through the duct 11 by the suction of the exhaust fan 220, it passes through the air conditioning housing 400 so that it can be exhausted to the outdoors,
When the circulation mode is executed, when indoor air is sucked into the duct 11 by the suction of the exhaust fan 220 in a state where the partition wall 410 is opened by the bypass damper 420, the open partition wall 410 through the sterilization member 300 and the cooling and heating member 200 so that the air can be re-supplied to the indoor side through the air supply fan 210. Cooling and heating air conditioner for installation in sports facilities for preventing the spread of infectious agents.
According to claim 1,
The sensing unit 120 is
A cooling and heating air conditioner for installing sports facilities to prevent the spread of infectious agents, characterized in that at least one of a CO ₂ detection sensor or a temperature and humidity sensor.

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