KR102045965B1 - Air quality improvement control system - Google Patents

Abstract

The present invention relates to an air quality improvement control system for an air conditioner and, more specifically, relates to an air quality improvement control system for an air conditioner, which measures an amount of radiation of outdoor air and a particle of fine dust to prevent the outdoor air from flowing into the inside of an air conditioner body, and performs sterilization while enough oxygen is provided in a process in which air with controlled heat exchange and humidity is supplied to the inside. Moreover, an anion is provided to maintain an optimized indoor environment.

Description

Air quality improvement control system {AIR QUALITY IMPROVEMENT CONTROL SYSTEM}

The present invention relates to an air quality improvement control system, in particular, by measuring the amount of radiation of the outside air and particles of fine dust to control the inflow of the outside air into the interior of the air conditioner body, the heat exchange and humidity controlled air is supplied to the room The present invention relates to an air quality improvement control system for an air conditioner where sterilization is performed while sufficient oxygen is included in the process, and an anion is included to maintain an optimized indoor environment.

In general, 80% of the time is spent in indoor spaces such as houses, offices, and underground spaces. If the user spends most of the time indoors, a pleasant indoor environment can increase work efficiency. Furthermore, it plays a very important role in maintaining health.

The air inside the enclosed room not only increases the carbon dioxide (CO ₂ ) content over time due to the user's breathing, but also causes unpleasant feelings due to the rapid increase in indoor heat load in the office due to office automation and densification as land prices rise. It is triggered.

In order to solve unpleasant feelings and provide a more comfortable indoor environment, an air conditioning system that controls temperature and humidity is used, but this effectively controls the air conditioning system by integrating physical environments such as room temperature, humidity, air flow rate, and radiation temperature. There was a difficulty.

On the other hand, the air cleaning control method of the air conditioner of the Patent Publication No. 10-2006-91432 (2006.8.21) has been proposed, the proposed clean control method has a predicted mean vote value according to the indoor environmental factors Measuring; Determining whether the measured expected warmth value is within a preset tolerance range; Detecting the temperature of the room and the amount of motion of the indoor room when the expected sense of warmth value is outside the allowable range, and performing a first air conditioning mode for controlling the air volume and the temperature according to the detected room temperature and the amount of motion; Re-evaluating the anticipated warmth value after performing the first air conditioning mode; And if the re-measured expected thermal sense value is within the allowable range, and detecting the concentration of carbon dioxide and oxygen in the room, and performing a second air conditioning mode for generating ventilation and active substances according to the detected carbon dioxide and oxygen concentration, After the air conditioning is performed so that the expected warmth of the indoor room reaches the optimum range, active materials are generated to increase indoor air satisfaction to maximize comfort satisfaction.

However, there is a problem that the satisfaction of the indoor air is lowered as the appropriate control is not made according to the outside air containing radioactivity or fine dust, and thus there is a problem that the optimized indoor environment is not maintained.

Publication No. 10-2006-91432 (2006.8.21)

The present invention has been made to solve the above-mentioned conventional problems, by measuring the amount of radioactivity of the outside air and particles of fine dust to control the inflow of the outside air into the interior of the air conditioner body, the sterilization is in the middle of containing sufficient oxygen It is made, and an object of the present invention is to provide an air quality improvement control system for an air conditioner to allow the air containing the negative ions to be supplied to the room to maintain an optimized indoor environment.

The present invention for achieving the above object,

A part of air discharged through the ventilation discharge part EA by the ventilation fan RF having an outside air inlet part OA, an outside air supply part SA, a ventilation inlet part RA, and a ventilation discharge part EA. An air conditioner body 100 provided to circulate through the bypass unit 110 between the ventilation inlet part RA and the ventilation discharge part EA;

A first air quality improving unit (200) provided at the outside air inlet (OA) to measure the amount of radioactivity of the outside air and particles of fine dust to control the inflow of outside air into the air conditioner body 100; And

 In the interior of the air conditioner body 100, sterilization is performed in such a manner that sufficient air is contained in the process of supplying air having a heat exchange and humidity control to the room through the air supply unit SA by the air supply fan SF, By including the second air quality improving unit 300 provided to include the negative ion, it is configured to maintain an optimized indoor environment.

Therefore, the present invention measures the amount of radioactivity of the outside air and particles of fine dust to control the inflow of the outside air into the interior of the air conditioner body, and sterilization is performed while containing sufficient oxygen, and the air containing the anion is indoors. By supplying the air to the optimized indoor environment can be maintained.

1 is a view showing the overall air quality improvement control system according to the present invention.

Hereinafter, the present invention may add various transformations and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention.

These embodiments are provided to explain in detail the present invention to those skilled in the art. Therefore, the shape of each element shown in the drawings may be exaggerated in order to emphasize a more clear description, in the description of the present invention, when it is determined that the detailed description of the related known technology may obscure the subject matter of the present invention. Omit.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are only used to distinguish one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the present invention, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Referring to Figure 1,

1 is a view showing the overall air quality improvement control system according to the present invention.

The air quality improvement control system according to the present invention is provided to include an air conditioner body 100, a first air quality improvement unit 200, and a second air quality improvement unit 300.

In this case, the air conditioner body 100 is provided to allow a predetermined space to be secured therein so that outside air is introduced into the air and supplied to the room, or contaminated air in the room is discharged to the outside. The outside air inlet unit OA through which the outside air is introduced into the inside by the suction force and the discharge force according to the driving of the SF, and the outside air supply unit SA to allow the introduced outside air to be supplied into the room. At this time, the driving of the air supply fan SF may be driven and stopped according to a control signal of a central monitoring panel (not shown), and air conditioning is started according to the driving of the air supply fan SF.

In addition, by the suction force and the discharge force according to the driving of the ventilation fan (RF) is provided with a ventilation discharge unit (EA) so that the indoor polluted air is introduced into the interior through the ventilation inlet (RA) and then discharged to the outside. In addition, a portion of the air discharged by the ventilation fan (RF) is provided to be circulated through the bypass unit 110 provided between the ventilation inlet (RA) and the ventilation outlet (EA) to minimize the heat loss energy It is equipped to reduce the usage.

The air conditioner body 100 is a temperature detection unit 120, humidity into the inside of the air supply duct (VD) provided toward the outside air supply unit (SA) is discharged from the outside air inlet (OA) which is one side where the outside air is introduced Detection unit 130, filter unit 140 having a differential pressure switch, dehumidifying unit 150, heating coil unit 160 having a heating valve (HV), cooling coil unit 170 having a cooling valve (CV), humidification The unit 180 and the air supply fan SF are sequentially provided.

In addition, the temperature detector 120 'and the humidity detector 130' are provided inside the ventilation duct ED connected to the ventilation inlet RA, and the temperature of the air vented through the interior of the ventilation duct ED. By detecting the humidity, the cooling coil unit 170 having the cooling valve CV, the heating coil unit 160 having the heating valve HV, and the humidifying unit 180 are provided to be controlled.

In addition, the outside air supply unit SA is normally maintained in a closed state and is provided so that outside air supply to the room is blocked unless the air supply fan SF is driven, and the ventilation discharge unit EA is normally closed. The third damper 195 is provided to maintain the existing state so that the air in the room is prevented from being discharged and vented to the outside unless the ventilation fan RF is driven, thereby preventing heat loss. The second damper 190 is provided to circulate only indoor air when the quality of the outside air is poor.

On the other hand, the bypass portion 110, one end of the bypass duct (BD) is coupled to the ventilation duct (ED) between the ventilation inlet (RA) and the ventilation outlet (EA), the other end is the outside air inlet It is provided so that it may couple to the air supply duct VD between OA and external air supply part SA.

The inside of the bypass duct (BD) is provided with a mixing damper (MD) that is normally kept open. In this case, as the mixed damper MD is maintained in an open state, air flowing through the ventilation inlet RA may be discharged to the ventilation outlet EA according to the opening amount of the third damper 195 to be described later. Some or all may be circulated.

The first air quality improving unit 200 is provided in the outside air inlet unit OA to measure the amount of radioactivity of the outside air and particles of fine dust so as to control the inflow of outside air into the air conditioner body 100.

The first air quality improving unit 200 is provided with a first damper 210, a radiation detection unit 220 and a fine particle measuring unit 230, the first damper 210 has a normally closed form, Is provided at the inlet side of the outside air inlet (OA) is provided to proportionally control the inflow of outside air in accordance with the detection value of the radiation detector 220 and the fine particle measuring unit 230 in the process of opening or closing the flow path. .

The radioactivity detector 220 is provided to detect radioactivity contained in the outside air, and the first damper 210 is controlled according to the detected value.

The microparticle measuring unit 230 is provided inside the outside air inlet (OA) provided with the radiation detection unit 220 to measure the fine particles contained in the outside air sucked, according to the measured value of the fine particles When the first damper 210 is proportionally controlled such that the radiation detector 220 has a lot of radioactivity and fine dust, the opening of the first damper 210 is minimized, and when the radiation and fine dust are small, the first damper ( The opening of 210 can be maximized.

The second air quality improving unit 300 has sufficient oxygen in the process of supplying air having heat exchange and humidity control inside the air conditioner body 100 to the room through the outside air supply unit SA by the air supply fan SF. Sterilization is performed while being included, and is provided to include anions.

The second air quality improving unit 300 is provided with an oxygen supply unit 310, an ultraviolet sterilization unit 320, and an anion generator 330. The oxygen supply unit 310 is an air supply air supply unit of the air conditioner body 100. It is provided to (SA), it is provided to be driven by the carbon dioxide detector 311 provided in the ventilation duct (ED) of the air conditioner body 100 connected to the ventilation inlet (RA). That is, when the amount of carbon dioxide of the air passing through the ventilation inlet (RA) is higher than the reference value, the oxygen supply unit 310 is driven to include sufficient oxygen in the air supplied through the outdoor air supply unit SA to maintain a comfortable indoor environment. It becomes possible.

The ultraviolet sterilization unit 320 is driven by the air quality measurement unit 321 provided in the ventilation duct (ED) of the air conditioner body 100 connected to the ventilation inlet (RA) bacteria contained in the oxygen supplied air It is provided to be removed, the negative ion generating unit 330 is driven by the air quality measuring unit 321 provided in the ventilation inlet (RA) so that the negative ions are included in the air via the ultraviolet sterilization unit 320. It is provided.

The process of improving the air quality supplied to the room by the air quality improvement control system is as follows.

First, when the air supply fan SF is activated in the central monitoring panel, air conditioning is started. That is, when the air supply fan start / stop button is 'On', the air supply fan SF is operated, and the ventilation fan RF is operated by receiving the air supply fan state. At this time, when the air supply fan SF is 'off', the first damper 210 and the second damper 190 are closed and the heating valve HV and the cooling valve CV are closed to prevent unnecessary heat source use. In this case, damper control and valve control are operated by the control logic when the air supply fan state is 'On'.

Next, during the warm-up of the winter season, the first damper 210 and the third damper 195 are fully closed to maintain the winter until the indoor temperature reaches a predetermined temperature. That is, when the mixing temperature installed inside the air conditioner is lower than the warm-up set temperature, the first damper 210 and the discharge damper 195 are closed to operate to a predetermined temperature without affecting the external temperature conditions to maintain the room temperature.

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If the outdoor air enthalpy is lower than the indoor enthalpy by comparing and comparing the enthalpy during cooling of the season, the first damper is maintained when the outdoor air condition is better than the ventilation temperature / humidity by the enthalpy control. Open 210 to increase the inflow of outside temperature, it is possible to save energy. At this time, if the ionization smoke detector 340 is installed in the ventilation duct (ED) of the air conditioner body 100 connected to the ventilation inlet (RA), when the smoke is detected, the air supply fan (SF) is stopped and the central monitoring panel Fire alarm signal can be sent.

Next, in order to increase the temperature of the air introduced into the air conditioner body 100 by the air supply fan SF, the heating valve HV is proportionally controlled by the detection temperature of the temperature detector 120, thereby indoors. The temperature is kept constant. That is, when the ventilation temperature is lower than the indoor set temperature, open the heating valve (HV) to increase the supplied temperature to maintain the room temperature, and if the temperature is higher than the overheat set point, the heating valve (HV) is opened. Closed by force to prevent overheating.

Next, in order to cool the air by lowering the temperature of the air introduced into the air conditioner body 100 by the air supply fan SF, the cooling valve CV is proportionally controlled by the detection temperature of the temperature detector 120. The temperature is kept constant. That is, if the ventilation temperature is higher than the room set temperature, open the cooling valve (CV) to lower the supplied temperature to maintain the room temperature, and if the temperature is lower than the supercooling set point, the cooling valve (CV) is opened. Closed by force to prevent overcooling.

Next, by controlling the humidification valve (HUV) on / off according to the detected humidity of the humidity detector 130, when the indoor humidity is lower than the indoor humidity while maintaining a constant, the humidity supplied by opening the humidification valve (HUV) Increase the humidity in the room.

Next, the simple dioxide control using the carbon dioxide detector 311 is mainly performed in summer and winter. At this time, the first damper 210 and the third damper 195 are proportionally controlled according to the detected concentration change (change in occupancy of the occupant) of the carbon dioxide detector 311 and adjusted according to the amount of introduced air. That is, in the summer season, when a certain amount of fresh air is operated, the minimum amount of fresh air is separated into two according to the concentration of carbon dioxide, i.e., the number of people in the room, and the amount of fresh air is introduced. In this case, by opening the first damper 210 to allow the outside air to flow into the room it is possible to maintain a comfortable air by lowering the carbon dioxide concentration.

In this process, the outside air introduced through the outside air inlet (OA) indicates that the polluted air is introduced into the inside as the inflow of the outside air is proportionally controlled according to the detection values of the radiation detection unit 220 and the fine particle measurement unit 230. It can be prevented.

Next, the air heat exchanged and the temperature, humidity controlled through the process as described above includes a sufficient amount of oxygen and anions by the oxygen supply unit 310, ultraviolet sterilization unit 320 and the negative ion generating unit 330, Since the sterilized air is supplied to the room, a comfortable indoor environment can be maintained. In addition, when the air quality is poor, the first damper 210 is closed and a sufficient amount of oxygen is adjusted by adjusting the second damper 190 through the ventilation duct (ED) and the bypass unit 110 to circulate only indoor air. And negative ions are included and sterilized air is supplied to the room.

On the other hand, the interworking of such a system can be made to generate an alarm in the room in conjunction with the central control device and the broadcast device, and can be controlled by specifying the national disaster forecast and priority by data interworking with the Meteorological Agency.

In addition, the morning purge and night purge may be compared to the indoor air and the outdoor air to the morning purge and night purge.

The present invention has been described above based on what is shown in the drawings, but this is merely exemplary, and various substitutions, modifications, and changes can be made without departing from the spirit and scope of the present invention. It is not limited.

100: air conditioner body 110: bypass section
120, 120 ': Temperature detector 130, 130': Humidity detector
140: filter unit 150: dehumidifying unit
160: cooling coil part 170: heating coil part
180: humidification unit 200: first air quality improving unit
210: first damper 220: radioactivity detection unit
230: fine particle measuring unit 300: second air quality improving unit
310: oxygen supply unit 311: carbon dioxide detection unit
320: ultraviolet sterilization unit 321: air quality measurement unit
330: negative ion generating unit AO: outside air inlet
CV: Cooling valve EA: Ventilation outlet
HV: Heating valve RA: Ventilation inlet
RF: Ventilation fan SA: Outside air supply
SF: Air supply fan

Claims (6)

The temperature detector 120, the humidity detector 130, a filter unit 140 having a differential pressure switch, and a dehumidifying unit 150 are provided from the side into which the outside air is introduced toward the outside air supply unit SA. ), A heating coil unit 160 having a heating valve HV, a cooling coil unit 170 having a cooling valve CV, a humidifier 180, and an air supply fan SF are sequentially provided, and a ventilation duct ( The temperature and humidity of the air vented through the inside of the ED) is detected by the temperature detector 120 'and the humidity detector 130' provided in the ventilation duct ED connected to the ventilation inlet RA. To control the cooling coil unit 170 having the CV, the heating coil unit 160 having the heating valve HV, and the humidifying unit 180, and the air inlet OA and the air supply SA. It has a ventilation inlet part (RA) and a ventilation discharge part (EA), the part of the air discharged through the ventilation discharge part (EA) by the ventilation fan (RF) is the ventilation inlet part (RA) and the ventilation vessel. The first damper 210 to adjust the outside air inlet to circulate through the bypass unit 110 between the EA (EA), the third damper 195 to adjust the ventilation outlet and the second damper 190 for internal circulation An air conditioner body (100) having a;
A fine particle measurement for measuring the microparticles included in the outside detection unit 220 and the radioactivity detection unit 220 to detect the radioactivity contained in the outside air is sucked provided inside the outside air inlet (OA) provided with a first damper (210) A first air quality improving unit 200 which measures the amount of radiation of the outside air and the particles of the fine dust by the unit 230 to control that the outside air flows into the air conditioner body 100;
An air conditioner body 100 in the oxygen supply unit 310 and the ventilation inlet (RA) provided to be driven by the carbon dioxide detector 311 provided in the duct of the air conditioner body 100 connected to the ventilation inlet (RA). The second damper for internal circulation is provided by the ultraviolet sterilization unit 320 provided to be driven by the air quality measurement unit 321 provided in the duct of the negative ion generator 330 to include negative ions in the air passing through Sterilization is carried out while the air is contained by the control of 190, and the air conditioner for the air conditioner, characterized in that the second air quality improving unit 300 is configured to include the negative ion in the air to improve the air quality of the room Air quality improvement control system.

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