KR102371824B1 - Control method of air conditioner and air conditioner - Google Patents

Abstract

The present invention is to provide a control method of an air conditioner that can maintain comfortable indoor air quality at all times and extend the life of a filter that filters indoor air by alternately operating different control modes according to indoor and outdoor air quality It has its purpose in The present invention for realizing this includes an air cleaning mode for filtering indoor air by sucking indoor air, passing it through a filter, and then discharging it back into the room, and a method for discharging indoor air to the outdoors and introducing outdoor air into the room. In the control method of an air conditioner controlled in a ventilation mode, information on the indoor air quality and the outdoor air quality is received by a control unit, and the control unit purifies the air based on the received indoor and outdoor air quality It is characterized in that the mode and the ventilation mode are operated alternately.

Description

Control method of air conditioner and air conditioner

The present invention relates to a control method and an air conditioner for an air conditioner, and more particularly, to a control method and an air conditioner for alternately operating different control modes depending on indoor and outdoor air quality.

BACKGROUND ART In general, an air conditioner is a device that controls indoor temperature and humidity according to user needs or ventilates indoor air to keep the room comfortable.

Recently, by adding various functions such as dehumidification, humidification, air purification, and ventilation to the air conditioner, technologies are being developed to keep indoor air comfortable according to the change of season according to the user's selection.

These general air conditioners are designed to adjust the air volume to strong or weak depending on the indoor air quality. That is, when the indoor air quality is poor, the operation is performed with a strong wind, and when the indoor air quality is normal, the operation is performed with a weak wind, and only the air volume is adjusted according to the indoor air quality.

However, when the air conditioner is operated in this way, it may be operated in an operation mode that is not suitable for the indoor air quality, so there is a problem in that comfortable indoor air quality cannot be maintained.

In addition, various gases such as combustion gas, food odor, and human physiological gas generated from the gas stove are generated indoors. When the air conditioner is operated in the above-described way, it is difficult to efficiently remove these various gases.

As a prior art for an air conditioner, Korean Patent Laid-Open No. 10-2009-0121617 is disclosed.

The present invention has been devised to solve the above-mentioned problems, and by alternately operating different control modes depending on indoor and outdoor air quality, it is possible to maintain comfortable indoor air quality at all times, and to extend the life of a filter that filters indoor air An object of the present invention is to provide a control method of an air conditioner and an air conditioner that can be used.

The control method of the air conditioner of the present invention for achieving the above object includes an air cleaning mode for filtering indoor air by sucking indoor air, passing it through a filter, and then discharging it back into the room, and In the control method of an air conditioner in which the control is performed in a ventilation mode in which the air is discharged to and outdoor air is introduced into the room, information on the indoor air quality and the outdoor air quality is received from a control unit, and the control unit is configured to control the received indoor air quality. It is characterized in that the air cleaning mode and the ventilation mode are alternately operated based on the air quality and outdoor air quality.

A plurality of grades for indoor air quality and outdoor air quality are set in the control unit, and the operating ratio of the air cleaning mode and the ventilation mode may be adjusted in the control unit according to the received indoor and outdoor air quality grades. .

The information on the indoor air quality may include at least one of an amount of dust contained in the indoor air, an amount of an odor-causing factor, and an amount of gas.

An operation ratio of the ventilation mode may increase as the indoor air quality deteriorates because at least one of the amount of dust in the indoor air, the amount of the odor inducing factor, and the amount of gas is high.

The information on the outdoor air quality may include an amount of dust in the outdoor air.

As the outdoor air quality deteriorates due to a large amount of dust in the outdoor air, the operation ratio of the air cleaning mode may increase.

When the indoor air quality and the outdoor air quality are the conditions in which it is determined that the ventilation mode cannot be operated, the exhaust mode for exhausting the indoor air to the outdoors and the air cleaning mode may be alternately operated.

The operation ratio of the air cleaning mode and the operation ratio of the ventilation mode may be different.

The operating ratio may be determined by any one of the operating time and the operating intensity of the air conditioner, or may be determined by both the operating time and the operating intensity.

According to the present invention, the indoor air quality can be maintained in a comfortable state by alternately operating the air cleaning mode and the ventilation mode based on information on indoor and outdoor air quality.

In addition, it is possible to extend the life of the filter by adjusting the operation ratio of the air cleaning mode according to the indoor and outdoor air quality.

1 is a view showing the configuration of an air conditioner according to the present invention;
2 is a view showing a control configuration of an air conditioner according to the present invention;
3 is a view showing a case in which the air conditioner of FIG. 1 is operated in a ventilation mode;
4 is a view showing a case in which the air conditioner of FIG. 1 is operated in an air cleaning mode;
5 is a view showing a case in which the air conditioner of FIG. 1 is operated in an exhaust mode;

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The configuration of the air conditioner according to the present invention will be described with reference to FIGS. 1 and 2 .

The air conditioner (1) of the present invention includes an indoor unit (2) and an outdoor unit (3). The indoor unit 2 may be installed in an indoor space in which a user resides as a stand type, or may be installed on a ceiling as a ceiling type. The outdoor unit 3 is installed in an air conditioner outdoor unit room or a boiler room.

The indoor unit 2 passes through a first air flow path 110 (110; 110a, 110c) providing a path for discharging indoor air introduced from one side of the room to the other side of the room, and the first air flow path 110; 110a, 110c A filter 120 for filtering the air is provided.

In the first air flow path 110 , a flow path provided on one side of the indoor unit 2 is an inlet part 110a through which indoor air is introduced, and a flow path provided on the other side of the indoor unit 2 is an outlet for discharging indoor air. part 110c.

The filter 120 may be configured as a pre-filter 120 provided at the inlet portion 110a of the first air flow path 110 to filter out relatively large particles of foreign matter contained in the indoor air. However, the type and number of filters are not limited thereto, and various modified embodiments are possible.

The outdoor unit 3 may include a first air flow path 110 ; 110b , a second air flow path 210 , a dehumidifying rotor 300 , and a flow path switching unit 400 .

The first air passage 110b has both ends connected to the first air passage inlet 110a and the outlet 110c provided in the indoor unit 2 to form a first area 310 of the dehumidifying rotor 300 . It is the middle part that passes through. The first air passages 110; 110a, 110b, and 110c represent paths through which air flows, and may consist of only a space through which air flows as well as a pipe through which air flows, and the second air passages 210 is also the same

On the first air flow path 110b provided in the outdoor unit 3, a first damper 170, a functional filter 130, a HEPA filter 140, a first blower 160, and a second damper 180 are sequentially installed. provided

The first damper 170 is for opening and closing the first air passage inlet portion 110a side passage, and the second damper 180 is for opening and closing the first air passage outlet portion 110c side passage. will be.

The functional filter 130 is a filter for removing harmful factors such as antibacterial, antiviral, and allergy.

The HEPA filter 140 is a high-performance filter for filtering particulates in the air, and filters the air just before it is introduced into the room.

The first blower 160 provides a suction force for sucking indoor air or outdoor air into the first air passage 110 .

The second air flow path 210 includes an inlet 210a through which outdoor air is introduced on one side, an intermediate portion 210b passing through the second region 320 of the dehumidification rotor 300, and the inlet portion 210b. It consists of an outlet part 210c for discharging the outdoor air to the other side of the outdoor again.

A third damper 270 , a pre-filter 220 , a heat exchanger 250 , a second blower 260 , and a fourth damper 280 are sequentially provided in the second air flow path 210 .

The third damper 270 is for opening and closing the second air passage inlet 210a side passage, and the fourth damper 280 is for opening and closing the second air passage outlet 210c side passage. will be.

The pre-filter 220 is provided at the inlet portion 210a of the second air flow path 210 to filter out relatively large particles of foreign matter contained in the outdoor air.

The heat exchanger 250 may be configured as a heater for heating the air flowing through the second air flow path 210b.

The second blower 260 provides a suction force for sucking outdoor air or indoor air into the second air flow path 210 .

The dehumidifying rotor 300 is provided with an adsorbent for adsorbing moisture in the air therein. The first region 310 is a region connected to the first air flow path 110 , and the second region 320 is a region connected to the second air flow path 210 . The dehumidification rotor 300 rotates by a driving unit (not shown) about an axis provided in the center, so that the adsorbent is alternately positioned in the first region 310 and the second region 320 . Here, the adsorbent refers to all components capable of absorbing moisture.

At a point where the first air flow path 110 and the second air flow path 210 intersect, the flow path switching unit 400 for switching the flow direction of the first air flow path 110 and the second air flow path 210 . is provided

The flow path conversion unit 400 includes a first inlet 410 through which indoor air is introduced, a second inlet 420 through which outdoor air is introduced, and a first outlet 430 connected to the first region 310, and a second outlet 440 connected to the second region 320 . The flow path switching unit 400 may be configured as, for example, a four-way valve, inside which the first inlet 410 is connected to any one of the first outlet 430 and the second outlet 440, and the A direction change gate (not shown) may be provided to connect the second inlet 420 to any one of the first outlet 430 and the second outlet 440 . A case in which the first inlet 410 and the first outlet 430 are connected and the second inlet 420 and the second outlet 440 are connected is referred to as a 'first connection state'. Conversely, a case in which the second inlet 420 and the first outlet 430 are connected and the first inlet 410 and the second outlet 440 are connected is referred to as a 'second connection state'.

The indoor unit 2 includes a temperature sensor 501, a humidity sensor 502, an indoor dust sensor 503, and an odor sensor for respectively detecting indoor temperature, humidity, dust, odor, CO2, and VOC (volatile organic compound). 504 , a CO 2 sensor 505 , and a VOC sensor 506 may be provided. The smell sensor 504 may be configured to detect the amount of ammonia and amine contained in the indoor air. Here, CO2 and VOC are collectively referred to as gases.

The indoor temperature, humidity, dust, odor, CO2, and VOC detected by the sensors 501 , 502 , 503 , 504 , 505 and 506 are received by the controller 100 as information on indoor air quality.

In addition, the outdoor unit 3 may be provided with an outdoor dust sensor 507 for measuring dust contained in outdoor air. The outdoor dust sensor 507 may measure the amount of dust, and the measured information may be received by the controller 100 as information on outdoor air.

Meanwhile, the information on the dust in the outdoor air may be composed of information received from the weather information collection unit 508 . The weather information collection unit 508 collects weather information stored in a weather information providing server 600 provided to an external company that provides weather information, and provides the information to the control unit 100 .

The weather information stored in the weather information providing server 600 may be various information such as temperature, humidity, precipitation probability, yellow dust information (dust information), and the like. In particular, weather information on fine dust or ultrafine dust is divided into multiple stages as good, normal, bad, and very bad, and the information is stored, and the amount of fine dust is stored and updated in real time in the unit of μg/m3 and the weather information providing server 600 and the weather information collecting unit 508 are connected by a wired network or a wireless network, so that the weather information of the weather information providing server 600 can be received by the weather information collecting unit 508 . .

The control unit 100 may alternately operate the air cleaning mode and the ventilation mode based on the received indoor air quality information and outdoor air quality information to maintain the indoor air condition in an optimal state.

A ventilation mode will be described with reference to FIG. 3 .

When the ventilation mode is activated, the first to fourth dampers 170 , 180 , 270 , and 280 are all opened, and the first blower 160 and the second blower 260 are operated. In this case, the flow path switching unit 400 is set to be in the second connection state.

The indoor air sucked into the inlet part 110a of the first air flow path 110 by the operation of the second blower 260 is provided by the pre-filter 120, the functional filter 130, and the flow path switching unit 400. After passing through the second area 320 of the dehumidifying rotor 300 through the first inlet 410 and the second outlet 440 , it is discharged to the outside through the outlet 210c of the second air passage 210 .

At the same time, the outdoor air sucked into the inlet 210a of the second air flow path 210 by the operation of the first blower 160 is the pre-filter 220 and the second inlet 420 of the flow path switching unit 400 . ), the first outlet 430 , and the HEPA filter 140 pass through the first region 310 of the dehumidifying rotor 300 , and then discharged into the room through the outlet 110c of the first air passage 110 . do.

In this case, when the dehumidification rotor 300 rotates, heat exchange is performed between the indoor air and the outdoor air.

By this process, indoor air is discharged to the outside, and the outdoor air is introduced into the room, so that the indoor air is ventilated.

An air cleaning mode will be described with reference to FIG. 4 .

When the air cleaning mode is activated, the first blower 160 is operated while the first damper 170 and the second damper 180 are opened and the third damper 270 and the fourth damper 280 are closed. and the flow path switching unit 400 is set to be in the first connection state. In this case, the dehumidification rotor 300 may be configured to not rotate.

The indoor air introduced through the inlet portion 110a of the first air flow path 110 due to the operation of the first blower 160 is subjected to primary filtration of foreign substances with large particles in the pre-filter 120, and is functional. After the harmful factors such as allergy are removed from the filter 130 , the particulates are removed from the HEPA filter 140 .

The indoor air passing through the HEPA filter 140 passes through the first region 310 and then is discharged into the room through the outlet portion 110c of the first air flow path 110 to purify the indoor air.

An exhaust mode will be described with reference to FIG. 5 .

The exhaust mode is a mode for exhausting indoor air to the outdoors. When the exhaust mode is activated, the first damper 170 and the fourth damper 280 are opened, and the second blower 260 is operated while the second damper 180 and the third damper 270 are closed. , the flow path switching unit 400 is set to be in the second connection state.

The indoor air sucked into the inlet part 110a of the first air flow path 110 by the operation of the second blower 260 is the first inlet 410 and the second outlet 440 of the flow path switching unit 400 . After passing through the second region 320 of the dehumidifying rotor 300 through the , it is discharged to the outdoors through the outlet portion 210c of the second air flow path 210 . In this case, if the pre-filter 120 and the functional filter 130 are placed on the first air flow path 110b adjacent to the HEPA filter 140, when the indoor air is discharged to the outdoors in the exhaust mode, it is not necessary to go through the filter, so the filter lifespan can be extended.

Hereinafter, a control method of alternately operating the ventilation mode, the air cleaning mode, and the exhaust mode will be described.

The table below shows the ratio of alternately operating ventilation mode, air cleaning mode, and exhaust mode according to indoor air quality and outdoor air quality.

(outdoor) good (outdoor) normal (outdoor) bad (outdoor) very bad (indoor) good ventilation 0
air cleaning 0 ventilation 0
air cleaning 0 ventilation 0
air cleaning 0 ventilation 0
air cleaning 0 (indoor) normal ventilation 1
air cleaning 0 ventilation 1
air cleaning 1 ventilation 0
air cleaning 1 ventilation 0
air cleaning 1 (indoor) bad ventilation 2
air cleaning 0 ventilation 2
air cleaning 1 ventilation 1
air cleaning 2 exhaust 1
air cleaning 2 (indoor) very bad ventilation 3
air cleaning 0 ventilation 3
air cleaning 1 ventilation 2
air cleaning 3 exhaust 2
air cleaning 3

The indoor and outdoor air quality ratings are divided into four levels: good, average, poor, and very poor.

The control unit 100 controls so that the operating ratio of the air cleaning mode and the ventilation mode is adjusted according to the indoor and outdoor air quality. Here, the adjustment of the operation ratio of the air conditioner 1 may be configured by adjusting the operation time of the air conditioner 1, adjusting the operation intensity, or adjusting both the operation time and the operation intensity.

The indoor air quality shown in Table 1 is the amount of dust contained in indoor air, which is information received from the dust sensor 503 , the odor sensor 504 , the CO2 sensor 505 , and the VOC sensor 506 , and the odor-causing factor. It can be divided into 4 levels based on one or more of the amount of gas and the amount of gas.

In addition, the outdoor air quality can be divided into four levels based on the amount of dust in the outdoor air that is information received from the dust sensor 507 or the amount of dust received from the weather information collection unit 508 .

Referring to Table 1 above, the ventilation mode operation ratio is controlled to increase as the indoor air quality deteriorates because one or more of the amount of dust, the amount of odor-causing factors, and the amount of gas in the indoor air is high. In this case, when the outdoor air quality is good, only the ventilation mode is operated 100%, but as the indoor air quality deteriorates, the operation time and/or operation strength of the air conditioner 1 is increased.

Meanwhile, as the outdoor air quality deteriorates due to a large amount of dust in the outdoor air, the operation ratio of the air cleaning mode is controlled to increase. Referring to the table above, when the indoor air quality is of poor or very poor quality, the operating time and/or operating intensity is increased so that the operating ratio of the air cleaning mode increases as the outdoor air quality is poor.

If the indoor air quality and outdoor air quality are poor or very poor, it is not preferable to introduce outdoor air into the room. Accordingly, in this case, the ventilation mode may be set to a condition determined to be inoperable, and the exhaust mode for exhausting indoor air to the outdoors may be configured to be operated alternately with the air cleaning mode.

As described above, when operating in ventilation mode, air cleaning mode, and exhaust mode, it is possible to operate under optimal conditions according to indoor and outdoor air conditions by combining and operating modes with different operation ratios. can be maintained as

Even when the indoor air quality is poor, if only the air cleaning mode is operated, the lifespan of the filters 120 , 130 , 140 provided on the first air flow path 110 , in particular the HEPA filter 140 may be shortened. Therefore, if the indoor air quality is poor or very bad, the ventilation mode is operated alternately at an appropriate ratio if the outdoor air quality is poor/normal, and only the ventilation mode is operated if the outdoor air quality is good, thereby extending the life of the HEPA filter 140. there is.

As described above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above-described embodiments, and various modifications are made within the scope of the claims, the detailed description of the invention, and the accompanying drawings. It is possible to carry out and this also belongs to the present invention.

1: Air conditioner 2: Indoor unit
3: outdoor unit 100: control unit
110: first air flow path 120: pre-filter
130: functional filter 140: hepa filter
160: first blower 170: first damper
180: second damper 210: second air flow path
220: pre-filter 250: heat exchanger
260: second blower 270: third damper
280: fourth damper 300: dehumidification rotor
310: first area 320: second area
400: euro conversion unit 410: first inlet
420: second inlet 430: first outlet
440: second outlet 501: temperature sensor
502: humidity sensor 503: indoor dust sensor
504: odor sensor 505: CO2 sensor
506: VOC sensor 507: outdoor dust sensor
508: weather information collection unit 600: weather information providing server

Claims (12)

Air conditioning in which indoor air is sucked through a filter and discharged back into the room to filter the indoor air, and in the ventilation mode, which exhausts indoor air to the outdoors and introduces outdoor air into the room. In the control method of the group,
Information on the indoor air quality and the outdoor air quality is received from the control unit, and the control unit alternately operates the air cleaning mode and the ventilation mode based on the received indoor and outdoor air quality, and the indoor air quality and the outdoor air quality When it is determined that the air quality cannot operate the ventilation mode, the control method of the air conditioner, characterized in that the exhaust mode for exhausting the indoor air to the outdoors and the air cleaning mode are operated alternately According to claim 1,
A plurality of grades for indoor air quality and outdoor air quality are set in the control unit, and the control unit adjusts the operating ratio of the air cleaning mode and the ventilation mode according to the received indoor and outdoor air quality grades. Control method of air conditioner with 3. The method of claim 2,
The information on the indoor air quality includes at least one of an amount of dust contained in the indoor air, an amount of an odor-inducing factor, and an amount of gas. 4. The method of claim 3,
An operation ratio of the ventilation mode increases as the indoor air quality grade deteriorates because at least one of an amount of dust, an amount of an odor-causing factor, and an amount of gas relative to the indoor air is high. Control method 3. The method of claim 2,
The information on the outdoor air quality is a control method of an air conditioner, characterized in that it consists of an amount of dust in the outdoor air 6. The method of claim 5,
The control method of the air conditioner, characterized in that the greater the amount of dust in the outdoor air, the worse the grade of the outdoor air quality, the higher the operating ratio of the air cleaning mode. delete 3. The method of claim 2,
Control method of an air conditioner, characterized in that the operation ratio of the air cleaning mode and the operation ratio of the ventilation mode are different 9. The method of claim 8,
The operation ratio is determined by any one of the operating time and the operating intensity of the air conditioner, or is determined by both the operating time and the operating intensity. a filter for filtering air;
An air cleaning mode that receives information on indoor air quality and outdoor air quality from a sensor, sucks indoor air, passes it through the filter, and then discharges it back into the room based on the received indoor and outdoor air quality; A ventilation mode for discharging air to the outdoors and introducing outdoor air into the room is alternately operated, and when it is determined that the indoor air quality and the outdoor air quality cannot operate the ventilation mode, the indoor air is exhausted to the outdoors a control unit for alternately operating the exhaust mode and the air cleaning mode;
air conditioner comprising 11. The method of claim 10,
The control unit includes a temperature sensor for detecting indoor temperature, a humidity sensor for detecting indoor humidity, a dust sensor for detecting indoor dust, an odor sensor for detecting indoor odor, and a indoor CO2 for detecting Air conditioner, characterized in that it receives information on indoor air quality from at least one of a CO2 sensor and a VOC sensor for detecting VOC in the room 11. The method of claim 10,
wherein the control unit receives information on outdoor air quality from at least one of an outdoor dust sensor for measuring dust contained in outdoor air and a weather information collecting unit for collecting weather information

Images