KR102301358B1 - Control method of air conditioner and air conditioner - Google Patents

Abstract

The present invention relates to a control method of an air conditioner capable of quickly and smoothly exhausting contaminated air and improving the efficiency of the exhaust fan when an exhaust fan operates to exhaust contaminated air from a kitchen or bathroom to the outdoors. Its purpose is to provide
A method of controlling an air conditioner of the present invention for realizing this includes the steps of: a) receiving exhaust fan operation information related to an operation of an exhaust fan installed indoors to a control unit; b) operating in an air supply mode for supplying outdoor air to the indoor when the exhaust fan operation information is received by the controller.

Description

Control method of an air conditioner and an air conditioner

The present invention relates to a method for controlling an air conditioner and an air conditioner, and more particularly, to control of an air conditioner capable of improving the efficiency of an exhaust fan for discharging polluted air from an indoor space, such as a bathroom or kitchen, to the outdoors. It relates to a method and an air conditioner.

An air conditioner is a device that controls indoor temperature and humidity or ventilates or purifies indoor air according to the user's request to keep the room comfortable.

Such an air conditioner is equipped with a sensor for detecting indoor environmental conditions, and when the value detected by the sensor deviates from a reference value, the air conditioner is operated to control ventilation and purification of indoor air, humidification and dehumidification, etc. do.

As a conventional air conditioner, Korean Patent Registration No. 10-1664791 filed and registered by the present applicant is disclosed.

The above-described conventional air conditioner uses a dehumidifying rotor to discharge indoor air introduced through a first air passage in a ventilation mode to the outside through a second air passage and a second area of the dehumidifying rotor, and is discharged from the outdoors. An air conditioner capable of indoor ventilation and humidity control is provided by controlling air to be introduced into the room through the first air passage and the first area of the dehumidifying rotor.

On the other hand, a kitchen hood, which is one of the kitchen appliances, is installed in the kitchen and is used to prevent air pollution in the kitchen by discharging combustion gas, food smell, water vapor, etc. generated when food is cooked in the kitchen to the outside.

Such a kitchen hood is installed on an upper portion of a kitchen appliance including a gas range, an electric range, and the like, and exhausts gas generated from the cooking device and gas generated during food cooking to the outside using an exhaust fan.

However, even when the kitchen hood is operated, some of the combustion gases and food odors generated during cooking are not discharged to the outside by the exhaust fan, but spread to indoors such as living rooms.

In addition, the exhaust fan is operated to discharge the odor and water vapor (moisture) generated when using the toilet to the outside. there was.

In addition, a method of increasing the capacity of the exhaust fan may be considered in order to more quickly discharge odors and water vapor (moisture) generated in the kitchen and toilet to the outside. However, as the capacity of the exhaust fan increases, the size of the exhaust fan increases, and thus there is a problem in that an installation space and cost are required.

In addition, when the size of the exhaust fan increases, power consumption increases during the operation of the exhaust fan, which increases the electric charge, and vibration and noise increase during operation of the exhaust fan, so that a comfortable living environment cannot be provided.

The present invention has been devised to solve the above-mentioned problems, and when the exhaust fan operates to exhaust the polluted air from the kitchen or toilet to the outside, it is possible to quickly and smoothly exhaust the polluted air, and An object of the present invention is to provide a method for controlling an air conditioner capable of improving efficiency, and an air conditioner.

In addition, by improving the efficiency of the exhaust fan so that an exhaust fan with a small capacity exhibits the same performance as in the prior art, the space and cost required for the installation of the exhaust fan can be reduced, and the electricity cost required for the operation of the exhaust fan can be reduced. An object of the present invention is to provide a method for controlling an air conditioner that can be used and an air conditioner.

In addition, by improving the efficiency of the exhaust fan, it is possible to use an exhaust fan with a small capacity, thereby reducing noise and vibration generated during the operation of the exhaust fan to provide a comfortable indoor environment. There is a purpose.

Another object of the present invention is to provide a control method and an air conditioner for an air conditioner capable of providing a comfortable indoor environment by preventing the contaminated air of a kitchen or toilet from spreading to other indoor spaces adjacent to the kitchen or toilet.

According to an aspect of the present invention, there is provided a method for controlling an air conditioner according to the present invention, comprising the steps of: a) receiving exhaust fan operation information related to the operation of an exhaust fan installed indoors to a control unit; b) operating in an air supply mode for supplying outdoor air to the indoor when the exhaust fan operation information is received by the controller.

The exhaust fan operation information may be received from the exhaust fan; received from an input for operating the air conditioner; It may be received from a sensor capable of determining the operation of the exhaust fan.

The exhaust fan operation information may include information on an operation intensity of the exhaust fan, and the controller may control an amount of supply air introduced into the room to increase or decrease in proportion to the received operation intensity of the exhaust fan.

the room is a kitchen or a bathroom; The outdoor air may be supplied between the kitchen and an indoor space adjacent to the kitchen or between the toilet and an indoor space adjacent to the toilet.

when the room is a kitchen, the outdoor air is supplied to the floor of a space adjacent to the kitchen hood including the exhaust fan; When the room is a toilet, the outdoor air may be supplied to the toilet floor.

the exhaust fan operation information includes information on an operation intensity of the exhaust fan; The control unit may control the amount of air to be supplied greater than the amount of exhaust according to the received operating intensity of the exhaust fan.

When the operation of the exhaust fan is stopped, the operation of the air supply mode may be terminated after a predetermined time has elapsed.

The outdoor air flowing into the room may be dry air dehumidified by the dehumidifying unit.

When the information on the humidity of the outdoor air is received by the controller, and when the humidity of the outdoor air is equal to or greater than a preset humidity, the dehumidified air may be supplied to the room.

The information on the humidity of the outdoor air is received by the control unit, and when the humidity of the outdoor air is higher than the set humidity, the operation of the air supply mode is stopped, the outdoor air is dehumidified and then introduced into the room and the indoor air is transferred to the outdoor area. It can be operated in the ventilation mode that exhausts the

When operating in the ventilation mode, the amount of air introduced into the room may be controlled to be greater than the amount of air discharged to the outdoors.

The dehumidifying unit is composed of a dehumidifying rotor including an adsorbent; Moisture contained in the outdoor air is adsorbed in the first area of the dehumidifying rotor, and when the adsorbent that has absorbed moisture in the first area by rotating the dehumidifying rotor is located in the second area, a part of the outdoor air is used Thus, it is possible to control to release the adsorbed moisture in the first region.

In step a), the exhaust fan operation information includes information that the user is staying in the kitchen in which the exhaust fan is installed or information that the user is using the bathroom in which the exhaust fan is installed; When the exhaust fan operation information is received, the controller may transmit a control signal to operate the exhaust fan.

The outdoor air may be supplied only to an indoor space in which the operation information of the exhaust fan is received among a plurality of indoor spaces in the room, and the outdoor air may be controlled to be blocked in the remaining indoor spaces.

When the operation is started in the air supply mode of step b), the air supply mode may be maintained even if an operation mode change signal for changing the operation mode is received by the control unit.

The air supply mode may be maintained until the operation end signal of the exhaust fan is received by the controller.

The air supply mode may be maintained until a set time elapses after the air supply mode is started.

When the operation of the exhaust fan is stopped, the operation of the air supply mode is terminated; It can be operated in either a ventilation mode in which indoor air and outdoor air are exchanged or an air cleaning mode in which the indoor air is filtered and discharged back into the room.

During operation of the ventilation mode, if the rotation speed of the air supply blower for supplying outdoor air to the room decreases and the rotation speed of the exhaust blower for exhausting the indoor air to the outside increases, the operation of the exhaust blower is stopped for a set time and only the supply air blower can be operated.

When the temperature of the outdoor air supplied to the room is lower than a set temperature, the outdoor air may be heated by a heating unit and then supplied into the room.

Before step a), if the ventilation mode is being operated for ventilation of an indoor space other than the indoor space requiring air supply, step b) may be performed after stopping the operation of the ventilation mode.

When the indoor is a toilet, the outdoor air may be directly supplied to the interior space of the toilet.

After step b), if the room is a toilet, when a certain time elapses from the time when it is determined that the user has left the toilet, the smell detected by the smell sensor becomes the set value, or the humidity detected by the humidity sensor becomes the set value After maintaining the operation of the exhaust fan and the supply of indoor air until the end, the operation of the exhaust fan and the supply of indoor air may be stopped.

When the air supply mode of step b) is activated, if air is already supplied to a second indoor space other than the first indoor space requiring air supply, the first indoor space is maintained while supplying air is maintained. It is possible to carry out air supply to the indoor space.

An air conditioner according to the present invention includes: an exhaust fan operation information receiving unit for receiving exhaust fan operation information related to an operation of an exhaust fan installed in a room; an air supply blower for supplying outdoor air into the room; and a supply driving unit for driving the air supply blower to supply the outdoor air into the room when the exhaust fan operation information is received by the exhaust fan operation information receiving unit.

It may further include an input unit for generating exhaust fan operation information indicating that the exhaust fan is operating.

When information indicating that the user is staying in the kitchen in which the exhaust fan is installed or information indicating that the user is using the toilet in which the exhaust fan is installed is received, an exhaust fan control signal transmitting unit that transmits a control signal for operating the exhaust fan can be provided.

an outdoor air humidity receiver configured to receive information on the humidity of the outdoor air; a dehumidifying unit for dehumidifying the air supplied to the room; When the humidity of the outdoor air is greater than or equal to a preset humidity, a dehumidification driving unit may be included to drive the dehumidifying unit to control the dehumidified outdoor air to be supplied into the room.

When the exhaust fan operation information is information for operating the exhaust fan, the supply driving unit operates the supply air blower, and when the exhaust fan operation information is information for stopping the operation of the exhaust fan, the supply driving unit operates the supply air blower may be to stop the operation of

According to the present invention, when the exhaust fan operates to exhaust the polluted air generated in the room, such as the kitchen or the bathroom, to the outside, the air conditioner supplies air, thereby discharging the polluted air more quickly and smoothly through the exhaust fan. can be exhausted.

In addition, when air is supplied to the room during the operation of the exhaust fan, the exhaust efficiency through the exhaust fan is improved, so that the same exhaust performance as in the prior art can be exhibited even with an exhaust fan having a small capacity. Accordingly, when an exhaust fan having a small capacity is used, it is possible to reduce the space and cost required for the installation of the exhaust fan, and it is possible to reduce the electric charge required for the operation of the exhaust fan.

In particular, in the case of the kitchen, the size of the kitchen hood can be reduced, so that more space required for installation of kitchen furniture including the sink can be secured, thereby creating a comfortable kitchen environment.

In addition, when an exhaust fan having a small capacity is used by improving the efficiency of the exhaust fan, noise and vibration generated during the operation of the exhaust fan can be reduced, thereby providing a comfortable indoor environment.

In addition, it is possible to maintain the indoor environment in a comfortable state by preventing the contaminated air generated in the kitchen or toilet from spreading to other adjacent indoor spaces.

In addition, when external air is supplied by using an air conditioner when using the toilet, odors and water vapor do not diffuse out of the toilet, so that the user can open the toilet door when using the toilet, thereby reducing the noise of the exhaust fan.

In addition, when supplying air from the air conditioner, it is possible to prevent a phenomenon in which dehumidified dry air is supplied to the bathroom and kitchen, which causes odor due to mixing of moist air and contaminated air.

In addition, when air is supplied to an indoor space exhausted by an exhaust fan, if the ventilation mode is already in operation in an indoor space other than the indoor space for which air is to be supplied, the ventilation mode operation is terminated and air is supplied to the indoor space requiring air supply. When switching to the air supply mode in which air is supplied, a sufficient amount of air can be secured and exhaust efficiency can be improved.

In addition, when the outside air is directly supplied to the inside of the toilet, odors and water vapor can be smoothly exhausted to the outside even when the user closes the bathroom door.

In addition, when the outdoor temperature is lower than the set temperature, it is heated and supplied air to prevent the user from feeling uncomfortable when using the toilet due to cold outdoor air being supplied to the toilet in winter, and to prevent a safety accident by preventing the moisture in the toilet from freezing. It can be prevented.

1 is a view showing a control configuration of an air conditioner and an exhaust fan according to the present invention;
2 is a view showing the flow path structure of the air conditioner according to the present invention;
3 is a flowchart showing a method for controlling an air conditioner according to the present invention;

Hereinafter, a method of controlling an air conditioner of the present invention will be described in detail with reference to the accompanying drawings.

A control configuration of the air conditioner and the exhaust fan according to the present invention will be described with reference to FIGS. 1 and 2 .

In the air conditioner 100 of the present invention, when the exhaust fan operation information regarding the operation of the supply air blower 110a for supplying outdoor air into the room and the exhaust fans 210 and 220 installed in the room is received, the air supply blower 110a and a control unit 140 for controlling the air supply mode in which outdoor air is supplied into the room by driving the .

The control unit 140 includes an exhaust fan operation information receiving unit 141 that receives exhaust fan operation information related to the operation of the exhaust fans 210 and 220, and drives the supply air blower 110a when the exhaust fan operation information is received. It may include a supply drive unit (144).

The exhaust fan operation information means information indicating that the exhaust fans 210 and 220 are operating.

For example, when the exhaust fans 210 and 220 and the air conditioner 100 are connected by communication, the exhaust fan operation information may be configured to be automatically received from the exhaust fans 210 and 220 .

In addition, when the exhaust fans 210 and 220 and the air conditioner 100 are not connected by communication, the user knows that the exhaust fans 210 and 220 are operating through the input unit 170 provided in the air conditioner 100 . Fan operation information may be generated, and the generated exhaust fan operation information may be received by the controller 140 . For example, an air supply mode activation button may be provided in the input unit 170 , and the exhaust fan operation information may be received by the controller 140 when the user presses the air supply mode activation button.

In addition, when the exhaust fans 210 and 220 and the air conditioner 100 are not connected by communication, the exhaust fan operation information may be received from a sensor capable of detecting whether the exhaust fans 210 and 220 are operating. That is, the operation of the exhaust fans 210 and 220 is sensed by the exhaust fan motion detection sensors 300-1 and 300-2, and outdoor air is pumped into the room according to a signal received from the exhaust fan motion detection sensors 300-1 and 300-2. Control can be made in the air supply mode supplied to the

The air conditioner 100 may be operated in ventilation, air cleaning, dehumidification, humidification, cooling and heating modes, including air supply mode.

The air conditioner 100 includes a first air passage 121 having one end and the other end in communication with the indoor, a second air passage 122 with one end and the other end communicating with the outdoors, respectively, and the first air passage The filter 123 installed on the 121, the filter 125 installed on the second air passage 122, and the first air passage 121 and the second air passage 122 are provided at the intersection of the air A flow path switching unit 126 for changing the flow direction, a supply air blower 110a provided on the first air flow path 121 , an exhaust blower 110b provided on the second air flow path 122 , the A dehumidifying unit 130 for dehumidifying the air supplied to the room by flowing the first air flow path 121, and a communication unit 150 for communicating to receive operation signals of the exhaust fans 210 and 220 provided in the room. can do. The control unit 140 may control the operation of the blowers 110a and 110b according to the communication signal received by the communication unit 150 .

In addition, the air conditioner 100 may further include an outdoor humidity sensor 160 for detecting the humidity of the outdoor air. The outdoor air humidity information received from the outdoor humidity sensor 160 is received by the outdoor air humidity receiver 143 .

The first air flow path 121 includes an inlet portion 121a through which indoor air is introduced and an outlet portion 121b through which air is discharged into the room. The second air flow path 122 includes an inlet portion 122a through which outdoor air is introduced and an outlet portion 122b through which air is discharged to the outdoors. A heating unit 124 for heating the air flowing through the first air passage 121 may be provided on the first air passage 121 , and a second air passage 122 on the second air passage 122 . ) may be provided with a heating unit 127 for heating the flowing air.

The flow path switching unit 126 may include two inlets and two outlets and a flow path switching member 126a for changing the flow direction. The connection directions of the two inlets and outlets are changed by the direction change of the flow path switching member 126a in the ventilation mode (supply mode) and the air cleaning mode.

The dehumidifying unit 130 may include a dehumidifying rotor 130 - 1 that absorbs moisture from the air flowing through the first air flow path 121 and discharges the absorbed moisture from the second air flow path 122 . . In addition, the dehumidifying unit 130 may be formed of an evaporator of a refrigeration cycle or a heat pump. A dehumidification driving unit 146 for driving the dehumidifying unit 130 is provided, and when the humidity of the outdoor air is higher than a preset humidity, the dehumidifying driving unit 146 drives the dehumidifying unit 130 to perform dehumidification. Air can be controlled to be supplied to the room.

The dehumidification rotor 130-1 includes a first area 131 provided on the first air passage 121 and a second area 132 provided on the second air passage 122, It is made of an adsorbent that alternately passes through the first region 131 and the second region 132 by rotation. The adsorbent absorbs moisture in the first region 131 to dehumidify it, and is regenerated by releasing moisture from the second region 132 by the air heated by the heating unit 127 .

The supply air blower 110a provided at the outlet 121b side of the first air flow path 121 sucks indoor air in the air cleaning mode and discharges it back to the room, and sucks outdoor air in the ventilation mode and the air supply mode. to be discharged indoors.

The exhaust blower 110b provided on the outlet portion 122b side of the second air flow path 122 is for sucking in indoor air and discharging it to the outdoors in the ventilation mode. An exhaust driver 145 for driving the exhaust blower 110b is provided.

Dampers (not shown) for opening and closing the inlet 121a and outlet 121b of the first air channel 121 and the inlet 122a and outlet 122b of the second air channel 122 are provided. city) may be provided respectively.

A controller (not shown) for controlling the air conditioner 100 may be installed on a wall surface of the indoor space, and the controller of the air conditioner 100 includes an application of a home network function provided in an App Store or Android Market, etc. is downloaded and installed, and a shortcut icon for running an application of a home network function may be installed on the desktop.

Meanwhile, the air conditioner 100 may be configured to operate the exhaust fans 210 and 220 . To this end, the control unit 140 may further include an exhaust fan control signal transmitting unit 142 that transmits a control signal for operating the exhaust fans 210 and 220 . When the exhaust fan control signal transmitter 142 receives information that the user is staying in the kitchen where the exhaust fans 210 and 220 are installed or that the user is using the toilet in which the exhaust fans 210 and 220 are installed, the A control signal for operating the exhaust fans 210 and 220 is transmitted.

The exhaust fans 210 and 220 may include a first exhaust fan 210 of a kitchen hood installed in a kitchen and a second exhaust fan 220 installed in a bathroom. In this case, the room in which the exhaust fans 210 and 220 are installed includes all places where polluted air such as gas or odor is generated, including kitchens and toilets. In addition, the number of the exhaust fans is not limited to two, and may be additionally installed in indoor spaces such as kitchens and toilets where it is necessary to discharge polluted air.

The exhaust fans 210 and 220 may be manually operated by a user or may be configured to be automatically operated by sensing of a sensor. That is, the exhaust fans 210 and 220 are automatically operated by the detection signal of the kitchen residence detection sensor 410 that the user is staying in the kitchen and the seating sensor 420 that is provided in the toilet and detects whether the user is seated. configurable.

In addition, the second exhaust fan 220 by the detection signal of the toilet entrance detection sensor 430 capable of detecting that the user enters the toilet or the odor sensor 440 capable of detecting the smell generated when the user defecates. It can also be configured to work automatically.

In addition, the second exhaust fan 220 can be configured to automatically operate according to a detection signal of the toilet humidity sensor 450 that can detect the humidity inside the toilet in order to exhaust the moisture inside the toilet to the outside after showering. .

In this case, the toilet entrance detection sensor 430, the smell sensor 440, and the toilet humidity sensor 450 are parts made separately from the second exhaust fan 220 and the air conditioner 100, and the user may arbitrarily position the toilet at an appropriate location. can be installed on

If the smell sensor 440 is separately installed in the bathroom, the second exhaust fan 220 can be automatically operated to exhaust the smell whenever the sensed smell is greater than or equal to a set value.

The kitchen stay detection sensor 410 and the toilet entrance detection sensor 430 may be configured as an infrared sensor for detecting that a user enters and exits the kitchen or toilet.

On the other hand, the detection signals from the kitchen stay detection sensor 410, the seating sensor 420, the toilet entrance detection sensor 430, the smell sensor 440, and the toilet humidity sensor 450 are the control unit of the air conditioner (100). It may be configured to be received by 140 , and in this case, the control unit 140 of the air conditioner 100 may be configured to automatically operate the first exhaust fan 210 or the second exhaust fan 220 . .

The exhaust fan motion detection sensor 300-1, 300-2 includes a first exhaust fan motion detection sensor 300-1 for detecting the operation of the first exhaust fan 210, and a second exhaust fan 220. and a second exhaust fan motion detection sensor 300-2 for detecting the motion. The exhaust fan motion detection sensor may be provided to correspond to the number of exhaust fans.

The first and second exhaust fan motion detection sensors 300-1 and 300-2 include first and second motion detection units 310-1 and 310 for detecting whether the first and second exhaust fans 210 and 220 are operating, respectively. -2), first and second communication units ( 320-1,320-2).

The exhaust fan motion detection sensors 300-1 and 300-2 may be additionally installed by a user, or may be provided integrally with the exhaust fans 210 and 220.

In addition, the exhaust fans 210 and 220 themselves may have a communication function to transmit operation signals of the exhaust fans 210 and 220 to the control unit 140 through the communication unit 150 of the air conditioner 100 . In this case, the exhaust fan motion detection sensors 300-1 and 300-2 may not be provided.

The exhaust fan motion detection sensor 300-1,300-2 is a vibration sensor attached to the exhaust fans 210 and 220 to detect vibrations generated when the exhaust fans 210 and 220 operate, and a range installed in the kitchen (gas range, electricity). a range motion detection sensor for detecting the operation of the range), a gas flow sensor installed on a gas pipe for supplying gas to the gas range and measuring a supply flow rate of the supplied gas, an exhaust fan for detecting the rotation of the exhaust fan It may be made of any one of the rotation detection sensors. The range motion detection sensor may include a heat sensor or an infrared sensor that detects heat generated in the range, or a gas sensor that detects gas generated during cooking of food.

The communication units 320-1 and 320-2 include a wireless communication module (not shown) for wireless communication with the communication unit 150 of the air conditioner 100 . The communication units 320-1 and 320-2 link with an application installed in the controller of the air conditioner 100 through the wireless communication module to air-condition the detection signal of the exhaust fan motion detection sensor 300-1, 300-2. It can be transmitted to the communication unit 150 of the device 100 . The communication unit 150 of the air conditioner 100 and the communication units 320-1 and 320-2 of the exhaust fan motion detection sensor 300-1 and 300-2 may communicate through wired or wireless communication using various methods.

The controller of the air conditioner 100 may register the exhaust fan motion detection sensors 300 - 1 and 300 - 2 to the controller 140 according to the operation of the application. In this way, when the exhaust fan motion detection sensors 300-1 and 300-2 are registered in the controller of the air conditioner 100 and the exhaust fans 210 and 220 are operated, information about the operation of the exhaust fans 210 and 220 is transmitted to the communication units 150, 320-1, and 320. -2) may be transmitted to the control unit 140 of the air conditioner 100 by wireless communication between them.

On the other hand, the air discharged through the outlet portion 121b of the first air flow path 121 flows to the distributor 20, and in the distributor 20, the air is supplied to each indoor space such as a room, a living room, a kitchen, and a toilet. A plurality of dampers may be provided for distributing and supplying the air, and for opening and closing an air passage connected to each indoor space for distribution of the air.

In the above description, the case in which the air supplied from the air conditioner 1 is distributed to each indoor space by the distributor 20 has been described. However, the air supplied from the air conditioner 1 does not go through the distributor 20. An air supply duct (not shown) may be provided so that only air supply is needed, such as a toilet or a dressing room.

In addition, although it is shown that air supplied from the distributor 20 is supplied to the space between the toilet and the adjacent indoor space (living room, room) in FIG. It can also be configured to be supplied directly to the In the case of directly supplying air to the interior space of the toilet as described above, even when the toilet door is closed when the toilet is used, the exhaust from the interior of the toilet can be smoothly performed.

A method of controlling an air conditioner according to the present invention will be described with reference to FIG. 3 .

In step S101 , it is determined whether exhaust fan operation information regarding the operation of the exhaust fans 210 and 220 is received by the controller 140 .

First, when the exhaust fans 210 and 220 and the air conditioner 100 are not connected by communication, the user inputs exhaust fan operation information by pressing a button of the input unit 170, and the input information is transmitted to the control unit 140. of the exhaust fan operation information receiving unit 141 may be received.

In addition, when the exhaust fans 210 and 220 and the air conditioner 100 are not connected by communication, the exhaust fans 210 and 220 are operated first, and the exhaust fans 210 and 220 in the exhaust fan motion detection sensors 300-1 and 300-2 ), the detected exhaust fan operation information may be received by the exhaust fan operation information receiver 141 through the communication unit 150 .

In addition, when the exhaust fans 210 and 220 and the air conditioner 100 are connected by communication, the exhaust fans 210 and 220 are operated first, and operation information of the exhaust fans 210 and 220 is transmitted to the exhaust fan through the communication unit 150 . It may be received by the operation information receiving unit 141 .

On the other hand, when the exhaust fans 210 and 220 and the air conditioner 100 are connected by communication, the exhaust fan control signal transmitter 142 of the air conditioner 100 transmits a control signal for operating the exhaust fans 210 and 220 . Accordingly, the exhaust fans 210 and 220 may be operated, and the transmission of the control signal may be configured to be received by the exhaust fan operation information receiving unit 141 as exhaust fan operation information.

In this case, the exhaust fans 210 and 220 manually operate the first exhaust fan 210 or the second exhaust fan 220 when the user cooks or uses the toilet, or the kitchen residence sensor 410 and the seating sensor ( 420), the first exhaust fan 210 or the second exhaust fan 220 by the detection signal of at least one of the odor sensor 440 and the toilet humidity sensor 450 can

When the kitchen residence sensor 410 is an infrared sensor, it is possible to detect the user's body heat from the entrance side of the kitchen to determine the user's entrance to the kitchen, and the controller 140 controls the first exhaust fan ( 210) may transmit a control signal to automatically operate. In addition, when the seating sensor 420 detects that the user is seated on the toilet, the controller 140 may transmit a control signal to automatically operate the second exhaust fan 220 according to the detection signal. In addition, in the case of a toilet, when the toilet entrance detection sensor 430 detects that the user is entering the toilet or the smell sensor 440 detects that the user is defecating, the detected signal is transmitted to the control unit. When received at 140, a control signal may be transmitted so that the second exhaust fan 220 automatically operates.

In addition, since the humidity inside the toilet is high after the user takes a shower, it is necessary to discharge the moisture to the outside. Therefore, when the humidity higher than the humidity set by the toilet humidity sensor 450 is detected, the controller 140 may transmit a control signal to automatically operate the second exhaust fan 220 according to the detection signal.

if When the first exhaust fan 210 or the second exhaust fan 220 is manually operated, the first exhaust fan 210 or the second exhaust fan in the first and second exhaust fan motion detection sensors 300-1 and 300-2 It may be configured to detect the operation of the fan 220 and transmit the detected signal to the controller 140 through the communication units 320-1, 320-2, and 150.

When the exhaust fan motion detection sensor 300-1,300-2 consists of a vibration sensor or an exhaust fan rotation detection sensor, when more than a set vibration value is detected, or when more than a set rotation speed is detected, the user cooks in the kitchen or in the bathroom Since it can be determined that the user is defecating, the operation of the exhaust fans 210 and 220 can be detected based on this.

In this case, when the operating intensity of the exhaust fans 210 and 220 can be adjusted in multiple stages, the intensity of the vibration sensed by the vibration sensor increases or decreases according to the number of stages in which the exhaust fans 210 and 220 are operated. In addition, the number of rotations detected by the exhaust fan rotation detection sensor is increased or decreased in response to the number of stages in which the exhaust fans 210 and 220 are operated. The control unit 140 of the air conditioner 100 is supplied by the air supply blower 110a of the air conditioner 100 in response to the operation stage of the exhaust fans 210 and 220 detected by the vibration sensor and the exhaust fan rotation detection sensor. By controlling the amount of air supply, it is possible to control the intensity of operation.

When the first exhaust fan operation detection sensor 300-1 installed in the kitchen is configured as a range operation detection sensor, the first exhaust fan ( 210) is to indirectly sense that it is operating.

When the range motion detection sensor is a heat sensor or an infrared sensor, when a certain temperature is detected, gas use is detected by the gas detection sensor, or gas flow is detected by the gas flow sensor, the user cooks using the range Since it can be determined that there is, the operation of the first exhaust fan 210 can be detected based on this.

On the other hand, the exhaust fan motion detection sensor 300-1,300-2 is not provided, and the exhaust fan 210,220 itself has a communication function so that the operation signal of the exhaust fan 210,220 is transmitted to the communication unit of the air conditioner 100 ( In the case of transmitting to the control unit 140 through 150), the air conditioner 100 may receive a signal directly from the exhaust fans 210 and 220 and operate in the air supply mode.

If it is determined from the exhaust fan operation information that the first exhaust fan 210 or the second exhaust fan 220 is operating, the process proceeds to step S102; otherwise, step S101 is maintained.

In step S102, the air conditioner 100 is operated in the air supply mode.

When it is determined that the first exhaust fan 210 is operating, it is determined that the user is cooking in the kitchen, and when it is determined that the second exhaust fan 220 is operating, it is determined that the user is defecating in the bathroom, and the air conditioner By operating (100) in the air supply mode, outdoor air is supplied to the kitchen or toilet, and to the indoor space adjacent to the kitchen or toilet. In the air supply mode, only the supply air blower 110a operates, and the exhaust blower 110b does not operate and is in a stopped state.

Contaminated air, including gas, odor, and water vapor generated when cooking in the kitchen, is discharged to the outside by the first exhaust fan 210, and contains gas, odor, and water vapor generated during a shower. The polluted air is discharged to the outside by the second exhaust fan 220, but some polluted air that is not discharged to the outside may be diffused from the kitchen or toilet to other adjacent indoor spaces.

In particular, when only the exhaust fans 210 and 220 are operated, even if the capacity of the exhaust fans 210 and 220 is large, all of the polluted air cannot be exhausted to the outdoors, and it may remain in the kitchen or toilet space for a long time or spread to other adjacent indoor spaces. .

Therefore, when the first exhaust fan 210 or the second exhaust fan 220 is operated and the air conditioner 100 is operated in the supply air mode, the supply air blower 110a is operated and the outdoor air is converted to the second air. Air is supplied into the room through the inlet portion 122a of the flow passage 122 , the first air passage 121 , and the outlet portion 121b of the first air passage 121 .

In this case, if the amount of air supplied by the air conditioner 100 is sufficient, a positive pressure is formed in the indoor space in which the air is supplied, and the supplied air is supplied by the first exhaust fan 210 or the second exhaust fan 220 . Since the negative pressure flows toward the kitchen or toilet formed by the operation, the amount of polluted air exhausted by the exhaust fans 210 and 220 increases, so that the polluted air is quickly and smoothly exhausted, thereby improving exhaust efficiency.

When the exhaust efficiency is improved in this way, the same performance can be exhibited even when the exhaust fans 210 and 220 having a small capacity are used. Therefore, when the exhaust fans 210 and 220 having a small capacity are used, the space and cost required for the installation of the exhaust fans 210 and 220 can be reduced, and the electricity cost required for the operation of the exhaust fans 210 and 220 can be reduced.

In particular, in the case of the kitchen, the size of the kitchen hood provided with the first exhaust fan 210 can be reduced, so that more space required for installation of kitchen furniture including a sink can be secured, thereby creating a comfortable kitchen environment.

In addition, when the exhaust fans 210 and 220 having a small capacity are used, noise and vibration generated during the operation of the exhaust fans 210 and 220 can be reduced, thereby providing a comfortable indoor environment.

In addition, it is possible to prevent the contaminated air remaining in the kitchen or toilet without being exhausted by the supplied air from being diffused to other spaces in the room adjacent to the kitchen or toilet.

As described above, when air is supplied to the kitchen or bathroom in conjunction with the exhaust fans 210 and 220, it is preferable to control the amount of air supplied to be sufficient. If the supply amount is sufficient, the polluted air can be more rapidly exhausted by the exhaust fans 210 and 220 , and the amount of polluted air remaining without being exhausted can be minimized.

As an example of a control method that can sufficiently implement the amount of air supplied as described above, the air conditioner 100 is operated in proportion to the operating intensity of the exhaust fans 210 and 220, or the amount of air supplied to the room is lower than the amount of air exhausted to the outside. more control can be configured as

First, a method of operating the air conditioner 100 in proportion to the operating intensity of the exhaust fans 210 and 220 will be described. When the operating intensity of the first and second exhaust fans 210 and 220 is adjusted in multiple stages, the amount of air supplied into the room may be controlled to increase or decrease in proportion to the operating intensity of the first and second exhaust fans 210 and 220 .

Therefore, when the intensity or the number of rotations of the sensed vibration is large, since the amount of air exhausted through the exhaust fans 210 and 220 is large, the amount of air supplied from the air conditioner 100 is increased so that the exhaust through the exhaust fans 210 and 220 is faster. and make it run smoothly. In addition, when the intensity or the number of rotations of the sensed vibration is small, unnecessary operation of the air conditioner 100 may be prevented by adjusting the amount of air supplied from the air conditioner 100 in response thereto.

If the exhaust fans 210 and 220 themselves have a communication function to directly transmit the operation signals of the exhaust fans 210 and 220 to the control unit 140 through the communication unit 150 of the air conditioner 100, the exhaust fans 210 and 220 ), it is also possible to adjust the amount of air supplied according to the signal for the current value according to the number of stages of operation.

Next, a method of controlling the amount of air supplied to the room to be greater than the amount of air exhausted to the outside will be described.

Signals for the operating intensity of the first and second exhaust fans 210 and 220 are received by the controller 140, and the controller 140 performs the outdoor operation by the operation of the received first and second exhaust fans 210 and 220. It is possible to control the rotational speed of the supply air blower (110b) so that a larger amount of air than the exhaust amount discharged to the air supply.

When the air supply amount is greater than the exhaust amount as described above, the contaminated air in the kitchen or toilet can be exhausted more quickly through the exhaust fans 210 and 220, so that the exhaust efficiency is improved, and the diffusion of the contaminated air into the room is more effectively can be prevented

On the other hand, when there are a plurality of indoor spaces in the room, such as a room, a bathroom, a kitchen, and a living room, and an operation signal of the first exhaust fan 210 or the second exhaust fan 220 is detected, the operation signal is detected. It is preferable to control so that outdoor air is supplied only to the indoor space where the fan is located, and the supply of outdoor air is blocked in the remaining indoor spaces.

That is, when the operation of the first exhaust fan 210 is sensed, air is supplied only to the kitchen, and when the operation of the second exhaust fan 220 is detected, air is supplied only to the bathroom. In this case, the distributor 20 is provided with a plurality of dampers that open and close the air passages connected to the room, kitchen, living room, and toilet, so that air flows only to the kitchen or bathroom in which the operation of the exhaust fan is sensed among the plurality of dampers. The corresponding damper is opened, and the supply air blower 110a is operated in a state in which the damper connected to the remaining indoor space is closed.

When air is supplied in this way, a sufficient amount of air can be intensively supplied to the kitchen or bathroom where the exhaust fans 210 and 220 operate, so that the exhaust can be quickly exhausted and exhaust efficiency can be improved.

On the other hand, if the air conditioner 1 is already operating in the ventilation mode when the exhaust fans 210 and 220 start to operate, stop the operation of the ventilation mode and supply air to supply air to the kitchen or bathroom, which is an indoor space requiring air supply. It can be configured by switching to mode. By performing the control in this way, it is possible to secure a sufficient amount of air supply, thereby improving the exhaust efficiency.

In addition, if the second exhaust fan 220 is operated while the first exhaust fan 210 is operating to supply air to the kitchen, which is the first indoor space, air is supplied to the bathroom, which is the second indoor space, while maintaining the supply to the kitchen. It can also be configured to do Conversely, if the first exhaust fan 210 is operated while supplying air to the bathroom, it may be configured to supply air to the kitchen while maintaining air supply to the bathroom.

On the other hand, in the case of the kitchen, air may be supplied through an air supply duct installed on the ceiling, and the air supply duct is connected to the kitchen floor near the kitchen hood, and air is supplied in an upward direction through the outlet provided on the floor. You may. In this case, if the kitchen hood is located above the discharge port, the exhaust can be performed more quickly due to the upwardly discharged supply air. Also, in the case of the bathroom, air may be supplied through the ceiling or may be supplied through the floor. In addition, when the air is supplied through the ceiling of the kitchen or toilet, it is possible to more effectively prevent the contaminated air from spreading to other indoor spaces by supplying air toward the floor of the kitchen or toilet.

Even in this case, air supply is made only through the air passage from the distributor 20 to the floor of the kitchen, and when the damper of the distributor 20 is controlled to block the air supply to the rest of the indoor space, rapid air supply is made and cooking in the kitchen. The generated polluted air is quickly exhausted through the first exhaust fan 210 .

In addition, when polluted air is generated in the kitchen or toilet, when the indoor air is circulated through the air conditioner 100, the exhaust efficiency through the exhaust fans 210 and 220 is reduced, and the polluted air is transferred to the kitchen and toilet. Since it can spread to other indoor spaces, including the air conditioner, it is preferable to control so that circulation of the indoor air by the air conditioner 100 does not occur while the air conditioner is operating in the air supply mode.

For example, it can be set so that the operation mode is not changed to another mode, including the ventilation mode or the air cleaning mode, during operation in the air supply mode. That is, when the control unit 140 detects the operation of the exhaust fans 210 and 220 and the air supply mode is activated, the operation of the exhaust fans 210 and 220 is performed even if the user inputs a change signal of the operation mode to the ventilation mode or the air cleaning mode through the controller. It can be set so that the air supply mode is continuously maintained until this ends. As described above, when the air supply mode is maintained until the operation of the exhaust fans 210 and 220 is terminated, exhaust efficiency by the exhaust fans 210 and 220 can be increased and the spread of contaminated air can be prevented.

In addition, between the kitchen and the indoor space adjacent to the kitchen, and between the toilet and the indoor space adjacent to the toilet, the air introduced into the room by the air conditioner 100 forms an air curtain so that a vertical flow is formed. can do it

That is, when the outlet 11 through which the outdoor air is discharged is formed on the ceiling located between the kitchen and the living room, the outdoor air discharged from the outlet 11 flows vertically between the kitchen and the living room, so that the gas or smell of the kitchen is formed. can be prevented from spreading into the living room. In addition, the air polluted by the air discharged from the discharge port 11 can be discharged more quickly through the first exhaust fan 210 , thereby improving exhaust efficiency. In addition, by forming an air curtain by the outlet 12 in the same manner between the toilet and the indoor space (living room or room) adjacent to the toilet, it is possible to prevent the gas and odor generated in the toilet from spreading to the indoor space.

In particular, the dressing room is mainly used by women, and if the dressing room is adjacent to the bathroom, the polluted air in the bathroom may cause discomfort. Therefore, when using the bathroom, when air is supplied to the dressing room through the outlet 13 provided on the ceiling between the dressing room and the bathroom, the contaminated air in the bathroom is quickly exhausted by the second exhaust fan 220, and the contaminated air is removed from the dressing room. can be prevented from entering.

In addition, when the user uses the toilet with the toilet door closed, even if air is supplied to the indoor space outside the toilet, the supplied air does not flow into the toilet interior space. Therefore, in this case, by configuring so that air is supplied directly to the bathroom interior space through the air supply duct connected to the bathroom ceiling, even when the toilet door is closed, exhaust can be smoothly performed when the second exhaust fan 220 is operated. Of course, depending on the case where the toilet door is closed or opened, either one of the air supply to the inside of the toilet and the air to the indoor space outside the toilet can be selected or configured to be performed at the same time.

In addition, when the air supply duct is provided so that the air supplied from the air conditioner 1 can be directly supplied to a place requiring only supply, such as a toilet or a dressing room, without going through the distributor 20, the ventilation mode or other It is also possible to maintain the operating state in the operation mode and independently supply air to the bathroom or dressing room that requires air supply.

Also, the air introduced into the room may be dry air in which at least a portion of moisture contained in the outdoor air is removed by the dehumidifying unit 130 .

When the outdoor air flowing into the room is humid, the humid air and the smell generated in the kitchen or bathroom may be mixed to cause an even more unpleasant odor. Accordingly, the outdoor air humidity receiving unit 143 receives the humidity of the outdoor air from the outdoor humidity sensor 160, and when the received outdoor air humidity exceeds a preset humidity (or humidity range), the dehumidifying unit 130 receives the indoor air humidity. It removes moisture from the air supplied to the air conditioner and supplies dry air into the room. When the control is performed in this way, the contaminated air in the kitchen or toilet is exhausted, and the dry air from which the moisture has been removed is supplied to the room to form an indoor space in a comfortable state.

In this case, when the dehumidifying unit 130 includes the dehumidifying rotor 130-1, the operation of the air supply mode may be stopped and the dehumidification unit 130 may be configured to operate in the ventilation mode. That is, in order to perform dehumidification using the dehumidifying rotor 130-1, air must be supplied to the second region 132 of the dehumidifying rotor 130-1. action must be made.

Stop the operation of the air supply mode, and operate in the ventilation mode while the dehumidification rotor 130-1 and the heating unit 127 are operated. Accordingly, the outdoor air is dehumidified in the first area 131 of the dehumidifying rotor 130-1, and then flows into the room through the inlet 121b of the first air flow path 121, and the first area 131. The moisture adsorbed in the is located in the second region 132 provided on the second air flow path 122 by rotation, and the moisture absorbed by the air heated by the heating unit 127 is released and discharged to the outside. do. In this case, if the operating strength of the supply air blower 110a is higher than the operating strength of the exhaust blower 110b, the amount of air flowing into the room is greater than the amount of air discharged to the outside, so that the same effect as the air supply mode can be exhibited.

Of course, even when the dehumidifying rotor 130-1 is used, the dehumidifying rotor 130-1 is rotated, and some of the outdoor air introduced through the inlet 122a of the second air flow path 122 is part of the first air. When it flows into the flow path 121 and the remaining part passes through the second area 132, which is the regeneration area of the dehumidification rotor 130-1, through the second air flow path 122, the air supply mode does not change to the ventilation mode. The dehumidified dry air can be supplied to the kitchen or bathroom while maintaining

On the other hand, during the operation of the ventilation mode, the rotation speed of the air supply blower 110a for supplying outdoor air to the room decreases and the rotation speed of the exhaust blower 110b for exhausting the indoor air to the outside increases, the blower rotation speed detection unit (not shown), it can be determined that sound pressure is acting in the room. In this case, it is possible to prevent negative pressure from acting in the room by stopping the operation of the exhaust blower 110b for a set time and operating only the supply blower 110a. When only the supply air blower 110a is operated to detect that the rotation speed of the supply air blower 110a and the exhaust blower 110b is increased or decreased again to the original rotation speed, it may be operated again in the ventilation mode.

In addition, in winter, when the heating unit 124 is operated in the air supply mode to heat the air supplied to the room, it is possible to maintain a warm indoor environment by preventing a decrease in the indoor temperature due to the indoor air supply of cold air. To this end, an outdoor temperature sensor for detecting the outdoor temperature may be further provided, and when the temperature sensed by the outdoor temperature sensor is below a set temperature, the heating unit 124 may be operated in the air supply mode. In particular, when cold outdoor air is supplied to the toilet as it is in winter, it is preferable to supply air heated from the heating unit 124 in order to prevent this. The heating of the supply air may be performed by using the heating unit 124 provided inside the air conditioner 100, or by providing a heater in the air supply duct provided outside the air conditioner 100 to heat the supply air. You may.

In step S103, it is determined whether exhaust fan operation information for stopping the operation of the exhaust fans 210 and 220 is received. That is, it is determined whether the operation of the first exhaust fan 210 or the second exhaust fan 220 is stopped. As a result of the determination, if it is determined that the operation of the first exhaust fan 210 or the second exhaust fan 220 is stopped, the process proceeds to step S104, otherwise step S103 is maintained.

When the exhaust fan operation information is input by pressing the button of the input unit 170 because the exhaust fans 210 and 220 and the air conditioner 100 are not connected by communication, press the air supply mode end button of the input unit 170 Accordingly, the controller 140 may determine that the operation of the exhaust fans 210 and 220 is stopped.

In addition, when the exhaust fan motion detection sensor 300-1,300-2 is provided, the exhaust fan motion detection sensor 300-1,300-2 detects that the operation of the exhaust fans 210 and 220 is stopped, and exhausts the information. The fan operation information receiving unit 141 may receive it.

In addition, when the exhaust fans 210 and 220 and the air conditioner 100 are connected by communication, the exhaust fan operation information receiver 141 may receive information that the operation is stopped from the exhaust fans 210 and 220 .

If the second exhaust fan 220 is configured to automatically operate, exhaust and supply air may be terminated after exhaust and supply air continues for a certain period of time even after the user leaves the toilet. The predetermined time may be configured as a preset time, and when the smell detected by the smell sensor 440 is below a certain level or the humidity detected by the toilet humidity sensor 450 is below a certain level, exhaust and supply air It can also be configured to be terminated. In this case, whether the user has left the toilet may be detected from the sitting sensor 420 or the toilet access sensor 430 .

In step S104, the operation of the air supply blower 110a is stopped so that the operation of the air supply mode is terminated.

In this case, the operation of the air supply mode in step S104 may be terminated after a preset time elapses from when it is determined that the operation of the first exhaust fan 210 or the second exhaust fan 220 is stopped in step S103. have.

When this control is performed, even after the operation of the first exhaust fan 210 or the second exhaust fan 220 is stopped, gas or odor may remain in the kitchen or toilet without being discharged to the outdoors, so that the set time By maintaining the air supply mode until elapsed, it is possible to prevent gas or odor from spreading into the indoor space adjacent to the kitchen or toilet. Even after the operation of the air supply mode is terminated, the step of step S105 may be further performed.

In step S105, the air conditioner 100 is operated in the ventilation mode or the air cleaning mode. Even if the operation of the supply air mode is terminated, some gas or odor may be diffused from the kitchen or toilet to other indoor spaces.

Therefore, by operating the ventilation mode to discharge the remaining gas or odor to the outdoors, or by operating the air cleaning mode to filter the gas or odor through the filter 123, it is possible to make indoor air in a comfortable state.

When operated in the ventilation mode, the supply air blower 110a and the exhaust blower 110b operate, and the indoor air introduced through the inlet portion 121a of the first air passage 121 is discharged from the outlet portion of the second air passage 122 . The outdoor air discharged to the outdoors through the 122b and introduced through the inlet portion 122a of the second air passage 122 is supplied into the room through the outlet portion 121a of the first air passage 121 . Therefore, if the ventilation mode is activated, the polluted air remaining in the kitchen or toilet can be discharged to the outside.

When operated in the air cleaning mode, indoor air flows in through the inlet 121a of the first air flow path 121 and passes through the filter 123 to filter out contaminants contained in the polluted air, and then to the first air flow path ( 121) is discharged back into the room through the outlet portion 121b. In this case, various types of filters may be used as the filter 123 , and a plurality of filters may be provided to remove gas or odor contained in contaminated air.

When the control as described above is performed, it is possible to more quickly and smoothly exhaust the polluted air generated in the room such as the kitchen or toilet, thereby improving the exhaust efficiency, and the polluted air It is possible to prevent the spread to other indoor spaces, so that the indoor environment can be maintained in a comfortable state. In addition, if the second exhaust fan 220 is operated while the toilet door is closed when using the toilet, a large noise is generated. As in the present invention, when the air supply mode is operated, even if the toilet door is opened when the toilet is used, polluted air diffuses out of the toilet. Therefore, when the toilet door is opened when using the toilet, the operation noise of the second exhaust fan 220 can be felt less.

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.

100: air conditioner 110a: supply air blower
110b: exhaust blower 121: first air flow path
121a: inlet 121b: outlet
122: second air flow path 122a: inlet part
122b: outlet 123,125: filter
124: cooling unit 126: flow path switching unit
127: heating unit 130: dehumidifying unit
130-1: dehumidification rotor 131: first area
132: second area 140: control unit
141: exhaust fan operation information receiver 142: exhaust fan control signal transmitter
143: outdoor air humidity receiver 144: air supply drive unit
145: exhaust drive part 146: dehumidification drive part
150: communication unit 160: outdoor humidity sensor
161: indoor humidity sensor 162: outdoor temperature sensor
163: indoor temperature sensor 210: first exhaust fan
220: second exhaust fan
300-1,300-2: exhaust fan motion detection sensor 310-1,310-2: motion detection unit
320-1,320-2: Communication Department

Claims (18)

a) receiving exhaust fan operation information related to the operation of an exhaust fan installed in the room to the controller;
b) when the exhaust fan operation information is received by the controller, operating in an air supply mode for supplying more outdoor air to the room than the exhaust amount according to the operation of the exhaust fan;
including,
controlling to supply the outdoor air only to an indoor space in which the operation information of the exhaust fan is received among a plurality of indoor spaces in the room, and to block the supply of the outdoor air to the remaining indoor spaces;
Among the plurality of dampers opened and closed to supply the outdoor air to the plurality of indoor spaces, a damper corresponding to the indoor space in which the operation information of the exhaust fan is received is opened, and the dampers connected to the remaining indoor spaces are closed;
Before step a), if the control mode other than the air supply mode is being operated, the control method of the air conditioner in which the air supply mode of step b) is operated after stopping the operation of the other control mode According to claim 1,
The exhaust fan operation information is
received from the exhaust fan;
received from an input for operating the air conditioner;
The control method of the air conditioner, characterized in that received from a sensor capable of determining the operation of the exhaust fan According to claim 1,
the exhaust fan operation information includes information on an operation intensity of the exhaust fan;
The control method of the air conditioner, characterized in that the control unit controls the amount of supply air introduced into the room to increase or decrease in proportion to the received operating intensity of the exhaust fan. According to claim 1,
When the operation of the exhaust fan is stopped, the control method of the air conditioner, characterized in that the operation of the air supply mode is terminated after a certain period of time has elapsed According to claim 1,
In step a), the exhaust fan operation information is
information that the user is staying in the kitchen in which the exhaust fan is installed or information that the user is using the toilet in which the exhaust fan is installed;
When the exhaust fan operation information is received, the control unit transmits a control signal to operate the exhaust fan. delete According to claim 1,
When the operation is started in the air supply mode of step b), the control method of the air conditioner, characterized in that the air supply mode is maintained even if an operation mode change signal for changing the operation mode is received by the control unit 8. The method of claim 7,
The control method of the air conditioner, characterized in that the air supply mode is maintained until the operation end signal of the exhaust fan is received by the control unit 8. The method of claim 7,
Control method of an air conditioner, characterized in that the air supply mode is maintained until a set time elapses after the air supply mode starts According to claim 1,
When the operation of the exhaust fan is stopped, the operation of the air supply mode is terminated;
Control method of an air conditioner, characterized in that it is operated in either a ventilation mode in which indoor air and outdoor air are exchanged or an air cleaning mode in which indoor air is filtered and discharged back into the room According to claim 1,
During the operation of the ventilation mode in which indoor air and outdoor air are ventilated, if the rotation speed of the air supply blower for supplying outdoor air to the room decreases and the rotation speed of the exhaust blower for exhausting the indoor air to the outside increases, the set time During the control method of the air conditioner, characterized in that the operation of the exhaust blower is stopped and only the supply air blower is operated. delete According to claim 1,
After step b), if the room is a toilet, when a certain time elapses from the time when it is determined that the user has left the toilet, the smell detected by the smell sensor becomes the set value, or the humidity detected by the humidity sensor becomes the set value After maintaining the operation of the exhaust fan and indoor air supply until Control method of an air conditioner, characterized in that According to claim 1,
When the air supply mode of step b) is activated, if air is already supplied to a second indoor space other than the first indoor space requiring air supply, the first indoor space is maintained while supplying air is maintained. Control method of an air conditioner, characterized in that air is supplied to an indoor space an exhaust fan operation information receiver configured to receive exhaust fan operation information including information on an operation intensity of the exhaust fan as information on an operation of an exhaust fan installed indoors;
an air supply blower for supplying outdoor air into the room;
when the exhaust fan operation information is received by the exhaust fan operation information receiving unit, an air supply driving unit for driving the air supply blower to supply more outdoor air than the exhaust amount according to the operation of the exhaust fan to the indoor;
The air supply blower and the air supply driving unit control, and supplying the outdoor air only to the indoor space in which the operation information of the exhaust fan is received among the plurality of indoor spaces in the room, and controlling the outdoor air to be supplied to the remaining indoor spaces in an air supply mode in which the air supply is blocked, Among a plurality of dampers opened and closed to supply the outdoor air to a plurality of indoor spaces, a damper corresponding to an indoor space in which the operation information of the exhaust fan is received is opened, and a damper connected to the remaining indoor space is closed, and the damper is closed. a control unit for controlling the air supply mode to be operated after stopping the operation of the other control mode when operating in a control mode other than the air supply mode before the operation of the air supply mode;
air conditioner comprising 16. The method of claim 15,
The air conditioner further comprising an input unit for generating exhaust fan operation information indicating that the exhaust fan is operating 16. The method of claim 15,
When information indicating that the user is staying in the kitchen in which the exhaust fan is installed or information indicating that the user is using the toilet in which the exhaust fan is installed is received, an exhaust fan control signal transmitting unit that transmits a control signal for operating the exhaust fan Air conditioner, characterized in that provided 16. The method of claim 15,
When the exhaust fan operation information is information for operating the exhaust fan, the supply driving unit operates the supply air blower, and when the exhaust fan operation information is information for stopping the operation of the exhaust fan, the supply driving unit operates the supply air blower Air conditioner, characterized in that it stops the operation of

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