KR20180123747A - Control method of air conditioner - Google Patents

Abstract

An objective of the present invention is to provide a control method of an air conditioner capable of comfortably maintaining an indoor environment by automatically operating an air conditioner by detecting a kitchen environment. According to the present invention, the control method of an air conditioner for purifying indoor air comprises the steps of: a) determining a difference between the temperature of each room measured by each temperature sensor and the kitchen temperature measured by a kitchen temperature sensor by a control unit of the air conditioner; b) setting an operating time of the air conditioner to be proportional to the difference of the temperature as a result of determination in step a); and c) operating the air conditioner in either a ventilation mode or an air cleaning mode according to the operating time set in the step b).

Description

[0001] The present invention relates to a control method of an air conditioner,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a control method for an air conditioner, and more particularly, to a control method for an air conditioner capable of automatically detecting an environment of a kitchen and operating the air conditioner.

The air conditioner is a device that adjusts the room temperature and humidity according to the user's request, or keeps the room pleasant by ventilating or purifying the room air.

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

Korean Patent Registration No. 10-1664791 filed by the present applicant as a conventional air conditioner is disclosed.

The conventional air conditioner uses a dehumidification rotor to discharge the room air introduced through the first air passage in the ventilation mode to the outside through the second area of the second air passage and the dehumidification rotor, And the air is introduced into the room through the first air flow path and the first area, thereby enabling ventilation and humidity control of the room.

Meanwhile, the kitchen hood, which is one of the kitchen appliances, is installed in the kitchen, and is used to prevent the air pollution in the kitchen by discharging the combustion gas, food odor, water vapor,

Such a kitchen hood is installed in an upper portion of a kitchen appliance including a gas range, an electric range, and the like, and sucks the gas generated in the cooking appliance and the gas generated in cooking the food, and discharges it to the outside.

At this time, the kitchen hood is provided with an intake port on a wall corresponding to the upper surface of the cooking apparatus, and an exhaust fan is provided in the inside of the kitchen hood. The exhaust hood is connected to the exhaust fan and exhausted to the outside.

The user may start cooking while operating the kitchen hood while cooking. However, in some cases, cooking is performed without operating the kitchen hood. In this case, there is a problem that indoor air is contaminated.

As a conventional technique for solving such a problem, Korean Utility Model Registration No. 20-0309857 entitled " Device for automatically controlling ventilation between a kitchen cooking device and a hood " is disclosed. In the related art, when a kitchen cooking appliance is operated, a kitchen hood is remotely interlocked and operated.

However, there is a problem that the discharge of contaminants generated during cooking is not smooth by only operating the kitchen hood.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a control method of an air conditioner that can maintain an indoor environment comfortably by automatically operating an air conditioner by detecting a kitchen environment.

It is another object of the present invention to provide a control method of an air conditioner that can reduce unnecessary power consumption when the air conditioner is operated.

According to an aspect of the present invention, there is provided a control method of an air conditioner for purifying indoor air, comprising the steps of: a) Determining a difference in the measured kitchen temperature in the controller of the air conditioner; b) setting an operating time of the air conditioner to be proportional to the temperature difference as a result of the determination in step a); c) activating the air conditioner in either the ventilation mode or the air cleaning mode according to the operating time set in the step b).

The step b) may be performed if the kitchen residence detection signal of the user who has detected that the user is staying in the kitchen is received from the kitchen residence sensing unit in the step a).

In the step b), the operating time of the air conditioner may be set to be proportional to the kitchen residence time of the user.

The kitchen residence sensing signal may be received from the infrared sensor of the kitchen residence sensing unit as a signal indicating that the user is out of the kitchen and staying in the kitchen for the set time.

The kitchen residence sensing signal may be a movement sensing signal of the kitchen hood received from the hood operation sensing sensor of the kitchen residence sensing unit.

In the step a), the respective temperatures may be an average of room temperatures measured in a plurality of rooms.

The operation time of the air conditioner set in the step b) may be set as a time obtained by subtracting the cumulative operation time of the air conditioner from the operation time set to be proportional to the difference between the temperature and the kitchen temperature.

In the step a), the kitchen temperature signal received by the communication unit of the air conditioner from the communication unit of the kitchen temperature sensor may be received by the control unit of the air conditioner.

And a controller for controlling the air conditioner, wherein the controller is installed with an application, and the application of the kitchen temperature sensor can be performed through the application.

Wherein the kitchen residence detection signal is one of a movement detection signal of the kitchen hood received from the hood movement detection sensor of the kitchen stay detection unit or a kitchen stay detection signal of the user received from the infrared ray sensor of the kitchen stay detection unit; And the kitchen stay detection signal may be received from the communication unit of the kitchen stay detection unit through the communication unit of the air conditioner to the control unit of the air conditioner.

According to the present invention, the indoor environment can be maintained comfortably by sensing the kitchen environment and automatically operating the air conditioner, and the user convenience can be improved.

In addition, when the operation time of the air conditioner is set, the cumulative operation time is taken into consideration, so that power waste due to unnecessary operation of the air conditioner can be prevented.

1 is a view showing a control configuration of an air conditioner according to the present invention;
2 is a view showing a control method of the air conditioner according to the present invention;

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

The control arrangement of the air conditioner according to the present invention will be described with reference to Fig.

The air conditioner 100 of the present invention may be controlled in a ventilation mode or an air cleaning mode in order to purify indoor air.

The ventilation mode is to ventilate the room by discharging the indoor air to the outside and the outdoor air to the room. The air cleaning mode sucks indoor air, filters the air through the filter, and then discharges the indoor air again. In addition, the air conditioner 100 may further include humidification, dehumidification, cooling and heating functions.

The air conditioner 100 includes an input unit 110 for inputting a necessary signal by the user, an indoor sensing unit 120 for sensing the air condition of the room, a communication unit (not shown) of the sensors 200-1, 200-2, An air purifier 140 for operating the ventilation mode or the air purge mode to ventilate or purify the indoor air, a communication unit 130 for communicating with the communication unit 130, And a controller 150 for controlling the air purifier 140 based on the information.

The indoor sensing unit 120 may be a sensor for measuring room temperature, humidity, dust, and the like, and may be provided in the air conditioner 100.

The air conditioner (100) is provided with a passage through which indoor air flows and a passage through which outdoor air flows. The air purifier 140 may include a blower, a filter, and the like provided on the flow path to implement the ventilation mode and the air purge mode.

The input unit 110 may be provided in a controller for controlling the air conditioner 100, and the controller may include a display unit for displaying information to a user.

In the controller of the air conditioner 100, a home network function application provided in an app store or an Android market is downloaded and installed, and a shortcut icon for executing an application of a home network function can be installed on the desktop. When the shortcut icon provided on the desktop is touched in the standby state, the controller activates the application of the home network function.

A plurality of rooms are provided in the residential space in which the user lives, and each of the plurality of rooms is provided with respective temperature sensors 310, 320, and 330 for measuring the temperature inside thereof. Each of the room temperature sensors 310, 320 and 330 may be installed by purchasing a separate temperature sensor for each room or may be a temperature sensor provided in the indoor unit of each room. The outdoor temperature sensors 310, 320, and 330 may be configured separately from the air conditioner 100, such as the sensors 200-1, 200-2, and 300-3 described below.

The sensors 200-1, 200-2, and 200-3 are for detecting whether the user is in the kitchen or sensing the kitchen environment, and are installed in the kitchen. The sensors 200-1, 200-2, and 200-3 may be provided in the indoor unit of the air conditioner 100 or may be installed separately from the air conditioner 100 by the user.

The sensors 200-1, 200-2, and 200-3 include a kitchen temperature sensor 200-1 for measuring the temperature of the kitchen, a hood operation sensor 200-2 for detecting the operation of the kitchen hood, And an infrared ray sensor 200-3 for sensing that the user enters and exits.

When the user uses the gas / electric range to cook, heat is generated and the temperature of the kitchen is increased. When the temperature of the kitchen is measured by the kitchen temperature sensor 200-1 and the temperature of the kitchen rises above the set temperature, it can be determined that the user is cooking in the kitchen.

The hood motion detection sensor 200-2 may detect the fan rotation of the kitchen hood. If the hood movement detection sensor 200-2 detects that the fan of the kitchen hood is rotating, it can be determined that the user is staying while staying in the kitchen.

The infrared sensor 200-3 senses the heat of the human body and can detect whether the user is in or out of the kitchen by installing the infrared sensor 200-3 so as to detect the entrance or exit of the kitchen.

The hood motion detection sensor 200-2 and the infrared sensor 200-3 function as a kitchen stay sensing unit for sensing whether or not the user stays in the kitchen. The kitchen stay detector functions as a means for determining whether or not the user is cooking with the temperature information of the kitchen. In addition, the operating time of the air conditioner 100 can be appropriately adjusted by measuring the time of staying in the user's kitchen.

The kitchen temperature sensor 200-1 may include a temperature sensing unit 210-1 for sensing the kitchen temperature and a communication unit 220-1 for communicating with the controller 150 of the air conditioner 100 .

The hood motion detection sensor 200-2 includes an operation sensing unit 210-2 for sensing the operation of the kitchen hood and a communication unit 220-2 for communicating with the controller 150 of the air conditioner 100 .

The infrared sensor 200-3 may include a heat sensing unit 210-3 for sensing the heat of the user and a communication unit 220-3 for communicating with the controller 150 of the air conditioner 100. [

The communication units 220-1, 220-2, and 220-3 include a wireless communication module (not shown) for wireless communication with the communication unit 130 of the air conditioner 100. The communication units 220-1, 220-2, and 220-3 can control and manage the sensors 200-1, 200-2, and 200-3 in cooperation with an application installed in the controller of the air conditioner 100 through the wireless communication module have.

The user can operate an application installed in the controller of the air conditioner 100 to control or manage the sensors 200-1, 200-2, and 200-3. Two-way communication is performed between the communication unit 130 of the air conditioner 100 and the communication units 220-1, 220-2, and 220-3 of the sensors 200-1, 200-2, and 200-3 according to the operation of the application.

The communication unit 130 of the air conditioner 100 and the communication units 220-1, 220-2, and 220-3 of the sensors 200-1, 200-2, and 200-3 can communicate by wire or various types of wireless communication.

The controller of the air conditioner 100 may register the sensors 200-1, 200-2, and 200-3 in the controller 150 according to the operation of the application. When the user registers the sensors 200-1, 200-2, and 200-3 in the controller of the air conditioner 100, the user senses whether the kitchen temperature and the operation of the kitchen hood are in operation or not, The signal is transmitted to the control unit 150 of the air conditioner 100 by communication between the communication units 220-1, 220-2, 220-3, and 130. [

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

Step S101 is a step of registering the sensors 200-1, 200-2, and 200-3 in the controller of the air conditioner 100.

A kitchen temperature detection sensor 200-1 at a position for detecting the kitchen temperature, a hood operation detection sensor 200-2 at a position capable of detecting fan rotation of the kitchen hood, a position The infrared sensor 200-3 is installed.

Thereafter, an application installed in the controller of the air conditioner 100 is operated to perform a device search. When the device search is executed, communication is established between the communication unit 130 of the air conditioner 100 and the communication units 220-1, 220-2, and 220-3 of the sensors 200-1, 200-2, and 200-3, 2,200-3) is searched and an icon can be automatically generated on the display unit of the controller.

Step S102 is a step of detecting whether or not the user stays in the kitchen.

When the user enters the kitchen, the infrared sensor 200-3 senses the user's heat and can detect that the user is in the kitchen. In this case, since the user may not be cooking in the kitchen, in order to determine that the user is cooking in the kitchen, the infrared sensor 200-3 detects that the user is in the kitchen, It must be detected that the user is staying without the user.

In addition, if the user operates the kitchen hood in the kitchen, the hood operation detection sensor 200-2 can detect this. If the operation of the kitchen hood is detected by the hood operation detection sensor 200-2, it can be determined that the user is staying in the kitchen.

In this case, the infrared sensor 200-3 and the hood operation detection sensor 200-2 can determine whether or not the user is staying in the kitchen by using only one of them, You may.

The signals sensed by the hood motion detection sensor 200-2 and the infrared sensor 200-3 are received by the control unit 150 of the air conditioner 100 by communication between the communication units 220-2 and 220-3 and 130 .

Step S103 is a step of detecting the difference between the kitchen temperature and the cubic temperature.

In each of the room temperature sensors 310, 320, and 330, the room temperature is measured by a temperature sensor installed in each room, and the kitchen temperature sensor 200-1 measures the temperature of the kitchen. When you are not cooking in the kitchen, you can see that the temperature of the kitchen is generally similar to the temperature of each room. If you are cooking in the kitchen, you might think that the temperature of the kitchen is higher than the temperature of each room. However, in the case of cooling in the summer, it is possible to determine by adding a correction constant to the temperature of the indoor space in which the air conditioner operates, and in the case of heating in winter, a correction constant is added to the temperature of the indoor space in which the heater operates, can do.

The respective temperatures detected by the respective temperature sensors 310, 320 and 330 are received by the controller 150 of the air conditioner 100 and the temperature of the kitchen detected by the kitchen temperature sensor 200-1 is transmitted to the communication unit 220 -1,130 in the control unit 150 of the air conditioner 100 by communication.

Step S104 is a step of setting the operation time of the air conditioner.

The operating time of the air conditioner 100 can be determined by the following equation.

(1): Operating time of the air conditioner = (user's kitchen residence time × (kitchen temperature - average temperature in each square) × correction constant) - (cumulative operation time of air conditioner × correction constant)

In the above equation (1), the operating time of the air conditioner 100 is proportional to the kitchen residence time of the user staying in the kitchen. The longer the time that the user has stayed in the kitchen, the longer the cooking time is, and the operating time of the air conditioner 100 can be set to be longer accordingly.

The operation time of the air conditioner 100 is proportional to the difference between the kitchen temperature and each room temperature. In a case where there are a plurality of rooms, the room temperature can be an average temperature of each room. That is, a plurality of rooms may be heated or cooled, some of which may not be heated or cooled. Therefore, by applying the average temperature of a plurality of rooms, it is possible to more accurately determine whether or not the cooking is performed in the kitchen.

Also, the operating time of the air conditioner 100 may be set to a time obtained by subtracting the cumulative operating time of the air conditioner 100 from the operating time set to be proportional to the difference between the temperature and the kitchen temperature. If the cumulative operation time of the air conditioner 100 becomes long, it can be judged that the air condition of the kitchen is improved by the operation of the air conditioner 100. Therefore, by reducing the operating time of the air conditioner 100 by the time when the cumulative operation time of the air conditioner 100 is multiplied by the correction constant, it is possible to prevent power waste due to unnecessary operation of the air conditioner 100.

In Equation (1), each correction value can be given to each of the result values to be a unit of time. In addition, the correction constant may be given various values to reflect elements not considered in the above equation.

In the equation (1), the operation time of the air conditioner 100 is set in consideration of the kitchen residence time of the user, but the operation time of the air conditioner 100 is determined by excluding the kitchen residence time of the user You can set the time.

Equation (2): operating time of the air conditioner = ((kitchen temperature - average temperature in each square) x correction constant) - (cumulative operation time of air conditioner x correction constant)

Step S105 is a step of activating the air conditioner 100 in either the ventilation mode or the air cleaning mode according to the operating time set in step S104. When the air conditioner 100 is operated in the ventilation mode or the air cleaning mode, contaminated air in the kitchen due to cooking is purified or discharged to the outside of the room.

Step S106 is a step of determining whether or not the operation time set in step S104 has passed. If the set operation time has not elapsed, the operation of the air conditioner 100 is maintained, and if the set operation time has elapsed, the operation of the air conditioner 100 is terminated.

When the air conditioner 100 is operated by the above process, the indoor environment can be maintained comfortably by sensing the kitchen environment and automatically operating the air conditioner 100, and the user's convenience can be improved, It is possible to prevent power waste due to unnecessary operation of the tuner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And this also belongs to the present invention.

100: air conditioner 110: input unit
120: indoor sensing unit 130: communication unit
140: air purifier 150:
200-1: Kitchen temperature sensor 210-1: Temperature sensor
200-2: hood motion detection sensor 210-2: motion detection unit
200-3: Infrared sensor 210-3:
220-1, 220-2, and 220-3, a communication unit 310, 320, and 330,

Claims (10)

A control method of an air conditioner for purifying indoor air,
a) judging the difference between the respective temperatures measured by the respective temperature sensors and the kitchen temperature measured by the kitchen temperature sensor by the control unit of the air conditioner;
b) setting an operating time of the air conditioner to be proportional to the temperature difference as a result of the determination in step a);
c) activating the air conditioner in either the ventilation mode or the air cleaning mode according to the operation time set in the step b);
A control method of an air conditioner The method according to claim 1,
If the kitchen residence detection signal of the user who has detected that the user is staying in the kitchen in the step a) is received from the kitchen residence sensing unit Wherein the step b) is carried out. 3. The method of claim 2,
Wherein the operating time of the air conditioner is set to be proportional to the kitchen residence time of the user in the step b) 3. The method of claim 2,
Wherein the kitchen residence detection signal is received by the controller from the infrared sensor of the kitchen residence sensing unit as a signal indicating that the user is out of the kitchen and staying in the kitchen for a set period of time 3. The method of claim 2,
Wherein the kitchen stay detection signal is a movement detection signal of the kitchen hood received from the hood movement detection sensor of the kitchen stay detection unit The method according to claim 1,
The control method of an air conditioner according to claim 1, wherein in the step (a), each temperature is an average of room temperatures measured in a plurality of rooms The method according to claim 1,
Wherein the operation time of the air conditioner set in the step b) is set to a time obtained by subtracting the cumulative operation time of the air conditioner from the operation time set to be proportional to the difference between the temperatures of the respective rooms and the kitchen temperature Control method of air conditioner The method according to claim 1,
Wherein the control unit of the air conditioner receives the kitchen temperature signal received by the communication unit of the air conditioner from the communication unit of the kitchen temperature sensor in the step a) 9. The method of claim 8,
The control method of an air conditioner according to claim 1, further comprising a controller for controlling the air conditioner, wherein an application is installed in the controller, and the kitchen temperature sensor is registered through the application 3. The method of claim 2,
Wherein the kitchen residence detection signal is one of a movement detection signal of the kitchen hood received from the hood movement detection sensor of the kitchen stay detection unit or a kitchen stay detection signal of the user received from the infrared ray sensor of the kitchen stay detection unit;
The control unit of the air conditioner receives the kitchen stay detection signal from the communication unit of the kitchen stay detection unit through the communication unit of the air conditioner

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