KR20060030765A - Control method of an air-conditioner - Google Patents

Abstract

The present invention relates to a control method of the air conditioner, an object of the present invention is to learn the air conditioner use pattern that the user feels comfortable, the room temperature and humidity according to the learned use pattern without a separate operation in the sleep mode It is to provide a control method of the air conditioner that can adjust. In addition, to provide a control method of the air conditioner that can maintain a comfortable indoor environment while consuming minimal power.

To this end, the present invention learns the user driving pattern by setting the average value of the indoor temperature and the indoor humidity during the operation of the air conditioner as the desired learning temperature and the desired learning humidity, wherein the indoor temperature is a first reference preset to the learning desired temperature. When the temperature is higher than the value added or the indoor humidity is higher than the value added by the second reference humidity set in advance to the desired learning temperature, the operation of the air conditioner is started, and the indoor temperature is the first reference based on the learning desired temperature. When the temperature is lower than the subtracted value and the indoor humidity is lower than the value obtained by subtracting the second reference temperature from the desired learning temperature, the learning operation for stopping the operation of the air conditioner may be performed.

Description

Control method of an air conditioner

1 is a block diagram showing the components of an air conditioner according to an embodiment of the present invention.

2 is a flowchart illustrating a method of learning a user driving pattern of the air conditioner shown in FIG. 1.

3A and 3B are graphs illustrating a user driving pattern according to indoor temperature and indoor humidity shown in FIG. 2.

FIG. 4 is a flowchart illustrating a learning driving method in a sleep operation mode of the air conditioner illustrated in FIG. 1.

Explanation of symbols on the main parts of the drawings

10: micom

11 input unit

12: Indoor temperature sensor

13: indoor humidity sensor

14: user pattern calculation unit

15: memory

The present invention relates to a control method of the air conditioner, and more particularly, to a control method of the air conditioner to control the operation of the air conditioner by learning the usage pattern of the user.

In general, the air conditioner is installed for the purpose of heating or cooling the room or purifying the air with a heater, an air conditioner, an air purifier, etc., to create a more comfortable indoor environment. The air conditioner performs a cooling function of lowering the room temperature by supplying cold air to the room, or a heating function of raising the room temperature by supplying heat to the room.

The air conditioner adjusts the room temperature by operating the air conditioner so that the room temperature can be maintained according to the preset desired temperature by the user or by operating the air conditioner during the corresponding time when the user sets the operation time. Is suitable for using the air conditioner according to the user's preference during the day time, but when the user is sleeping, the user can not sleep and operate the air conditioner, it is necessary to provide a separate bed operation mode.

In the conventional bedtime operation mode, if the user reserves only the bedtime operation time, the cooling operation is performed by raising the set temperature at a predetermined time interval until the scheduled time ends. That is, when the sleep mode is started by the user when the time is reserved, the time progress is counted to determine whether a predetermined time has elapsed, and when the predetermined time has elapsed, the set temperature is set by a predetermined temperature (about 0.5 to 1 ° C.). After increasing, count the time.

Repeat the above process to reduce the difference between the room temperature and the set temperature, and if the set temperature is increased by twice the predetermined temperature, the operation is continued while maintaining the temperature until the end of the scheduled sleep operation time, When the time is up, stop the air conditioner.

However, the control method of the conventional air conditioner increases the set temperature by a predetermined temperature at predetermined time intervals regardless of the user's preference at bedtime, and operates until the end of the reserved time by the user. There was a problem that the difference between the best temperature to sleep and can not provide a comfortable sleep environment.

In addition, there is a problem in that the air conditioner continues to operate for a predetermined time based on the temperature set by the user to consume unnecessary power.

The present invention is to solve the above-described problems, the object of the present invention is to learn the air conditioner use pattern that the user feels comfortable, the room temperature and humidity according to the learned use pattern without a separate operation in the bedtime operation mode The present invention provides a control method of an adjustable air conditioner.

In addition, to provide a control method of the air conditioner that can maintain a comfortable indoor environment while consuming minimal power.

The present invention for achieving the above object is characterized by learning the user operating pattern set by the room temperature and the humidity in the air conditioner operation, characterized in that learning operation of the air conditioner according to the user operation pattern.

In addition, the user driving pattern is characterized in that for setting a predetermined value for a predetermined time, the average value of the room temperature as the learning desired temperature, the average value of the indoor humidity is set to the learning desired humidity.

The learning operation may include air conditioning when the indoor temperature is higher than the learning reference temperature plus a preset first reference temperature or when the indoor humidity is higher than the learning desire humidity plus a second preset humidity. It is characterized by starting the driving of the machine.

In addition, the learning operation, characterized in that for driving so that the indoor temperature and the indoor humidity reaches the learning desired temperature and learning desired humidity.

The learning operation may include driving the air conditioner when the indoor temperature is lower than a value obtained by subtracting the first reference temperature from the desired learning temperature and the indoor humidity is lower than a value obtained by subtracting the second reference humidity from the learning desired humidity. Characterized in that to stop.

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

As shown in FIG. 1, an air conditioner according to an embodiment of the present invention includes an input unit 11 for receiving an operating condition of an air conditioner from a user, an indoor temperature sensor 12 that detects an indoor temperature, and an indoor unit. Humidity sensor 13 for detecting the humidity, the user pattern calculation unit 14 for learning the user driving pattern according to the room temperature and room humidity during operation of the air conditioner, and the result calculated by the user pattern calculation unit 14 The memory 15 storing the memory, the microcomputer 10 for controlling the entire air conditioner system, the load driver 16 for driving various loads according to the control signal of the microcomputer 10, and the operation of the air conditioner. A display unit 17 for displaying various information such as status is included.

The user pattern calculation unit 14 pays attention to the fact that the indoor environment conditions such as the preferred room temperature and the indoor humidity are different for each user of the air conditioner, and learns the user's air conditioner operation pattern in a predetermined manner and stores the result in the memory 15. If the user can not change the operating conditions, such as the sleep mode, the air conditioner can be operated by the user operation pattern stored in the memory 15.

In the method of learning the user driving pattern in the user pattern calculation unit 14, as shown in FIG. 2, the learning is mainly performed during the day time when the user can adjust the driving state of the air conditioner to his or her preference. Inputs the operation mode by operating the input unit 11 and starts the operation of the air conditioner according to the corresponding operation mode. (S100) When the operation of the air conditioner starts through the room temperature sensor 12 at a predetermined cycle. Detects the indoor temperature and detects the current indoor humidity through the indoor humidity sensor 13 and stores it in the microcomputer 10 (S110, S120).

Then, the average and standard deviation of the detected indoor temperature and indoor humidity are obtained, respectively, to obtain a normal distribution graph as shown in FIGS. 3A and 3B. (S130) This means that the user feels the most comfortable indoor temperature and indoor humidity. The air conditioner is operated to be maintained because the normal distribution of the change in the room temperature and room humidity after the operation of the air conditioner is started allows the user to find the room temperature and the room humidity that are most preferred. In the case of FIG. 3A, after the operation of the air conditioner is started, the room temperature is an average (A) of 22 ° C., and the room temperature corresponding to 68% of the total room temperature measurement is distributed between 20 to 24 ° C., and 20 to 24 When the room temperature is maintained between the ℃ can be determined that the user feels comfortable. Similarly, in the case of FIG. 3B, after the operation of the air conditioner starts, the indoor humidity is 60% of the average (B), and the indoor humidity corresponding to 68% of the total indoor humidity measurement values is distributed between 50 and 70%. When indoor humidity is maintained at ˜70%, the user can determine that he feels comfortable.

In this way, the normal distribution of the room temperature and the indoor humidity calculated by the user pattern calculation unit 14 is stored in the memory 15 to learn the user driving pattern. (S140) The user driving pattern stored in the memory 15 is In the case of the sleep mode, the user can operate the air conditioner with the memorized user's driving pattern even if the user does not operate it separately, so that the user can provide a comfortable sleeping environment.

Hereinafter, a method of operating the sleep mode operation mode of the air conditioner shown in FIG. 4 will be described with reference to FIG. 1.

When the user wants to operate the air conditioner in the desired operation mode, the desired operation mode is input through the input unit 11, the microcomputer 10 determines whether the input operation mode is the sleep operation mode. S200)

If not in the sleep mode, the air conditioner starts to operate in accordance with the desired temperature and operating time entered by the user. If it is determined that the sleep operation mode is pressed, the input unit 11 outputs an electrical signal corresponding to the microcomputer 10 at the input unit 11, and the microcomputer 10 receives the signal to enter the sleep operation mode. In order to do this, the user operation pattern stored in the memory 15 is read.

Meanwhile, the indoor temperature sensor 12 and the indoor humidity sensor 13 periodically detect the current indoor temperature and indoor humidity and output the same to the microcomputer 10 (S210). The humidity value is input, and it is determined whether the current indoor temperature is higher than the learning desired temperature A stored in the memory 15 plus 2 ° C. (S220).

If the room temperature is higher than the learning desired temperature (A) plus 2 ° C, the user determines that the indoor air is hot and operates the air conditioner at the desired learning temperature (A) and the desired learning humidity (B). Start (S240)

If the indoor temperature is lower than the learning desired temperature (A) plus 2 ° C., it is determined whether the indoor humidity is higher than the learning desired humidity (B) plus 10%. (S230) Judgment result Is higher than the 10% of the desired learning humidity (B), the user judges the user to feel uncomfortable due to the high humidity of the indoor air, and the air conditioning according to the desired learning temperature (A) and the desired learning humidity (B). Start operation of the machine. (S240)

If the indoor humidity is lower than the desired learning humidity (B) plus 10%, the operation of the air conditioner does not start because the indoor temperature and the indoor humidity are within the range where the user can feel comfortable. Instead, it periodically detects only the current indoor temperature and indoor humidity. (S210) That is, a range in which the user can feel comfortable at any one of the current indoor temperature and indoor humidity (20-24 ° C in FIG. 3A and 50 in FIG. 3B). Outside of ~ 70%), the air conditioner starts to operate.

While the air conditioner continuously detects the indoor temperature and the humidity during the operation of the user operation pattern, it is determined whether the current indoor temperature is lower than the value obtained by subtracting 2 ° C from the desired learning temperature (A). As a result of determination, if the present room temperature is higher than the value obtained by subtracting 2 ° C from the desired learning temperature (A), the operation of the air conditioner is continued.

If it is determined that the current indoor temperature is lower than the value obtained by subtracting 2 ° C from the desired learning temperature A, it is determined whether the current indoor humidity is lower than the value obtained by subtracting 10% from the desired learning humidity B (S260). If the current room humidity is higher than the value obtained by subtracting 10% from the desired learning humidity (B), the operation of the air conditioner is continued.

As a result of the determination of step 260, if the current indoor humidity is lower than the value subtracted 10% from the desired learning humidity (B), the operation of the air conditioner is stopped (S270). That is, both the current indoor temperature and the indoor humidity are comfortable for the user. If the room temperature and room humidity drops below the range of feeling (20-24 ° C. in FIG. 3a, 50-70% in FIG. 3b), the operation of the air conditioner does not need to be continued.

This process is repeated while driving in the sleep mode, so that the room temperature and the room humidity are always maintained within a range where the user feels comfortable.

As described in detail above, the present invention reduces the inconvenience of the user having to reset the operation of the air conditioner by operating the air conditioner in the learned method by learning the operation mode in which the user feels comfortable.

In addition, it is possible to maintain a comfortable indoor environment while reducing power consumption to a minimum.

Claims (5)

Study the user driving pattern set by the room temperature and the humidity of the air conditioner operation, Control method of the air conditioner for learning operation of the air conditioner according to the user operation pattern. The method of claim 1, The user driving pattern, the control method of the air conditioner, characterized in that for setting a predetermined value for a predetermined time for a predetermined time desired learning temperature, the average value of the indoor humidity to a learning desired humidity. The method of claim 2, The learning operation may include an air conditioner when the indoor temperature is higher than the learning reference temperature plus a preset first reference temperature or when the indoor humidity is higher than the learning desired humidity plus a second preset humidity. Control method of the air conditioner, characterized in that to start the operation. The method of claim 3, wherein The learning operation, the control method of the air conditioner, characterized in that for driving so that the room temperature and room humidity reaches the learning desired temperature and the desired learning humidity. The method of claim 2, The learning operation may be performed when the indoor temperature is lower than a value obtained by subtracting the first reference temperature from the desired learning temperature and the indoor humidity is lower than a value obtained by subtracting the second reference humidity from the learning desired humidity. Control method of the air conditioner, characterized in that to stop.

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