KR100374166B1 - Method of controlling operation of an air conditioner during sleeping - Google Patents

Abstract

The sleep operation control method in the air conditioner according to the present invention comprises the steps of: inputting an initial operating condition of the air conditioner at the time of sleep by the user; Initially operating a cooler for a predetermined time under the input initial operating condition; Determining whether the set temperature or the initial operation time is reached according to the initial operation condition; And when the set temperature or initial operating time according to the initial operating condition is reached, the final designated temperature is selected so that the difference from the initial set temperature is greater as the initial set temperature set by the user at the time of setting the initial operating condition is lower. And operating the air conditioner until the end of the bedtime reservation time under an initial operation condition different from the initial operation condition.

According to the present invention, during a certain period of time during the initial stage of sleep, the user first operates under a desired driving condition, and after that, considering the sleep rhythm of the human body, the room temperature, air volume, and wind direction are different from those in the initial operating conditions. By changing and driving the humidity control, it is possible to provide the user with an optimal sleeping environment. In addition, since the operation at a relatively high temperature compared to the conventional sleep operation, there is an advantage that can reduce the power consumption in the air conditioner.

Description

Method of controlling operation of an air conditioner during sleeping}

The present invention relates to a method for controlling bedtime operation in an air conditioner, and in particular, a comfortable sleep environment by automatically appropriately adjusting the room temperature and the direction of emitted cold air in consideration of a temperature selected by a user and a change in skin temperature during bedtime operation in an air conditioner. It relates to a bedtime driving control method in the air conditioner that can provide.

Generally, an air conditioner (air conditioner) has a refrigeration cycle system as shown in FIG. This refrigeration cycle system is largely composed of a compressor 101, a condenser 102, a capillary tube 103 and an evaporator 104. The high temperature, high pressure refrigerant (gas state) compressed in the compressor 101 of the refrigeration cycle system is condensed in the condenser 102 to release heat as it changes from the gas state to the liquid state. Thereafter, the low temperature and high pressure refrigerant becomes low pressure through the capillary tube 103, and the low temperature low pressure refrigerant (liquid state) is absorbed by the evaporator 104 from the liquid to the gas and absorbs the surrounding heat. Accordingly, the surface of the evaporator 104 is cooled, the hot air in the room is cooled by heat exchange with the evaporator, and the cooled air is released into the room by the fan of the indoor unit, thereby cooling the room.

On the other hand, according to the conventional bedtime operation method in the air conditioner as described above, after the user operates for a predetermined time at a temperature set before bedtime, the room temperature is raised to a constant temperature. For example, as shown in FIG. 2, when the user initially sets the room temperature of the bedtime operation to 23 ° C., the user drives the room temperature for a predetermined time (eg, 30 minutes) and then sets the room temperature to 24 ° C. FIG. It is controlled by ℃. Then, after driving for a period of time again to 24 ℃, the room temperature is controlled again to 25 ℃. Therefore, after one hour or two hours have elapsed after going to bed, the user wakes up by overcooling the room temperature. That is, when the tropical night phenomenon occurs during the summer night, when the user sets the room temperature low (for example, 21 ° C.) in order to eliminate muggy, the user may feel comfortable at first. However, once a certain time has passed after falling asleep, the room temperature before and after 23 ℃ is a difference between the body temperature and 10 ℃ or more and the human body feels cold, thereby waking up.

In addition, according to the conventional bedtime driving method, the cold air is discharged in a predetermined direction (for example, the front direction) during the bedtime operation according to the wind direction selected by the user initially, so that the cold air is directly contacted by the user's body, so it feels cool at the beginning of bedtime. After a certain time, the human body is overcooled and feels cold. And it also wakes you up.

On the other hand, the relative humidity at night is very high due to the summer subtropical climate. As shown in FIG. 5, it can be seen that the relative humidity average of the tropical night occurrence days of the five major cities in Korea is approaching almost 90%. This data is based on the Meteorological Administration's white leaf standard, which is likely to reach higher humidity levels in real homes. However, the night temperature on the day of tropical nights is not high compared to the daytime. That is, the cause of the summer night heat is not in temperature, but in humidity. However, the conventional bedtime driving function in the air conditioner controls only the temperature without countermeasures, which is another cause of the user feeling cold while sleeping.

The present invention has been created in view of the above problems, by taking into consideration the temperature sensation felt by the user's body at the beginning of bedtime, and by automatically controlling the temperature of the room and the direction of the released cold airflow in consideration of the sleep rhythm of the human body during bedtime. Its purpose is to provide a bedtime driving control method in an air conditioner that can create a comfortable sleeping environment.

1 is a schematic configuration diagram of a refrigeration cycle system employed in a typical air conditioner.

Figure 2 is a view showing the room temperature control method according to the sleep time by the conventional bedtime operation control method in the air conditioner.

Figure 3 is a flow chart showing the execution process of the sleep operation control method in the air conditioner according to the present invention.

4a to 4d are views showing various examples of the side wind direction during the operating conditions by the bedtime driving control method in the air conditioner according to the present invention.

<Explanation of symbols for the main parts of the drawings>

Compressor 102 Compressor

103 ... Capillary 104 ... Evaporator

Sleep operation control method in the air conditioner according to the present invention in order to achieve the above object,

(a) inputting an initial operating condition of the air conditioner at bedtime by the user;

(b) initially operating a cooler for a predetermined time under the input initial operating condition;

(c) determining whether the set temperature or the initial operation time is reached according to the initial operation condition; And

(d) If the set temperature or initial operating time according to the initial operating condition is reached, the final designated temperature is selected such that the lower the initial set temperature set by the user when the initial operating condition is set, the greater the difference from the initial set temperature. And operating the air conditioner until the end of the bedtime reservation time under an operation condition different from the initial operation condition.

Here, the indoor temperature as the initial operating condition in the step (b) is a temperature set by the user, the air volume and the wind direction is set by the user selected air volume and the wind direction, the operation method is set to the general operation method, respectively.

And, as the operation condition different from the initial operation condition in the step (d), the room temperature is a new set temperature, the air volume is a weak wind, the wind direction is a horizontal wind and a side wind, The driving method is set to the dehumidification driving method, respectively.

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

3 is a flow chart showing an execution process of the sleep operation control method in the air conditioner according to the present invention.

Referring to FIG. 3, according to the method for controlling sleep operation in the air conditioner according to the present invention, an initial operation condition of the air conditioner at the time of going to bed is first input by the user (step 301). That is, the user inputs operation conditions such as room temperature, air volume, wind direction, and sleep operation reservation time at the time of bedtime operation through a control unit provided at a predetermined portion of the remote controller or the air conditioner. Here, the indoor selection temperature is usually selected in units of 1 ℃ in the range of 18 ℃ to 30 ℃, the amount of air is divided into strong wind, middle wind and weak wind is selected. In the wind direction, the up and down wind direction is selected by selecting the upper and lower vanes provided on the front side of the air conditioner, and the left and right wind directions in the direction desired by the user, respectively.

In addition, the sleep operation reservation time means an operation time until the air conditioner is stopped after driving as much as the time reserved by the user. For example, the sleep operation reservation time is selected in units of 1 hour to 7 hours.

As described above, when the operating condition of the air conditioner is input by the user at bedtime, the timer installed in the air conditioner starts operation (step 302), and the main control unit (not shown) in the air conditioner enters the input operation condition, that is, indoor The temperature T _R is the set temperature T _U selected by the user, and the air volume is the selected air volume (eg, strong wind, mid wind, or weak wind), and the wind direction is selected wind direction (eg, up and down winds are upward, downward, and horizontal). Direction, and the left and right wind directions are the wind directions selected from the left, right, front direction, left and right rotation directions, etc., and the operation method is the normal operation method to perform initial operation (step 303). In this case, the initial driving condition is set to the driving condition selected by the user in order to create a sleep initial environment desired by the user in response to various indoor environments that may exist before going to bed. That is, since it takes about 30 minutes before the user falls into deep sleep, the air conditioner controls the operation of the air conditioner to the desired sleep environment until this time, and after that, it is controlled according to the sleep rhythm of the human body.

When the initial operation is performed for a predetermined time as described above, the main controller determines whether the room temperature reaches the set temperature T _U selected by the user (step 304). As a result of the determination in step 304, if the set temperature T _U has not been reached, it is determined whether the initial operation time t ₁ has been reached. As a result of the discrimination in step 305, if the initial operation time t ₁ has not been reached, the program proceeds back to step 303. That is, the operation is continued under the above operating conditions. If the initial operation time t ₁ is reached as a result of the determination in step 305, or if the set temperature T _U is reached as a result of the determination in step 304, the operating conditions are changed. That is, the set temperature during the operation condition is reset to the value obtained by adding the preset step rise temperature T _D to the current temperature T _R (step 306). Then, the air volume in the driving condition is set to the weak wind, the wind direction to the horizontal wind and the side wind direction, and the operation method to the dehumidification operation method, respectively (step 307). Here, the side wind direction may take various forms as shown in (a) to (d) of FIG. 4. That is, as shown in FIG. 4A, the left vane is controlled in the left direction and the right vane is controlled in the right direction, or the left and right vanes are controlled in the left direction as in FIG. 4B, or the left and right vanes are simultaneously in the right direction as in FIG. 4C. Direction or as shown in FIG. 4D, the left and right vanes are controlled to rotate left and right within a constant angle (θ) range.

On the other hand, since the humidity is high during the summer night in the subtropical climate, in the present invention, during the sleep operation is controlled so that the constant temperature dehumidification operation. Here, the dehumidification operation is an operation method for responding to a high humidity environment in the room, and in particular, the constant temperature dehumidification refers to an operation method for performing dehumidification without discharge of cold air flow.

If driving is continued for a predetermined time under the reset driving condition in this way, it is determined whether the sleep driving reservation time has ended (step 308). If the sleep operation reservation time is finished in this determination, the operation of the air conditioner is terminated. As a result of the determination in step 308, if the sleep operation reservation time has not ended, it is determined whether the final specified temperature T _last has been reached (step 309). If the final specified temperature T _last has been reached in this determination, the program proceeds back to step 307 to continue operation in the reset other operation condition state. As a result of the determination in step 309, if the final specified temperature T _last has not been reached, it is determined whether or not the step specifying time t _int is reached (step 310). In this determination, the step specifying time t _int ), the program proceeds back to step 306 above. That is, the value obtained by adding the preset step rise temperature T _D to the new room temperature T _R again is reset again to the current temperature at the time when the step designation time t _int is reached. If it is determined in step 310 that the step designation time t _int has not been reached, the program proceeds back to step 307. That is, the operation is continued in the reset other operation condition state. As described above, the operation is continued by resetting the indoor temperature step by step at a predetermined time, and when the sleep operation reservation time ends, the operation of the air conditioner ends.

Here, the description will be further added to the designation of the step rising temperature T _D and the step designation time t _int .

First, in the case of the step rising temperature (T _D ), it may be determined according to the characteristics of the system within a range of 2 to 3 ° C., which is a temperature range in which the human body cannot easily feel the temperature increase, or may be set differently according to the user's set temperature. . The step designation time t _int may also be appropriately determined in consideration of the final designation temperature T _last , the step rising temperature T _D , and the user's initial set temperature. For example, when the step-up temperature T _D is selected to be about 1 to 2 ° C., the step designation time t _int is set to about 30 minutes to 1 hour, and the final designation is performed after about 3 to 4 hours after the start of the sleep operation. It is controlled to reach the temperature (T _last ).

Here, the selection of the final specified temperature T _last is important. The user generally tends to lower the set temperature initially. Therefore, the conventional operation method that simply adds a constant temperature to the user's initial set temperature causes the user to feel cold. In order to solve the problem, the present invention sets a final predetermined temperature (T _last ) based on the user's initial set temperature. However, the lower the user's initial set temperature, the more the step of increasing to the final temperature is set. T _last ) to reach the comfortable temperature range during sleep. According to one experiment, the comfort temperature at the time of sleep of Koreans is represented by 27 ° C. Therefore, in the present invention, the final predetermined temperature T _last is controlled to be about 27 ° C.

An example of the user's initial set temperature, the final set temperature, the step rising temperature and the step designation time is shown in Table 1 below.

Initial setting temperature [℃] Final specified temperature [℃] Step Rise Temperature [℃] Phase designation time [Hr] 30 30 0 One 29 29 0 One 28 27 26 28 One One 25 24 One 23 27 2 One 22 21 20 26 2 One 19 18 25 2 One

As shown in Table 1 above, if the user sets the initial set temperature to 21 ° C. to 23 ° C., the final designated temperature is designated as 27 ° C., the step rise temperature is 2 ° C., and the step designated time is 1 hour units, respectively. Controlled. Therefore, the final specified temperature can be reached from the initial set temperature in 3 to 4 hours. In other words, a comfortable sleep temperature is reached.

As described above, the bedtime driving control method in the air conditioner according to the present invention may be operated once under a desired driving condition for a predetermined time during the initial stage of sleep, after which the indoor temperature, air volume, The wind direction is changed differently from the state in the initial operating conditions, and the humidity is controlled to operate, thereby providing an optimal sleeping environment to the user. In addition, since the operation at a relatively high temperature compared to the conventional sleep operation, there is an advantage that can reduce the power consumption in the air conditioner.

Claims (3)

(a) inputting an initial operating condition of the air conditioner at bedtime by the user; (b) initially operating a cooler for a predetermined time under the input initial operating condition; (c) determining whether the set temperature or the initial operation time is reached according to the initial operation condition; And (d) If the set temperature or initial operating time according to the initial operating condition is reached, the final designated temperature is selected such that the lower the initial set temperature set by the user when the initial operating condition is set, the greater the difference from the initial set temperature. And operating the air conditioner until the end of the bedtime reservation time under an initial operation condition different from the initial operation condition. The method of claim 1, In the air conditioner as the initial operating condition in the step (b), the room temperature is a temperature set by the user, the air volume and the wind direction are set by the user, the air volume and the wind direction, the operation method is set in the general operation method How to control sleep operation. The method of claim 1, As the operation condition different from the initial operation condition in the step (d), the room temperature is a new set temperature, the air volume is a weak wind, the wind direction is a horizontal wind and a side wind, the operating temperature is a value obtained by adding a predetermined temperature value to the current temperature. Sleep control operation method in the air conditioner, characterized in that each set in the dehumidification operation method.