KR0152103B1 - Operating control device and control method of an airconditioner - Google Patents

Abstract

The present invention relates to an operation control apparatus for an air conditioner and a control method of the air conditioner for reducing the temperature difference between indoor and outdoor during operation of the air conditioner, and optimally controlling the air conditioner. And operation selection means for selecting a mild cooling operation by a user, photoconductive sensing means for detecting day and night by a conductivity varying according to the irradiation amount of light to compensate for the outdoor temperature by the control of the control means, and the control A louver motor driving means for driving the louver motor to control the wind direction by control of the means, and an indoor fan for driving the indoor fan motor by receiving a control signal from the control means to perform the mild cooling operation selected by the driving selection means. Motor driving means and a compressor driving means for receiving a control signal from the control means and driving the compressor; And that is characterized.

Description

Operation control device of air conditioner and its control method

1 is a control block diagram of an operation controller of an air conditioner according to an embodiment of the present invention.

2A and 2B are flowcharts showing an operation control operation procedure of an air conditioner according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: operation selection means 20: time input means

30: control means 40: DC power supply means

50: outdoor temperature sensing means 60: photoelectric sensing means

70: indoor temperature detection means 80: indoor humidity detection means

90: louver motor driving means 100: compressor driving means

110: outdoor fan motor driving means 120: indoor fan motor driving means

The present invention relates to an air conditioner operation control apparatus and a method of controlling the air conditioner for optimal operation control of the air conditioner by reducing the temperature difference between indoor and outdoor during operation of the air conditioner.

In general, in the conventional air conditioner, the indoor temperature is sensed by the indoor temperature sensing means, the detected indoor temperature data is inputted from the control means, and compared with the reference temperature data set by the user. And air-conditioning operation were performed while driving and controlling the indoor fan motor.

However, in such a method, the user has to directly select a desired set temperature while changing the air conditioning operation mode such as air volume and wind direction of the air conditioner, which is not only inconvenient for children or the elderly, but also cools the air conditioner. And fuzzy cooling is a little cold for children and the elderly by controlling the temperature in accordance with the comfort, there is a problem that it is difficult to use at bedtime while causing complaints caused by the cooling disease due to the large temperature difference between the indoor and outdoor.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to select the set temperature while changing the air conditioning operation mode such as the air volume and the wind direction of the air conditioner by the selection of the mild cooling operation key It is possible to provide an operation control device for an air conditioner and a method of controlling the air conditioner, which are convenient to use and easy to operate.

Another object of the present invention is to compensate the outdoor temperature according to the day and night sensed by the photosensitive sensing means to perform the air conditioning operation of the air conditioner to reduce the temperature deviation between the indoor and outdoor, so that children and the elderly The present invention provides an operation control device and a control method of the air conditioner that can be used in the living room and can be used at bed while satisfying the user's satisfaction without worrying about the air conditioner.

In order to achieve the above object, the operation control apparatus of an air conditioner according to the present invention includes an air conditioner, a control means, an operation selection means for selecting a mild cooling operation by a user, and an outdoor temperature by the control of the control means. Photoconductive sensing means for detecting day and night by a conductivity varying according to the irradiation amount of light to compensate for the light, louver motor driving means for driving the louver motor to control the wind direction by the control of the control means, and the operation selecting means. An indoor fan motor driving means for driving an indoor fan motor by receiving a control signal from the control means so as to perform a mild cooling operation selected by the control means, and a compressor driving means for driving a compressor by receiving a control signal from the control means. It is done.

In addition, the operation control method of the air conditioner according to the present invention is a day and night detection step of detecting day and night according to the irradiation amount of light detected by the photoconductive sensing means to determine whether the time data input by the user is valid, The outdoor temperature compensation step of compensating the outdoor temperature so as to reduce the temperature difference between the indoor and outdoor according to the day and night detected by the sensing step, and the change in operation of the air conditioner to compensate the set temperature in the outdoor temperature compensation step. An indoor humidity sensing step for detecting indoor humidity, a compressor driving step for driving and controlling a compressor according to a difference between a set temperature and an indoor temperature which change according to the indoor humidity detected by the indoor humidity sensing step, and the compressor driving step To perform the mild cooling operation while controlling the indoor fan by counting the mild cooling operation time when the compressor is driven Characterized in that the step consisting in cooling operation.

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

As shown in FIG. 1, the operation selecting means 10 is provided with a plurality of function keys (artificial intelligence, cooling, heating, clean, reserved operation, stop) to select the operation function of the air conditioner by the user. In addition, the operation selection means 10 can be easily operated by a child or an elderly person, as well as performing an optimal air conditioning operation while reducing indoor and outdoor temperature deviations. Mild cooling operation of the key is provided, the time input means 20 is provided with an operation key to input the current time (t) by the user.

And, the control means 30 receives the operation signal from the operation selection means 10 and at the same time receives the current time data (t) from the time input means 20 to initialize the air conditioner and at the same time the overall operation Outputs a control signal for controlling the control unit, and the DC power supply unit 40 receives an AC power supply from an AC power input terminal (not shown) and converts it into a predetermined DC voltage necessary for the operation of the control means 30.

The outdoor temperature sensing means 50 senses the outdoor temperature To during operation of the well-known conditioner and outputs the sensing data to the control means 30, and the photoelectric sensing means 60 detects the outdoor temperature. The photoconductivity detection is performed by sensing the conductivity varying according to the irradiation amount of light so as to compensate for the outdoor temperature To sensed by the means 50 and outputting the sensing data L to the control means 30. The means 60 detects night and day in order to reduce the deviation between the indoor temperature Ti and the outdoor temperature To.

Indoor temperature detecting means 70 detects the temperature (Ti) of the indoor air sucked into the inlet (not shown) to perform the air conditioning operation of the air conditioner and outputs to the control means 30, the indoor humidity detecting means (80) is the humidity (H) of the indoor air sucked into the inlet to compensate for the set temperature (Ts) that is the result of compensating the outdoor temperature (To) according to the night and day detected by the photosensitive sensor 60 Detects and outputs to the control means (30).

The louver motor driving means 90 drives the louver motor M1 so as to be positioned at the top of the louver angle so that the wind direction of the air conditioner is not directly in contact with the human body by the control of the control means 30. The driving means 100 receives the control signal from the control means 30 and transmits the outdoor temperature To detected by the outdoor temperature sensing means 50 to the photoconductive sensing means 60 and the indoor humidity sensing means 80. The compressor (COMP) is turned on / off according to the difference between the set temperature (Ts) compensated according to the sensing data from the and the room temperature (Ti) detected by the room temperature detecting means (70). Off-drive control.

Also, in the drawing, the outdoor fan motor driving means 110 receives the control signal from the control means 30 to drive the outdoor fan motor M2, and the indoor fan motor driving means 120 controls the control means ( In response to the control signal from 30), the speed of the indoor fan motor M3 is variously controlled (for example, about the weakest) according to the mild cooling operation time.

Hereinafter, operation effects of the air conditioner and the control method of the air conditioner configured as described above will be described with reference to FIGS. 2A and 2B.

First, when the user selects the desired mild cooling operation by the operation selection means 10 in step S1, in step S2, the operation signal from the operation selection means 10 is inputted from the control means 30 to select the air conditioner. Initialize according to mild cooling operation function.

Next, the step S3 receives the control signal from the control means 30 from the louver motor driving means 90 and drives the louver motor M1 to control the louver motor so that the louver angle is 'upwardly'. By the time input means 20, it is judged whether the present time t was input to the control means stage 30. FIG.

As a result of the determination in step S4, when the current time t is input from the time input means 20 (Yes), it is necessary to determine whether the input time data t is valid. The means 60 detects a conductivity changing according to the irradiation amount of light, and outputs the sensing data L to the control means 30.

In step S6, the outdoor temperature is sensed by the outdoor temperature sensing means 50, and the sensing data To is output to the control means 30, and in step S7, the photoelectric sensing means 60 is sensed. It is determined whether the irradiation amount L of the received light is smaller than the reference irradiation amount Ls preset in the control means 30.

As a result of the discrimination in step S7, when the irradiation amount L of light determined by the control means 30 is smaller than the reference irradiation amount Ls (Yes), it is night and in step S8 the time input in step S4 is performed. The means 20 determines whether the time data t input to the control means 30 is between 0 and 4 hours.

As a result of the determination in step S8, when the time data t determined by the control means 30 is between 0 and 4 hours (Yes), the inputted time data is valid. The temperature difference obtained by subtracting 2 from the outdoor temperature To detected by the outdoor temperature sensing means 50 is set as the set temperature Ts by the control means 30 to reduce the temperature deviation between the indoor and outdoor.

Further, since the determination result in step S7 is low when the irradiation amount L of the light determined by the control means 30 is not smaller than the reference irradiation amount Ls (No), it is low in step S4. The time input means 20 determines whether the time data t input to the control means 30 is between 10 and 16 o'clock.

As the result of the determination in step S24, when the time data t determined by the control means 30 is between 10 and 16 o'clock (Yes), the input time data is valid. In step S25, the outdoor temperature sensing means. The temperature difference between indoor and outdoor is reduced by setting the temperature obtained by subtracting 4 from the outdoor temperature To sensed by 50 to the set temperature Ts in the control means 30.

On the other hand, if the time data t determined by the control means 30 is not between 0 o'clock and 4 o'clock (No), the inputted time data is invalid. The temperature obtained by subtracting 3 from the outdoor temperature To detected by the outdoor temperature sensing means 50 is set as the set temperature Ts by the control means 30, ignoring the input time data.

If the time data t determined by the control means 30 is not between 10 and 16 o'clock (No), the inputted time data is invalid. Ignoring the data, the process returns to the step S26 to repeat the operation of the step S26 or less.

Subsequently, in step S10, the indoor humidity detecting means 80 senses the humidity H of the indoor air sucked into the inlet and outputs it to the control means 30, and in step S11, the set temperature Ts in step S9. The control means 30 determines whether the indoor humidity H detected by the indoor humidity detecting means 80 is less than 60% so as to compensate.

As a result of the discrimination in step S11, when the indoor humidity H determined by the control means 30 is less than 60% (Yes), the sensed temperature is dropped by about 1 ° C. When the temperature obtained by adding 1 to the set temperature Ts is set to the set temperature, and the indoor humidity H determined by the control means 30 is not less than 60% (No), the process proceeds to step S13. It is determined whether the set temperature Ts is smaller than a predetermined temperature Ta (about 25 ° C) preset in the control means 30.

As a result of the discrimination in step S13, when the set temperature Ts determined by the control means 30 is smaller than the predetermined temperature Ta (Yes), the set temperature Ts becomes too low. If the temperature Ts is set to the predetermined temperature Ta, and the set temperature Ts determined by the control means 30 is not smaller than the predetermined temperature Ta (if No), the process proceeds to step S15 to detect the indoor temperature. The temperature 70 of the indoor air sucked into the inlet by the means 70 is detected and output to the control means 30.

Subsequently, in step S16, the control means 30 determines whether the room temperature Ti detected by the room temperature sensing means 70 is greater than a set temperature Ts, and determines the room determined by the control means 30. If the temperature Ti is larger than the set temperature Ts (Yes), the room should be cooled. In step S17, the compressor driving means 100 receives the control signal output from the control means 30 and the compressor COMP. ).

On the other hand, when the determination result in step S16 indicates that the indoor temperature Ti determined by the control means 30 is not greater than the set temperature Ts (No), it is not necessary to cool the room. Compressor driving means 100 receives the control signal output from the control means 30 to turn off the compressor (COMP).

Subsequently, at step S18, the timer built in the control means 30 counts the mild cooling operation time tm driven by the compressor COMP. In step S19, the mild cooling operation time tm is 1 hour. The control means 30 determines whether it has passed.

As a result of the discrimination in step S19, when the mild cooling operation time tm} determined by the control means 30 has not elapsed one hour (No), the process proceeds to step S20 and the indoor fan motor driving means 120 In the case of receiving a control signal from the control means 30 to drive the indoor fan motor M3 weakly, and the mild cooling operation time (tm) determined by the control means 30 has passed one hour. In the case of Yes, the process proceeds to step S28, and the indoor panther driving means 120 receives the control signal from the control means 30 to drive the indoor fan motor M3 to 'weakest' ('breeze').

In step S21, the timer built in the control means 30 counts the mild cooling operation time tm at the time of driving the indoor fan. In step S22, the mild cooling operation time tm is countered. The control means 30 determines whether the mild cooling operation time tm has elapsed 3 hours.

As a result of the determination in step S22, when the mild cooling operation time tm determined by the control means 30 has elapsed for 3 hours (Yes), the mild cooling operation should be stopped. The control signal output from the 30 is input from the compressor driving means 100, the outdoor fan motor driving means 110 and the indoor fan motor driving means 120, the compressor (COMP), the outdoor fan motor (M2), the indoor fan The operation is terminated while the motor M3 is turned off.

On the other hand, when the time is not input to the control means 30 (No), as a result of the discrimination in step S4, since the time data is invalid, the process returns to step S26 to repeat the operation of step S26 or less.

If the mild cooling operation time tm determined by the control means 30 has not elapsed for 3 hours (No), the process returns to the step S4 and the step S4 or less. Repeat the operation.

According to the operation control apparatus and the control method of the air conditioner according to the present invention as described above, by selecting the mild cooling operation key, the set temperature is automatically changed while changing the air conditioning operation mode such as the air volume and the wind direction of the air conditioner. Because it can be selected, it is convenient to use and easy to operate, and it compensates the outdoor temperature according to the day and night sensed by the photoelectric sensing means to perform the air conditioning operation of the air conditioner. Because the temperature deviation can be reduced, it can be used safely in indoors where children and the elderly live, and there is no fear of getting a cooling bottle, so it can satisfy user's satisfaction and can be used at bedtime.

Claims (4)

An air purifier for performing a mild cooling operation according to the key signal selected by the operation selection unit, comprising: a time input unit for inputting a current time, an outdoor temperature sensor for sensing outdoor temperature, and an indoor humidity sensor for sensing indoor humidity And a photoconductor detecting unit that detects a conductivity that changes according to the irradiation amount of light, and determines whether the current time input by the time input unit is valid by receiving the conductivity data sensed by the photoconductor detecting unit to determine whether the current temperature is valid. A controller for compensating the set temperature according to humidity, a compressor driver for driving the compressor according to the difference between the set temperature and the room temperature from the controller, and a control signal from the controller to drive the louver motor to maximize indoor wind direction. A louver motor driving unit positioned upward and driving an indoor fan motor according to the operation time of the compressor. The operation control apparatus of the air conditioner consisting of an indoor fan motor driving unit for controlling the air volume of the naepaen. A control method of an air conditioner for performing a mild cooling operation in accordance with a key signal selected by an operation selecting unit, comprising: a wind direction control step of positioning an indoor wind direction in the uppermost direction under control of a control unit; and a time input for inputting a current time And an outdoor temperature sensing step of sensing outdoor temperature, a day and night discrimination step of discriminating day and night by sensing a conductivity varying according to the irradiation amount of light, and the time input step according to the night and day determined in the day and night discrimination step. A first set temperature compensation step of first compensating a set temperature to a temperature obtained by subtracting a predetermined temperature from the outdoor temperature by determining whether the current time is valid, an indoor humidity sensing step of sensing indoor humidity, and an indoor humidity sensing step A second set temperature compensation step of secondly compensating the set temperature according to the detected indoor humidity and a set temperature compensated in the second set temperature compensation step And a mild operation step of performing a mild cooling operation by operating a compressor in accordance with a difference in room temperature, and an air conditioner control step of adjusting an air volume of the indoor fan according to the compressor operation time in the mild operation step. Way. The air conditioner operation control method according to claim 2, wherein when the compressor operation time exceeds 1 hour in the mild operation step, the air volume of the indoor fan is adjusted to 'minimum'. The air conditioner operation control method according to claim 2, wherein in the mild operation step, the mild cooling operation is stopped when the compressor operation time exceeds 3 hours.