KR20050011272A - A driving control method of air conditioner - Google Patents

Abstract

PURPOSE: An operation control method of an air conditioner is provided to keep the room temperature constant regardless of an external temperature conditioner by discharging the heat-exchanged air into the room. CONSTITUTION: An operation control method of an air conditioner is composed of steps for presetting room-pipe temperature, room-withdraw temperature, a reference value of internal/external temperature, an operation frequency of a compressor according to the reference value, on/off of an outdoor fan, and a wind velocity control value of an indoor fan; detecting the room-pipe temperature, room-withdraw temperature, internal/external temperature, and withdraw temperature(510); comparing the room temperature with a reference temperature value(520); comparing the external temperature with the reference temperature value(540); comparing the room pipe temperature with the reference temperature value(560); and controlling the operation of the air conditioner by a pre-set control value.

Description

A driving control method of air conditioner

The present invention relates to an air conditioner, and more particularly, to an operation control method of an air conditioner for performing a heating operation so that the indoor blowout temperature is kept constant.

Looking at the operation control method of the air conditioner according to the prior art as follows.

1 is a control block diagram for controlling the operation of the air conditioner according to the prior art.

As shown in the figure, the air conditioner according to the prior art includes an indoor unit 50 and an outdoor unit 140 to perform a heat exchange operation. The indoor unit 50 has an indoor microcontroller 10 for controlling the operation of the indoor unit 50, an indoor fan 20 for blowing air to exchange heat exchanged air into the room, and an indoor piping temperature sensing temperature of an indoor pipe. The sensor 30, and the indoor temperature sensor 40 for measuring the indoor temperature.

The indoor pipe temperature sensor 30 measures the indoor pipe temperature, and the indoor pipe temperature detected by the indoor pipe temperature sensor 30 is converted into a predetermined voltage value and transferred to the indoor microcontroller 10. . At this time, the indoor microcontroller 10 is set a reference pipe temperature value corresponding to a predetermined voltage value. Therefore, the indoor microcontroller 10 estimates the current indoor pipe temperature by comparing the transmitted constant voltage value with the reference pipe temperature value. In addition, the indoor temperature sensor 40 detects the indoor temperature.

Meanwhile, the outdoor unit 140 includes an outdoor microcontroller 60 that controls driving of the outdoor unit 140, an outdoor fan 80 that blows air to be discharged to the outside, a compressor 70 that compresses the refrigerant, and a flow of the refrigerant. The four sides 90 to control the direction, the outdoor pipe temperature sensor 100 for detecting the outdoor pipe temperature, and the outdoor temperature sensor 110 for detecting the outdoor temperature is provided.

The outdoor pipe temperature sensor 100 measures the outdoor pipe temperature, and the outdoor pipe temperature detected by the outdoor pipe temperature sensor 100 is converted into a predetermined voltage value and transferred to the outdoor microcontroller 60. . At this time, the outdoor microcontroller 60 is set with a reference pipe temperature value corresponding to a predetermined voltage value. Therefore, the outdoor microcontroller 60 estimates the current outdoor pipe temperature by comparing the transmitted constant voltage value with the reference pipe temperature value. The outdoor temperature sensor 110 detects an outdoor temperature.

In addition, the indoor microcontroller 10 of the indoor unit 50 and the outdoor microcontroller 60 of the outdoor unit 140 are connected by a communication line L to grasp the driving signal and the driving state from each other.

Looking at the operation control process of the control configuration as follows.

2 is an operation control flowchart for controlling the heating operation of the air conditioner according to the prior art.

In the related art, when the user selects the heating operation as shown in the drawing, the indoor / outdoor microcontroller receiving the signal controls to perform a heat exchange operation. In other words, the compressor 70 controls the refrigerant to be compressed. The compressed refrigerant is transferred to the outdoor heat exchanger of the outdoor unit 140 through the four sides 90. The refrigerant passing through the outdoor heat exchanger of the outdoor unit 140 is transferred to the indoor heat exchanger of the indoor unit 50 to discharge the warm wind into the room.

As such, the indoor unit 50 and the outdoor unit 140 are driven to perform heat exchange, so that the indoor microcontroller 10 and the outdoor microcontroller 60 provided in the indoor unit 50 and the outdoor unit 140 respectively perform heating operation. Control to perform.

When the heating operation is started (step 200), the indoor pipe temperature and the outdoor temperature are sensed through the indoor pipe temperature sensor 30 and the outdoor temperature sensor 110 (step 210).

When the indoor temperature is sensed through the indoor temperature sensor 40 and the indoor temperature detected by the indoor temperature sensor 40 is higher than the preset temperature set in the indoor microcontroller 10 (step 220), The indoor microcontroller 10 determines that the indoor temperature reaches the target temperature by performing heating operation.

Accordingly, the driving of the compressor 70 is stopped to stop the heat exchange operation so that the heating operation is no longer performed, and the driving of the outdoor fan 80 and the indoor fan 20 is stopped (step 260).

However, if the indoor temperature detected by the indoor temperature sensor 40 in step 220 is lower than the preset temperature set in the indoor microcontroller 10 (step 220), in step 210 to perform the heating operation In operation 230, it is determined whether the pipe temperature value measured by the pipe temperature sensor is greater than or equal to a predetermined value.

According to the step 230, if the indoor piping temperature is a predetermined value or more, it is determined that the warm wind can be discharged to the room is controlled so that the compressor 70 is driven at the rated operating frequency. In addition, the outdoor fan 80 is driven and the indoor fan 20 is driven by a strong wind to perform a heating operation to discharge the warm air heat-exchanged in the room (step 240).

However, according to step 230, if the indoor piping temperature is less than a predetermined value, it is determined that the cold wind is discharged to the room is determined to control the compressor, the outdoor fan, and the indoor fan 20 to stop all (step 250). .

That is, the conventional air conditioner has always operated the indoor air volume and the compressor uniformly all the time regardless of the conditions of the outdoor temperature. Therefore, when the outdoor temperature is low, even though the temperature of the air taken out from the indoor unit is low, there was no way to solve this problem. Therefore, the conventional air conditioner has a problem that makes the user feel uncomfortable as the cold wind is taken out to the room when the outdoor temperature is low.

Accordingly, an object of the present invention is to provide an operation control method of an air conditioner for controlling to maintain a constant indoor discharge temperature.

1 is a control block diagram for controlling the operation of the air conditioner according to the prior art.

2 is an operation control flow chart for controlling the heating operation of the air conditioner according to the prior art.

3 is a control block diagram for controlling the operation of the air conditioner according to the present invention.

Figure 4 is an operation control flow chart for controlling the heating operation of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

300: indoor microcontroller 310: indoor fan

320: Indoor piping temperature sensor 330: Indoor temperature sensor

340: extraction temperature sensor 350: indoor unit

360: outdoor microcontroller 370: compressor

380: outdoor fan 390: four sides

400: Piping temperature sensor 410: Outdoor temperature sensor

420: outdoor unit

Operation control method of the air conditioner according to the present invention for achieving the above object, the reference value of the indoor piping temperature, the indoor blowout temperature, the indoor / outdoor temperature, the operating frequency of the compressor according to the reference value, the outdoor fan on / off driving A reference setting step of presetting an indoor fan wind speed control value; A sensing step of detecting an indoor piping temperature, an indoor blowout temperature, an indoor / outdoor temperature, and a blowout temperature as the air conditioner performs a heating operation; A first comparison determination step of comparing and judging the indoor temperature and the reference temperature value detected in the detection step; A second comparison determination step of comparing the outdoor temperature detected in the sensing step with a reference temperature value; A third comparison determination step of comparing the indoor piping temperature detected in the sensing step with a reference temperature value; According to the first, second, and third comparison determination steps, an operation control step of controlling the operation of the air conditioner with a control value preset in the reference setting step.

The operation control method of the air conditioner according to the present invention is characterized in that the drive control to stop the compressor, the outdoor fan, the indoor fan when the indoor temperature is less than the reference temperature value according to the first comparison determination step.

In the operation control method of the air conditioner according to the present invention, when the outdoor temperature is higher than the reference temperature value according to the second comparison determination step, the compressor performs the rated operation, and the outdoor fan is driven and the indoor fan is driven by the strong wind. It is characterized by.

In addition, in the operation control method of the air conditioner according to the present invention, if the indoor piping temperature is less than a predetermined temperature value according to the third comparison determination step, the compressor performs the rated operation, the outdoor fan operation, the indoor fan is stopped It is characterized by.

In the operation control method of the air conditioner according to the present invention, if the indoor piping temperature is above a predetermined temperature value according to the third comparative determination step, the compressor, the outdoor fan, and the indoor fan are driven in multiple stages according to the detected blowout temperature range. It characterized in that the control.

The operation control method of the air conditioner according to the present invention, after the third comparative determination step, if the detected blowout temperature range is more than the first reference temperature value, the compressor is controlled to drive the rated operation, outdoor fan operation, indoor fan strong wind operation It is configured to include a first control step.

In the operation control method of the air conditioner according to the present invention, if the detected blowout temperature range is less than or equal to the second reference temperature value lower than the first reference temperature value after the third comparative determination step, the operation frequency of the compressor is increased by two stages. And a second control step of controlling the outdoor fan to operate the indoor fan to perform a heavy wind operation.

In addition, in the operation control method of the air conditioner according to the present invention, after the third comparative determination step, if the detected blowout temperature range is more than the second reference temperature value or less than the first reference temperature value, A third control step of raising the outdoor fan and controlling the indoor fan to drive the high wind.

Hereinafter, the operation control method of the air conditioner according to the present invention will be described.

3 is a control block diagram for controlling the operation of the air conditioner according to the present invention.

As shown in the figure, the air conditioner according to the present invention includes an indoor unit 350 and an outdoor unit 420 to perform a heat exchange operation. The indoor unit 350 has an indoor microcontroller 300 that controls the operation of the indoor unit 350, an indoor fan 310 that blows heat exchanged air into the room, and an indoor piping temperature sensing temperature of an indoor pipe. The sensor 320, the indoor temperature sensor 330 for measuring the indoor temperature, and the take-out temperature sensor 340 for detecting the temperature of the heat-exchanged air discharged into the room.

The indoor pipe temperature sensor 320 measures the indoor pipe temperature, and the indoor pipe temperature detected by the indoor pipe temperature sensor 320 is converted into a constant voltage value and transmitted to the indoor micro controller 300. . At this time, the indoor microcontroller 300 is set to the reference pipe temperature value corresponding to a constant voltage value, respectively. Therefore, the indoor microcontroller 300 estimates the current indoor pipe temperature by comparing the transmitted constant voltage value with the reference pipe temperature value. The room temperature sensor 330 detects a room temperature.

In addition, the blowout temperature sensor 340 detects the temperature of the heat-exchanged air discharged into the room. The temperature detection value is transmitted to the indoor microcontroller 300 and compared with the reference temperature value. In this case, the indoor microcontroller 300 has a preset reference temperature value for comparison with the measured temperature value. As a result, the indoor microcontroller 300 controls the air conditioner to be properly driven according to the temperature of the heat-exchanged air discharged into the room.

Meanwhile, the outdoor unit 420 includes an outdoor microcontroller 360 that controls driving of the outdoor unit 420, an outdoor fan 380 for blowing air to be discharged to the outside, a compressor 370 for compressing a refrigerant, and a refrigerant. Four sides 390 for controlling the flow direction of the, and an outdoor pipe temperature sensor 400 for detecting the outdoor pipe temperature, and an outdoor temperature sensor 410 for detecting the outdoor temperature is provided.

The outdoor pipe temperature sensor 400 measures the outdoor pipe temperature, and the outdoor pipe temperature detected by the outdoor pipe temperature sensor 400 is converted into a predetermined voltage value and transmitted to the outdoor microcontroller 360. . At this time, the outdoor microcontroller 360 has a reference pipe temperature value corresponding to a predetermined voltage value. Accordingly, the outdoor microcontroller 360 estimates the current outdoor pipe temperature by comparing the transmitted constant voltage value with the reference pipe temperature value. The outdoor temperature sensor 410 detects an outdoor temperature.

In addition, the indoor microcontroller 300 of the indoor unit 350 and the outdoor microcontroller 360 of the outdoor unit 420 are connected by a communication line L to transmit a driving signal and a driving state in real time, and the indoor unit 350. The operation of the outdoor unit 420 is grasped and controlled.

Hereinafter, an operation control process of performing a heating operation with the control configuration will be described.

4 is an operation control flowchart for controlling the heating operation of the air conditioner according to the present invention.

As shown in the drawing, when the user selects the heating operation, the indoor unit 350 and the outdoor unit 420 are driven to perform a heat exchange operation. And warm air is discharged to the room through heat exchange. To this end, the compressor 370 compresses the refrigerant. The compressed refrigerant is transferred to the outdoor heat exchanger through the four sides 390. As the refrigerant is supplied to the outdoor heat exchanger, cold wind is discharged to the outdoor. Meanwhile, the refrigerant supplied to the outdoor heat exchanger circulates and is supplied to the indoor heat exchanger. The indoor heat exchanger discharges warm wind into the room.

When the heat exchange cycle is driven to perform the heating operation as described above, the temperature of the wind blown into the room varies depending on the outdoor temperature. That is, when the outdoor temperature is lower than the predetermined value, there is a fear that the indoor discharge temperature becomes low by the general cycle control.

In order to solve this problem, when the outdoor temperature is low, the operation of the compressor 370 according to the low outdoor temperature and the operation of the outdoor fan 380 / indoor fan 310 are controlled. Accordingly, even when the outdoor temperature is low, the indoor air is controlled to discharge the warm wind above a certain temperature.

Therefore, after performing the heating operation (step 500), the indoor piping temperature through the indoor pipe temperature sensor 320, the indoor extraction temperature through the extraction temperature sensor 340, and the indoor temperature sensor 330 In step 510, the indoor temperature and the outdoor temperature are sensed through the outdoor temperature sensor 410.

Then, the indoor temperature detected by the indoor temperature sensor 330 is compared with the reference temperature value preset in the indoor microcontroller 300 (step 520). When the indoor temperature is higher than the preset reference temperature according to the comparison determination, the indoor temperature reaches the reference target temperature and the driving of the compressor 370 is stopped, and both the indoor fan and the outdoor fan are stopped (step 530). ).

However, if the room temperature is lower than the set temperature in step 520, the heating operation is continued. Accordingly, the outdoor microcontroller 360 determines whether the outdoor temperature detected by the outdoor temperature sensor 410 is less than or equal to a predetermined temperature (step 540). The predetermined temperature value of the outdoor temperature is a reference determination value preset in the outdoor microcontroller 360.

Therefore, if the outdoor temperature is more than the predetermined temperature, it is determined that the air discharged to the room according to the outdoor temperature is not affected. That is, the compressor 370 performs the rated operation, the outdoor fan 380 operates. In addition, the indoor fan 310 performs a strong wind operation (step 550).

On the other hand, if the outdoor temperature is less than the predetermined temperature, since it may affect the heat-exchanged air discharged to the room, it is controlled to properly discharge the air heat-exchanged to the room according to the outdoor temperature conditions. That is, if the outdoor temperature is less than or equal to the predetermined temperature in step 540, the indoor microcontroller 300 determines whether the indoor piping temperature is greater than or equal to a predetermined temperature (operation 560). If the indoor piping temperature determined by the indoor microcontroller 300 is below a predetermined temperature, it is determined that cold wind may be discharged to the room. As a result, the compressor 370 performs the rated operation to perform the heat exchange operation by the circulation of the refrigerant, and simultaneously controls the outdoor fan 380. However, the driving of the indoor fan 310 is stopped to prevent the wind from being discharged indoors (step 570).

On the other hand, the indoor piping temperature detected by the indoor pipe temperature sensor 320 in step 560 is a predetermined temperature or more, and the blowout temperature value of the air taken out through the indoor heat exchanger to the room is the first temperature value (t ℃) If the temperature is equal to or greater than the <drawing temperature> (step 580), it is determined that the warm air is discharged to the room, and the compressor 370 performs the rated operation, and the outdoor fan 380 operates. At the same time, the indoor fan 310 is driven in a strong wind so that the warm air heat-exchanged is supplied to the room (step 590).

However, if the blowout temperature of the air blown into the room in step 580 is equal to or less than the first temperature value, it is detected whether the range of the blowout temperature is equal to or greater than the first temperature value or less than the second temperature value (t1 ° C <outlet temperature <t ° C) ( Step 600). If the extraction temperature is within the first temperature value or less than the second temperature value (t1 ° C <extraction temperature <t ° C), it is determined that the temperature discharged to the room is relatively lower than the step 590. As a result, the driving frequency of the compressor 370 is increased by one step, and the driving control is performed, and the outdoor fan 380 is driven. At the same time, the indoor fan 310 is controlled to be driven in a strong wind (step 610).

On the other hand, if the blowout temperature of the air blown into the room in step 600 is less than the second temperature value out of the range of t1 degrees or less than the second temperature value or more (t1 degree <draw temperature <t), in step 600, It is determined that the discharged temperature is relatively lower. As a result, the operating frequency of the compressor 370 is increased by two stages so as to reach the operating frequency of the compressor 370 of the 590th stage. In addition, the outdoor fan 380 is controlled to be driven, and at the same time, the indoor fan 310 is controlled to be driven by stroke.

Each temperature value detected by the indoor microcontroller 300 and the outdoor microcontroller 360 is shared with each other through a communication line L, through which the indoor unit 350 and the outdoor unit 420 are appropriately driven to cool. / Control to perform heating operation.

As described above, in the present invention, it is a basic technical idea to control the control of the compressor and the air volume so that the indoor discharge temperature maintains a constant temperature regardless of the external temperature.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

Therefore, the following effects can be expected due to the operation control method of the air conditioner according to the present invention. The present invention controls to discharge the heat-exchanged air in the room so that the room temperature is kept constant regardless of the external temperature conditions. Accordingly, the comfortable wind is always discharged according to the cooling / heating operation, thereby not causing discomfort to the user.

Claims (8)

A reference setting step of presetting reference values of indoor piping temperature, indoor extraction temperature, indoor / outdoor temperature, operation frequency of the compressor according to the reference value, outdoor fan on / off driving, and indoor fan wind speed control value; A sensing step of detecting an indoor piping temperature, an indoor blowout temperature, an indoor / outdoor temperature, and a blowout temperature as the air conditioner performs a heating operation; A first comparison determination step of comparing and judging the indoor temperature and the reference temperature value detected in the detection step; A second comparison determination step of comparing the outdoor temperature detected in the sensing step with a reference temperature value; A third comparison determination step of comparing the indoor piping temperature detected in the sensing step with a reference temperature value; And an operation control step of controlling the operation of the air conditioner with the control value preset in the reference setting step, in accordance with the first, second, and third comparison determination steps. The method of claim 1, According to the first determination step, if the indoor temperature is less than the reference temperature value, the operation control method of the air conditioner, characterized in that the drive control to stop the compressor, the outdoor fan, the indoor fan. The method of claim 1, According to the second comparison judging step, if the outdoor temperature is greater than or equal to the reference temperature value, the compressor performs the rated operation, the outdoor fan drive, the indoor fan is driven in a strong wind, the operation control method of the air conditioner. The method of claim 1, According to the third comparative determination step, if the indoor piping temperature is less than the predetermined temperature value, the compressor performs the rated operation, the outdoor fan operation, the indoor fan operation control method of the air conditioner, characterized in that the stop. The method of claim 1, According to the third comparison determination step, if the indoor piping temperature is more than a predetermined temperature value, the operation control of the air conditioner, characterized in that for controlling the drive of the compressor, outdoor fan, indoor fan in multiple stages according to the detected blowout temperature range Way. The method of claim 5, wherein After the third comparative determination step, if the detected blowout temperature range is equal to or greater than the first reference temperature value, the air conditioning includes a first control step of controlling the compressor to perform a rated operation, an outdoor fan operation, and an indoor fan strong wind operation. Operation control method of machine. The method of claim 5, wherein After the third comparison determination step, if the detected extraction temperature range is less than the second reference temperature value lower than the first reference temperature value, the operation frequency of the compressor is increased by two stages, and the outdoor fan operation and the indoor fan are controlled to perform heavy wind operation. Operation control method of an air conditioner comprising a second control step. The method of claim 5, wherein After the third comparison determination step, if the detected blowout temperature range is within the second reference temperature value and the first reference temperature value, the operating frequency of the compressor is increased by one step, and the outdoor fan operation and the indoor fan are driven by the strong wind operation. Operation control method of the air conditioner comprising a third control step of controlling.