KR0123444B1 - Method for controlling airconditioner - Google Patents

Abstract

The air conditioner consists of indoor unit having remote receiver(1), detecting means of indoor temperature and humidity(2), detecting means of piping temperature(3), micom for indoor unit(4), driving means of indoor fan(5), driving means of wind direction louver(6), control means of power relay(7), detecting means of outdoor piping temperature(9), micom for outdoor unit(10), driving means of outdoor fan(11), control means of compressor(12), and detecting means of temperature for compressor(13). The signal about the operation of air condition is received to the remote receiver(1). The received signal is estimated that the signal is the operating on signal or the operation off signal. When the operating signal is turned on, the relay permitting the power to the outdoor unit is turned on. Then the air conditioner is normally operated. The power of outdoor unit is turned off when the condition is not the operating-on. When the relay is off, the condition of heating is judged. If the condition of heating is not, the power of outdoor unit is interrupted, and if the condition is prepared, the off-time is counted. As the counted off-time is longer than the given time, the counted time is reset so as to permit the power to outdoor unit. The temperature of compressor by the relay-on driving is detected. If the detected temperature of compressor is below the given temperature, the temperature of compressor is raised. The raised temperature is higher than the given temperature, the power of outdoor unit is interrupted, the temperature and standby status are continued.

Description

Power control method of air conditioner

1 is a power control block diagram of an air conditioner used in the present invention.

2 is a flowchart of a power supply control method applied to the present invention.

3 is a compressor operation control diagram applied to the present invention.

4 is an extrusion force waveform diagram of a power control block diagram applied to the present invention

* Explanation of symbols for the main parts of the drawings

1: remote control receiving unit 2: room temperature detecting unit

3: piping temperature sensing unit 4: indoor unit microcomputer

5: indoor fan drive unit 6: wind direction louver drive unit

7: power relay control unit 8: outdoor temperature sensing unit

9: piping temperature detection unit 10: outdoor unit microcomputer

11: outdoor fan drive unit 12: compressor control unit

13: compressor temperature detection unit

The present invention relates to a method for controlling the outdoor unit power of an air conditioner, and in particular, when the heating operation of the air conditioner is stopped and the temperature of the compressor is sensed and the detection temperature is lower than the predetermined temperature, the power is supplied at predetermined time intervals to control the compressor. The present invention relates to an outdoor unit power control method of an air conditioner that can reduce unnecessary power consumption.

In the conventional air conditioner, the temperature of the compressor should always be maintained above a predetermined temperature in order to protect the compressor due to the low temperature during the heating operation. At this time, if the temperature of the compressor is below a predetermined temperature, the oil supply is not desired inside the compressor during operation, which shortens the life of the compressor. Therefore, the outdoor unit is powered by the atmospheric control for maintaining the temperature of the compressor above the predetermined temperature. It will always supply the power consumption will increase.

In particular, in the outdoor unit which is composed of SMPS, which is a power supply, power consumption is increased due to this problem. In order to reduce unnecessary power consumption, the user cuts off the power supply during operation stop and supplies power during operation. I've had trouble with using it.

Accordingly, an object of the present invention is to provide unnecessary power consumption due to continuous power supply by supplying power to the indoor unit at predetermined time intervals so that the air conditioner senses the temperature of the compressor when the heating operation is stopped and maintains the predetermined temperature. To provide an outdoor unit power control method to reduce the present invention, in order to realize the above object, the present invention is to cut off the power supply of the indoor unit when the operation of the air conditioner is stopped, while the heating operation the compressor while supplying power after a predetermined elapsed time. When the detected temperature is below a predetermined temperature, the temperature of the compressor is sensed while controlling the atmosphere. When the detected temperature is above a predetermined temperature, the indoor unit is powered off.

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

1 is a block diagram of an outdoor unit power supply used in the present invention, a remote control receiver 1 for receiving an overall signal relating to an operation transmitted from a remote control transmitter, and an indoor temperature and humidity sensing unit for sensing indoor temperature and humidity during indoor air conditioning. (2) and a signal input from the pipe temperature detector (3) for sensing the pipe temperature, the remote control receiver (1), the room temperature and humidity detector (2), and the pipe temperature detector (3) to a predetermined program. The indoor microcomputer (4) for controlling and outputting the corresponding signal controlled by the control unit, the indoor fan driving unit (5) for driving the indoor fan drive control by receiving the control signal output from the indoor microcomputer (4), and to control the wind direction An indoor unit composed of a wind direction louver driving unit 6, a power relay control unit 7 for receiving a control signal from the indoor microcomputer 4, and controlling the power to the outdoor unit on and off, and an outdoor outdoor temperature sensing outdoor temperature. The temperature sensor 8, the outdoor pipe temperature sensing unit 9 for detecting the outdoor pipe temperature, the outdoor temperature sensing unit 8, the outdoor pipe temperature sensing unit 9 to control the signal input The outdoor fan driver 11 which drives the outdoor fan by outputting the control signal and the control signal output from the outdoor unit microcom 10 and the outdoor unit microcom 10 which transmits and receives a data signal with the indoor unit microcomputer 4. And a compressor temperature from a compressor control unit 12 for driving and controlling a compressor COMP with a control signal output from the outdoor unit microcom 10, and a compressor COMP controlled and driven by the compressor control unit 12. Composed of the outdoor unit consisting of a compressor temperature sensing unit (13).

2 is a flowchart of a method for controlling an outdoor unit power of the air conditioner of the present invention, in which it is determined whether the signal received in the remote control reception signal detection step 20 and the remote control reception signal detection step 20 is an operation ON signal. When the driving signal is turned on in the driving signal judging step 21 and the driving signal judging step 21, a relay on step 22 of driving a relay on for applying power to the outdoor unit and driving the air conditioner normally Normal operation step 23, the relay off step 24 for turning off the power of the outdoor unit when the operation signal determination step 21 is not in the on state, and heating operation when the relay is turned off in the relay off step 24 In the heating operation determination step 25 for determining whether the state and the heating operation determination step 25, the off-time count for turning off the power of the outdoor unit if not the heating operation, or counting the power off time if the heating operation Step 26 and a predetermined time for judging whether the off time counted in the off time counting step 26 is longer than or equal to a predetermined time are counted in the judging step 27 and the judging step 27 for more than the predetermined time. Relay on step 28 for resetting the predetermined time and supplying power to the outdoor unit, and compressor temperature sensing step 29 for sensing and inputting a temperature of a compressor driven by relay on driving in the relay on step 28. And a compressor operation temperature determining step 30 for determining whether the temperature of the compressor detected in the compressor temperature detecting step 29 is greater than or equal to a predetermined operating temperature, and the compressor temperature in the compressor operating temperature determining step 30 It is determined whether the temperature of the compressor is increased by a predetermined temperature or less when the temperature is lower than the predetermined temperature, and when the detected temperature of the compressor increased by the atmospheric control step 31 is equal to or higher than the predetermined temperature. Blocking of the power supply and not a sojeo temperature or less, will be written to the compressor temperature determining step (32) to proceed to the air control.

3 is an operation control diagram of the compressor used in the present invention, (a) shows when the compressor is in normal operation, and (b) shows when the compressor is in standby operation.

4 is an input / output waveform diagram of the operation control block diagram of the present invention.

Referring to the effects of the present invention configured as described above are as follows.

First, when the control signal for the operation of the air conditioner is transmitted through the remote control, the indoor unit microcomb 4 of the air conditioner goes to the remote control receiving step 20 and receives a signal relating to the operation input from the remote control. In operation determination step 21, it is determined whether the signal received in the remote control reception step 21 is an operation on signal as shown in FIG. 4 (a). The microcomputer 4 goes to the relay on step 22 and, as shown in FIG. 4 (b) through the power relay control unit 7, applies the power to the outdoor unit to drive the outdoor unit, and the indoor unit microcom ( In 4), go to the normal operation step 23 and control the received operation signal by a predetermined program and send the controlled signal to the outdoor unit through the transmission / reception line to the outdoor unit microcomputer 10. As shown in (a) of FIG. 3, the outdoor fan drive unit 11 and the compressor control unit 12 output a signal as shown in (e) of FIG. 4 to the compressor to drive the compressor. The temperature of the compressor is sensed as shown in (c) (d) of FIG. 4 which is driven by the temperature sensing unit 13, and the temperature is sensed by the pipe temperature sensing unit 9 of the outdoor temperature sensing unit 8. To operate the outdoor unit normally.

On the other hand, in the indoor microcomputer 4, the signal input from the outdoor unit, the signal input from the indoor temperature sensor 2, the pipe temperature sensor 3 of the indoor unit, the indoor fan driver 5, the wind direction louver driver The air conditioner is operated normally while controlling (6).

If the air conditioner is stopped while operating the air conditioner as described above, that is, if the operation is not turned on in the operation determination step 21, the indoor microcomputer 4 goes to the relay off step 24 and supplies power. The relay control unit 7 is controlled to stop the operation of the compressor as shown in FIG. 4B, and the temperature of the compressor is gradually lowered as shown in FIG. 4C.

As described above, when the operation of the outdoor unit is stopped and the temperature of the compressor is lowered, the indoor unit microcomputer 4 goes to the heating operation determination step 25 to determine whether the operation state is the heating operation state. The indoor microcomputer 4 stops the operation of the outdoor unit while going to the relay off step 24 and keeping the relay off, and if the operating state is heating operation in the heating operation determining step 25, the indoor microcomputer comb In (4), go to the off time count step 26 to count the off time of the outdoor unit, and then, in the indoor unit microcomputer 4, go to the judgment step 27 for a predetermined time or more, and the time at which the off time is counted is a predetermined time. In this case, if the counted off time does not reach a predetermined time, the indoor unit microcomputer 4 continues. Control the power supply relay control unit 7 to cut off the power of the outdoor unit continuously and when the counted off time reaches a predetermined time, the indoor unit microcomputer 4 goes to the relay on step 28 and the power relay The control unit 7 is controlled to turn on the relay as shown in FIG. 4B to apply power to the outdoor unit.

At this time, the indoor unit microcom (4) goes to the compressor temperature sensing step 29, and through the compressor temperature sensing unit 13 of the outdoor unit, as shown in (c) of FIG. 4, by detecting the temperature of the compressor and the outdoor unit microcom ( 10) the indoor unit microcom (4) receives a signal input through the outdoor unit microcom (10) to go to the compressor temperature determination step 30, the temperature of the compressor detected through the compressor temperature sensing unit 13 is predetermined If the temperature is greater than or equal to the predetermined temperature, as shown in (c) of FIG. 4, the indoor unit microcomputer 4 goes to the relay off step 24 to turn off the relay to power the outdoor unit. If the temperature detected in the compressor temperature determination step 30 is not higher than a predetermined temperature, the indoor microcomputer 4 goes to the standby control step 31 and turns off the relay as shown in (b) of FIG. Driving In order to supply power to the outdoor unit, the outdoor unit microcomputer 10 controls the compressor control unit 12 as shown in (e) of FIG. 4, so that the motor coil of the compressor A is shown in (b) of FIG. The current in the B direction is applied to increase the motor temperature of the compressor without driving the compressor.

Subsequently, the indoor unit microcomputer 4 goes to the compressor temperature determining step 32 and senses the temperature of the compressor rising to the compressor temperature detecting unit 13 through the outdoor unit microcomputer 10, and the detected temperature is determined by the predetermined temperature of the compressor. If it is determined whether the temperature is higher than the predetermined temperature at this time, the indoor unit microcomputer 4 repeats the standby control step 31 until the temperature of the accumulator reaches a predetermined temperature or more. When the temperature of the compressor is greater than or equal to a predetermined temperature, the indoor unit microcomputer 4 controls the power relay control unit 7 to cut off the power supply to stop the operation of the outdoor unit as shown in FIG. .

As such, since the temperature of the compressor is always maintained at a predetermined temperature even when the operation of the air conditioner is stopped, the compressor can be immediately started when the remote controller starts operation as shown in FIG. .

As described above, the present invention controls the power supplied to the outdoor unit so that the power is supplied during the heating operation of the air conditioner, but the temperature of the compressor is always maintained at a predetermined temperature. It can be prevented to provide power saving effect.

Claims (1)

A power control method of an air conditioner, wherein the air conditioner is supplied with power to the outdoor unit when the air conditioner is operating, and the power is continuously supplied to the outdoor unit when the operation is stopped, wherein the relay is turned off to turn off the power of the outdoor unit when the operation is stopped. Step 24, a heating operation determination step 25 for determining whether the heating operation state at the time of relay off in the relay off step 24, and if the heating operation in the heating operation determination step 25 counts the power off time An off-time counting step 26, a predetermined time or more determination step 27 for determining whether the off-time counted in the off-time counting step 26 has been a predetermined time or more, and the predetermined time or more determination step ( A relay on step 28 for resetting the predetermined time counted in step 27) and applying power to the outdoor unit; and the temperature of the compressor operated by relay on driving in the relay on step 28. Compressor temperature sensing step 29 for sensing and input, Compressor operating temperature step 30 for determining whether the temperature of the compressor detected in the compressor temperature sensing step 29 is more than a predetermined operating temperature, and the compressor operation temperature determination In step 30, if the temperature of the compressor is lower than or equal to the predetermined temperature, it is determined whether the atmospheric temperature control step 31 of raising the temperature of the compressor is higher than the predetermined temperature and the detected temperature of the compressor increased by the atmospheric control step 31. Compressor temperature determination step of shutting off the power of the outdoor unit if the predetermined temperature or more, the power control method of the air conditioner.