KR100858539B1 - A control method of air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly, to an operation control method of an air conditioner that stops driving of an outdoor unit and prevents damage to components when a momentary power failure occurs while the air conditioner is being driven.

According to the present invention, the missing signal of the zero cross position of the AC power applied to the outdoor unit is sensed for a certain period. When the missing signal is detected, the detected period is deleted, and the deleted signal is transmitted to the controller. When the deletion signal of the period in which the missing signal is detected is continuously generated by the control operation as described above, the controller determines that a momentary power failure has occurred. Accordingly, the input of AC power supplied to the outdoor unit is cut off.

Outdoor unit, zero cross position, momentary power failure

Description

A control method of air conditioner

1 is a simplified diagram of a cooling / heating cycle of a typical air conditioner.

2 is a waveform diagram showing an AC power input to an outdoor unit.

Figure 3 is an operation control flow diagram of the air conditioner driving control according to the prior art, when a momentary power failure occurs.

Figure 4 is a control configuration for detecting when a momentary power failure occurs during the operation of the air conditioner according to the present invention.

5 is an operation control flow diagram in which the air conditioner driving control according to the present invention when a momentary power failure occurs.

    Explanation of symbols on the main parts of the drawings

10: power supply 20: zero cross position detection circuit

30: compressor 40: indoor fan

50: control unit

The present invention relates to an air conditioner, and more particularly, to an operation control method of an air conditioner for stopping an operation of an outdoor unit by detecting a momentary power failure while an air conditioner is being driven.

In general, an air conditioner drives a heating cycle and a cooling cycle according to a user's request, creates a warm room in a cold winter by operation of the heating cycle, and cools a room in a hot summer by the operation of the cooling cycle. In addition, the air conditioner controls the humidity in the room, and controls the air in the room to a comfortable clean state.

The circulation cycle of the air conditioner configured as described above consists of a heating cycle when the indoor heat exchanger functions as a condenser, and constitutes a cooling cycle when the indoor heat exchanger functions as an evaporator.

1 is a schematic diagram of a cooling / heating cycle of a general air conditioner.

In the heating operation by the heating cycle, the compressor 3 first compresses the refrigerant. The compressed refrigerant is delivered to the indoor heat exchanger (1). At this time, the refrigerant flowing in the indoor heat exchanger 1 discharges heat to the indoor side, and warm wind is discharged to the indoor side. And the refrigerant passing through the indoor heat exchanger (1) is sucked into the outdoor heat exchanger (2). At this time, the outdoor heat exchanger (2) performs the evaporation operation to discharge the cold wind to the outside.

On the other hand, in the cooling operation by a cooling cycle, the compressor 3 first compresses a refrigerant. The compressed refrigerant is delivered to the outdoor heat exchanger (2). The outdoor heat exchanger 2 condenses the delivered refrigerant and delivers the condensed refrigerant to the indoor heat exchanger 1. Accordingly, as the indoor heat exchanger 1 is driven, the refrigerant absorbs heat of the indoor air, and cold wind is discharged to the indoor side.

As described above, when a DC peak voltage or the like is generated while driving in a cooling / heating cycle, a momentary power failure occurs, the air conditioner stops driving. In this case, the process of controlling the air conditioner to stop driving as described above is as follows.

2 is a waveform diagram illustrating AC power input to an outdoor unit.

Power is supplied to the air conditioner, and the user inputs an operation control signal. Carry out cooling / heating cycle drive according to operation control signal input. At this time, AC power rated at 50 HZ or AC power rated at 60 HZ is input to the outdoor unit according to the product characteristics. When AC power is input and the level of AC power reaches zero cross point of 0, a pulse signal is output. The 50HZ generates 100 pulse signals per second, and the 60HZ generates 120 pulse signals per second.

As shown in FIG. 2, when the supply of the AC power is cut off and the input pulse according to the application of the AC power is not continuously input for more than a predetermined time or a predetermined number of times, the control means (not shown) determines that it is a momentary power failure state. In addition to controlling all loads in the current operation mode to the off state, the state data of the current operation mode is stored in the memory means (not shown). After that, the control means (not shown) is in the standby state, and when power is again applied to the AC power supply, the state data of the operation mode before power failure stored in the memory means (not shown) is read. Control to operate in the relevant operation mode.                         

3 is an operation control flowchart of driving and controlling an air conditioner according to the related art when a momentary power failure occurs.

Power is supplied to the product, and the user inputs an operation control signal using a key input unit or a remote controller provided in the indoor unit. The operation control signal is transmitted to the control means, and controls the control means receiving the signal to drive the air conditioner. As a result, the air conditioner performs a cooling / heating cycle (step 100).

At this time, it is determined whether the AC power supplied to the outdoor unit is rated 50HZ (step 110). When the AC power supplied to the outdoor unit is rated at 50 HZ in operation 110, a pulse signal of detecting 100 zero-cross positions is output per minute. And the pulse signal is transmitted to the control means. Accordingly, the control unit determines the state of the air conditioner based on the transmitted pulse signal. As described above, when 100 pulse signals are input, when n cycles, i.e., n * 2 or more, zero cross position detection is not detected, the control unit determines that a momentary power failure has occurred in the air conditioner.

That is, as the AC power supply rated at 50 HZ is input to the outdoor unit, pulse signals that do not sense the zero cross position are counted among the 100 pulse signals representing the zero cross position detection signal (step 120). If the pulse signal which does not sense the zero cross position is 100- (n * 2) or more times (step 130), it is transmitted to the control means. Accordingly, the control means determines that the air conditioner is a momentary power failure state, and controls the driving of the outdoor unit to be turned off (step 140).

In this case, conventionally, in detecting the zero cross position, the cumulative count is executed, and the missing state in which the zero cross position is not detected continuously progresses n * 2 times or more, and the total number of misses accumulated within one second is increased. Even if n * 2 or more times, an error that is determined to be a momentary power failure occurred.

On the other hand, when the AC power supplied to the outdoor unit in step 110 is rated 60HZ, the zero cross detection circuit outputs a pulse signal of detecting 120 zero cross positions per minute. And the pulse signal is transmitted to the control means. Accordingly, the control unit determines the state of the air conditioner based on the transmitted pulse signal. As described above, when 120 pulse signals are input and the m cycles, i.e., m * 2 or more zero-cross position detections are not detected and are missing, the control unit determines that a momentary power failure has occurred in the air conditioner.

That is, as AC power rated at 60 HZ is input to the outdoor unit, the total cumulative number of times of not detecting the zero cross position is counted among the pulse signals 120 representing the zero cross position detecting signal (step 150). In operation 150, the total cumulative number of times of not detecting the zero cross position is transmitted to the control means. The control means determines that the air conditioner is in the momentary power failure state when the pulse signal detecting the zero cross position is 120- (m * 2) or more (step 160). Accordingly, the control means controls the driving of the outdoor unit to be turned off (step 140).

In this case, conventionally, in detecting the zero cross position, as the cumulative count is executed, the missing state in which the zero cross position is not detected continuously progresses more than m * 2 times, as well as the total number of misses accumulated within one second. Even if m * 2 or more times, an error that determines the instantaneous power failure occurred.

As described above, as the air conditioner controls the operation, at least one second should elapse in order to determine that it is a momentary power failure. Accordingly, it was possible to control the air conditioner by satisfying the instantaneous power failure condition. As a result, a semiconductor component, etc. configured in a circuit are damaged due to a DC peak generated during a momentary power failure.

In addition, by counting the missing state of the zero-cross position detection cumulatively, the control means is determined to be momentary power failure, and the result is that the life of the product is shortened by unnecessary off control of the outdoor unit unnecessarily.

Accordingly, an object of the present invention is to provide a method for controlling the operation of an air conditioner that immediately stops driving an outdoor unit by determining that a zero power failure omission signal is generated for a predetermined number of times or more.

In order to achieve the above object, the operation control method of the air conditioner according to the present invention comprises the steps of: detecting a missing signal at the zero cross position of the AC power applied to the outdoor unit; If a missing signal occurs, deleting a period of a predetermined time including the missing signal; And determining that a momentary power failure has occurred when the number of cycles deleted by the above steps reaches a predetermined number of times continuously.

Hereinafter, the air conditioner according to the present invention will be described with reference to a method of detecting and controlling operation when a momentary power failure occurs while driving.                     

4 is a control block diagram for detecting when a momentary power failure occurs while the air conditioner according to the present invention is driven.

As shown in the figure, the present invention provides a power supply unit 10 for supplying AC power to the outdoor unit, a zero cross position sensing circuit 20 for sensing the phase of the input AC power, and a compressor 30 for compressing the refrigerant. ), The outdoor fan 40 for discharging heat generated by the driving of the compressor 30 to the outside, and the outdoor unit 40 determines whether there is a momentary power failure according to a signal detected through the zero cross position detecting circuit 20. It is configured to include a control unit 50 for controlling the.

The control configuration as described above is controlled as follows.

The AC power as shown in FIG. 2 is supplied to the outdoor unit, and the zero cross position detecting circuit 20 senses the zero cross position of the supplied AC power. The detected position signal is transmitted to the controller 50. Then, the controller 50 determines whether the air conditioner is momentary out of power according to the transmitted zero cross position detection signal. When it is determined by the control unit 50 that the momentary power failure state is not, the compressor 30 and the indoor fan 40 are driven in accordance with an operation control signal input through a key input unit (not shown) provided in the indoor unit to cool / cool. The heating cycle will be performed.

However, if the zero cross position of the AC power input to the outdoor unit is sensed and missed for a predetermined number of times or for a predetermined time or more, the controller 50 determines that the momentary power failure state is controlled to immediately stop the driving of the outdoor unit. Thereafter, the controller 50 is in the operation standby state, and when the power is applied again, the controller 50 controls to be driven in the operation mode before the power failure.                     

5 is an operation control flowchart of driving control of the air conditioner according to the present invention when a momentary power failure occurs.

Power is supplied to the product, and the user inputs an operation control signal using a key input unit (not shown) or a remote controller provided in the indoor unit. The operation control signal is transmitted to the controller 50, and the controller 50 receiving the signal controls the air conditioner to be driven. As a result, the air conditioner performs a cooling / heating cycle (step 200).

As the AC power supply rated at 50 HZ is input to the outdoor unit, 100 pulse signals are transmitted to the controller 50 in one minute. As described above, when the pulse signal is input to the controller 50 and detects the zero cross position continuously for n cycles, that is, n * 2 or more times, the controller 50 determines that a momentary power failure has occurred in the air conditioner.

That is, during step 200, it is determined whether the AC power supplied to the outdoor unit is rated at 50 HZ (step 210). When the AC power supplied to the outdoor unit by the step 210 is rated 50HZ, a pulse signal that detects 100 zero-cross positions per minute is output through the zero-cross position detecting circuit 20. The pulse signal is transmitted to the controller 50.

In addition, a missing signal is detected from the pulse signal output as described above, and the detected signal is transmitted to the controller 50 to determine whether it is a momentary power failure. At this time, in order to determine whether the omission signal is continuously detected n * 2 times at the zero cross position, the period of the timer is first increased by 10 ms period (step 220). If a missing signal is detected during the 10 ms period, the number of times of the timer is deleted (step 230).                     

As described above, if the number of times of deletion of the timer that is increased according to the occurrence of the missing signal is not continuously performed n * 2 times by repeating step 230 from step 230, the signal is transmitted to the controller 50, and the controller 50 determines that a momentary power failure has not occurred.

However, in step 220, the signal is transmitted to the controller 50 when the number of times of deleting the timer which is increased when detecting the missing signal at the zero cross position reaches n * 2 times continuously. The controller 50 determines that a momentary power failure has occurred when the number of times of deletion according to the increase of the period of the timer is greater than n * 2, and controls the applied power supplied to the outdoor unit to be cut off (step 250). As a result, the driving of the air conditioner is stopped.

On the other hand, when the rated AC power supplied to the outdoor unit is 60HZ, 120 pulse signals are transmitted to the controller 50 in one minute. As described above, when the pulse signal is input to the controller 50 and detects zero cross positions continuously for m cycles, that is, m * 2 or more times, the controller 50 generates a momentary power failure while AC power is supplied to the outdoor unit. Judging by it.

That is, it is determined whether the AC power supplied to the outdoor unit in step 210 is the rated 60HZ. When the AC power supplied to the outdoor unit in step 210 is rated at 60 HZ, a pulse signal detecting 120 zero-cross positions is output in one minute. The pulse signal is transmitted to the controller 50.

The omission signal is detected from the pulse signal output as described above, and the detected signal is transmitted to the controller 50 to determine whether the momentary power failure occurs. At this time, in order to determine whether the omission signal is continuously detected m * 2 times at the zero cross position, the period of the timer is first increased by 10 ms period (step 260). If a missing signal is detected during the 10 ms period, the number of times of the timer is deleted (step 270).

As described above, if the number of times of deleting the timer, which is increased according to the missing signal generation, is not continuously performed m * 2 times by repeating step 270 through step 270, the signal is transmitted to the controller 50. 50 determines that a momentary power failure has not occurred. As a result, the air conditioner continues to operate normally.

However, in step 260, the signal is transmitted to the controller 50 when the number of times of increasing the timer deletion when the missing signal is detected at the zero cross position continuously reaches m * 2 times. If the number of times the timer is deleted is m * 2 or more, the controller 50 determines that a momentary power failure has occurred, and controls the AC power supplied to the outdoor unit to be cut off immediately (step 250). This causes the air conditioner to stop immediately.

As described above, the present invention detects the missing signal of the zero cross position of the AC power applied to the outdoor unit for a predetermined period, deletes the period in which the missing signal is detected, and when the deleted period reaches a predetermined number of times continuously. The basic technical idea is to cut off the AC power supplied to the outdoor unit by determining that a momentary power failure has occurred.

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

Therefore, the driving control method of the air conditioner according to the present invention can expect the following effects.

Conventionally, at least one second or more must elapse in order to detect whether there is a momentary power failure. However, in the present invention, the instantaneous power failure is determined and the power of the outdoor unit is immediately controlled. As a result, it is possible to prevent damage to semiconductor components in the circuit due to generation of DC peak or the like.

In addition, compared to conventionally determining whether the momentary power failure by accumulating the missing signal, the present invention can prevent the frequent operation stop of the outdoor unit by determining whether the instantaneous power failure only for the continuously detected missing signal, consequently the outdoor unit It is possible to prevent the life of the product from shortening.

Accordingly, the user using the product according to the present invention can maximize satisfaction with the product.

Claims (3)

Detecting a missing signal at a zero cross position of the AC power applied to the outdoor unit; If a missing signal occurs, deleting a period of a predetermined time including the missing signal; And determining that a momentary power failure has occurred if the number of cycles deleted by the deleting of the cycle is more than a predetermined number of times. The method of claim 1, The operation control method of the air conditioner, characterized in that for varying the period of the predetermined time in accordance with the rating of the AC power source. The method of claim 1, An operation control method of an air conditioner, characterized in that for controlling the predetermined number of times differently according to the rating of the AC power applied to the outdoor unit.

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