KR20030067246A - A control method and apparatus of air conditioner - Google Patents

Abstract

PURPOSE: A method and an apparatus for controlling operation of an air conditioner is provided to determine whether fixed time has passed since power is cut off and to control the air conditioner to be immediately driven. CONSTITUTION: An apparatus includes a capacitor(C) charged with voltage when power is impressed; a first resistor(R1) and a first diode(D1) placed to charge the capacitor when voltage momentarily fluctuates or electric current is off again; a second resistor(R2) and a second diode(D2) placed to discharge the capacitor; and a microcomputer(10) determining whether fixed time has passed since the discharge to control an air conditioner to work. A method includes the steps of: a step determining whether the fixed time has passed since re-supply of power based on voltage charged in the capacitor; a step delaying driving of a compressor until the fixed time has passed using an inner timer if the voltage charged in the capacity is higher than a fixed value; and a step immediately driving the compressor if the voltage charged in the capacitor is lower than the fixed value.

Description

Operation control method and apparatus of an air conditioner {A control method and apparatus of air conditioner}

The present invention relates to an operation control method and apparatus of an air conditioner, and more particularly, an operation control method of an air conditioner for controlling the air conditioner to be driven immediately in a cooling / heating operation mode without requiring a delay time when the power is reapplied to the air conditioner. And to an apparatus.

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 air conditioner according to the prior art to be driven when the power is returned after the power is turned off.

As shown in the figure, a signal input unit 6 for inputting a control signal to an air conditioner, a power supply unit 5 for supplying power to the air conditioner, a timer 2 for counting time, and the timer ( Rechargeable battery 1 for supplying power so that 2) can operate, a compressor 4 for operating the air conditioner for cooling / heating, and air for the air conditioner while the compressor 4 is driven. It is comprised including the control part 3 which controls a harmonic.

As shown in the above configuration, when the user inputs a control signal through the signal input unit 6, the control unit 3 receiving the signal controls the compressor 4 of the air conditioner to be driven. Accordingly, the compressor 4 is driven through the control of the controller 3 to perform air conditioning / heating.

At this time, when the air conditioner is interrupted or the power is turned off during the cooling / heating air conditioning, the timer (2) provided in the air conditioner measures the delay time.

That is, when the air conditioner is powered off or a power failure occurs, the timer 2 built in the air conditioner measures the time. Rechargeable battery 1, which is a separate power supply source, is provided to operate the timer 2 even under the condition that power is not supplied to the air conditioner.

When the time measurement of the timer 2 is performed, power is supplied in the process, and the power failure is restored, the timer 2 transmits the measured time data to the controller 3.

The controller 3 determines whether there is a three minute delay based on the received time data. The reason for detecting the presence or absence of a three minute delay as described above is that the compressor 4 is set to determine whether there is a three minute delay after the supply of power to the air conditioner is stopped.

In addition, in the case of the air conditioner without the timer 2, the operation is performed only after a predetermined time (for example, 3 minutes) elapses after power is supplied to the air conditioner after the power failure.

Therefore, the operation control method of the air conditioner according to the prior art is that the power supply is stopped while the air conditioner is being driven, or the power supply is re-supplied after the power supply is cut off due to a power failure, so that the air conditioner operates for a predetermined time. Needed. Therefore, three minutes had elapsed since the power was supplied again and a separate built-in timer had to be measured.

In addition, when the timer is not built in, when the power supply is cut off after supplying power to the air conditioner, the air conditioner is driven after a predetermined time elapses, thereby delaying the driving time of the air conditioner.

Accordingly, an object of the present invention is to provide an operation control method and apparatus for an air conditioner for controlling the air conditioner to be driven immediately by determining whether there is a predetermined time delay when power is supplied to the air conditioner after the power is cut off.

1 is a control configuration for controlling the air conditioner according to the prior art to be driven when the power is off and returning power.

Figure 2 is a control configuration for controlling the air conditioner according to the invention to be driven when the power is off and the power return.

3 is an operation control flowchart illustrating an operation process when power is returned after the air conditioner according to the present invention is turned off.

Explanation of symbols on the main parts of the drawings

10: microcomputer R1, R2: resistance 1,2

D1, D2: Diode C: Capacitor (C)

The operation control method of the air conditioner according to the present invention for achieving the above object has a discharge time corresponding to the predetermined time, in order to drive the compressor at a time when a predetermined time has elapsed at the time of power supply resupply, An air conditioner having charging and discharging means which is charged at the time of power supply and discharged when the power is cut off, determining the elapse of the predetermined time based on the voltage charged in the charging and discharging means at the time of resupply of power. And delaying the operation of the compressor until a predetermined time has elapsed by an internal timer when the voltage charged in the charging / discharging means is higher than a predetermined value, and when the voltage charged in the charging / discharging means is lower than a predetermined value. And immediately driving the compressor.

In addition, the operation control apparatus of the air conditioner according to the present invention has a discharge time corresponding to the predetermined time in the air conditioner for driving the compressor when a predetermined time has elapsed at the time of power supply resupply, A capacitor which is charged at the time of power supply and discharged when the power is cut off, discharge path forming means for forming a discharge path of the capacitor, voltage detection means connected to the capacitor to detect the voltage charged in the capacitor; And control means for determining a restart time of the compressor based on the voltage value detected through the voltage detecting means.

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

2 is a control diagram for controlling the time so that the air conditioner according to the present invention is powered off and driven when the power is returned.

As shown in the figure, a capacitor (C) that is charged with voltage when power is applied, resistors (R1) and diodes (D1) and resistors (R1) and diodes (D1) which are provided for charging the capacitor (C) during a momentary change or reset of power. The capacitor C is charged to discharge the value charged by the capacitor C, the voltage is charged to the resistor 2 R2 and the diode 2 DD, and the capacitor C determines whether there is a time delay and discharges the air conditioning. It is configured to include a microcomputer 10 for controlling the machine to be driven.

The power is cut off while the air conditioner is running. As the power supplied to the air conditioner is cut off, the current applied to the capacitor C is discharged at the same time as the power is applied. At this time, it takes a predetermined time (for example, 3 minutes) to completely discharge from the capacitor (C). The discharge elapses for a predetermined time or more, and power is reapplied to the air conditioner. At this time, the air conditioner is controlled to be driven immediately according to the determination of the controller 3.

Looking at the control operation according to the connection relationship of the control configuration of Figure 2 as follows.

The microcomputer 10 includes a P00 port for sensing a value applied to the capacitor C, and a P01 port for outputting a signal for driving the air conditioner by determining whether there is a time delay according to the detected value. The P00 port is connected to the diode 1 (D1), and the P01 port is connected to the resistor 1 (R1), respectively. The diode 1 (D1) and the resistor 1 (R1) are connected in series.

On the other hand, 5V power is applied, and diode 2 (D2), resistor 2 (R2), and capacitor C are connected in series to the applied power. The P00 port of the microcomputer 10 is connected between the resistor 2 (R2) and the capacitor (C).

In the control configuration configured as described above, when power is supplied to the air conditioner, the capacitor C starts to charge. Power is cut off to the air conditioner in the state where the capacitor C is charged. When the air conditioner is turned off, the current charged in the capacitor C starts to discharge. When the power is re-input to the air conditioner, the microcomputer 10 determines the voltage applied to the P01 port of the microcomputer 10.

The P01 port provided in the microcomputer 10 is supplied with an air conditioner and charged with a current in the capacitor C. When the power is turned off, the capacitor C discharges. When the power is re-input to the air conditioner, the microcomputer 10 controls whether the air conditioner is driven according to the voltage detected at the PO1 port.

That is, if the voltage applied to the P01 port provided in the microcomputer 10 is low, the air conditioner is turned off, and after 3 minutes or more, the power is turned off. To carry out the operation, the microcomputer 10 immediately controls the compressor 4 to be driven.

On the other hand, if the value applied to P01 is a high signal, the microcomputer 10 determines that the predetermined time has passed after the power is applied to the air conditioner, the power is turned off, and the power is applied again. After a predetermined time elapses until the cooling / heating operation is performed, the compressor 4 is controlled to be driven.

If the voltage applied to the PO1 port of the microcomputer 10 is a high signal after the air conditioner is re-applied, a predetermined time (for example, 3 minutes until the air conditioner is driven to perform cooling / heating operation). Is driven after elapse of time. At this time, the timer 2 for measuring the process is basically embedded in the microcomputer 10.

3 is an operation control flowchart for determining whether there is a time delay to operate the air conditioner according to the present invention.

When power is applied to drive an air conditioner, power is simultaneously applied to the microcomputer 10 due to the power supply. When the power supply is cut off after the power is input and the power is input again, the power is again applied to the microcomputer 10 (step 100).

After the power is applied in step 100, the charging value of the capacitor C connected to the P00 port provided in the microcomputer 10 is checked to determine whether there is a delay for a predetermined time until the air conditioner is driven.

When the capacitor C is checked from the P00 port and the power is supplied to the air conditioner, when it is determined that the electric charge charged to the capacitor is completely discharged (step 110), according to the signal detected from the P01 port When the low signal is output, the air conditioner determines that a predetermined time has elapsed before driving, and controls the compressor 4 of the air conditioner to be driven immediately without a time delay when the power is applied again.

That is, when it is determined that 3 minutes has elapsed according to the charge value of the capacitor C sensed from the P00 port provided in the microcomputer 10, a 3-minute flag set is output (step 120).

Recognizing that 3 minutes have elapsed in step 120, the microcomputer controls the compressor 4 to be driven by the output signal. Therefore, the compressor is driven (step 170).

Meanwhile, the discharge of the capacitor C is checked according to the value of the capacitor C detected from the P00 port of the microcomputer 10 provided in the air conditioner, and it is determined whether a predetermined time has elapsed (step 110). ).

If it is determined that the predetermined time (3 minutes) has not elapsed, a signal is output from the P01 port to the capacitor C to complete the charging. Accordingly, the charging is continued until the charging of the capacitor C is completed (step 180).

Then, it is determined whether a predetermined time has elapsed from the internal timer 2 provided in the microcomputer 10 (step 130), and the user determines a cooling / heating operation signal input before the power is cut off (140). When the internal timer determines that the predetermined time has elapsed (step 150), the capacitor C outputs a signal to the P01 port of the microcomputer 10 so that the capacitor C is charged, and the capacitor C continues charging. (Step 160). After the power is applied to the air conditioner, the compressor 4 is delayed for a predetermined time (step 170).

As described above, according to the present invention, it is a basic technical idea that the air conditioner is controlled to be driven immediately by determining whether a predetermined time delay occurs when the power supply is reapplied after the power supply is cut off.

If the air conditioner is a low signal according to the signal detected at the P01 port provided in the microcomputer to determine whether there is a delay (3 minutes) after the power is applied again, the compressor (4) immediately drives the compressor (4). The compressor 4 is driven to operate after a predetermined time delay.

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, according to the present invention, a separate time measuring device for measuring the time for stopping the operation of the air conditioner becomes unnecessary. And it is possible to determine whether 3 minutes have elapsed even without the time measuring timer.

In addition, the air conditioner determines whether there is a delay of a predetermined time (3 minutes) when the power is reapplied after a power failure, and the compressor is driven immediately upon reapply after the product is turned off for a long time so that the cooling / heating operation can be driven faster. It was.

Accordingly, according to the state of the air conditioner before the power supply of the air conditioner is re-applied, it is not burdened to drive the compressor by determining whether there is a three branch delay so that the compressor is driven after the power supply is reapplied.

Claims (5)

In the air conditioner for driving the compressor when a predetermined time has elapsed at the time of power supply resupply, A capacitor having a discharge time corresponding to the predetermined time and charged when the power is supplied to the product and then discharged when the power is cut off; Discharge path forming means for forming a discharge path of the capacitor; Voltage detecting means connected to the capacitor to detect a voltage charged in the capacitor; And control means for determining a restart time of the compressor based on the voltage value detected through the voltage detection means. The method of claim 1, The control means is configured to include an internal timer, And the compressor is restarted when a predetermined time has elapsed by the internal timer when the detected value of the voltage detecting means is higher than a predetermined value. The method of claim 1, And said discharge path forming means comprises a resistor and a diode. The method of claim 1, The voltage detecting means is connected between the voltage output terminal of the control means and the capacitor to form a charging path of the capacitor, And the capacitor is charged by receiving a voltage passing through the control means. In order to drive the compressor when a predetermined time has elapsed at the time of re-supply of power, the compressor has a discharge time corresponding to the predetermined time and is charged and discharged when the power is supplied to the product and discharged when the power is cut off. In one air conditioner, Determining the elapse of the predetermined time based on the voltage charged in the charging / discharging means at the time of resupply of power; Delaying the operation of the compressor until a predetermined time has elapsed by an internal timer when the voltage charged in the charging / discharging means is higher than a predetermined value; And operating the compressor immediately when the voltage charged in the charging / discharging means is lower than a predetermined value.