KR0161039B1 - Operating control method of airconditioner - Google Patents

Abstract

The present invention provides a compressor by delaying the output of a control signal for switching the operation mode for a predetermined time in order to prevent the compressor from being unstable and the compressor being unduly operated due to the rapid on / off of the compressor during frequent switching of the operation modes. The present invention relates to an operation control method of an air conditioner that is turned on / off at a stable time interval, stabilizes refrigerant, prevents excessive operation of the compressor, and prolongs the life of the compressor, and any operation mode consisting of cooling, heating, and blowing operation. An operation mode change determination step of determining whether another operation mode is selected during operation in one operation mode; A signal delay step of delaying output of a control signal for changing to the other operation mode for a predetermined time when it is determined that the other operation mode is selected as the determination result at the operation mode change determination step; And determining whether the predetermined time has elapsed after determining whether the predetermined time has elapsed, and switching to the other driving mode.

Description

Operation control method of air conditioner

The present invention relates to an operation control method of an air conditioner, and in particular, in order to prevent the refrigerant from becoming unstable and the compressor being unduly operated due to the rapid on / off of the compressor during frequent switching of the operation mode. The present invention relates to an operation control method of an air conditioner in which a compressor is turned on / off at a stable time interval by delaying the output of a control signal for a predetermined time.

In the conventional air conditioner control method, as illustrated in FIG. 1, the user determines the operation mode set from the mode setting signal sent through the remote controller to set the operation mode of the air conditioner.

The operation mode change signal is monitored while the operation mode change signal is input. If the operation mode change signal is not input, the operation mode continues. When the operation mode change signal is input as the monitoring result, it is determined whether the operation mode is stopped. When the stop signal is set as a result of this determination, the air conditioner is stopped. When the stop mode is not set as the determination result, the air conditioner is switched to the set operation mode by the operation mode change signal.

However, the operation control method of the conventional air conditioner as described above, the operation mode of the remote control air conditioner system is composed of the automatic operation, cooling operation, heating operation, dehumidification operation and blowing operation mode, the preset operation mode If the operation mode is changed to another operation mode, for example, when switching to the cooling operation mode during the dehumidification operation mode, the cooling operation mode must be set via the blow operation mode, and thus the compressor in operation is temporarily turned off and then on. Will be.

Therefore, there was a problem of generating unnecessary power consumption due to this off phenomenon.

In addition, the air conditioner disclosed in Japanese Unexamined Utility Model Publication No. 4-136444 is an air conditioner that operates by a signal from a remote controller that is capable of switching the operation state by switching each switch. The stop operation is controlled to be delayed for 1 to 3 seconds after the signal from the remote controller is input.

However, the conventional air conditioner as described above has a problem that it is not possible to change the operation mode of the air conditioner quickly even if it is not necessary to stop the compressor by controlling the delay of about 1 to 3 seconds when switching the operation mode. .

Accordingly, the present invention is to solve the above problems, the compressor is suddenly turned on / off during frequent switching of the operation mode to prevent the refrigerant from becoming unstable and to operate the compressor unduly, and to stop the compressor when switching the operation mode If there is no need to provide an operation control method of the air conditioner to be able to perform the operation mode switching of the air conditioner quickly by outputting a control signal for switching the operation mode without delay.

According to an aspect of the present invention, there is provided a driving mode change determining step of determining whether another driving mode is selected as a driving mode among driving modes including cooling, heating, and blowing operation; Determining whether to stop the compressor when switching to the other operation mode when it is determined that the other operation mode is selected as a result of the determination at the operation mode change determination step; When it is determined that the compressor should be stopped as a result of the determination at the compressor stop determination step, the control signal for changing to the other operation mode is delayed and output for a predetermined time, and the compressor is determined as the determination result at the compressor stop determination step. A signal delay step of outputting, without delay, a control signal for switching to the other operation mode if it is determined that it is not necessary to stop; And an operation mode switching step of switching to the other operation mode according to a control signal for switching to the other operation mode output in the signal delay step.

1 is a control flow chart of a conventional air conditioner.

2 is a control circuit diagram of an air conditioner to which the present invention is applied.

3 is a control flowchart according to the present invention.

* Explanation of symbols for main parts of the drawings

1: room temperature sensor 2: microprocessor

3: heat exchanger temperature sensor 4: compressor driving part

5: fan 6: fan drive unit

7 display unit 8 power unit

9: Remote controller receiving unit 10: Wind direction wing control unit

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

As shown in FIG. 2, the control circuit to which the present invention is applied includes an indoor temperature sensor 1 for sensing a room temperature and generating a detection signal, and an input from the indoor temperature sensor 1; A microprocessor 2 which collectively controls the operation of the system according to the determination signal after comparing and determining the detection circuit, and a heat exchanger temperature sensor for inputting current temperature data around the heat exchanger detected by the microprocessor 2 ( 3) a compressor driving unit 4 for driving a compressor by the drive control signal of the microprocessor 2 to compress the refrigerant, and heat generated by driving the fan 5 by the operation control signal of the microprocessor 2. A fan drive unit 6 for moving the display unit, a display unit 7 for displaying an internal function operation according to a display control signal of the microprocessor 2, and a microprocessor 2 connected to the system A power supply unit 8 for supplying an operating voltage to the whole, and a remote controller receiving unit 9 for receiving and transmitting the operation mode setting signal to the microprocessor 2 through a user's remote controller.

The microprocessor 2 is connected to a wind vane adjustment unit 10 for controlling the air volume by adjusting the wind vane in various directions by an operation control signal of the microprocessor 2.

Next, the control method of the present invention applied to the control circuit of the above configuration will be described.

First, when the user sends the mode setting signal of the operation mode, for example, the dehumidification operation mode, sent from the mode setting signal sent to set the operation mode of the air conditioner to the remote controller receiving unit 9, the remote controller receiving unit 9 The mode setting signal is loaded into the microprocessor 2 at.

Accordingly, the microprocessor 2 determines the mode set in the order of the auto-cooling-heating-dehumidification-blowing operation mode by the mode setting signal as shown in FIG.

That is, it is determined whether the automatic operation mode is set, and if the automatic operation mode is not set, it is determined whether the cooling operation mode is set. If the cooling operation mode is not set, it is determined whether the heating operation mode is set. If the heating operation mode is not set, it is determined whether the dehumidification operation mode is set. Thereafter, the mode set by the mode setting signal is determined to control the air conditioner system to the selected operation mode.

At this time, since the dehumidification operation mode is set, the dehumidification operation mode is performed, and the compressor driving unit 4 and the fan driving unit 6 are driven to heat-exchange the latent heat contained in the circulated air. Then, during the dehumidification operation mode, the microprocessor 2 monitors whether an operation mode change signal, for example, a cooling operation mode setting signal, is input.

In this case, when the operation mode change signal is not input, the dehumidification operation is repeatedly performed, and when the operation mode change signal is input, the microprocessor (for a predetermined time, about 2 seconds to 3 seconds, proceeds to the signal delay step. In 2), the signal delay operation for delaying the output of the mode change control signal for changing the operation mode is performed.

Subsequently, it is determined whether the signal delay set in the next step has elapsed. If the set signal delay time has not elapsed, the determination operation is repeatedly performed until the signal delay time elapses.

In addition, when the set delay time elapses as determined by the setting delay time determining step, it is determined whether the mode change control signal output from the microprocessor 2 is in the stop operation mode. If the stop operation mode is set, stop the operation of the air conditioner. If the stop operation mode is not set, stop the operation of the air conditioner. If the stop operation mode is not set, change the operation mode. The operation proceeds to the operation mode set by the signal, that is, the cooling operation mode, and performs the cooling operation in accordance with the setting data set by the user, such as setting data such as room temperature and air volume.

That is, the microprocessor 2 drives the compressor driving unit 4 and the fan driving unit 6 to maintain the set indoor temperature, and the air volume is adjusted to uniformly heat exchange the indoor air through the wind direction wing adjusting unit 10. .

In addition, if another operation mode is selected while the air conditioner is operating in the predetermined operation mode, the output of the control signal for switching the operation mode is delayed by a predetermined time by the microprocessor, and the compressor is turned on / off at a stable time interval.

In addition, when the operation mode is changed from the dehumidification operation mode to the cooling operation mode, the blowing operation mode must be passed. At this time, since the operation mode is changed through the signal delay step, the operation mode can be switched without turning off the compressor.

In addition, if the operation mode change signal is input while the blowing operation mode is being performed, the compressor is already stopped in accordance with the blowing operation, and thus, the compressor is switched to the selected operation mode immediately without going through the signal delay step.

As described above, according to the present invention, even when the operation mode is frequently switched due to a user's mistake or a mischief of a child when setting the mode of the air conditioner, the microprocessor delays the output of the control signal for switching the operation mode for a predetermined time. As a result, the compressor is turned on / off at a stable time interval to stabilize the refrigerant and prevent excessive operation of the compressor. Accordingly, the loss of starting current due to the re-driving of the compressor can be eliminated, thereby reducing the power consumption of the system and extending the life of the compressor.

Claims (1)

An operation mode change determination step of determining whether another operation mode is selected during operation in one of operation modes consisting of cooling, heating, and blowing operation; Determining whether to stop the compressor when switching to the other operation mode when it is determined that the other operation mode is selected as a result of the determination at the operation mode change determination step; If it is determined in the compressor stop determination step that the compressor should be stopped, the control signal for changing to the other operation mode is delayed and output for a predetermined time, and as a result of the determination in the compressor stop determination step A signal delay step of outputting, without delay, a control signal for switching to the other operation mode if it is determined that it is not necessary to stop; And an operation mode switching step of switching to another operation mode according to a control signal for switching to the other operation mode output in the signal delay step.