KR20030023157A - Power control system of air conditioner on stan-by and method thereof - Google Patents

Abstract

PURPOSE: A system for controlling standby power of an air conditioner and control method thereof are provided to drive load of the air conditioner at existing set value when returning to a normal mode after standby mode. CONSTITUTION: A system comprises an input power supply part(110) supplied with utility voltage for driving an air conditioner; a first direct current voltage generating part(120a) and a second direct current voltage generating part(120b) converting utility voltage supplied to the input power supply part into direct current voltage through a transformer and supplying to load(150) and a microcomputer(160), respectively; a cut-off switching part(130) cutting off direct current voltage output by the first direct current generating part; a first constant-voltage generating part(140a) smoothing direct current voltage supplied through the cut-off switching part to output as constant voltage; a second constant-voltage generating part(140b) smoothing direct current output by the second direct current voltage generating part to output as constant voltage; the load driven by constant voltage generated by the first constant-voltage generating part; and the microcomputer driven by constant voltage generated by the second constant-voltage generating part.

Description

Standby power control system of air conditioner and its control method {Power control system of air conditioner on stan-by and method

The present invention relates to a standby power control system of the air conditioner and a control method thereof, and more specifically, to operate the power saving mode by any button operation of the operation unit of the main body for driving the air conditioner, to cut off only the power supplied to the load, The present invention relates to a standby power control system for an air conditioner and a method of controlling the same, which maintains power supplied to the microcomputer so that the microcomputer function is not initialized.

In general, in home appliances such as air conditioners, the circuit configuration becomes integrated circuits, and as the speed and precision of signal processing technologies are advanced, stabilization of operating power is inevitably required, and automatic power on / off functions and memory functions are required. As it is adopted and multifunctional, power supply mode is divided into normal mode and standby mode. In normal mode, power consumption is consumed by user's need, but in standby mode, minimal standby power is consumed to perform functions.

However, since power consumption in the standby mode is small but the standby time is long, power consumption cannot be ignored in each home, and recently, various studies have been conducted to minimize standby power consumption in the standby mode.

1 is a front view of a typical air conditioner shown to explain a standby power control system and a control method of a conventional air conditioner.

As shown in FIG. 1, in the related art, in order to control the standby power, the suction grill 2 on the inlet side of the air conditioner 1 is opened, and after the cutoff switch 5 is attached to any part of the inside, the air conditioner ( When the air conditioner 1 is not used for a certain period of time by connecting a switch (not shown) to the power supply used as the input power at the main control part of 1), the power saving function is turned off by turning off the cutoff switch 5 attached to the arbitrary part. Shut down standby power by operating the function.

However, when the standby power is cut in the above manner, there is a problem in that the suction grill of the air conditioner is opened and the on / off operation of the cutoff switch is closed.

2 is a circuit diagram illustrating a standby power control system of a conventional air conditioner.

As shown in FIG. 2, an input power supply unit 10 to which a commercial voltage for driving an air conditioner is supplied, a blocking switching unit 30 to block a commercial voltage supplied to the input power supply unit through the blocking switching unit, and A DC voltage generator 20 for outputting a commercial voltage supplied to the input power unit as a DC voltage, a first constant voltage generator 40a for smoothing the DC voltage output from the DC voltage generator, and outputting a constant voltage; The microcomputer is driven according to the constant voltage generator 40b, the load 50 driven according to the constant voltage generated by the first constant voltage generator 40a, and the constant voltage generated by the second constant voltage generator 40b. It consisted of 60.

When the air conditioner is used, the switch of the cutoff switching unit 30 is turned on to convert the commercial voltage supplied through the input power supply unit 10 into a low voltage through the transformer in the DC voltage generator 20, and then rectify again. After converting the DC voltage through the diode, the electrostatic capacitor of the first constant voltage generator 40a and the second constant voltage generator 40b is supplied to the first constant voltage generator 40a and the second constant voltage generator 40b. Is smoothed by the first constant voltage IC and the second constant voltage IC, and is generated and output at a constant and stable DC voltage.

The DC voltage output from the first constant voltage generator 40a is applied as the driving voltage of the load 50, and the DC voltage output from the second constant voltage generator 40b is applied as the driving voltage of the microcomputer 60. The air conditioner is operated in the normal mode.

As such, as the power is cut off 100%, all the power supplied to the load and the microcomputer are cut off, and all set values set in the microcomputer are initialized.

Therefore, when the air conditioner is driven in the normal mode again, all the previously set values such as desired temperature, driving time, and sleep mode are initialized and there is a problem that the user needs to reset the function of the air conditioner to use.

The present invention has been made to solve the above problems, an object of the present invention is to operate the power saving mode by operating any button of the operation unit of the main body for driving the air conditioner to save the standby power of the air conditioner, It cuts off only the power supply and keeps the power supply to the microcomputer so that the microcomputer function is not initialized so that the load of the air conditioner is shut off in the standby mode and then returned to the normal mode so that it can be driven to the existing setting value. The purpose is.

1 is a front view of a typical air conditioner shown to explain a standby power control system and a control method of a conventional air conditioner,

2 is a circuit diagram illustrating a standby power control system of a conventional air conditioner.

3 is a circuit diagram illustrating a standby power control system of an air conditioner according to the present invention;

4 is a flowchart illustrating a standby power control method of an air conditioner according to the present invention.

-Explanation of symbols for the main parts of the drawing-

110: input power supply unit 120a, 120b: first to second DC voltage generator

130: switching breaker 140a, 140b: first to second constant voltage generator

150: load 160: microcomputer

In order to achieve the above object, the present invention provides an input power supply unit for supplying a commercial voltage for driving an air conditioner, first and second DC voltage generators for outputting a commercial voltage supplied to the input power supply unit as a DC voltage, and A blocking switching unit for cutting off the DC voltage output from the first DC voltage generating unit, a first constant voltage generating unit for smoothly outputting the DC voltage supplied through the blocking switching unit at a constant voltage, and generating the second DC voltage A second constant voltage generator that smoothes the DC voltage output from the controller and outputs it as a constant voltage, a load driven according to the constant voltage generated by the first constant voltage generator, and driven according to the constant voltage generated by the second constant voltage generator It provides a standby power control system of the air conditioner, characterized in that made by including a microcomputer.

The present invention comprises the steps of driving the air conditioner in the normal mode; Comparing the operation button of the air conditioner for a predetermined time or more; Determining whether the air conditioner is in the standby mode when the operation button is not in the ON state for a predetermined time, and when the operation button is in the ON state for a predetermined time; Driving the power saving mode when the air conditioner is in the standby mode, and then feeding back to the step of determining whether the operation button is on for a predetermined time or more, and comparing and determining whether the air conditioner is the power saving mode when the air conditioner is not in the standby mode; When the air conditioner is in the power saving mode, the air conditioner is driven to the normal mode after canceling the power saving mode, and if the air conditioner is not in the power saving mode, immediately driving the air conditioner to the normal mode. Provides a standby power control method.

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

3 is a circuit diagram illustrating a standby power control system for an air conditioner according to the present invention.

As shown in FIG. 3, an input power supply unit 110 to which a commercial voltage for driving an air conditioner is supplied and 110 converts a commercial voltage supplied to the input power supply unit into a DC voltage through a transformer and loads the converted DC voltage. A first DC voltage generator 120a supplied to the second DC voltage generator 120b, a second DC voltage generator 120b supplied to the microcomputer, and a blocking switch 130 for blocking a DC voltage output from the first DC voltage generator. ), A first constant voltage generation unit 140a for smoothing the DC voltage supplied through the blocking switching unit and outputting it at a constant voltage, and a second voltage smoothing the DC voltage output from the second DC voltage generation unit and outputting the constant voltage. A second constant voltage generator 140b, a load 150 driven according to the constant voltage generated by the first constant voltage generator, and a microcomputer 160 driven according to the constant voltage generated by the second constant voltage generator. .

When the air conditioner is used, the commercial voltage supplied through the input power supply unit 110 is converted into a low voltage through a transformer, and the low voltage converted through the transformer is connected to the first DC voltage generator 120a supplied to the load 150. The second DC voltage generator 120b is distributed to the microcomputer 160.

At this time, the power saving switch of the cut-off switching unit 130 for cutting off the low voltage output from the first DC voltage generator 120a and supplied to the load is turned on by any button operation of the operation unit of the main body for driving the air conditioner. It works in the state.

After the low voltage is converted into the low voltage through the transformer, the divided low voltage is converted into the DC voltage through the first rectifying diode and the second rectifying diode, and then the first constant voltage generator 140a and the second constant voltage generator, respectively. It is supplied to 140b and smoothed by electrolytic capacitors of the first and second constant voltage generators, and is generated and output by a constant stable DC voltage by the first constant voltage IC and the second constant voltage IC.

The DC voltage output from the first constant voltage generator 140a is applied to the load 150 as the driving voltage of the load, and the DC voltage output from the second constant voltage generator 140b is the drive voltage of the microcomputer. The air conditioner is driven in the normal mode by being applied to the microcomputer 160.

By the way, when the air conditioner is not used, that is, in the standby mode, operating a button of the main body of the main body for driving the air conditioner to cut off the low voltage output from the first DC voltage generator and supplied to the load. By operating the power saving switch of the cut-off switching unit 130 for the off state, the commercial voltage supplied through the input power supply unit 110 is converted into a low voltage through the transformer, the low voltage converted through the transformer is applied to the load 150 The first DC voltage generator 120a is supplied, and the second DC voltage generator 120b is supplied to the microcomputer 160.

At this time, the low voltage distributed to the first DC voltage generating unit 120a is cut off by the power saving switch of the blocking switching unit 130 and is not supplied to the load 150, and the second DC voltage generating unit 120b is provided. After converting only the low voltage distributed to the DC voltage through the second rectifier diode, it is supplied to the second constant voltage generator 140b and smoothed by the electrolytic capacitor of the second constant voltage generator 140b. It generates and outputs a constant stable DC voltage.

In addition, the DC voltage output from the second constant voltage generator 140a is applied as the driving voltage of the microcomputer, thereby maintaining a setting value set by the user to the user's convenience.

4 is a flowchart illustrating a standby power control method of an air conditioner according to the present invention.

As shown in FIG. 4, the air conditioner is driven to perform a normal air conditioner operation in a normal mode (S10), and to determine whether the operation button of the air conditioner is on for a predetermined time or more. The above description will be limited (S20).

At this time, when the operating button of the air conditioner is not on (on) for more than 5 seconds, continue to drive the air conditioner in the normal mode (S10), when the operating button of the air conditioner is on (on) for more than 5 seconds. In operation S30, it is determined whether the operating state of the air conditioner is the standby mode.

When the operating state of the air conditioner is in the standby mode, it enters the power saving mode to drive the power saving mode function (S40), and feeds back to the step of comparing whether the operation button of the air conditioner is on for more than 5 seconds (S20). ).

At this time, when the operation button of the air conditioner is on for more than 5 seconds, after canceling the power saving mode in the standby mode of the air conditioner (S60), the air conditioner function is set by the existing user by feeding back to the normal mode of the air conditioner. Drive in the normal mode (S10).

When the operation button of the air conditioner is not on for more than 5 seconds, the air conditioner continues to feed back to the normal mode to continue driving the normal mode (S10).

Therefore, even if the air conditioner function is changed to the normal mode from the standby mode of the air conditioner, the previously set air conditioner function settings are not initialized and are driven to the normal mode without resetting.

Therefore, as described above, when using the standby power control system and control method of the air conditioner according to the present invention, in order to save the standby power of the air conditioner by operating any button of the operation unit of the main body for driving the air conditioner power saving mode In the standby mode, only the power supplied to the load is cut off, and the power supplied to the microcomputer is maintained so that the microcomputer function is not initialized, and the load of the air conditioner is shut off from the standby mode and returned to the normal mode. In this case, it can be operated with existing setting value without new setting.

Claims (2)

In the standby power control system of the air conditioner to save the standby power of the air conditioner, An input power supply unit supplied with a commercial voltage for driving the air conditioner; First and second DC voltage generators for outputting a commercial voltage supplied to the input power unit as a DC voltage; A blocking switching unit for cutting off the DC voltage output from the first DC voltage generating unit; A first constant voltage generator for smoothing the DC voltage supplied through the cut-off switching unit and outputting it at a constant voltage; A second constant voltage generator for smoothing the DC voltage output from the second DC voltage generator and outputting the constant voltage; A load driven according to the constant voltage generated by the first constant voltage generator; Standby power control system of the air conditioner characterized in that it comprises a micom driven in accordance with the constant voltage generated by the second constant voltage generator. In the standby power control method of the air conditioner to save the standby power of the air conditioner, Driving the air conditioner in a normal mode; Comparing the operation button of the air conditioner for a predetermined time or more; Determining whether the air conditioner is in the standby mode when the operation button is not in the ON state for a predetermined time, and when the operation button is in the ON state for a predetermined time; Driving the power saving mode when the air conditioner is in the standby mode, and then feeding back to the step of determining whether the operation button is on for a predetermined time or more, and comparing and determining whether the air conditioner is the power saving mode when the air conditioner is not in the standby mode; If the air conditioner is in the power saving mode, canceling the power saving mode and then driving the air conditioner to the normal mode, and if the air conditioner is not the power saving mode, immediately driving the air conditioner to the normal mode; Standby power control method of an air conditioner, characterized in that made.