KR102536962B1 - A control circuit device of window type air conditioner integrating main control and inverter control - Google Patents

Abstract

The present invention relates to a control circuit device for a window type air conditioner having a main control circuit and an inverter circuit on the same PCB board and integrating the main control circuit and the power supply of the inverter circuit into one, integrating the main control and inverter control, and receiving AC power. power input; a noise filter unit for filtering a noise signal of AC power; first and second AC-DC converters for rectifying and smoothing the filtered AC power; a DC-DC converter for converting the DC voltage supplied from the first AC-DC converter into another DC voltage according to PWM control; a main control circuit having a microprocessor (MCU); and an inverter circuit unit including an inverter circuit, wherein the main control circuit unit is driven by receiving output power of the DC-DC converter, and the inverter circuit unit is driven by receiving output power of the second AC-DC converter. come up with a composition
By integrating the main control circuit part and the power supply part of the inverter circuit part into one by the device as described above, it is possible to simplify the circuit configuration by removing redundant conversion circuits, thereby reducing standby power and saving physical space. .

Description

Control circuit device of window type air conditioner integrating main control and inverter control { A control circuit device of window type air conditioner integrating main control and inverter control }

The present invention relates to a control circuit device for a window type air conditioner in which a main control circuit and an inverter circuit are integrated on the same PCB board, and a main control circuit and a power source of the inverter circuit are integrated into one.

In general, an air conditioner has a refrigeration cycle device composed of a compressor, a condenser, a capillary tube, a heat exchanger, etc., and appropriately discharges the cold air formed in the evaporator and the warmth generated in the condenser according to the indoor conditions to improve the indoor atmosphere. It is a device that keeps you comfortable.

Air conditioners can be divided into window type air conditioners and separate type air conditioners according to the installation method. A window type air conditioner is equipped with a refrigeration cycle device in one casing and installed on a window, while a separate type air conditioner is divided into an indoor and an outdoor unit, and an indoor heat exchanger is installed in the indoor unit, and an outdoor heat exchanger and a compressor are installed in the outdoor unit. It is installed outdoors [Patent Document 1]. In particular, the window type air conditioner has both an indoor heat exchanger and an outdoor heat exchanger in the body, but separates them by installing a diaphragm panel in the middle.

At this time, the conventional window type air conditioner includes an inverter for a fan motor such as a condenser. By controlling the speed of a fan motor such as a condenser through an inverter, the temperature can be maintained by lowering the number of revolutions of the fan when the set temperature is reached. Through this, the window type air conditioner does not have a large temperature change and thus reduces power consumption.

However, the inverter consumes a lot of power and is manufactured as a separate printed circuit board (PCB) for stable power supply.

As shown in FIG. 1, the conventional window type air conditioner has been developed separately into a PCB for a main control circuit and a PCB for an inverter circuit. In particular, since the air conditioner receives AC power, each PCB has an AC-DC converter for converting AC power to DC power.

Therefore, conventional window-type air conditioners are implemented with a plurality of PCBs for each function, so there are problems in that AC-DC converters are separately provided for each PCB for each function or that a large amount of physical space is occupied.

Korea Utility Model Registration No. 10-1234489 (2003.10.01. Notice)

An object of the present invention is to solve the above problems, and a window type air conditioner in which the main control circuit and the inverter circuit are integrated into one by providing the main control circuit and the inverter circuit on the same PCB board and integrating the main control circuit and the power supply of the inverter circuit into one. To provide a control circuit device of.

In order to achieve the above object, the present invention relates to a control circuit device for a window type air conditioner in which a main control and an inverter control are integrated, comprising: a power input unit for receiving AC power; a noise filter unit for filtering a noise signal of AC power; first and second AC-DC converters for rectifying and smoothing the filtered AC power; a DC-DC converter for converting the DC voltage supplied from the first AC-DC converter into another DC voltage according to PWM control; a main control circuit having a microprocessor (MCU); and an inverter circuit unit including an inverter circuit, wherein the main control circuit unit is driven by receiving output power of the DC-DC converter, and the inverter circuit unit is driven by receiving output power of the second AC-DC converter. characterized by

In addition, the present invention relates to a control circuit device for a window type air conditioner in which main control and inverter control are integrated, wherein the control circuit device is provided between the noise filter unit and the second AC-DC conversion unit and controls According to the noise filter unit characterized in that it further comprises a second switch unit for connecting or disconnecting the power supplied to the AC-DC conversion unit.

In addition, the present invention relates to a control circuit device for a window type air conditioner in which main control and inverter control are integrated, wherein the main control circuit outputs an on signal to the switch unit immediately before transmitting a driving command to the inverter circuit unit, It is characterized in that an off signal is output to the switch unit immediately after transmitting a stop command to the inverter circuit unit.

In addition, the present invention relates to a control circuit device for a window type air conditioner in which main control and inverter control are integrated. It is characterized in that the transmission is performed at intervals at predetermined time intervals.

In addition, the present invention relates to a control circuit device for a window type air conditioner in which a main control and an inverter control are integrated, wherein the first or second AC-DC conversion unit outputs a high voltage DC power of 200V or more, and the DC-DC conversion unit outputs a 20V DC power supply. It is characterized in that it outputs a low-voltage DC power supply equal to or less than the following.

In addition, the present invention relates to a control circuit device for a window type air conditioner in which main control and inverter control are integrated, wherein the power input unit, the noise filter unit, the first and second AC-DC filter units, the DC-DC conversion unit, The main control circuit unit and the inverter circuit unit are implemented on one and the same printed circuit board (PCB).

In addition, the present invention relates to a control circuit device for a window type air conditioner in which a main control and an inverter control are integrated, wherein the DC-DC conversion unit converts a rectified DC voltage into a DC voltage according to a pulse width modulation (PWM) control signal. a DC-DC converter, an output voltage feedback unit measuring an output voltage of the DC-DC converter; and a switching control unit adjusting the PWM control signal according to the measured output voltage and providing the adjusted PWM control signal to the DC-DC converter.

In addition, the present invention relates to a control circuit device for a window type air conditioner in which a main control and an inverter control are integrated, wherein the voltage feedback unit includes a zener diode connected to a secondary side voltage output of the DC-DC converter, the zener diode A photocoupler for operating a transistor according to a voltage applied to the photocoupler, and the switching control unit receives an output of the photocoupler to generate the PWM control signal and provide the generated PWM control signal to the DC-DC converter characterized by

As described above, according to the control circuit device of the window type air conditioner in which the main control and inverter control are integrated according to the present invention, the circuit configuration can be simplified by eliminating redundant conversion circuits by integrating the main control circuit and the power supply of the inverter circuit into one. Through this, the effect of reducing standby power and saving physical space is obtained.

1 is a block diagram of a control circuit device of a window type air conditioner according to the prior art.
2 is a block diagram of a configuration of a control circuit device for a window type air conditioner according to an embodiment of the present invention.
3 is a detailed circuit diagram of a DC-DC converter according to an embodiment of the present invention.
4 is a diagram showing an implementation state for a printed circuit board (PCB) integrated into one according to an embodiment of the present invention.

Hereinafter, specific details for the implementation of the present invention will be described according to the drawings.

In addition, in explaining the present invention, the same reference numerals are assigned to the same parts, and the repeated explanation thereof is omitted.

Next, a configuration of a control circuit device of a window type air conditioner in which main control and inverter control are integrated according to an embodiment of the present invention will be described with reference to FIG. 2 .

As shown in FIG. 2, the control circuit device 100 according to the present invention includes a power input unit 10, a noise filter unit 20, a first AC-DC conversion unit 30, and a DC-DC conversion unit 40. ), a second AC-DC conversion unit 30, a main control circuit unit 60, and an inverter circuit unit 70. Additionally, it may be configured by adding a switch unit 80 such as a relay switch.

First, the power input unit 10 is connected to a power plug or the like and receives AC power.

Next, the noise filter unit 20 includes a capacitor C for preventing noise and a line filter LF. Preferably, fuses (not shown) for overcurrent protection are connected to both sides of the noise filter unit 20 before and after the noise filter unit 20 .

Next, the first and second AC-DC converters 30 and 50 are composed of a rectifier circuit and a smoothing circuit for rectifying and smoothing AC power.

The rectifier circuit rectifies the input AC input power and provides it to the smoothing circuit, preferably composed of a bridge diode. In addition, the smoothing circuit includes a DC link capacitor at an output terminal of the rectifying circuit in order to further stabilize the DC voltage rectified from the rectifying circuit. That is, the smoothing circuit is connected to the output of the bridge diode to smooth the pulsating current voltage.

The DC power source rectified (or rectified and smoothed) by the first and second AC-DC converters 30 and 50 is a high-voltage direct current of more than 200V, such as 310V.

The DC voltage output by the first AC-DC converter 30 is provided to the DC-DC converter 40 . The high-voltage DC power provided to the DC-DC converter 40 is converted into low-voltage DC power by the DC-DC converter 40, and the low-voltage DC power is supplied to the main control circuit 60.

In addition, the DC voltage output by the second AC-DC conversion unit 50 is directly provided to the inverter circuit unit 70 .

Next, the DC-DC conversion unit 40 converts the voltage of the rectified and smoothed DC current into another DC voltage according to PWM control and provides it as a driving DC power supply. That is, the DC-DC converter 40 outputs the input primary DC voltage as a secondary DC voltage by PWM control. The DC-DC converter 40 constantly adjusts the output voltage by PWM pulse waves.

In particular, the DC-DC conversion unit 40 outputs the rectified DC voltage as a DC voltage usable by the main control circuit unit 60, such as 5V or 12V. That is, preferably, the DC-DC converter 40 outputs a low voltage of 20V or less.

In addition, the output DC power of the DC-DC conversion unit 40 is supplied to the main control circuit unit 60 . In addition, the low-voltage DC power supply is also supplied to sensors (not shown) and the like.

As shown in FIG. 3, the DC-DC conversion unit 40 compares the error of the DC-DC converter 41 that converts the voltage into a DC voltage according to PWM control and the output voltage to generate a PWM control signal. It consists of an output voltage tracker 42 that adjusts and a switching control unit 44 that adjusts the output voltage of the DC-DC converter 41 by generating a PWM control signal.

The DC-DC converter 40 converts the voltage of the rectified and smoothed direct current into another direct current voltage according to PWM control.

The output voltage feedback unit 43 is a feedback circuit for measuring the secondary DC voltage output from the DC-DC converter 41 and is composed of a photocoupler 43. The photocoupler 43 has a zener diode connected to the secondary side voltage output by the DC-DC converter 41, and a transistor operates according to the voltage applied to the zener diode to operate the switching controller 44.

The switching controller 44 is a circuit for generating and providing a PWM pulse width modulation (PWM) signal to the DC-DC converter 41, and the output voltage of the DC-DC converter 41 is constantly adjusted by the PWM control signal. it does That is, the switching controller 44 adjusts the output voltage of the DC-DC converter 41 by generating a PWM control signal.

In particular, the transistor of the photocoupler 43 of the output voltage feedback unit 42 operates according to the secondary side voltage applied to the zener diode, and through this, the switching control unit 44 operates. Therefore, the switching control unit 44 is operated by the secondary side voltage of the DC-DC converter 41, and by adjusting the voltage ratio of the DC-DC converter 41 by the PWM control signal of the switching control unit 44, the DC - Adjust the output voltage of the DC converter 41 to be constant.

In addition, LC filters (L, C) composed of an inductor and a capacitor are provided on the secondary side where the DC power transformed by the DC-DC converter 41 is output to remove noise.

Next, the main control circuit unit 60 is composed of a microprocessor (MCU), a sensor input unit, a command input unit, a control signal output unit, a microprocessor (MCU), and the like.

The main control circuit unit 60 is driven by receiving the low voltage direct current power of the DC-DC inverter 40 .

Specifically, the sensor input unit is composed of a circuit that receives signals measured by sensors from various sensors installed inside the air conditioner. In addition, the command input unit receives a signal generated by an input means such as a button on a control panel of an air conditioner. In addition, the control signal output unit is composed of a circuit that transmits a control signal to internal components of the air conditioner.

In particular, the main control circuit unit 60 is connected to the inverter circuit unit 70 and transmits a control signal to the inverter circuit unit 70 or receives a status signal of the inverter circuit unit 70 .

In addition, the main control circuit unit 60 supplies low-voltage DC power supplied from the DC-DC inverter 40 to a sensor (not shown) or the like.

Meanwhile, the main control circuit unit 60 transmits a control command to the inverter circuit unit 70 to drive or stop the inverter. At this time, the main control circuit unit 60 outputs an on signal to the switch unit 80 immediately before transmitting a drive command to the inverter circuit unit 70 and immediately after transmitting a stop command to the inverter circuit unit 70, the switch unit Outputs an off signal to (80). At this time, preferably, the command signal is transmitted at a predetermined time interval between the transmission of the command signal to each of the inverter circuit unit 70 and the switch unit 80.

That is, when the inverter is not driven, an off signal is output to the switch unit 80 to cut off power delivered to the second AC-DC circuit unit 50 . Through this, the consumption of standby power can be significantly reduced.

Next, the inverter circuit unit 70 includes an inverter circuit.

The inverter circuit unit 70 is driven by receiving the DC voltage of the second AC-DC inverter 50 . Therefore, it is driven by receiving a high-voltage DC power supply.

In particular, the inverter circuit is configured to control the fan motor of the condenser.

The inverter circuit unit 70 receives a control signal (or command signal) from the main control circuit unit 60 and drives the inverter according to the control signal.

Next, the switch unit 80 is provided between the noise filter unit 20 and the second AC-DC converter 50, and is composed of a relay or the like.

The switch unit 80 is controlled by the main control circuit unit 60 and is driven in an on/off state. When turned on, power is supplied to the inverter circuit unit 70, and when turned off, power is cut off to the inverter circuit unit 70.

Since the power supplied to the inverter circuit unit 70 is a high voltage such as a DC voltage of 310V, power waste due to standby power is high. Therefore, when the inverter is not driven, the switch unit 80 is turned off by the main control circuit unit 60 .

Meanwhile, as shown in FIG. 4, each element constituting the control circuit device 100 according to an embodiment of the present invention, that is, the power input unit 10, the noise filter unit 20, and the first AC-DC conversion The unit 30, the DC-DC conversion unit 40, the main control circuit unit 60, and the inverter circuit unit 70 are integrated on one printed circuit board (PCB).

In the above, the invention made by the present inventors has been specifically described according to examples, but the present invention is not limited to the examples, and various changes are possible without departing from the gist of the invention.

100: control circuit device 10: power input unit
20: noise filter unit 30: first AC-DC conversion unit
40: DC-DC conversion unit 41: DC-DC converter
42: output voltage trace part 43: photo coupler
44: switching control unit
60: main control circuit part 70: inverter circuit part

Claims (8)

In the control circuit device of a window air conditioner in which main control and inverter control are integrated,
a power input unit receiving AC power;
a noise filter unit for filtering a noise signal of AC power;
first and second AC-DC converters for rectifying and smoothing the filtered AC power;
a DC-DC converter for converting the DC voltage supplied from the first AC-DC converter into another DC voltage according to PWM control;
a main control circuit having a microprocessor (MCU); and,
Including an inverter circuit portion having an inverter circuit,
The main control circuit unit is driven by receiving the output power of the DC-DC converter, and the inverter circuit unit is driven by receiving the output power of the second AC-DC converter,
The control circuit device is provided between the noise filter unit and the second AC-DC converter and connects or cuts off power supplied from the noise filter unit to the second AC-DC converter according to on/off control. Further comprising a switch unit,
The main control circuit unit outputs an on signal to the switch unit immediately before transmitting a drive command to the inverter circuit unit, and outputs an off signal to the switch unit immediately after transmitting a stop command to the inverter circuit unit, ,
When the main control circuit unit continuously transmits a command signal to each of the inverter circuit unit and the switch unit, the command signal is transmitted at intervals at predetermined time intervals between transfers of the command signal;
The main control circuit unit outputs an on signal to the switch unit to drive the inverter, transmits a drive command to the inverter circuit unit at intervals, and transmits a stop command to the inverter circuit unit to stop the inverter. Outputting an off signal to the switch unit at intervals,
The second AC-DC converter outputs high-voltage DC power of 200V or more, and the DC-DC converter outputs low-voltage DC power of 20V or less,
The power input unit, the noise filter unit, the first and second AC-DC conversion units, the DC-DC conversion unit, the main control circuit unit, and the inverter circuit unit are implemented on one and the same printed circuit board (PCB). A control circuit device of a window type air conditioner in which the main control and inverter control are integrated.
delete delete delete delete delete According to claim 1,
The DC-DC conversion unit may include a DC-DC converter that converts a rectified DC voltage into a DC voltage according to a pulse width modulation (PWM) control signal, and an output voltage feedback unit that measures an output voltage of the DC-DC converter; and a switching control unit that adjusts the PWM control signal according to the measured output voltage and provides it to the DC-DC converter.
According to claim 7,
The output voltage feedback unit includes a zener diode connected to the output of the secondary side voltage of the DC-DC converter, and a photocoupler that operates a transistor according to a voltage applied to the zener diode, and the switching control unit includes the photo coupler. A control circuit device of a window type air conditioner in which main control and inverter control are integrated, characterized in that the PWM control signal is generated by receiving the output of the coupler and the generated PWM control signal is provided to the DC-DC converter.

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