KR101915992B1 - Power supplying apparatus having power saving function and air conditioner including the same - Google Patents

Abstract

The present invention relates to a power supply device. More particularly, the present invention relates to a power supply device having a power saving function and an air conditioner including the same. The present invention may include: a first power source unit connected to an AC power source; a first communication unit having one side connected to the first power source unit and the other side connected to a communication line; a latch relay selectively connecting the first power source unit and the AC power source and having a first terminal connected to the communication line; a first control unit coupled to the first communication unit and the second terminal of the latch relay; a second communication unit having one side connected to the communication line and the other side connected to the AC power source; a second power supply connected to the AC power source and including a first output for a power saving function and a second output for communication between the first communication unit and the second communication unit; a connection unit for selectively connecting the first output of the second power supply unit and the communication line; and a second control unit connected to the second communication unit and the connection unit. It is possible to reduce power consumption.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply apparatus having a standby power function and an air conditioner including the power supply apparatus,

More particularly, the present invention relates to a power supply apparatus having a standby power function and an air conditioner including the same.

Generally, a compressor installed in an outdoor unit of an air conditioner uses a motor as a driving source. These motors are supplied with AC power from a power conversion device.

Such a power conversion apparatus is generally known to include a rectifying section, a power factor control section, and an inverter.

First, the commercial voltage of the AC output from the commercial power source is rectified by the rectifying part. The rectified voltage at this rectifying part is supplied to the inverter. At this time, the inverter generates AC power for driving the motor by using the voltage outputted from the rectifying section.

In addition, the air conditioner may include a control unit (microcomputer) and a switching mode power supply (SMPS) for supplying power to the other parts in addition to the power conversion apparatus.

Further, the air conditioner includes a communication unit for communicating the indoor unit and the outdoor unit, and the outdoor unit can be controlled mainly by the operation control of the air conditioner in the indoor unit.

The outdoor unit of the air conditioner can enter the standby power state after a certain period of time after the operation of the air conditioner is stopped in the indoor unit or when the user stops the operation using the remote control.

That is, in the standby power state, a part of the electric power supplied to the outdoor unit is cut off, thereby reducing power consumption.

However, even in such a standby power state, the SMPS or the microcomputer constituting the control unit still operates and consumes power, so that energy efficiency may not be high.

Therefore, there is a need for a method capable of minimizing power consumption in a standby power state.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a power supply device having a standby power function capable of reducing power consumption in a standby power state and an air conditioner including the same.

Also, it is an object of the present invention to provide a power supply device capable of controlling the power of the outdoor unit itself, and an air conditioner including the power supply unit, instead of controlling the outdoor unit power supply in the indoor unit.

According to a first aspect of the present invention, there is provided a plasma display apparatus comprising: a first power source connected to an AC power source; A first communication unit having one side connected to the first power source unit and the other side connected to a communication line; A latch relay selectively connecting the first power source unit and the AC power source and having a first terminal connected to the communication line; A first control unit connected to the first communication unit and a second terminal of the latch relay; A second communication unit having one side connected to the communication line and the other side connected to an AC power source; A second power supply connected to the AC power supply and including a first output for a standby power function and a second output for communication between the first communication unit and the second communication unit; A connection unit for selectively connecting the first output of the second power supply unit and the communication line; And a second controller connected to the second communication unit and the connection unit.

Here, the connection unit may connect the second power supply unit and the first terminal of the latch relay under the control of the second control unit.

At this time, the first terminal of the latch relay may be connected to the communication line through a separate line from the first communication unit.

The first terminal of the latch relay may supply the first output from the second power supply unit through the communication line and the separate line by the operation of the connection unit.

Here, the first terminal of the latch relay may be connected to the first output of the second power supply unit.

Here, the first output may output a negative voltage.

Here, at the time of entering the standby power mode, the first control unit may disconnect the connection between the first power source unit and the AC power source through the second terminal of the latch relay.

Here, the power supply to the first control unit may be interrupted when the first power unit is powered off.

Here, the controller may further include a relay for selectively connecting a power conversion unit for driving the motor and the AC power source.

Here, the first output may have a lower output voltage than the second output.

As a second aspect of the present invention, the present invention can provide an air conditioner including the power source device described above.

According to a third aspect of the present invention, there is provided an outdoor unit including an indoor unit and an outdoor unit connected to each other by a communication line, the outdoor unit comprising: a first power unit connected to the AC power source; A first communication unit having one side connected to the first power source unit and the other side connected to the communication line; A latch relay selectively connecting the first power source unit and the AC power source and having a first terminal connected to the communication line; And a first control unit connected to the first communication unit and the second terminal of the latch relay, wherein the indoor unit includes: a second communication unit having one side connected to the communication line and the other side connected to an AC power source; A second power source connected to the AC power source; A connection unit for selectively connecting the second power supply unit and the communication line; And a second controller connected to the second communication unit and the connection unit.

The present invention has the following effects.

First, the power supply to the entire outdoor unit is interrupted in the standby power state, and no power is consumed at the outdoor unit side.

In addition, the operation to be released in the standby power state can be performed by operating the latch relay through the connection portion, and the standby power function can be implemented at low cost by using the photo relay of the latch relay and the connection portion.

As described above, the indoor unit can control the power source itself in the outdoor unit, rather than controlling the outdoor unit power source, so that the standby power function can be effectively implemented by using a small component configuration.

In addition, the standby power switching and communication process can be performed using the power unit of the indoor unit.

1 is a circuit diagram showing a power supply device according to an embodiment of the present invention.
FIG. 2 to FIG. 4 are circuit diagrams showing operations at the time of switching from the standby power state to the normal operation state in the power supply circuit according to the embodiment of the present invention.
5 is a circuit diagram showing the operation of the circuit in the normal operation state in the power supply circuit according to the embodiment of the present invention.
FIG. 6 and FIG. 7 are circuit diagrams showing operations when switching from a power supply circuit to a standby power state according to an embodiment of the present invention.

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

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. Rather, the intention is not to limit the invention to the particular forms disclosed, but rather, the invention includes all modifications, equivalents and substitutions that are consistent with the spirit of the invention as defined by the claims.

It will be appreciated that when an element such as a layer, region or substrate is referred to as being present on another element "on," it may be directly on the other element or there may be an intermediate element in between .

Although the terms first, second, etc. may be used to describe various elements, components, regions, layers and / or regions, such elements, components, regions, layers and / And should not be limited by these terms.

1 is a circuit diagram showing a power supply device according to an embodiment of the present invention.

1, the first device 100 and the second device 200 can be divided into a first device 100 and a second device 200, and these first device 100 and second device 200 can be interconnected by a communication line C .

The first device 100 and the second device 200 may include a first communication unit 120 and a second communication unit 210 and may be connected to the first communication unit 120 and the second communication unit 210, Thus, a communication process can be performed between the first device 100 and the second device 200.

This process may be performed under the control of the first control unit 140 and the second control unit 240.

Moreover, the first device 100 enters the standby power state by the communication process, and the power consumption of the entire device can be reduced.

Hereinafter, the first device 100 and the second device 200 will be described as an example of an apparatus constituting the air conditioner. That is, the first device 100 and the second device 200 may correspond to the outdoor unit and the indoor unit of the air conditioner, respectively. Accordingly, the first device 100 and the outdoor unit 100, the second unit 200, and the indoor unit 200 and related configurations will be described with reference to the same reference numerals. However, the present invention is not limited thereto.

Referring to FIG. 1, the air conditioner may include an outdoor unit 100 installed outside the room and an indoor unit 200 installed inside the room. At this time, the outdoor unit 100 and the indoor unit 200 can be connected to each other by the communication line C.

The outdoor unit 100 mainly includes a first power supply unit 110 (SMPS unit) connected to an external AC power supply T / N to supply electric power to each part of the outdoor unit 100, an indoor unit 200 A latch relay 130 for connecting or disconnecting the first power source unit 110 and the AC power source T / N at the time of entering or releasing the standby power mode, And a first controller (MICOM) 140 for controlling the operation of the controller 100.

The first communication unit 120 may receive power from the first power source unit 110. [ In addition, the first communication unit 120 can transmit / receive a control signal from the first control unit 140. [ A signal transmitted from the first control unit 140 to the first communication unit 120 is referred to as a transmission signal Tx and a signal received from the first communication unit 120 in the first control unit 140 is referred to as a reception signal Rx. .

One side of the first communication unit 120 may be connected to the first power source unit 110 and the other side of the first communication unit 120 may be connected to the communication line C. [

As described above, the latch relay 130 selectively connects the AC power source T / N with the first power source unit 110. At this time, the first terminal (L1 side) of the latch relay 130 is connected to the communication line C Lt; / RTI >

That is, the latch relay 130 includes the first inductor L1 and the second inductor L2. The terminal connected to the first inductor L1 can be referred to as a first terminal, and the second inductor L2 and the second inductor The connected terminal may be referred to as a second terminal.

In this latch relay 130, when the current flows through the first inductor L1 through the first terminal, the switch can be closed. On the other hand, when the current flows through the second inductor L2 through the second terminal, have. In addition, the closed state and the open state of such a switch can be maintained even when no current flows in the first inductor L1 and the second inductor L2.

Specifically, the latch relay 130 is a relay that uses an iron core having a large coercive force to maintain the magnetic force even after the operation of the contact breaks the exciting current, and is a relay suitable for controlling the contact with the reverse excitation current.

That is, the direction in which the current flows in the first inductor L1 and the direction in which the current flows in the second inductor L2 may be opposite to each other. Referring to FIG. 1, it can be seen that a current can flow from the ground line N through the first inductor L1 of the latch relay 130 to the communication line C through a separate line. That is, the first terminal connected to the first inductor L1 may be connected to the communication line C through a separate line.

It can also be seen that a current can flow from the 15V bias voltage through the second inductor L2 in the direction of the ground line N. [

At this time, the current at the second terminal side passing through the second inductor L2 can be controlled by the transistor Q1, and the transistor Q1 can be controlled by the first control unit 140. [

That is, the first control unit 140 is connected to the second terminal of the latch relay 130, and the current is supplied to the transistor Q1 connected to the second terminal of the latch relay 130 under the control of the first control unit 140 The switch of the latch relay 130 can be released.

For example, when entering the standby power state, the first control unit 140 applies a current signal to the transistor Q1 to allow current to flow through the second inductor L2 to release the latch relay 130, The connection between the first power source unit 110 and the AC power source N can be disconnected.

The indoor unit 200 includes a second communication unit 210 for communicating with the first communication unit 120 of the outdoor unit 100 through a communication line C and a second communication unit 210 connected to the AC power source T / And a second control unit 240 for transmitting a control signal (for example, Tx) to the second communication unit 210 and a second power source unit 220 for supplying power to each part of the indoor unit 200. [

At this time, the second control unit 240 can receive power from the second power source unit 220 connected to the AC power source T / N through a separate path.

That is, both the outdoor unit 100 and the indoor unit 200 are connected to the AC power source 10 and can receive power independently.

The second power source 220 is connected to the AC power source T / N and has a first output (-12V) for the standby power function and a second output (-12V) for the communication between the first communication unit 120 and the second communication unit 210 And a second output 72V.

For example, power can be supplied to the latch relay 130 through the communication line C using the first output (-12V), so that the outdoor unit 100 can be controlled to wake up from the standby power state. This process will be described in detail later.

The indoor unit 200 may be provided with a connection unit 230 for selectively connecting the second power supply unit 220 and the first terminal (L1 side terminal) of the latch relay 130. The connection unit 230 may be implemented as a photo coupler. At this time, the photodiode side of the photocoupler may be connected to the second control unit 240 and the transistor side may be connected to the first output (-12V) of the second power supply unit 220.

The connection unit 230 may selectively connect the first output (-12V) of the second power supply unit 220 and the communication line C under the control of the second control unit 240.

The signal transmitted from the second control unit 240 to the second communication unit 210 is referred to as a transmission signal Tx and the second control unit 240 receives the signal transmitted from the second communication unit 210 The signal may be referred to as a received signal Rx.

Here, the second communication unit 210 may have one side connected to the communication line C and the other side connected to the AC power source (T / N). Specifically, the other side of the second communication unit 210 may be connected to the ground line N through the resistor 1Khom.

That is, the communication line C connects the first communication unit 120 and the second communication unit 210, and the communication line C can be connected to the second power source unit 220. The communication line C connected to the second power source unit 220 may be connected to the ground line N of the AC power source through the transistor side of the connection unit 230.

Accordingly, the connection unit 230 can selectively connect the second power supply unit 220 and the communication line C under the control of the second control unit 240.

As described above, the second power supply unit 220 may be implemented as an SMPS and includes a first output (-12V) and a second output (72V). The first output (-12V) is transmitted to the latch relay 130 through the communication line C, so that it can have a voltage output capable of driving the latch relay 130. In addition, a negative voltage may be output from the first output to allow the current to flow through the ground line N through the second power supply unit 220 and the latch relay 130. For example, the first output may have a voltage output of -12V.

The current applied to the latch relay 130 may flow to the second power supply unit 220 again via the connection line 230 via the communication line C via a separate line.

Accordingly, the connection unit 230 can connect the second power supply unit 220 and the first terminal (L1 side) of the latch relay 130 under the control of the second control unit 240.

That is, when the second control unit 220 transmits a signal to the connection unit 230 and a current flows to the transistor side of the photocoupler constituting the connection unit 230, the first output (-12 V) of the second power supply unit 220, The current flows connecting the latch relay 130 and the communication line C to the connection unit 230 through the connection line N. [ The current flows through the first terminal of the latch relay 130 through the ground line N and flows through the communication line C and the second power source unit 220. At this time, The first power source unit 110 may be connected to the AC power source T / N.

The first terminal L1 side of the latch relay 130 can receive power from the second power source unit 220 through the communication line C by the operation of the connection unit 230. [

The first control unit 140 may disconnect the connection between the first power source unit 110 and the AC power source N through the second terminal of the latch relay 130 at the time of entering the standby power state. Thereafter, the power supply to the first control unit 140 may be interrupted when the power of the first power source unit 110 is turned off.

On the other hand, the outdoor unit 100 may include a relay 160 for selectively connecting the power conversion unit 150 for driving the motor 300 and the AC power source T / N.

At this time, the relay 160 can be operated by the first control unit 140. That is, in normal operation of the air conditioner, the relay 160 is connected and the power conversion unit 150 operates to drive the motor 300. In addition, when entering the standby power state, the relay 160 is released and the power conversion unit 150 may not operate.

The first communication unit 120 and the second communication unit 210 may be composed of two photocouplers coupled in opposite directions. A photodiode may be located at a portion Tx where signals are transmitted from the first control unit 140 or the second control unit 240 and a transistor may be located at the opposite side. However, it is not limited thereto.

2 to 7 are circuit diagrams showing the operation of the power supply apparatus according to an embodiment of the present invention.

2 to 4 illustrate operation of the power supply circuit according to an embodiment of the present invention when switching from the standby power state to the normal operation state.

The first control unit 140 releases the latch relay 130 by applying a current signal to the transistor Q1 so that the first power source unit 110 and the AC power source N ) Can be disconnected.

That is, when the standby power state is entered, the first control unit 140 may disconnect the connection between the first power source unit 110 and the AC power source N through the second terminal (L2 side) of the latch relay 130 . Thereafter, the power supply to the first control unit 140 may be interrupted when the power of the first power source unit 110 is turned off. As described above, in the standby power state, the power supply to the entirety of the outdoor unit 100 including the first power unit 110 and the first control unit 140 can be cut off.

In this case, when the user turns on the air conditioner or operates the remote controller to start the operation of the air conditioner, the AC power (T / N) is supplied to the second power unit 220, And the second power supply unit 220 of the indoor unit 200 starts operating.

Accordingly, the second control unit 240 of the indoor unit 200 operates.

At this time, power to the outdoor unit 100 is cut off. That is, the latch relay 130 is released and the AC power source T / N is not connected to the first power source unit 110. Therefore, the first control unit 140 is also in a non-operating state.

Next, a process of supplying power to the outdoor unit 100 will be described with reference to FIG.

When the second control unit 240 of the indoor unit 200 wakes up from the standby power state and starts operation, the second control unit 240 transmits the signal B to the connection unit 230 and transmits the signal B through the connection unit 230, (220) and the ground wire (N) are connected (connection ON state).

At this time, the second power source unit 220 and the ground line N are connected to the second power source unit (not shown) through the connection unit 230 via the ground line N, the latch relay 130 and the communication line C, 220 connected to the secondary side of the transformer (T1) of the transformer (T1).

Accordingly, the switch of the latch relay 130 is turned on (ON state), and the AC power source T / N and the first power source unit 110 are connected as indicated by the arrow P.

In this way, the outdoor unit 100 is supplied with electric power by the first power unit 110, and the entire outdoor unit 100 starts operating.

Then, as shown in FIG. 4, the first control unit 120 operates the relay 160 in the ON state (E). Accordingly, the power conversion unit 150 is connected to the AC power source (T / N) to start the operation and drive the motor 300.

5 shows operation of a circuit in a normal operation state in a power supply circuit according to an embodiment of the present invention.

Referring to FIG. 5, the outdoor unit 100 communicates with the indoor unit 200 through the communication line C. FIG. For example, the first communication unit 120 and the second communication unit 210 are connected through the communication line C, the second communication unit 210 is connected to the first communication unit 120 through the communication line C The first communication unit 120 is connected to the second output 72V of the first power source unit 110 through the ground line C and is controlled by the first control unit 140 and the second control unit 240, Can be achieved.

At this time, communication can be performed by the flow of the electric current indicated by the arrow G. 5 shows a process of transmitting a signal from the indoor unit 200 to the outdoor unit 100. Conversely, a signal may be transmitted from the outdoor unit 100 to the indoor unit 200, and this process may be alternately performed.

FIG. 6 and FIG. 7 show operations when switching from a power supply circuit to a standby power state according to an embodiment of the present invention.

6, when switching to the standby power state, for example, when the user stops the operation of the air conditioner or stops the operation, the first control unit 140 of the outdoor unit 100 The second controller 240 of the indoor unit 200 can be informed of the transition to the standby power state (H).

For example, the first control unit 140 transmits a signal to the first communication unit 120 to operate the first communication unit 120, and the second communication unit 210, the communication line C, And the first communication unit 120 to the second control unit 240. [0051]

That is, a signal is transmitted from the first communication unit 120 to the second communication unit 210 through the communication line C and the ground line N. In the second communication unit 210, (240).

7, the first control unit 140 of the outdoor unit 100 controls the relay 160 to stop the operation of the power conversion unit 150 (I).

Next, the first controller 140 transmits a signal to the transistor Q1 (J) to control the current from the 15V bias to the second inductor L2 of the latch relay 130 to flow.

Then, the switch of the latch relay 130 is released, and the first power source unit 110 is disconnected from the ground side N of the AC power source, and enters the standby power state.

Therefore, power supply to the entire outdoor unit 100 is interrupted in the standby power state, and no power is consumed at the outdoor unit 100 side.

In addition, the operation to be released in the standby power state can be performed by operating the latch relay 130 through the connection part 230. By using the photo-coupler constituting the latch relay 130 and the connection part 230, Function can be implemented.

As described above, the indoor unit can control the power source itself in the outdoor unit, rather than controlling the outdoor unit power source, so that the standby power function can be effectively implemented by using a small component configuration.

In addition, the standby power switching and communication process can be performed using the power unit on the indoor unit 200 side.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of specific examples for the purpose of understanding and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: outdoor unit 110: first power source unit
120: first communication unit 130: latch relay
140: first control unit 150: power conversion unit
160: relay 200: indoor unit
210: first communication unit 220: second power source unit
230: connection part 240: second control part
300: motor

Claims (12)

A first power source connected to the AC power source;
A first communication unit having one side connected to the first power source unit and the other side connected to a communication line;
A first inductor connected to the first inductor and a second terminal connected to the second inductor, the closed and open states of the switch operated by the first inductor and the second inductor are connected to the first inductor and the second inductor, A latch relay which is maintained even when no current flows in the inductor, the latch relay selectively connecting the first power supply unit and the AC power supply, and connecting the first terminal to the communication line;
A first control unit connected to the first communication unit and a second terminal of the latch relay;
A second communication unit having one side connected to the communication line and the other side connected to an AC power source;
A second power supply connected to the AC power supply and including a first output for a standby power function for supplying power to the latch relay through the communication line and a second output for communication between the first communication unit and the second communication unit;
A connection unit for selectively connecting the first output of the second power supply unit and the communication line; And
And a second controller connected to the second communication unit and the connection unit. The power supply unit according to claim 1, wherein the connection unit connects the second power supply unit and the first terminal of the latch relay under the control of the second control unit. The power supply unit according to claim 2, wherein the first terminal of the latch relay is connected to the communication line through a separate line from the first communication unit. 4. The apparatus according to claim 3, wherein the first terminal of the latch relay is supplied with the first output from the second power supply unit through the communication line and the separate line by the operation of the connection unit Power supply. The power supply unit according to claim 1, wherein a first terminal of the latch relay is connected to a first output of the second power supply unit. The power supply device according to claim 1, wherein the first output is a negative voltage. The power supply apparatus according to claim 1, wherein, when the standby mode is entered, the first control unit disconnects the connection between the first power supply unit and the AC power supply through the second terminal of the latch relay. Device. The power supply unit according to claim 1, wherein the power supply to the first control unit is interrupted when the first power supply unit is powered off. The power supply unit according to claim 1, further comprising a relay for selectively connecting a power conversion unit for driving the motor and the AC power source. The power supply of claim 1, wherein the first output has a lower output voltage than the second output. The power supply apparatus according to claim 6, wherein a negative voltage is output from the first output so that a current can flow through the latch relay through a ground line through the second power supply unit. An indoor unit and an outdoor unit connected to each other by a communication line,
The outdoor unit includes:
A first power source connected to the AC power source;
A first communication unit having one side connected to the first power source unit and the other side connected to the communication line;
A first inductor connected to the first inductor and a second terminal connected to the second inductor, the closed and open states of the switch operated by the first inductor and the second inductor are connected to the first inductor and the second inductor, A latch relay which is maintained even when no current flows in the inductor, the latch relay selectively connecting the first power supply unit and the AC power supply, and connecting the first terminal to the communication line; And
And a first control unit connected to the first communication unit and a second terminal of the latch relay,
The indoor unit includes:
A second communication unit having one side connected to the communication line and the other side connected to an AC power source;
A second power supply connected to the AC power supply and including a first output for a standby power function for supplying power to the latch relay through the communication line and a second output for communication between the first communication unit and the second communication unit;
A connection unit for selectively connecting the first output of the second power supply unit and the communication line; And
And a second control unit connected to the second communication unit and the connection unit.

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