KR20200041049A - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner which minimizes damage to components when a power line or a communication line is incorrectly connected between an outdoor unit and an indoor unit. The air conditioner comprises an outdoor unit and an indoor unit. The outdoor unit comprises an outdoor power unit and an outdoor communication unit. The indoor unit comprises: an indoor control unit; an indoor power supply unit comprising a power terminal to which a power line is connected, and a power supply unit connected between the power terminal and the indoor control unit; an indoor communication unit comprising a communication terminal to which a communication line is connected, and a communication circuit connected between the communication terminal and the indoor control unit; and a switch of which one end is connected to the communication terminal, and the other end is connected to the communication circuit.

Description

Air conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner in which an outdoor unit and an indoor unit are connected by a communication line.

The air conditioner is installed to provide a more comfortable indoor environment to the user by discharging cold and warm air into the room to regulate the indoor temperature and purifying the indoor air to create a comfortable indoor environment.

In general, an air conditioner includes an indoor unit installed in a room configured as a heat exchanger, and an outdoor unit configured as a compressor and a heat exchanger to supply refrigerant to the indoor unit.

When installing the air conditioner, a power line and a communication line are connected between the outdoor unit and the indoor unit. At this time, the power line and the communication line may have similar appearances, and an operator may incorrectly connect the power line and the communication line without distinguishing them.

In particular, when the air conditioner is installed, the outdoor unit and the indoor unit are generally installed in different spaces or remotely installed, and thus, in many cases, a worker may confuse the power line and the communication line.

When the power line and the communication line connected between the outdoor unit and the indoor unit are incorrectly connected, an air conditioner may malfunction or parts may be burned out. For example, when an operator connects the power line and the communication line in reverse, a high voltage is directly supplied to the communication unit through the power line, and parts may be burned. Accordingly, problems such as an increase in the cost of replacing the burned subform and delay in installation may occur.

The present invention is to provide an air conditioner that minimizes burnout of parts when a power line or communication line is incorrectly connected between the outdoor unit and the indoor unit.

The present invention is to provide an indoor unit that minimizes damage to parts when a power line or communication line is incorrectly connected when connected to an outdoor unit with a power line and a communication line.

The air conditioner according to an embodiment of the present invention includes an outdoor unit and an indoor unit, and the outdoor unit includes an outdoor power unit and an outdoor communication unit, and the indoor unit is an indoor control unit, a power terminal to which a power line is connected, and between the power terminal and the indoor control unit. An indoor power supply unit including a power supply unit connected to, an indoor communication unit including a communication terminal to which a communication line is connected, and a communication circuit connected between the communication terminal and the indoor control unit, and one end connected to the communication terminal, and the other end It may include a switch connected to the communication circuit.

Each of the first line and the second line is connected between the communication terminal and the communication circuit, and the switch can be installed on any one of the first line and the second line.

The indoor control unit may turn on the switch when power is supplied from the power supply unit.

The switch may be closed when the power line is connected between the outdoor power source and the power terminal in an open state.

The switch may maintain an open state when a control signal is not received from the indoor control unit.

The switch may be closed when a control signal is received from the indoor control unit.

The power supply unit is connected to the switch and can supply power to the switch.

A converter for converting a voltage level may be installed on a connecting line connecting the power supply unit and the switch.

After performing the normal installation determination mode, when the power is not supplied to the indoor control unit may further include an output unit for outputting an installation error notification.

The indoor unit according to an embodiment of the present invention communicates with an outdoor unit, and an indoor power supply unit including a power supply terminal to which an indoor control unit and a power line are connected, and a power supply unit connected between the power supply terminal and the indoor control unit, and a communication line to which communication lines are connected. A terminal, an indoor communication unit including a communication circuit connected between the communication terminal and the indoor control unit, one end may be connected to the communication terminal, and the other end may include a switch connected to the communication circuit.

According to an embodiment of the present invention, when the power line is incorrectly connected to the communication terminal, the high voltage supplied through the power line is blocked by a switch between the communication terminal and the communication circuit, thereby protecting the communication circuit.

1 is a block diagram of an air conditioner of a comparative example with the present invention.
2 is a block diagram of an air conditioner according to an embodiment of the present invention.
3 is a flowchart illustrating an operation method of an air conditioner according to an embodiment of the present invention.

Hereinafter, a specific embodiment of the present invention will be described in detail with the accompanying drawings.

1 is a block diagram of an air conditioner of a comparative example with the present invention.

The air conditioner may include at least one outdoor unit 10 and at least one indoor unit 20.

The outdoor unit 10 may include an outdoor communication unit 11, an outdoor control unit 12, and an outdoor power supply unit 13.

The outdoor communication unit 11 may transmit and receive communication signals with the indoor unit 20.

The outdoor power supply unit 13 may supply power to the indoor unit 20.

The outdoor control unit 12 may control the operation of the outdoor unit 10. The outdoor control unit 12 may control each of the outdoor communication unit 11 and the outdoor power supply unit 13.

Meanwhile, the outdoor unit 10 may further include other components in addition to the outdoor communication unit 11, the outdoor control unit 12, and the outdoor power unit 13 shown in FIG. 1. In this case, the outdoor control unit 12 may further control other components in addition to the outdoor communication unit 11 and the outdoor power supply unit 13.

The indoor unit 20 may include an indoor communication unit 30, an indoor power supply unit 40, and an indoor control unit 50.

The indoor communication unit 30 may transmit and receive communication signals to and from the outdoor unit 10.

The indoor communication unit 30 may include a communication terminal 31 and a communication circuit 32.

Communication lines 1 and 2 may be connected to the communication terminal 31.

The communication lines 1 and 2 may include a first communication line 1 and a second communication line 2. Each of the first to second communication lines 1 and 2 may be connected between the outdoor communication unit 11 and the communication terminal 31.

For example, the outdoor unit 10 and the indoor unit 20 may communicate in an RS-485 2-wire method, wherein one of the first communication line 1 and the second communication line 2 is TX + and RX + wires, and the other may be TX- and RX- wires.

One end of the first communication line 1 may be connected to the outdoor communication unit 11 and the other end may be connected to the communication terminal 31. Likewise, one end of the second communication line 2 may be connected to the outdoor communication unit 11 and the other end may be connected to the communication terminal 31.

The communication terminal 31 is connected to the communication circuit 32 and may output a signal transmitted by the communication circuit 32 or receive a signal received by the communication circuit 32. The communication terminal 31 may be a connection element that inputs and outputs communication signals transmitted and received by the communication circuit 32. The communication terminal 31 may be a connection element to which the communication lines 1 and 2 are connected. The communication terminal 31 may include a second communication terminal to which the first communication line 1 is connected, and a second communication terminal to which the second communication line 2 is connected.

The communication circuit 32 may communicate with the outdoor unit 10 through the communication terminal 31. The communication circuit 32 can convert a communication signal into a digital signal.

The communication circuit 32 may transmit and receive communication signals to and from the outdoor unit 10 when both the first and second communication lines 1 and 2 connected to the outdoor communication unit 11 are connected to the communication terminal 31.

Similar to the indoor communication unit 30, the outdoor communication unit 11 may also include a communication terminal and a communication circuit separately.

The indoor power supply unit 40 may receive power from the outdoor unit 10.

The indoor power supply unit 40 may include a power supply terminal 41 and a power supply unit 42.

Power lines 3 and 4 may be connected to the power terminal 41.

The power lines 3 and 4 may include a first power line 3 and a second power line 4. Each of the first to second power lines 3 and 4 may be connected between the outdoor power unit 13 and the power terminal 41. For example, one of the first power line 3 and the second power line 4 may be a single-phase power line, and the other may be an L-N line.

One end of the first power line 3 may be connected to the outdoor power unit 13 and the other end may be connected to the power terminal 41. Likewise, one end of the second power line 4 may be connected to the outdoor power source 13 and the other end to the power terminal 41.

The power terminal 41 is connected to the power supply unit 42 and may supply power transmitted from the outdoor power supply unit 13 to the power supply unit 42 through the power supply lines 3 and 4. The power terminal 41 may be a connection element to which the power lines 3 and 4 are connected. The power terminal 41 may include a first power terminal to which the first power line 3 is connected, and a second power terminal to which the second power line 4 is connected.

The power supply unit 42 may supply power to the indoor unit 20. For example, the power supply unit 42 may supply power to the indoor communication unit 30, the indoor control unit 50, and the like.

The power supply unit 42 may receive AC power through the power terminal 41 and convert AC power to DC power to supply power to each component inside the indoor unit 20.

Each configuration provided inside the indoor unit 20 such as the indoor control unit 50 has a size of power required for normal operation. When supplying power to each component inside the indoor unit 20, the power supply unit 42 may convert and supply the voltage level to a size set in each component. For example, the power supply unit 42 may convert the voltage level to 12V to supply power to the indoor control unit 50, and convert the voltage level to 5V to supply power to the communication circuit 32.

The power supply unit 42 may be a switched mode power supply (SMPS), and may control the on / off time ratio of a switching element such as a switching transistor to supply power to each component inside the indoor unit 20.

The indoor control unit 50 may control the indoor communication unit 30 and the indoor power supply unit 40. The indoor control unit 50 may control the overall operation of the indoor unit 20.

When the first to second communication lines 1 and 2 are connected between the outdoor communication unit 11 and the communication terminal 31, the outdoor communication unit 11 and the indoor communication unit 30 transmit and receive communication signals normally, and the outdoor power supply unit ( When the first to second power lines 3 and 4 are connected between the 13) and the power terminal 41, power may be normally supplied from the outdoor power source 13 to the indoor power source 40.

On the other hand, when at least one of the first to second communication lines (1) (2) and the first to second power lines (3) (4) is incorrectly connected, communication between the outdoor unit (10) and the indoor unit (20) It may not be normally performed, or power may not be normally transmitted between the outdoor unit 10 and the indoor unit 20.

In particular, when the first to second power lines 3 and 4 are connected between the outdoor power supply 13 and the communication terminal 31, the power is directly supplied to the communication circuit 32 without being converted to an appropriate voltage. And in this case, the communication circuit 32 may be burned.

2 is a block diagram of an air conditioner according to an embodiment of the present invention.

Descriptions overlapping with those described with reference to FIG. 1 will be omitted.

The air conditioner includes at least one outdoor unit 10 and at least one indoor unit 2, and the indoor unit 20 may include a switch 60.

The outdoor unit 10 may include an outdoor communication unit 11, an outdoor control unit 12, and an outdoor power supply unit 13.

The indoor unit 20 may include an indoor communication unit 30, an indoor power supply unit 40, an indoor control unit 50, and a switch 60.

The indoor power supply unit 40 may include a power supply terminal 41 to which the power lines 3 and 4 are connected, and a power supply unit 42 connected between the power supply terminal 41 and the indoor control unit 50.

The indoor communication unit 30 may include a communication terminal 31 to which the communication lines 1 and 2 are connected, and a communication circuit 32 connected between the communication terminal 31 and the indoor control unit 50.

The switch 60 may be connected between the communication terminal 30 and the communication circuit 32. The communication terminal 31 and the communication circuit 32 may be connected by first to second lines 5 and 6.

The switch 60 may be installed on either the first line 5 or the second line 6.

The switch 60 may have one end connected to the communication terminal 31 and the other end connected to the communication circuit 32.

The power supply 42 may be connected to the switch 60.

According to an embodiment, as illustrated in FIG. 2, a connection line 7 may be connected between the power supply unit 42 and the switch 60. One end of the connection line 7 may be connected to the power supply 42, and the other end may be connected to the switch 60.

According to another embodiment, the connection line 7 may have one end connected to the power supply line 8 between the power supply unit 42 and the indoor control unit 50 and the other end connected to the switch 60.

The power supply unit 42 may supply power to the switch 60. The switch 60 may operate by receiving power from the power supply unit 42 through the connection line 7. The switch 60 may be turned on or off by power supplied from the power supply 42.

A converter (not shown) for converting a voltage level may be installed on the connecting line 7 connecting the power supply unit 42 and the switch 60. The converter may supply power to the switch 60 by converting the voltage level to the operating voltage level of the switch 60. For example, the power supply unit 42 supplies power having the first voltage level to the indoor control unit 50 through the power supply line 8, and the converter converts the first voltage level to the second voltage level and connects the connection line ( Power can be supplied to the switch 60 through 7).

The switch 60 may be open or closed. When the switch 60 is in the open state, the connection between the communication terminal 31 and the communication circuit 32 may be blocked. When the switch 60 is in the closed state, the communication terminal 31 and the communication circuit 32 may be connected.

When installing the air conditioner, the switch 60 may be in an open state. Specifically, after the air conditioner is installed, the normal installation determination mode may be performed, and before the normal installation determination mode is performed, the switch 60 may be in an open state. Since the switch 60 is in an open state, even if the power lines 3 and 4 connected to the outdoor power supply 13 are connected to the communication terminal 31, the power supply of the communication circuit 32 is cut off from the outdoor power supply 13 Can be.

The switch 60 may be closed when the power lines 3 and 4 are connected between the outdoor power unit 13 and the power terminal 41 in the open state. Meanwhile, the switch 60 may maintain an open state when the power lines 3 and 4 are not connected between the outdoor power unit 13 and the power terminal 41.

The switch 60 may receive a control signal from the indoor control unit 50. The control signal may be an on signal for turning on the switch 60 or an off signal for turning off the switch 60.

The switch 60 may be either a mechanical switch such as a relay or an electronic switch such as a MOSFET.

The indoor control unit 50 may perform a normal installation determination mode after the air conditioner is installed, and transmits a control signal to turn on the switch 60 when it is determined to be normal installation after the normal installation determination mode is performed, and the normal installation determination mode If it is determined that the installation is abnormal after the implementation of the control signal is not transmitted to the switch 60, or a control signal to turn off the switch 60 can be transmitted.

3 is a flowchart illustrating an operation method of an air conditioner according to an embodiment of the present invention.

The indoor control unit 50 may perform a normal installation determination mode (S1).

The normal installation determination mode may be an operation mode for determining whether the communication line 1, 2, and power line 3, 4 are incorrectly connected after the air conditioner is installed.

After installing the outdoor unit 10 and the indoor unit 20, the operator can operate the air conditioner in a normal installation determination mode. The air conditioner may further include an input unit (not shown) that receives an execution command in a normal installation determination mode.

The indoor control unit 50 may receive a command for executing the normal installation determination mode and execute the normal installation determination mode.

After initiating the normal installation determination mode, the indoor control unit 50 may determine whether power is supplied (S2).

The indoor control unit 50 may determine whether power is supplied from the power supply unit 42 to the indoor control unit 50.

When the first to second power lines 3 and 4 are normally connected between the outdoor power unit 13 and the power terminal 41, the power supply unit 42 may supply power to the indoor control unit 50. However, when the first to second power lines 3 and 4 are not normally connected between the outdoor power source 13 and the power terminal 41, power is supplied from the power supply unit 42 to the indoor control unit 50. It may not be supplied.

When power is supplied, the indoor control unit 50 may transmit an on signal to the switch 60 (S3).

When the indoor control unit 50 transmits an on signal to the switch 60, the switch 60 may be controlled from an off state to an on state.

When the switch 60 is turned on, the communication terminal 31 and the communication circuit 32 can be connected. The communication circuit 32 may transmit and receive communication signals through the communication terminal 31 connected to the outdoor communication unit 11 with the communication lines 1 and 2.

When the switch 60 is turned on, the indoor control unit 50 may communicate with the outdoor unit 10 (S4).

The indoor control unit 50 may communicate with the outdoor unit 10 and control the operation of the air conditioner.

On the other hand, when the power is not supplied to the indoor control unit 50, the switch 60 may maintain an off state (S5).

Specifically, when power is not supplied, the indoor control unit 50 may not transmit a control signal to the switch 60 or transmit an off signal to the switch 60.

When the switch 60 is maintained in an off state, the communication terminal 31 and the communication circuit 32 may not be normally connected. Therefore, even if the power lines 3 and 4 connected to the outdoor power supply unit 13 are connected to the communication terminal 31, power supply from the communication terminal 31 to the communication circuit 32 may be blocked.

After maintaining the off state of the switch 60, the indoor control unit 50 may output an installation error notification (S6).

The air conditioner may further include an output unit (not shown) that outputs an installation error notification.

The output unit may be provided on at least one of the outdoor unit 10 and the indoor unit 20.

According to an embodiment, the output unit may be a display unit that visually outputs an installation error notification, or a speaker that aurally outputs an installation error notification.

According to another embodiment, the output unit may be a communication module that transmits and receives signals to and from a terminal. When the output unit is a communication module, the communication module may transmit an installation error notification signal to the terminal. For example, the output unit may maintain an off state of the switch 60 and then transmit an installation error notification to an operator's terminal or the like.

The installation error notification signal may be a notification signal indicating at least one misconnection of the communication line 1 (2) and the power line 3 (4).

The operator may re-connect the communication line (1) (2) or the power line (3) (4) with reference to the installation error notification signal, and then perform the normal installation determination mode again.

As in the present invention, when the communication terminal 31 and the communication circuit 32 are blocked through the switch 60, even if the power line 3 or 4 is incorrectly connected to the communication terminal 31, the communication circuit ( 32) has the advantage of minimizing burnout.

In addition, when the switch 60 is a mechanical switch such as a relay (Replay) or an electronic switch such as a MOSFET, the possibility of damage to the switch 60 is low even if the power lines 3 and 4 are incorrectly connected to the communication terminal 31 , The switch 60 has the advantage of minimizing the replacement cost of the switch 60 than in the case of a burned out element such as a fuse.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

10: outdoor unit 11: outdoor communication unit
12: outdoor control unit 13: outdoor power supply unit
20: indoor unit 30: indoor communication unit
40: indoor power supply 50: indoor control
60: switch

Claims (10)

In the air conditioner comprising an outdoor unit and an indoor unit,
The outdoor unit
Outdoor power supply;
Including an outdoor communication unit,
The indoor unit
Indoor control unit;
An indoor power supply unit including a power supply terminal to which a power line is connected, and a power supply unit connected between the power supply terminal and the indoor control unit;
An indoor communication unit including a communication terminal to which a communication line is connected, and a communication circuit connected between the communication terminal and the indoor control unit;
An air conditioner comprising a switch having one end connected to the communication terminal and the other end connected to the communication circuit. According to claim 1,
Each of the first line and the second line is connected between the communication terminal and the communication circuit,
The switch
An air conditioner installed on any one of the first line and the second line. According to claim 1,
The indoor control unit
An air conditioner that turns on the switch when power is supplied from the power supply. According to claim 1,
The switch
A switch air conditioner that is closed when the power line is connected between the outdoor power supply unit and the power supply terminal in an open state. According to claim 1,
The switch
An air conditioner that maintains an open state when a control signal is not received from the indoor control unit. The method of claim 5,
The switch
An air conditioner closed when a control signal is received from the indoor control unit. According to claim 1,
The power supply
An air conditioner connected to the switch and supplying power to the switch. The method of claim 7,
An air conditioner in which a converter for converting a voltage level is installed on a connecting line connecting the power supply unit and the switch. According to claim 1,
After performing the normal installation determination mode, the air conditioner further includes an output unit that outputs an installation error notification when power is not supplied to the indoor control unit. In the indoor unit communicating with the outdoor unit,
Indoor control unit;
An indoor power supply unit including a power supply terminal to which a power line is connected, and a power supply unit connected between the power supply terminal and the indoor control unit;
An indoor communication unit including a communication terminal to which a communication line is connected, and a communication circuit connected between the communication terminal and the indoor control unit;
An indoor unit including a switch having one end connected to the communication terminal and the other end connected to the communication circuit.

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