JPWO2017130282A1 - Air conditioner - Google Patents

Abstract

The indoor unit (1) includes an indoor unit control unit (13) that controls the indoor unit (1) and the outdoor unit (2) based on an instruction signal received from the remote controller (3). The outdoor unit (2) includes an open / close unit (21) for turning on and off power supplied from the commercial AC power source (4) to the outdoor unit (2) through the power line (6), a compressor (25), and an instruction An outdoor unit control unit (23) for controlling the drive of the compressor (25) based on the signal. When the indoor unit control unit (13) is in the low standby power mode in which the switch (21) is turned off and power supply from the commercial AC power supply (4) to the outdoor unit (2) is cut off, Control that performs the processing instructed by the first signal without driving the outdoor unit (2) when the first signal instructing the processing that does not require driving of the outdoor unit (2) is received from the remote control (3) I do.

Description

  The present invention relates to an air conditioner having an indoor unit and an outdoor unit.

  Conventionally, an air conditioner is configured by connecting an outdoor unit including a compressor and an indoor unit to an external power source. As an air conditioner capable of reducing power consumption, for example, in Patent Document 1, power is supplied from an external power source to an outdoor unit via an opening / closing device that is provided in the indoor unit and cuts off power supply to the outdoor unit. An air conditioner is disclosed in which the outdoor unit stops the compressor and the indoor unit controls the opening / closing means to shut off the connection between the external power source and the outdoor unit when the compressor stop condition is supplied. Yes.

JP 2011-163675 A

  However, according to the above-described conventional technology, the number of ON / OFF operations of the switchgear for supplying power to the outdoor unit increases, and there is a concern that the life of the switchgear may be shortened.

  The present invention has been made in view of the above, and an object of the present invention is to obtain an air conditioner capable of reducing power consumption without shortening the life of components.

  In order to solve the above-described problems and achieve the object, an air conditioner according to the present invention includes a remote controller that transmits an instruction signal, an indoor unit that is communicably connected to the remote controller, and a communicable connection to the indoor unit. An outdoor unit. The indoor unit includes an indoor unit control unit that controls the indoor unit and the outdoor unit based on an instruction signal received from the remote controller. The outdoor unit includes an open / close unit for turning on and off the power supplied to the outdoor unit from the external power source through a power line, a compressor, and an outdoor unit control unit that controls driving of the compressor based on an instruction signal. . The indoor unit control unit instructs the processing that does not require driving of the outdoor unit in the low standby power mode in which the switch is turned off and power supply from the external power source to the outdoor unit is cut off. When the signal is received from the remote controller, control is performed to perform the processing instructed by the first signal without driving the outdoor unit.

  The air conditioner according to the present invention has an effect that an air conditioner capable of reducing power consumption without shortening the life of components can be obtained.

The block diagram which shows the structure of the air conditioner concerning embodiment of this invention. The figure which shows an example of the hardware constitutions of the processing circuit concerning embodiment of this invention The flowchart which shows the procedure of the operation | movement of the indoor unit in the air conditioner concerning embodiment of this invention. The flowchart which shows the procedure of the operation | movement of the outdoor unit in the air conditioner concerning embodiment of this invention. The figure which shows the state of the electric power feeding in the indoor unit and outdoor unit in the air conditioner concerning embodiment of this invention

  Hereinafter, an air conditioner according to an embodiment of the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment FIG. 1 is a block diagram showing a configuration of an air conditioner according to an embodiment of the present invention. The air conditioner according to the present embodiment includes an indoor unit 1 installed in a building interior, an outdoor unit 2 installed outside the building, and a remote controller 3 that transmits an operation instruction signal to the indoor unit 1. Configured.

  The indoor unit 1 includes an instruction signal receiving unit 11, an indoor unit power supply circuit 12, an indoor unit control unit 13, an indoor unit communication unit 14, and a blower fan 15.

  The instruction signal receiving unit 11 receives a transmission signal such as an operation command signal transmitted from the remote controller 3. The instruction signal receiving unit 11 is communicably connected to the indoor unit control unit 13 and transmits the received transmission signal to the indoor unit control unit 13.

  The indoor unit power supply circuit 12 is connected to a commercial AC power supply 4 that is an external power supply by a power supply line 6. The indoor unit power supply circuit 12 generates a control power for operating each component in the indoor unit 1 from the AC power supplied from the commercial AC power supply 4 via the breaker 5. The indoor unit power supply circuit 12 is connected to the instruction signal receiving unit 11, the indoor unit control unit 13, and the indoor unit communication unit 14 so that the generated control power can be fed. In FIG. 1, a part of the power supply line 6 in the indoor unit 1 is not shown.

  The indoor unit control unit 13 controls each component in the indoor unit 1. The indoor unit control unit 13 controls the closing operation of the opening / closing unit 21 of the outdoor unit 2 when the outdoor unit 2 is in the low standby power mode. That is, the indoor unit control unit 13 transmits a control signal for closing the opening / closing unit 21 of the outdoor unit 2 when the outdoor unit 2 is in the low standby power mode state. The indoor unit control unit 13 may store the received various types of information in the indoor unit control unit 13 or another storage unit provided in the indoor unit 1.

  The indoor unit communication unit 14 is connected to an outdoor unit communication unit 26 of the outdoor unit 2 described later by a communication line 7, and performs bidirectional communication with the outdoor unit 2.

  The blower fan 15 circulates indoor air.

  The outdoor unit 2 includes an open / close unit 21, an outdoor unit power supply circuit 22, an outdoor unit control unit 23, an inverter 24, a compressor 25, an outdoor unit communication unit 26, and a temperature detection unit 27.

  The opening / closing unit 21 is a switching unit that is inserted between the breaker 5 and the outdoor unit power supply circuit 22 and switches a connection state between the power supply line 6 and the outdoor unit power supply circuit 22. That is, the opening / closing part 21 is inserted between the power supply line 6 connected to the breaker 5 and the power supply line 6 connected to the outdoor unit power supply circuit 22. When the opening / closing part 21 is turned on, that is, closed, the power line 6 and the outdoor unit power circuit 22 are electrically connected, and power is supplied from the power line 6 to the outdoor unit power circuit 22. When the opening / closing part 21 is turned off, that is, in the open state, the electrical connection between the power line 6 and the outdoor unit power circuit 22 is disconnected, and power is not supplied from the power line 6 to the outdoor unit power circuit 22. . That is, the power supply to the outdoor unit power supply circuit 22 can be cut off by opening the opening / closing part 21. For example, a relay switch is used as the opening / closing unit 21.

  The outdoor unit power supply circuit 22 is connected to the commercial AC power supply 4, which is an external power supply, via a breaker 5 and an opening / closing part 21, and a power supply line 6. The outdoor unit power supply circuit 22 generates control power for operating each component in the outdoor unit 2 from the supplied AC power. The outdoor unit power supply circuit 22 is connected to the outdoor unit control unit 23, the inverter 24, the outdoor unit communication unit 26, and the temperature detection unit 27 so that the generated control power can be supplied with power. Since the compressor 25 is supplied with power from the inverter 24, the outdoor unit power supply circuit 22 is not connected to the compressor 25. In FIG. 1, a part of the power supply line 6 in the outdoor unit 2 is not shown.

  The outdoor unit control unit 23 controls each component in the outdoor unit 2. The outdoor unit control unit 23 controls the opening / closing operation of the opening / closing unit 21 of the outdoor unit 2 to control the transition of the outdoor unit 2 to the low standby power mode and the return from the low standby power mode. The outdoor unit control unit 23 may store the received various types of information in the outdoor unit control unit 23 or another storage unit provided in the outdoor unit 2.

  The inverter 24 controls the driving of the compressor 25 based on the control of the outdoor unit control unit 23 during the steady operation of the air conditioner.

  The compressor 25 compresses a refrigerant (not shown) under the control of the inverter 24 during the air conditioner cooling operation or heating operation, and circulates it between the indoor unit 1 through a pipe (not shown).

  The outdoor unit communication unit 26 is connected to the indoor unit communication unit 14 of the indoor unit 1 through the communication line 7, and performs bidirectional communication with the indoor unit communication unit 14.

  The temperature detection unit 27 detects the temperature of the compressor 25 at a predetermined cycle, and transmits information on the detected temperature to the outdoor unit control unit 23 as compressor temperature information. Further, the temperature detection unit 27 detects the outside temperature at a predetermined cycle, and transmits the detected temperature information to the outdoor unit control unit 23 as the outside temperature information.

  Moreover, the indoor unit control unit 13 and the outdoor unit control unit 23 are realized as a processing circuit having a hardware configuration illustrated in FIG. 2, for example. FIG. 2 is a diagram illustrating an example of a hardware configuration of the processing circuit according to the embodiment of the present invention. Each component which comprises the indoor unit control part 13 and the outdoor unit control part 23 is implement | achieved when the processor 101 shown in FIG. 2 runs the program memorize | stored in the memory 102, for example. A plurality of processors and a plurality of memories may cooperate to realize the above function. Further, a part of the functions of the indoor unit control unit 13 may be mounted as an electronic circuit, and the other part may be realized using the processor 101 and the memory 102. Similarly, a part of the functions of the outdoor unit control unit 23 may be mounted as an electronic circuit, and the other parts may be realized using the processor 101 and the memory 102. Further, one or more of the instruction signal receiving unit 11 and the indoor unit communication unit 14 may be configured to be realized by the processor 101 executing a program stored in the memory 102 in the same manner. Further, the processor and the memory for realizing one or more of the instruction signal receiving unit 11 and the indoor unit communication unit 14 may be the same as or different from the processor and the memory for realizing the indoor unit control unit 13. May be a processor and a memory. Similarly, the outdoor unit communication unit 26 may be configured to be realized by the processor 101 executing a program stored in the memory 102. The processor and memory for realizing the outdoor unit communication unit 26 may be the same as the processor and memory for realizing the outdoor unit control unit 23, or may be another processor and memory.

  1 shows an example in which the power line extending from the breaker 5 is connected to the indoor unit 1 through the outdoor unit 2, but the power line extending from the breaker 5 is directly connected to the indoor unit 1. It may be connected.

  The remote controller 3 transmits a signal such as an operation instruction signal input from the operation unit of the remote controller 3 to the instruction signal receiving unit 11 of the indoor unit 1. The communication method between the remote controller 3 and the instruction signal receiving unit 11 may be wireless communication or wired communication.

  Next, the operation of the air conditioner according to the present embodiment will be described with reference to FIGS. 3 and 4. FIG. 3 is a flowchart showing a procedure of the operation of the indoor unit 1 in the air conditioner according to the embodiment of the present invention. FIG. 4 is a flowchart showing a procedure of the operation of the outdoor unit 2 in the air conditioner according to the embodiment of the present invention.

  First, an operation when the opening / closing part 21 of the outdoor unit 2 is opened will be described. First, a state in which the air conditioner is performing a steady operation, that is, a state in which the indoor unit 1 and the outdoor unit 2 are driven, is a state in which the cooling operation is performed. In the steady operation state of the air conditioner, the opening / closing part 21 is always closed. When the opening / closing part 21 is closed, electric power is supplied from the commercial AC power supply 4 to the outdoor unit power supply circuit 22 of the outdoor unit 2 through the breaker 5 through the power line 6. The electric power supplied to the outdoor unit power supply circuit 22 is converted into DC power necessary for the operation of each unit of the outdoor unit control unit 23, the inverter 24, the outdoor unit communication unit 26, and the temperature detection unit 27 by the outdoor unit power supply circuit 22. It is converted and supplied to each part via the power line 6.

  In addition, power is supplied to the indoor unit power circuit 12 of the indoor unit 1 from the commercial AC power source 4 through the breaker 5 through the power line 6. The electric power supplied to the indoor unit power supply circuit 12 is supplied to the indoor unit power supply circuit 12 by the direct current necessary for the operations of the instruction signal receiving unit 11, the indoor unit control unit 13, the indoor unit communication unit 14, and the blower fan 15. It is converted into electric power and supplied to each part via the power line 6.

  Here, when the instruction signal receiving unit 11 receives the operation stop instruction signal transmitted from the remote controller 3 and instructing to stop the cooling operation, the instruction signal receiving unit 11 transmits the received operation stop instruction signal to the indoor unit control unit 13.

  When the indoor unit control unit 13 receives the operation stop instruction signal in step S101, the indoor unit control unit 13 transmits the operation stop instruction signal to the outdoor unit 2 in step S102. That is, the indoor unit control unit 13 transmits an operation stop instruction signal to the outdoor unit control unit 23 of the outdoor unit 2 via the indoor unit communication unit 14 and the outdoor unit communication unit 26 of the outdoor unit 2.

  When the outdoor unit control unit 23 of the outdoor unit 2 receives the operation stop instruction signal in step S201, the outdoor unit control unit 23 performs control to stop the cooling operation in step S202. That is, the outdoor unit control unit 23 stops the drive of the compressor 25 by stopping the control to the inverter 24 that has been performed to drive the compressor 25 based on the operation stop instruction signal. As a result, the compressor 25 is stopped and the cooling operation is stopped.

  Next, the outdoor unit control unit 23 of the outdoor unit 2 determines whether or not restraint energization to the compressor 25 is necessary in step S203. Restraint energization is performed as a countermeasure against the refrigerant stagnation of the compressor 25 by the outdoor unit control unit 23 of the outdoor unit 2 controlling the inverter 24 and energizing the motor windings without driving the motor inside the compressor 25. This means that the compressor 25 is preheated.

  The outdoor unit control unit 23 performs a predetermined calculation using the compressor temperature information and the outside air temperature information transmitted from the temperature detection unit 27, and a predetermined reference value for determining whether or not restraint energization is necessary. It is determined whether or not the restraint energization to the compressor 25 is necessary by comparing with the restraint energization reference value. The restricted energization reference value may be stored in the outdoor unit control unit 23 in advance, or may be stored in another storage unit provided inside the outdoor unit 2.

  When it is determined in step S203 that the energization of the compressor 25 is necessary, that is, in the case of Yes in step S203, the outdoor unit control unit 23 of the outdoor unit 2 performs the energization of constraint in step S210. Control to be performed is performed on the inverter 24.

  If it is not determined in step S203 that the energization of the compressor 25 is necessary, that is, if the answer is No in step S203, the outdoor unit control unit 23 can shift to the low standby power mode in step S204. Determine if there is. In the low standby power mode, the start-up of the indoor unit 1 is completed with the breaker 5 connected between the commercial AC power supply 4 and the outdoor unit 2 turned on, and the open / close unit 21 is in the open state. By being controlled, it means a state in which power supply to the outdoor unit power supply circuit 22 of the outdoor unit 2 is interrupted. Therefore, in the low standby power mode, the supply of power from the outdoor unit power supply circuit 22 to each part in the outdoor unit 2 is stopped.

  The outdoor unit control unit 23 determines whether it is possible to shift to the low standby power mode from the information of the remote controller 3 transmitted from the indoor unit 1. Here, the remote controller 3 transmits the operation stop instruction signal to the indoor unit control unit 13, and then when a signal such as a new operation instruction signal is not input from the operation unit of the remote controller 3 for a predetermined time, the low standby power mode Is transmitted to the instruction signal receiving unit 11 of the indoor unit 1. The instruction signal receiving unit 11 transmits the received low standby power mode transition instruction signal to the indoor unit control unit 13. In step S103, the indoor unit control unit 13 sends the low standby power mode transition instruction signal to the outdoor unit control unit 23 of the outdoor unit 2 via the indoor unit communication unit 14 and the outdoor unit communication unit 26 of the outdoor unit 2. Send to.

  In step S204, the outdoor unit control unit 23 determines that the transition to the low standby power mode is not possible when the low standby power mode transition instruction signal is not received. If the outdoor unit control unit 23 has not received the low standby power mode transition instruction signal, that is, if No in step S204, the outdoor unit control unit 23 returns to step S203.

  In step S204, the outdoor unit control unit 23 receives the low standby power mode transition instruction signal, but when it is determined that the energization of the compressor 25 is necessary, that is, in step S204, No. If so, the process returns to step S203.

  In step S204, when the outdoor unit control unit 23 receives the low standby power mode transition instruction signal and determines that the energization of the compressor 25 is not necessary, the outdoor unit control unit 23 It is determined that the transition to the low standby power mode is possible.

  In addition, after execution of restraint energization of Step S210, when a predetermined time elapses, for example, 30 minutes, in a state where the low standby power mode transition instruction signal is not transmitted to the outdoor unit control unit 23 is continued. In step S203, it may be determined again whether or not restraint energization is necessary.

  Next, when it is determined in step S204 that it is possible to shift to the low standby power mode, that is, in the case of Yes in step S204, the outdoor unit control unit 23 transmits the low standby power mode shift signal to the outdoor unit in step S205. The data is transmitted to the indoor unit control unit 13 of the indoor unit 1 via the communication unit 26 and the indoor unit communication unit 14 of the indoor unit 1. The low standby power mode shift signal is a signal for notifying that the outdoor unit 2 shifts to the low standby power mode.

  Next, in step S206, the opening / closing part 21 is turned off, that is, opened, and in step S207, the outdoor unit 2 shifts to the low standby power mode. That is, in step S207, the outdoor unit control unit 23 transmits an opening instruction signal for instructing opening of the opening / closing unit 21 to the opening / closing unit 21 to perform control for closing the opening / closing unit 21.

  When the opening / closing unit 21 receives the opening instruction signal, the opening / closing unit 21 shifts to the open state based on the opening instruction signal. Thereby, the electrical connection between the power supply line 6 and the outdoor unit power supply circuit 22 is cut, and the supply of power from the power supply line 6 to the outdoor unit power supply circuit 22 is cut off. Thereby, the supply of electric power from the outdoor unit power supply circuit 22 to each part in the outdoor unit 2 is stopped, each part in the outdoor unit 2 is stopped, and the outdoor unit 2 shifts to the low standby power mode.

  FIG. 5 shows the state of power supply in the indoor unit 1 and the outdoor unit 2 during steady operation, steady standby, low standby power mode, and when the breaker 5 is off in the air conditioner according to the present embodiment. FIG. 5 is a diagram illustrating a state of power feeding in the indoor unit 1 and the outdoor unit 2 in the air conditioner according to the embodiment of the present invention. As shown in FIG. 5, power is supplied from the commercial AC power supply 4 to both the indoor unit 1 and the outdoor unit 2 during steady operation and steady standby. In the low standby power mode, the indoor unit 1 is supplied with power from the commercial AC power supply 4, but the outdoor unit 2 is not supplied with power from the commercial AC power supply 4. When the breaker 5 is off, power is not supplied from the commercial AC power supply 4 to both the indoor unit 1 and the outdoor unit 2.

  Next, the indoor unit control unit 13 of the indoor unit 1 determines whether or not the outdoor unit 2 has shifted to the low standby power mode in step S104 after step S103. The indoor unit control unit 13 determines whether or not the outdoor unit 2 has shifted to the low standby power mode depending on whether or not the low standby power mode shift signal has been received from the outdoor unit 2.

  If it is determined in step S104 that the outdoor unit 2 has not shifted to the low standby power mode, that is, if No in step S104, the process returns to step S103. That is, the indoor unit control unit 13 receives the low standby power mode transition signal from the outdoor unit 2 or the low standby power at a predetermined cycle until receiving an operation instruction signal for instructing driving of the cooling operation from the remote controller 3. The mode transition instruction signal is continuously transmitted to the outdoor unit control unit 23 of the outdoor unit 2. And the indoor unit control part 13 returns to step S103, and repeats determination.

  If it is determined in step S104 that the outdoor unit 2 has shifted to the low standby power mode, that is, if the determination is Yes in step S104, the indoor unit 1 controls the outdoor unit control unit 23 of the outdoor unit 2 in step S105. The transmission of the low standby power mode transition instruction signal to the remote controller 3 is stopped, and the instruction signal from the remote controller 3 is awaiting reception. That is, the indoor unit 1 is in a state of waiting to receive an operation signal from the remote controller 3 in the low standby power mode.

  Note that when the outdoor unit 2 shifts to the low standby power mode, power supply to the outdoor unit 2 is interrupted. For this reason, transmission of the signal from the outdoor unit 2 to the indoor unit 1 is stopped. There is a possibility that the indoor unit control unit 13 of the indoor unit 1 detects a state in which a transmission signal from the outdoor unit 2 to the indoor unit 1 is not received as a communication abnormality of the outdoor unit 2. Therefore, during the low standby power mode, communication between the indoor unit communication unit 14 of the indoor unit 1 and the outdoor unit communication unit 26 of the outdoor unit 2 is stopped, or the indoor unit control unit 13 has a communication error in the outdoor unit 2. If the indoor unit control unit 13 performs a process such as invalidating the detection of the communication abnormality even if it is detected, it is possible to avoid detecting the communication abnormality of the outdoor unit 2 in the low standby power mode as an abnormal state. It can be detected as a normal body. As a result, in the low standby power mode, it is possible to avoid operations such as stopping the operation of the indoor unit 1 and starting the abnormality occurrence notification alarm due to the detection of the communication abnormality of the outdoor unit 2.

  Next, when the indoor unit control unit 13 of the indoor unit 1 receives a signal from the remote controller 3, the received signal is a first signal that is a signal instructing processing that does not require the compressor 25 to be driven, or the compressor 25. It is determined which of the second signals, which is a signal instructing a process that needs to be driven. The signal instructing the process that needs to drive the compressor 25 is an instruction signal that needs to drive the outdoor unit 2. That is, when the indoor unit control unit 13 receives a signal from the remote controller 3, the received instruction signal instructs a process that does not need to drive the compressor 25, that is, a process that does not need to drive the outdoor unit 2. It is determined whether or not the first signal is an instruction signal.

  The first signal includes a blower operation instruction signal for instructing a blower operation, and the remote controller 3 by operating the remote controller 3 in a mode unrelated to the operation of the air conditioner in the main screen display or the maintenance screen display of the remote controller 3. A remote control operation signal transmitted to the indoor unit 1 is included. The second signal includes a cooling operation instruction signal for instructing a cooling operation and a heating operation instruction signal for instructing a heating operation.

  Here, when the indoor unit control unit 13 of the indoor unit 1 receives a signal from the remote controller 3, in step S <b> 106, whether or not the received signal is a blow operation instruction signal that is a first signal that does not need to drive the compressor. Determine whether.

  In step S106, when the received signal is a sending operation instruction signal for instructing the air blowing operation, that is, in the case of Yes in step S106, the indoor unit control unit 13 does not drive the outdoor unit 2 in step S111. Control which drives only the machine 1 and performs ventilation operation is performed. In the air blowing operation, only the air blowing fan 15 provided in the indoor unit 1 is rotated to circulate indoor air. Therefore, the air blowing operation can be performed without driving the compressor 25, and power is not supplied to the outdoor unit 2. Can still operate. For this reason, the indoor unit control unit 13 performs control to perform the air blowing operation only by the indoor unit 1 by continuing the low standby power mode of the outdoor unit 2 and driving the blower fan 15 of the indoor unit 1.

  As described above, the low standby power mode of the outdoor unit 2 is continued and the blowing operation is performed only by the indoor unit 1, thereby reducing the number of times the outdoor unit 2 is restored from the low standby power mode and the blowing operation. It is possible to reduce power consumption. That is, the standby power of the outdoor unit 2 during the blowing operation can be reduced by not driving the outdoor unit 2 when the blowing operation is performed in the low standby power mode of the outdoor unit 2.

  In order to return the outdoor unit 2 in the low standby power mode, that is, to start the outdoor unit 2 again, the open / close unit 21 that is in the open state is switched to the closed state, that is, the open / close unit 21 that is in the off state. Must be turned on to supply power to the outdoor unit power supply circuit 22. By not driving the outdoor unit 2 when performing the air blowing operation when the outdoor unit 2 is in the low standby power mode, the number of unnecessary return operations of the outdoor unit 2 from the low standby power mode can be reduced and opened and closed. The number of on and off operations of the unit 21 can be reduced. Thereby, shortening of the lifetime of the opening-and-closing part 21 resulting from implementation of the ventilation operation in the low standby power mode can be prevented.

  Here, when the outdoor unit 2 is in the low standby power mode and the air blowing operation is performed only by the indoor unit 1, the transmission signal from the outdoor unit 2 is not received. For this reason, similarly to the above, the indoor unit control unit 13 of the indoor unit 1 may detect a state in which a transmission signal from the outdoor unit 2 to the indoor unit 1 is not received as a communication abnormality of the outdoor unit 2. Therefore, similarly to the above, the communication between the indoor unit communication unit 14 of the indoor unit 1 and the outdoor unit communication unit 26 of the outdoor unit 2 is stopped, or the indoor unit control unit 13 detects a communication abnormality of the outdoor unit 2. Even if the processing for invalidating the detection of the communication abnormality is performed by the indoor unit control unit 13, it is possible to avoid detecting the communication abnormality of the outdoor unit 2 during the air blowing operation as an abnormal state. It can be detected as a body. Accordingly, it is possible to avoid operations such as stopping of the operation of the indoor unit 1 and activation of an abnormality occurrence notification alarm due to detection of a communication abnormality of the outdoor unit 2 during the air blowing operation of the indoor unit 1 in the low standby power mode.

  On the other hand, when the received signal is not the air blowing operation instruction signal instructing the air blowing operation in step S106, that is, in the case of No in step S106, the indoor unit control unit 13 in step S107, the received signal is the air blowing operation instruction signal. It is determined whether the first signal other than the first signal.

  In step S107, when the received signal is the first signal other than the air blow operation instruction signal, that is, in the case of Yes in step S107, the indoor unit control unit 13 does not drive the outdoor unit 2 in step S112 and the outdoor unit The low standby power mode of the machine 2 is continued, and control corresponding to the received first signal is performed.

  As described above, even when the received signal is the first signal other than the blow operation instruction signal, the outdoor unit 2 is restored from the low standby power mode by performing control to continue the low standby power mode of the outdoor unit 2. It is possible to reduce the number of operations and the standby power of the outdoor unit 2. That is, even in the low standby power mode, for example, an operation that requires driving of the compressor 25, that is, an operation that requires driving of the outdoor unit is instructed when the remote controller is operated on the main screen display or the maintenance screen display. When an instruction signal other than the instruction signal to be transmitted is transmitted from the remote controller 3 to the indoor unit 1, it is possible to prevent the low standby power mode of the outdoor unit 2 from being canceled due to the instruction signal. The operations that require driving of the outdoor unit here are a cooling operation, a heating operation, and a dehumidifying operation.

  Further, even when the received signal is the first signal other than the air blowing operation instruction signal, the number of unnecessary return operations of the outdoor unit 2 from the low standby power mode can be reduced by not driving the outdoor unit 2. In addition, the number of times the opening / closing part 21 is turned on and off can be reduced. Thereby, shortening of the life of the opening-and-closing part 21 resulting from the return operation of the outdoor unit 2 from the low standby power mode can be prevented.

  That is, in the air conditioner according to the present embodiment, when the outdoor unit 2 is in the low standby power mode, the first signal that is an instruction signal that is not an operation command that is required to drive the outdoor unit 2 is received from the remote controller 2. In that case, the indoor unit control unit 13 does not perform control to close the open / close unit 21 of the outdoor unit 2 and performs control to continue the low standby power mode without driving the outdoor unit 2.

  In step S107, when the received signal is not the first signal other than the air blowing operation instruction signal, that is, in the case of No in step S107, the received signal is the second signal, and here is the cooling operation instruction signal. At this time, the outdoor unit 2 is in a state where control and operation cannot be performed by the outdoor unit 2 alone because power supply is interrupted. For this reason, it is necessary to start the outdoor unit 2 from the indoor unit 1.

  In this case, in order to supply power to the outdoor unit 2 from the commercial AC power supply 4, the indoor unit control unit 13 of the indoor unit 1 temporarily closes the opening / closing unit 21 of the outdoor unit 2 for a predetermined time in step S108. Thus, electric power is temporarily supplied from the commercial AC power supply 4 to the outdoor unit power supply circuit 22 of the outdoor unit 2. That is, the indoor unit control unit 13 transmits an ON signal, that is, a closing instruction signal for instructing the switching of the opening / closing unit 21 to the opening / closing unit 21, and performs control for temporarily closing the opening / closing unit 21. Do. The time for the indoor unit control unit 13 to close the opening / closing unit 21 based on the closing instruction signal is, for example, 3 seconds.

  When receiving the closing instruction signal, the opening / closing unit 21 is powered by the closing instruction signal, and shifts to an on state, that is, a closed state according to the closing instruction signal. As a result, power is temporarily supplied from the commercial AC power supply 4 to the outdoor unit power supply circuit 22 of the outdoor unit 2, and as described above, the power is temporarily supplied from the outdoor unit power supply circuit 22 to each part of the outdoor unit 2 including the outdoor unit control unit 23. Power is supplied. When power is supplied in the low standby power mode, the outdoor unit control unit 23 performs control to maintain the closed state of the opening / closing unit 21 in step S208. By maintaining the closed state of the opening / closing part 21, the outdoor unit 2 returns from the low standby power mode to the normal steady standby mode. The outdoor unit control unit 23 transmits an initial communication signal for establishing communication to the indoor unit control unit 13 of the indoor unit 1.

  Here, when the time for the indoor unit control unit 13 to close the opening / closing unit 21, for example, 3 seconds elapses, even if power is not supplied from the commercial AC power supply 4 to the outdoor unit power supply circuit 22, that is, the opening / closing unit 21 is closed. Even if the operation is not held, power is not supplied to the opening / closing part 21, and the opening / closing part 21 returns to the open state. Therefore, the indoor unit control unit 13 of the indoor unit 1 determines whether or not an initial communication signal for establishing communication has been received from the outdoor unit 2 in step S109 after the control of the closing operation of the opening / closing unit 21 in step S108. .

  If it is determined in step S109 that the initial communication signal is not received, that is, if no in step S109, the process returns to step S108, and the indoor unit control unit 13 performs the opening / closing unit 21 described above a predetermined number of times at a predetermined interval. Repeat the control to close the. The predetermined interval is, for example, 3 minutes. The predetermined number of times is, for example, 3 times.

  If the initial communication is not received from the outdoor unit 2 even when the control for closing the opening / closing unit 21 is repeatedly performed, the indoor unit control unit 13 determines that the outdoor unit 2 is in an abnormal state. This assumes an abnormal state such as an incorrect wiring of the communication line between the indoor unit 1 and the outdoor unit 2 or a failure of the indoor unit communication unit 14 or the outdoor unit communication unit 26. In addition, the closing operation of the opening / closing unit 21 at each timing in the control in which the indoor unit control unit 13 closes the opening / closing unit 21 is one time.

  If it is determined in step S109 that the initial communication signal has been received, that is, if YES in step S109, in step S110, the indoor unit control unit 13 sends a response communication signal for the initial communication signal to the outdoor unit control unit 23. And a cooling operation instruction signal is transmitted to the outdoor unit control unit 23 to enter a steady operation state.

  On the other hand, the outdoor unit control unit 23 of the outdoor unit 2 performs control to maintain the closed state of the opening / closing unit 21 in step S208 and returns from the low standby power mode to the steady standby mode, and then transmitted from the temperature detection unit 27. Using the compressor temperature information and the outside air temperature information, it is determined whether or not the restraint energization to the compressor 25 is necessary.

  Here, when it is not determined that the energization of the compressor 25 is necessary, the outdoor unit 2 shifts to a steady operation state in step S209. That is, the outdoor unit control unit 23 controls the inverter 24 to perform the cooling operation based on the cooling operation instruction signal transmitted from the indoor unit control unit 13 of the indoor unit 1. The inverter 24 drives the compressor 25 based on the control of the outdoor unit control unit 23, whereby the cooling operation is performed.

  If it is determined that the energization of the compressor 25 is necessary, the outdoor unit control unit 23 performs control for performing energization of the inverter 24 on the inverter 24 and again restrains the compressor 25. It is determined whether energization is necessary. When it is determined that the energization of the compressor 25 is not necessary, the outdoor unit 2 shifts to a steady operation state in step S209, and the cooling operation is performed in the same manner as described above.

An example of release conditions when the low standby power mode is released is shown below.
(1) When the indoor unit control unit 13 of the indoor unit 1 receives from the remote controller 3 an operation instruction signal that requires driving of the compressor 25 of the outdoor unit 2 such as a cooling operation instruction signal.
(2) After a predetermined time when the outdoor unit 2 is assumed to have started up after the breaker 5 is turned on, the indoor unit control unit 13 of the indoor unit 1 receives an initial communication signal from the outdoor unit communication unit 26 of the outdoor unit 2 If not. The predetermined period is, for example, 3 seconds later.

  As described above, in the air conditioner according to the present embodiment, the signal received from the remote controller 3 by the indoor unit control unit 13 of the indoor unit 1 in the low standby power mode does not need to drive the compressor 25. If the signal is a signal, the indoor unit control unit 13 performs control to continue the low standby power mode of the outdoor unit 2. When the signal received from the remote controller 3 in the low standby power mode is a blow operation instruction signal for instructing a blow operation that can be operated by the indoor unit 1 alone, the indoor unit control unit 13 of the indoor unit 1 The low standby power mode 2 is continued, and the control for performing the air blowing operation only by the indoor unit 1 is performed.

  Thereby, the air conditioner concerning this Embodiment can implement | achieve the reduction of the return frequency of the outdoor unit 2 from the time of a low standby power mode, and the electric power reduction at the time of ventilation operation. Moreover, the air conditioner concerning this Embodiment can reduce the unnecessary return | restoration of the outdoor unit 2 from a low standby power mode, and can reduce the frequency | count of ON / OFF of the opening / closing part 21. FIG. Thereby, shortening of the life of the opening-and-closing part 21 resulting from restart of the outdoor unit 2 in the low standby power mode can be prevented.

  The configuration described in the above embodiment shows an example of the contents of the present invention, and can be combined with another known technique, and can be combined with other configurations without departing from the gist of the present invention. It is also possible to omit or change the part.

  DESCRIPTION OF SYMBOLS 1 Indoor unit, 2 Outdoor unit, 3 Remote control, 4 Commercial AC power supply, 5 Breaker, 6 Power line, 7 Communication line, 11 Instruction signal receiving part, 12 Indoor unit power supply circuit, 13 Indoor unit control part, 14 Indoor unit communication part , 15 Blower fan, 21 Open / close unit, 22 Outdoor unit power supply circuit, 23 Outdoor unit control unit, 24 Inverter, 25 Compressor, 26 Outdoor unit communication unit, 27 Temperature detection unit, 101 Processor, 102 Memory.

Claims (5)

A remote controller that transmits an instruction signal, an indoor unit that is communicably connected to the remote controller, and an outdoor unit that is communicably connected to the indoor unit,
The indoor unit includes an indoor unit control unit that controls the indoor unit and the outdoor unit based on the instruction signal received from the remote controller,
The outdoor unit is
An opening / closing part for turning on and off the electric power supplied to the outdoor unit from an external power source by a power line;
A compressor,
An outdoor unit control unit that controls driving of the compressor based on the instruction signal;
With
The indoor unit controller is
When the switch is in an off state and in a low standby power mode in which power supply from the external power supply to the outdoor unit is cut off, a first signal instructing a process that does not require driving of the outdoor unit is provided. When receiving from the remote control, performing control to perform the process instructed by the first signal while cutting off the power supply to the outdoor unit,
Air conditioner characterized by. The indoor unit includes a blower fan,
When the indoor unit control unit receives the air blowing operation instruction signal that is the first signal and instructs the air blowing operation, the indoor unit control unit performs air blowing by the indoor unit by driving the air blowing fan without driving the outdoor unit. Performing control to carry out operation,
The air conditioner according to claim 1. The first signal is an instruction signal other than an instruction signal for instructing a cooling operation, a heating operation, and a dehumidifying operation, which are operations that require driving of the outdoor unit;
The air conditioner according to claim 1. The indoor unit control unit detects a state in which a transmission signal from the outdoor unit is not received as a normal state when the outdoor unit is in the low standby power mode;
The air conditioner according to any one of claims 1 to 3. When the indoor unit control unit receives a second signal instructing a process that needs to drive the outdoor unit, the indoor unit control unit temporarily operates the opening / closing unit to turn on the outdoor unit from the external power source. Perform control to temporarily drive the outdoor unit control unit by supplying power to the control unit,
The outdoor unit control unit performs transition control to a state in which power is supplied from the external power source to the outdoor unit by holding the open / close unit in an on state while being temporarily driven.
The air conditioner according to claim 1.

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