JP2013139891A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multi type air conditioner in which system failure does not occur even when combining an indoor unit of a standby power corresponding model and an outdoor unit of a standby power not corresponding model and which operates even though a standby power corresponding model and a standby power not corresponding model are mixedly present in the indoor units.SOLUTION: An air conditioner (1) has an outdoor unit (10), a plurality of indoor units (20, 20, ...), and a remote controller (30). A master machine (20a) of the indoor units is constituted as a standby power corresponding model. The master machine (20a) of the indoor units determines whether or not the outdoor unit (10) is the standby power corresponding model based on a model specifying information of the outdoor unit (10) and transmits a blocking requiring signal to the outdoor unit (10) in the case the outdoor unit (10) is the standby power corresponding model.

Description

  The present invention relates to a multi-type air conditioner including a plurality of indoor units and outdoor units.

  2. Description of the Related Art Conventionally, an air conditioner that can cut off power supply to an outdoor unit during operation stop is known for the purpose of reducing standby power.

  For example, in Patent Document 1, one outdoor unit configured with a standby power compatible model in which power supply is interrupted during operation stop, and an activation unit that starts power supply to the outdoor unit in which power supply is interrupted There is disclosed a multi-type air conditioner that includes a plurality of indoor units configured of a standby power compatible model having the above. In this air conditioner, the indoor unit can be individually operated. When stopping the operation, an operation stop signal is transmitted from the indoor unit to the outdoor unit. When an operation stop signal is received from the indoor unit, power supply to the outdoor unit is interrupted. On the other hand, when operating the air conditioning apparatus that has been stopped, the indoor unit activates the activation means to activate the outdoor unit.

JP 2010-243051 A

  By the way, in an air conditioner equipped with a plurality of indoor units, it is conceivable to use a mixture of indoor units of standby power compatible models and indoor units of standby power incompatible models that do not have the activation means.

  However, in the air conditioner disclosed in Patent Document 1, if the indoor unit includes a model that supports standby power and a model that does not support standby power, an indoor unit that does not support standby power is requested to start operation. The outdoor unit whose power supply is cut off cannot be started, and as a result, the air conditioner cannot be operated.

  On the other hand, it is also conceivable to use a combination of a standby power compatible model indoor unit and a standby power incompatible model outdoor unit to which power is always supplied regardless of the state of operation.

  In such a case, although the outdoor unit is a model that does not support standby power, the indoor unit may request the outdoor unit to shut off the power supply, resulting in a system failure (communication error). .

  The present invention has been made in view of such a point, and the object of the present invention is that a system failure does not occur even when a standby power compatible model indoor unit and a standby power incompatible model outdoor unit are combined, It is to provide a multi-type air conditioner that operates even if a model that supports standby power and a model that does not support standby power coexist in an indoor unit.

  The first invention is directed to an air conditioner including one or more outdoor units (10) and a plurality of indoor units (20, 20,...), And the outdoor unit (10) has a predetermined transition. A plurality of indoor units (20) having a storage unit (15) in which model specification information indicating whether or not the model is a standby power compatible model in which power supply is shut off during operation stop according to a signal; , 20,...), One indoor unit (20) having an activation means (K2R) for starting power supply to the outdoor unit (10) whose power supply is cut off is configured as a main unit (20a) The other indoor units (20) are configured as slave units (20b, 20c, 20d,...) Linked to the master unit (20a), while the main unit (20a) of the indoor unit is configured as the outdoor unit (10 ) Based on the model specification information, a determination unit (23) that determines whether or not the outdoor unit (10) is a standby power compatible model, and at least one of the outdoor units (10) by the determination unit (23) One is on standby A transmission unit that transmits the transition signal to the outdoor unit (10) of the standby power compatible model only when the model is determined to be a power compatible model.

  In the first invention, since the slave unit (20b, 20c, 20d) of the indoor unit is configured to be interlocked with the master unit (20a), an operation start or stop request is issued to the master unit (20a) of the indoor unit. Will be done. Then, when at least one of the outdoor units (10) is a standby power compatible model when the operation stop request is issued to the main unit (20a) of the indoor unit, the standby power from the main unit (20a) of the indoor unit When a transition signal is sent to the outdoor unit (10) of the corresponding model and the power supply to the outdoor unit (10) that received the transition signal is cut off, but not all the outdoor units (10) are models that support standby power Is not transmitted from the main unit (20a) of the indoor unit to the outdoor unit (10). When an operation start request is issued to the main unit (20a) of the indoor unit, the outdoor unit (10) is activated by the main unit (20a) that is a standby power compatible model.

  In a second aspect based on the first aspect, the air conditioner includes a display unit (33) and a communication unit (32) that transmits and receives control signals between the indoor unit (20a), A storage unit in which model specification information indicating whether or not the model is a standby power compatible model that cuts off power supply to at least one of the display unit (33) and the communication unit (32) according to the transition signal is stored in advance. (35), the determination unit (23), based on the model specification information of the outdoor unit (10) and the remote control (30), the outdoor unit (10) and the remote control (30) It is determined whether or not the remote control (30) is a standby power compatible model, and the transmission unit is configured to support at least one of the outdoor units (10) and the remote control (30) in the determination unit (23). The outdoor unit (10) and remote control of the standby power compatible model only when it is determined as the model And transmitting said transition signal 30).

  In the second invention, when at least one of the outdoor units (10) and the remote controller (30) are standby power compatible models, the standby power compatible model outdoor units (10) and A transition signal is transmitted to the remote controller (30), and power supply to at least one of the communication unit (32) and the display unit (33) of the outdoor unit (10) and the remote controller (30) that has received the transition signal is interrupted. On the other hand, in cases other than the above, that is, when the remote control (30) and the outdoor unit (10) that are not standby power compatible models are included, the outdoor unit (10) and the remote control ( No transition signal is sent to 30).

  According to the first invention, when the indoor unit (20) of the standby power compatible model and the outdoor unit (10) of the standby power incompatible model not configured to cut off the power supply are combined, When the outdoor unit (10) receives the transition signal, it cannot respond to the shut-off request, so a system failure (communication error) may occur. The transition signal from the indoor unit main unit (20a) to the outdoor unit (10) Is not transmitted, the outdoor unit (10) does not receive the transition signal. Therefore, no system failure occurs.

  In addition, since an operation start request is made to the main unit (20a) of the indoor unit and the main unit (20a) is configured with a standby power compatible model, the outdoor unit (10) whose power supply is cut off is the indoor unit. The main machine (20a) is surely activated. For this reason, the air conditioner operates even if the slave unit (20a) of the indoor unit includes a model that does not support standby power.

  Therefore, combining the indoor unit (20) that supports standby power and the outdoor unit (10) that does not support standby power will not cause a system failure, and the indoor unit (20) It is possible to provide a multi-type air conditioner that operates even when compatible models are mixed.

  According to the second invention, the power supply to the indoor unit (20) of the standby power compatible model and the outdoor unit (10), the display unit (32), and the communication unit (33) of the standby power incompatible model is cut off. When the remote controller (30) that does not support standby power is combined with the remote controller (30), if the outdoor unit (10) or remote controller (30) receives a transition signal, it cannot respond to the shut-off request. However, since the transition signal is not transmitted from the main unit (20a) of the indoor unit to the outdoor unit (10) and the remote control (30), the outdoor unit (10) and the remote control (30) receive the transition signal. There is no. Therefore, a system failure does not occur even if a standby power compatible model indoor unit (20) is combined with a standby power incompatible model remote controller (30) or a standby power incompatible model outdoor unit (10).

  In addition, when the standby power compatible model remote controller (30) is combined, the power supply of at least one of the display unit (32) and the communication unit (33) can be cut off, thereby reducing standby power more effectively. be able to.

FIG. 1 is a diagram illustrating an overall configuration of an air-conditioning apparatus according to Embodiment 1. FIG. 2 is an electrical system block diagram of the air conditioner when an outdoor unit of a standby power compatible model, a remote controller of a standby power compatible model, and an indoor unit are connected. FIG. 3 is a state transition diagram of the air-conditioning apparatus according to the embodiment. FIG. 4 is a diagram illustrating a state of each relay when a circuit for charging the second outdoor unit power supply unit is formed. FIG. 5 is a diagram illustrating a state of each relay after the transition to the charging state is completed. FIG. 6 is a diagram illustrating the state of each relay when the transition to the wait state is completed. FIG. 7 is a diagram showing the state of each relay in the operating state. FIG. 8 is a diagram for explaining the flow of signals when shifting from the operating state to the suspended state. FIG. 9 is an electrical system block diagram of the air conditioner when an outdoor unit that does not support standby power, a remote controller that supports standby power, and an indoor unit are connected. FIG. 10 is an electrical system block diagram of the air conditioner when an outdoor unit of a standby power compatible model, a remote controller of a model not supporting standby power, and an indoor unit are connected. FIG. 11 is a flowchart of the startup check. FIG. 12 is a diagram for explaining a signal flow in the operation stop operation of the air-conditioning apparatus according to Embodiment 2. FIG. 13 is a diagram illustrating an overall configuration of an air-conditioning apparatus according to another embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description of the preferred embodiment is merely exemplary in nature.
Embodiment 1
FIG. 1 is a diagram illustrating an overall configuration of an air-conditioning apparatus (1) according to Embodiment 1 of the present invention. This air conditioner (1) is a multi-type air conditioner that can be operated and controlled in units of multiple indoor units (20, 20,...). The outdoor unit (10), indoor unit ( 20), and a remote controller (hereinafter referred to as a remote controller) (30) are combined to perform an air conditioning operation.

  The air conditioner (1) includes one outdoor unit (10), one master unit (20a), and three slave units (20b, 20c, 20d) linked to the master unit (20a). And four indoor units (20, 20,...), And one remote controller (30) connected to the main unit (20a) of the indoor unit. The number of slave units of the indoor unit is not limited to this, and may be one or more.

  The outdoor unit (10) is configured by a standby power compatible model that can cut off power supply during operation stop or a standby power incompatible model that is supplied with power regardless of the operation state.

  The main unit (20a) of the indoor unit starts standby power supply to the outdoor unit (10) of the standby power compatible model whose power supply has been cut off, and has standby means for starting the outdoor unit (10) Consists of models.

  The slave units (20b, 20c, 20d) of the indoor unit are configured by the standby power compatible model or the standby power incompatible model that does not include the activation unit.

  The remote control (30) is a liquid crystal display unit regardless of a standby power compatible model capable of cutting off the power supply to at least one of the liquid crystal display unit (33) and the remote control communication unit (32), which are described later, or the operating state during operation stoppage. (33) and a standby power incompatible model in which power is supplied to the remote control communication unit (32).

  The present invention will be specifically described below.

  FIG. 2 shows the air in the case where an outdoor unit (10) of a standby power compatible model, a remote control (30) of a standby power compatible model, and an indoor unit (20, 20,...) According to an embodiment of the present invention are connected. It is an electrical system block diagram of a harmony device (1).

  In this air conditioner (1), indoor units that do not support standby power are used as the slave units (20b, 20c, 20d) of the indoor units. In FIG. 2, the slave units (20c, 20d) of the indoor unit are omitted for convenience.

  In the air conditioner (1), the outdoor unit (10) receives AC (three-phase AC of 200 V in this example) from the commercial AC power source (40) and receives the circuit in the outdoor unit (10) and the electric compressor. In addition to being used as electric power, the three-phase alternating current is supplied to the indoor units (20, 20,...). In addition, communication between the outdoor unit (10) and the main unit (20a) of the indoor unit is performed by transmitting and receiving control signals for the purpose of controlling the outdoor unit (10) from the main unit (20a) of the indoor unit. Is supposed to do. In addition, between indoor units (20, 20, ...), communication is performed by sending and receiving control signals for the purpose of controlling the indoor units (20b, 20c, 20d) from the indoor units (20a). Is supposed to do. In this way, in the air conditioner (1), in order to supply power from the outdoor unit (10) to the indoor units (20, 20,...) And transmit / receive control signals between the two, Three lines (internal and external wiring) of the power wiring (L) for transmitting alternating current, the signal line (S) for transmitting control signals, and the common line (N) sharing the transmission of alternating current and control signals are outdoors. It is provided between the unit (10) and the indoor unit (20, 20, ...).

  In this example, the power wiring (L) is connected to the R phase of the AC power supply (40) in the outdoor unit (10), and the common line (N) is connected to the S phase of the AC power supply (40). . Thus, single-phase alternating current is supplied to the indoor units (20, 20,...).

<Outdoor unit (standby power compatible model)>
The outdoor unit (10) includes, as an electrical system, a first outdoor unit power supply unit (14), a second outdoor unit power supply unit (12), an outdoor unit transmission unit (11), an outdoor unit control unit (13), and an outdoor unit storage. Part (15) and relays (K13R, K14R, K15R, K16R). Although not shown, the outdoor unit (10) is provided with devices such as an electric compressor, an outdoor heat exchanger, an outdoor fan, and an expansion valve.

-First outdoor unit power supply (14)-
The first outdoor unit power supply unit (14) converts the three-phase alternating current received from the commercial alternating-current power supply (40) into direct current and supplies it to a so-called intelligent power module (hereinafter referred to as IPM) or outdoor fan motor. To do. The IPM converts the input direct current into alternating current having a predetermined frequency and voltage, and supplies power to the motor of the electric compressor.

-Second outdoor unit power supply (12)-
The second outdoor unit power supply unit (12) converts the two phases of the three-phase alternating current R phase and S phase into direct current (5 V in this example) and supplies it to the outdoor unit control unit (13).

-Outdoor unit transmission section (11)-
The outdoor unit transmission unit (11) performs communication by transmitting and receiving signals to and from an indoor unit transmission unit (21) described later of the indoor unit (20). In this communication, based on a potential difference between the signal line (S) and the common line (N), communication is performed using high-level and low-level binary digital signals. Therefore, one end of the communication circuit in the indoor unit transmission section (21) is connected to the common line (N), and the other end of the communication circuit is connected to the signal line (S) via the relay (K14R).

-Outdoor unit control section (13)-
The outdoor unit control unit (13) includes a microcomputer and a program for operating the microcomputer. The outdoor unit control unit (13) controls the electric compressor and the like according to the signal received by the outdoor unit transmission unit (11) from the indoor unit transmission unit (21), and activates the outdoor unit (10). Time control (described later) is also performed.

-Outdoor unit storage (15)-
The outdoor unit storage unit (15) is connected to the outdoor unit control unit (13).

  In the outdoor unit storage unit (15), model specification information (bits “1” and “0”) indicating whether or not the outdoor unit (10) is a standby power compatible model is stored in advance.

−Relay (K13R) −
A relay (K13R) is a relay which switches the path | route of the alternating current supply to a 2nd outdoor unit power supply part (12). The relay (K13R) is a so-called C contact relay. Specifically, the relay (K13R) has two fixed contacts and one movable contact. When the relay (K13R) coil (not shown) is not energized, one fixed contact (normally closed contact) When the coil is energized, the other fixed contact (referred to as a normally open contact) and the movable contact are connected. The outdoor unit controller (13) controls switching of the relay (K13R) (whether or not the coil is energized).

  In this example, the movable contact of the relay (K13R) is connected to the second outdoor unit power supply unit (12). The normally closed contact is connected to the signal line (S), and the normally open contact is connected to the R phase of the three-phase alternating current.

− Relay (K14R) −
The relay (K14R) is a relay that switches connection and disconnection between the signal line (S) and the outdoor unit transmission unit (11). When the relay (K14R) is connected (ON), the signal line (S) and the outdoor unit transmission unit (11) are connected, and when the relay (K14R) is disconnected (OFF), the signal line (S S) and the outdoor unit transmission section (11) are disconnected. The outdoor unit controller (13) controls the on / off of the relay (K14R).

−Relay (K15R) −
The relay (K15R) is a relay that is provided between the outdoor unit transmission unit (11) and the R phase of the three-phase alternating current, and switches whether to supply power to the outdoor unit transmission unit (11). When the relay (K15R) is turned on, power is supplied to the outdoor unit transmission unit (11), and when the relay (K15R) is turned off, power supply to the outdoor unit transmission unit (11) is cut off. The outdoor unit controller (13) controls the on / off of the relay (K14R).

−Relay (K16R) −
Relays (K16R) are provided in the three-phase AC R-phase and S-phase supply lines, respectively. These two relays (K16R) are relays that switch the presence or absence of power supply to the first outdoor unit power supply unit (14). When the relay (K16R) is turned on, power is supplied to the first outdoor unit power supply unit (14), and when the relay (K16R) is turned off, power supply to the first outdoor unit power supply unit (14) is cut off. The outdoor unit controller (13) controls the on / off of the relay (K16R).

<Base unit of indoor unit (standby power compatible model)>
The main unit (20a) of the indoor unit includes, as an electrical system, an indoor unit power supply unit (22), an indoor unit transmission unit (21) and an indoor unit communication unit (25) constituting the transmission unit according to the present invention, The machine control unit (23), the indoor unit storage unit (24), a relay (K2R), and first and second diodes (D1, D2) are provided. Although not shown, the indoor unit (20) is provided with devices such as an indoor heat exchanger and an indoor fan.

-Indoor unit power supply (22)-
The indoor unit power supply unit (22) converts the alternating current supplied from the alternating current power supply (40) through the power wiring (L) and the common line (N) into direct current (5V in this example), and the indoor unit control unit ( To 23).

-Indoor unit transmission section (21)-
As described above, the indoor unit transmission unit (21) performs communication with the outdoor unit transmission unit (11) by transmitting and receiving signals. Since communication by digital signals is performed based on the potential difference between the signal line (S) and the common line (N), one end of the communication circuit of the indoor unit transmission unit (21) is the second diode (D2). The other end of the communication circuit is connected to the common line (N).

−Relay (K2R) −
The relay (K2R) is provided on the bypass line (B) that connects the power line (L) and the signal line (S), and switches between connecting and disconnecting the power line (L) and the signal line (S). It is a relay. The relay (K2R) functions as an activation unit that starts power supply to the outdoor unit (10) from which power supply is interrupted. When the relay (K2R) is turned on, the power wiring (L) and the signal line (S) are connected. When the relay (K2R) is turned off, the power wiring (L) and the signal line (S) are connected. Is disconnected. The indoor unit control unit (23) controls the ON / OFF of the relay (K2R).

-First diode (D1)-
The first diode (D1) has an anode connected to a connection node (ND1) between the bypass line (B) and the signal line (S), and a cathode connected to a relay (K2R). This 1st diode (D1) blocks | interrupts the alternating current of the direction which flows in into an indoor unit transmission part (21).

-Second diode (D2)-
The second diode (D2) has an anode connected to the connection node (ND1) of the signal line (S) and a cathode connected to the signal input node (ND2) in the indoor unit transmission unit (21). This 2nd diode (D2) blocks | interrupts the alternating current of the direction which flows out out of an indoor unit transmission part (21).

-Indoor unit control section (23)-
The indoor unit control unit (23) includes a microcomputer and a program for operating the microcomputer. The indoor unit control unit (23) performs, for example, operation control of the indoor fan. This indoor unit control unit (23) constitutes a determination unit.

-Indoor unit storage (24)-
The indoor unit storage unit (24) is connected to the indoor control unit (23). In the indoor unit storage unit (24), model specification information (bits “1” and “0”) indicating whether or not the indoor unit (20) is a standby power compatible model is stored in advance. As will be described in detail later, information indicating whether or not the entire system is compatible with standby power is stored.

-Indoor unit communication section (25)-
The indoor unit communication unit (25) is connected to the indoor unit control unit (23). The indoor unit communication unit (25) communicates with the remote control (30) by transmitting and receiving control signals to and from a remote control communication unit (32) described later of the remote control (30). The indoor unit communication unit (25) is supplied with power by the indoor unit power supply unit (22) regardless of the operation state in order to receive a command from the remote controller (30).
<Indoor unit slave units (models that do not support standby power)>
The indoor unit slave units (20b, 20c, 20d) differ from the indoor unit base unit (20a) only in that the bypass line (B), relay (K2R), and diode (D1) are not provided. Therefore, detailed description is omitted.

<Remote control (standby power compatible model)>
The remote controller (30) receives an operation from the user and transmits a control signal corresponding to the user operation to the indoor unit communication unit (25). For example, the user can start and stop the air conditioner (1), adjust the set temperature, and the like by operating a button on the remote controller (30).

  The remote control (30) includes a remote control power source (31), a remote control communication unit (32), a liquid crystal display unit (33), a remote control unit (34), a remote control storage unit (35), and a relay (36, It is a wired remote control equipped with 37).

-Remote control power supply (31)-
The remote control power supply unit (31) is connected to the indoor unit communication unit (25). The remote control power supply unit (31) is also connected to the remote control communication unit (32), the liquid crystal display unit (33), and the remote control unit (34), and the remote control communication unit (32), the liquid crystal display unit (33), and Power is supplied to the remote control unit (34).

-Remote control communication unit (32)-
The remote control communication unit (32) is connected to the indoor unit communication unit (25) in parallel with the remote control power supply unit (31), and communicates with the indoor unit communication unit (25) by transmitting and receiving control signals. .

-Liquid crystal display (33)-
A liquid crystal display part (33) displays the content which a user operates, for example, and operation content. Of course, the display unit may not be a liquid crystal screen.

-Remote control unit (34)-
The remote control unit (34) includes a microcomputer and a program for operating the microcomputer. The remote control unit (34) outputs, for example, an operation start signal or an operation stop signal to the remote control communication unit (32), or controls opening / closing of the relays (36, 37).

-Remote control memory (35)-
The remote control storage unit (35) is connected to the remote control unit (34). The remote controller storage unit (35) stores in advance model specification information (bits “1” and “0”) indicating whether or not the remote controller (30) is a standby power compatible model.

-Relay (36)-
The relay (36) is a relay that is provided between the remote control power supply unit (31) and the remote control communication unit (32) and switches the presence or absence of power supply to the remote control communication unit (32). When the relay (36) is turned on, power is supplied to the remote control communication unit (32) from the remote control power supply unit (31), and when the relay (36) is turned off, power supply to the remote control communication unit (32) is cut off.

-Relay (37)-
The relay (37) is a relay that is provided between the remote control power supply unit (31) and the liquid crystal display unit (33) and switches the presence or absence of power supply to the liquid crystal display unit (33). When the relay (37) is turned on, power is supplied from the remote control power source (31) to the liquid crystal display (33), and when the relay (37) is turned off, power is supplied to the liquid crystal display (33).
<Operation of air conditioner>
Next, the operation of the air conditioner (1) will be described.

  FIG. 3 is a state transition diagram of the air conditioner (1). The air conditioner (1) transitions between four states: a suspended state, a charged state, a wait state, and an operating state, which will be described below. In this specification, the standby power means “power that is constantly consumed when the device is not in use or is waiting for some input (command instruction, etc.)”. Specifically, in the air conditioner (1), the power required for the standby state of the remote control (30) is standby power.

(1) Suspended state The suspended state is a state in which power is supplied to the indoor unit (20) and power is not supplied to the outdoor unit (10).

  As an example, the suspended state of the present embodiment is a state in which the power consumption of the entire air conditioner (1) is minimized. Specifically, in the suspended state of this embodiment, the outdoor unit (10) receives power and supplies it to the indoor unit (20), but power is supplied to each internal circuit, electric compressor, and the like. It is a state that has not been done. That is, the outdoor unit (10) is cut off from the power supply from the AC power supply (40).

  The indoor unit (20) is in a state in which standby power is minimized, and in this embodiment, the portion related to signal reception from the remote control (30) in the indoor unit control unit (23) is the indoor unit power supply unit (22) It is receiving power from and operating.

  The remote control (30) is in a state where standby power is minimized, power supply to the remote control communication unit (32) and the liquid crystal display unit (33) is cut off, and the user can accept driving operations. The degree of power consumption (standby power) of the indoor unit (20) and the remote controller (30) is not limited to this.

(2) Charging state In the outdoor unit (10), charging is started at the second outdoor unit power supply unit (12), and between the outdoor unit transmission unit (11) and the indoor unit transmission unit (21). This refers to the state of the period until signal transmission is started.

  The power consumption of the indoor unit (20) is the same as in the suspended state.

  In the remote control (30), power is supplied to the remote control communication unit (32) and the liquid crystal display unit (33) from which power supply has been cut off.

(3) Wait state The wait state is a state in which the above charging state is exited at the start of operation, and a transition from the operation state (described later) when the operation is stopped. In both cases, the outdoor unit (10) This refers to the state that can be shifted to the operating state. In the weight state, the operation of the outdoor unit transmission unit (11) and the outdoor unit control unit (13) is also possible. In particular, the weight state at the time of operation stop (weight state that transitions from the operation state) is for equalizing the refrigerant pressure in the electric compressor or when a schedule operation that repeats operation start and operation stop is set. The time is, for example, 10 minutes. Note that the power consumption of the indoor unit (20) and the remote control (30) is the same as in the charged state.

(4) Operating state The operating state refers to a state where electric power is supplied from the first outdoor unit power supply unit (14) to the IPM and the fan motor, and the electric compressor and the outdoor fan can be operated or are operating.

  The power consumption of the remote control (30) is the same as in the charged state. On the other hand, the power consumption of the indoor unit (20) is higher than in each of the above states because the indoor fan or the like is in an operating state. Note that the suspended state, the charged state, and the wait state, excluding this operating state, correspond to “operating stopped” in this specification.

-Operation start operation-
In the air conditioner (1), when the operation is started, the air conditioner (1) transitions from the suspended state to the operating state in the order indicated by solid arrows in FIG.

<Electrical system in suspended state>
First, the state of the electrical system in the suspended state will be described. FIG. 2 shows the state of the relay in the suspended state.

  In the outdoor unit (10), the relay (K14R) and the relay (K15R) are off. That is, the outdoor unit transmission unit (11) is disconnected from the signal line (S) and also supplied with power. The relay (K13R) is in a state where the normally closed contact and the movable contact are connected. That is, the second outdoor unit power supply unit (12) is connected to the signal line (S).

  In the indoor unit (20), the relay (K2R) is off. That is, the signal line (S) and the power wiring (L) are not electrically connected.

  In the remote control (30), the relay (36) and the relay (37) are in the off state. That is, the remote controller communication unit (32) and the liquid crystal display unit (33) are cut off from the power supply from the remote controller power source unit (31).

<Transition from suspended state to charged state>
FIG. 4 is a diagram illustrating a state of each relay at the time when a circuit charged in the second outdoor unit power supply unit (12) is formed. FIG. 5 is a diagram illustrating a state of each relay after the transition to the charging state is completed. For example, when the user operates a button on the remote controller (30), the relay (36) and the relay (37) are turned on. Thereby, the remote control power supply unit (31) and the liquid crystal display unit (33) are connected, and power is supplied from the remote control power supply unit (31) to the liquid crystal display unit (33). When the user operates the button again with the remote control (30), the remote control power supply unit (31) and the remote control communication unit (32) are connected, and power is supplied from the remote control power supply unit (31) to the remote control communication unit (32). At the same time, an operation command signal is transmitted from the remote control (30) to the base unit (20a) of the indoor unit via the remote control communication unit (32).

  In the indoor unit main unit (20a), the indoor unit control unit (23) receives the operation command signal via the indoor unit communication unit (25). The indoor unit control unit (23) that has received the operation command signal turns on the relay (K2R). Then, from the R phase of the three-phase AC, the second outdoor unit power supply unit (L), the relay (K2R), the first diode (D1), the signal line (S), and the relay (K13R) The route to 12) is formed. Thereby, a circuit for charging the second outdoor unit power supply unit (12) is formed (see FIG. 4).

  In the outdoor unit (10), when the second outdoor unit power supply unit (12) can output a specified direct current (5 V in this example), the outdoor unit control unit (13) is activated.

  The outdoor unit control unit (13) places the normally open contact and the movable contact of the relay (K13R) in a connected state. As a result, the second outdoor unit power supply unit (12) switches to a state where power is supplied from the AC power supply (40) without passing through the signal line (S) (see FIG. 5). Thus, the transition from the suspended state to the charged state is completed.

<Transition from charge state to wait state>
FIG. 6 is a diagram illustrating the state of each relay when the transition to the wait state is completed. In the indoor unit (20), the relay (K2R) is turned off after a predetermined time (a time sufficient for starting the outdoor unit control unit (13)) has elapsed since the relay (K2R) was turned on. As a result, the signal line (S) can be used for signal transmission and reception.

  In the outdoor unit (10), when the relay (K2R) is turned off, the outdoor unit control unit (13 turns on the relay (K15R) and power is supplied to the outdoor unit transmission unit (11). At the same time, the relay (K14R) is turned on, so that the communication circuit in the outdoor unit transmission unit (11) is connected to the indoor unit transmission unit (21) via the signal line (S) and the common line (N). Thus, the air conditioner (1) enters a wait state in which the air conditioner (1) can exit the charging state and shift to the immediate operation state.

<Transition from wait state to operation state>
FIG. 7 is a diagram showing the state of each relay in the operating state. When shifting from the wait state to the operation state, in the outdoor unit (10), the outdoor unit control unit (13) turns on the relay (K16R). Thereby, the electric power supply to a 1st outdoor unit power supply part (14) is started. Then, electric power is supplied from the first outdoor unit power supply unit (14) to the IPM and the outdoor fan motor to drive the electric compressor and the like.

  In the main unit (20a) of the indoor unit, the indoor unit control unit (23) communicates with the outdoor unit (10) and recognizes that the outdoor unit (10) has started operation. When the indoor unit control unit (23) recognizes that the outdoor unit (10) has started operation, it activates the indoor fan and communicates with the slave units (20b, 20c, 20d). As a result, the indoor control unit (23) of the slave unit (20b, 20c, 20d) recognizes that the outdoor unit (10) has started operation, and the slave unit (20b, 20c, 20d) becomes the master unit (20a). Start driving in conjunction with Thus, in the air conditioner (1), operation control is performed in units of a plurality of indoor units (20, 20,...). As described above, the transition to the operation state is completed, for example, cooling or heating operation is performed.

-Stop operation-
When the operation is stopped, the operation state transits to the suspend state in the order indicated by the broken-line arrows in FIG. FIG. 8 is a diagram for explaining the flow of signals when shifting from the operating state to the suspended state.

  In the driving state, for example, when the user performs a driving stop operation with the remote controller (30), the operation state, the wait state, and the suspend state are changed in this order. Hereinafter, operations from the operating state to the suspended state will be described in order.

<Transition from operating state to wait state>
When the user performs the operation stop operation with the remote control (30), an operation stop signal is transmitted from the remote control (30) to the base unit (20a) of the indoor unit.

  The base unit (20a) of the indoor unit that has received the operation stop signal transmits the operation stop signal to the outdoor unit (10).

  In the outdoor unit (10) that has received the operation stop signal, the outdoor unit control unit (13) switches the relay (K16R) from on to off. Thereby, the power supply to the IPM and the outdoor fan motor is cut off, and the electric compressor and the like are stopped. Thus, the transition from the operating state to the wait state is completed (see FIG. 6).

<Transition from wait state to suspend state>
When the user performs the operation stop operation with the remote control (30), the predetermined remote suspension prohibition condition is determined with the remote control (30). This suspend transition prohibition condition is, for example, when the time when the user has stopped the operation with the remote control (30) is within a predetermined time from the scheduled operation start time reserved by the scheduling function, the transition from the wait state to the suspend state Is prohibited. When the suspend transition prohibition condition is not satisfied, as shown in FIG. 8, a cutoff request signal as a suspend transition signal is transmitted from the remote control (30) to the parent unit (20a) of the indoor unit.

  The main unit (20a) of the indoor unit that has received the blocking request signal transmits the blocking request signal to the outdoor unit (10) via the indoor unit transmission unit (21).

  In the outdoor unit (10) that has received the shut-off request signal, the outdoor unit control unit (13) places the normally closed contact and the movable contact of the relay (K13R) in a connected state. Thereby, the electric power supply to a 2nd outdoor unit power supply part (12) is interrupted | blocked. The outdoor unit controller (13) turns off the relay (K14R) and the relay (K15R). Here, immediately before operating the relay (K13R, K14R, K15R), the outdoor unit control unit (13) sends a shutdown execution signal as a suspend transition signal from the outdoor unit (10) to the main unit (20a) of the indoor unit. Send.

  The base unit (20a) of the indoor unit that has received the blocking execution signal transmits the blocking execution signal to the remote controller (30) via the indoor unit communication unit (25).

  In the remote controller (30) that has received the blocking execution signal, the remote controller control unit (34) turns off the relays (36, 37). As a result, the power supply from the remote control power supply unit (31) to the remote control communication unit (32) and the liquid crystal display unit (33) is cut off. Thus, the transition to the suspended state is completed (see FIG. 2).

<Determining whether to enter suspend status>
FIG. 9 is an electrical system block diagram of the air conditioner when an outdoor unit that does not support standby power, a remote controller that supports standby power, and an indoor unit are connected. FIG. 10 is an electrical system block diagram of the air conditioner when an outdoor unit of a standby power compatible model, a remote controller of a model not supporting standby power, and an indoor unit are connected.

  As described above, this air conditioner (1) can be used by combining an indoor unit (20) with an outdoor unit (10) that does not support standby power and a remote controller (30) that does not support standby power. it can. However, the outdoor unit (10) that does not support standby power does not include a relay (K13R, K14R, K15R) unlike the outdoor unit (10) that supports standby power, and the second outdoor unit power supply unit (12 ) Cannot be cut off. For this reason, if a shutdown request signal is transmitted from the main unit (20a) of the indoor unit to the outdoor unit (10) and the shutdown request signal is received by the outdoor unit (10), a system failure (communication error) may occur. . Further, unlike the standby power compatible model remote control (30), the remote control (30) of the model not supporting standby power does not include a relay (36, 37), and the liquid crystal display unit (33) and the remote control communication unit (32). ) Cannot be cut off. For this reason, when a cutoff execution signal is transmitted from the main unit (20a) of the indoor unit to the remote control (30) and the cutoff execution signal is received by the remote control (30), a system failure (communication error) may occur.

  Therefore, in the air conditioner (1), determination is made as to whether or not to shift to the suspend state as follows.

  Specifically, when the outdoor unit (10), the indoor unit (20, 20,...) And the remote controller (30) of the air conditioner (1) are connected and activated for the first time, the main unit of the indoor unit The indoor unit control section (23) of (20a) executes a start-up check as shown in the flowchart of FIG.

  Specifically, first, in step S1, the indoor unit control unit (23) acquires model specification information of the outdoor unit (10) and the remote control (30) from the outdoor unit storage unit (15) and the remote control storage unit (35). .

  In subsequent step S2, the indoor unit control unit (23) determines whether the outdoor unit (10), the parent unit (20a) of the indoor unit, and the remote controller (30) are standby power compatible models based on the model specification information. Determine whether. Here, of course, it is not necessary to determine the model specification information of the main unit (20a) of the indoor unit. When the outdoor unit (10), the main unit of the indoor unit (20a), and the remote controller (30) are all standby power compatible models, the process proceeds to step S3, while the outdoor unit (10), the indoor unit If any of the master unit (20a) and the remote controller (30) is not a standby power compatible model, the process proceeds to step S4.

  In step S3, standby power correspondence information indicating that the entire system is compatible with standby power is stored in the indoor unit storage unit (24). Specifically, for example, the bit of a predetermined address in the indoor unit storage unit (24) is set to “1”.

  In step S4, standby power non-correspondence information indicating that the entire system does not support standby power is stored in the indoor unit storage unit (24). Specifically, for example, the bit of the predetermined address in the indoor unit storage unit (24) is set to “0”.

  Then, as described above, when the shut-off request signal is transmitted from the remote control (30) to the main unit (20a) of the indoor unit, and the shut-off request signal is received by the main unit (20a) of the indoor unit, In the main unit (20a), when the indoor unit control unit (23) stores standby power correspondence information in the indoor unit storage unit (24), the indoor unit control unit (23a) determines that the transition to the suspended state is possible, When the standby power correspondence information is not stored in the indoor unit storage unit (24) (in other words, when the standby power non-correspondence information is stored) while being transmitted to the outdoor unit (10), it is suspended. It is determined that it is impossible to shift to, and a cutoff request signal is not sent to the outdoor unit (10). Therefore, when the air conditioner (1) includes an outdoor unit (10) that does not support standby power or a remote controller (30) that does not support standby power, the outdoor unit (10) receives a cutoff request signal. There is nothing. In this case, since the outdoor unit (10) does not receive the blocking request signal, the blocking execution signal is not transmitted from the outdoor unit (10) to the main unit (20a) of the indoor unit. As a result, the cutoff execution signal is not transmitted from the main unit (20a) of the indoor unit to the remote control (30), and the remote control (30) does not receive the cutoff execution signal. In addition, when the air conditioner (1) includes an outdoor unit (10) that does not support standby power and a remote controller (30) that does not support standby power, the main unit (20a) of the indoor unit Since the shut-off request signal is not transmitted to the outdoor unit (10), the air conditioner (1) does not enter the suspended state, and can only be in two states, a weight state and an operating state.

<Effect of Embodiment 1>
According to the first embodiment, out of the main unit (20a) and the sub unit (20b, 20c, 20d) of the indoor unit, only the main unit (20a) is requested to start operation, and the main unit (20a) Since it is configured with a standby power compatible model, the outdoor unit (10) whose power supply is cut off is reliably started by the main unit (20a) of the indoor unit. Therefore, it operates even if the slave unit (20b) of the indoor unit includes a model that does not support standby power.

  In addition, when a standby power compatible model indoor unit (20) and a standby power non-compliant model outdoor unit (10) are combined, the standby power model indoor unit (20) can be used as an outdoor unit that does not support standby power. When the shutdown request signal is transmitted to the unit (10) and the shutdown request signal is received by the outdoor unit (10) of the model not supporting standby power, the outdoor unit (10) can be configured to shut off the power supply. In this air conditioner (1), the outdoor unit (10), the main unit of the indoor unit (20a), and the remote controller (30) are all models that support standby power. Only when the indoor unit main unit (20a) is configured to send a shutdown request signal to the outdoor unit (10), the standby unit that does not support standby power (10) receives the shutdown request signal. Never do. Therefore, the system failure as described above does not occur in the air conditioner (1).

  Therefore, combining the indoor unit (20) that supports standby power with the outdoor unit (10) that does not support standby power does not cause a system failure, and the indoor power unit (20, 20,...) And a multi-type air conditioner that can operate even when models that do not support standby power are mixed.

  In addition, when a standby power compatible indoor unit (20) and a standby power incompatible model remote control (30) are combined, the standby power model indoor unit (20) is temporarily switched to a standby power incompatible model remote control ( 30), when the remote control (30) of the model that does not support standby power is received, the remote control (30) is connected to the remote control communication unit (32) and the liquid crystal display unit (33). Since it is not configured to cut off the power supply, a system failure may occur. In this air conditioner (1), the outdoor unit (10), the main unit of the indoor unit (20a), and the remote controller The remote controller (30) is in standby mode because it is configured to send a shut-off request signal from the main unit (20a) of the indoor unit to the outdoor unit (10) only when (30) is a model that supports standby power. If the model is not compatible with power, The shutdown request signal is not sent from the main unit (20a) to the outdoor unit (10). As a result, the remote control (30) of the model that does not support standby power does not receive the cutoff execution signal. Therefore, the system failure as described above does not occur in the air conditioner (1).

In addition, when combining an outdoor unit (10) that supports standby power with a remote control (30) that supports standby power, go to the remote control communication unit (32) and the liquid crystal display unit (33) of the remote control (30). Therefore, standby power can be more effectively reduced.
<< Embodiment 2 >>
Next, an air conditioner according to Embodiment 2 of the present invention will be described.

  In the air conditioner (1) according to the second embodiment, as shown in FIG. 12, in the operation stop operation, the cutoff request signal is not transmitted from the remote control (30) to the base unit (20a) of the indoor unit. This point is different from the first embodiment. Then, the operation stop operation | movement of the air conditioning apparatus (1) which concerns on Embodiment 2 is demonstrated.

  In the driving state, for example, when the user performs a driving stop operation with the remote control (30), a driving stop signal is transmitted from the remote control (30) to the base unit (20a) of the indoor unit. Here, the remote control (30) does not determine the suspension transition prohibition condition as in the first embodiment.

  In the main unit (20a) of the indoor unit that has received the operation stop signal, the indoor unit control unit (23) can shift to the suspended state when the standby power correspondence information is stored in the indoor unit storage unit (24). When the judgment is made and the operation stop signal and the shut-off request signal are transmitted to the outdoor unit (10) via the indoor unit transmission unit (21), the standby power correspondence information is not stored in the indoor unit storage unit (24). (In other words, when standby power incompatibility information is stored), it is determined that the transition to the suspended state is impossible, and the operation stop signal and the shut-off request signal are determined via the indoor unit transmission unit (21). Send only the shutdown signal to the outdoor unit (10). Since the subsequent operation stop operation is the same as that in the first embodiment, the description thereof is omitted.

<Effect of Embodiment 2>
According to the second embodiment, the same effects as those of the first embodiment can be obtained.
<< Other Embodiments >>
The present invention may be configured as follows with respect to the above embodiment.

  That is, in the said embodiment, although the outdoor unit (10) was made into 1 unit | set, as shown in FIG. In this case, the outdoor unit (10, 10,...) May have a mixture of models that support standby power and models that do not support standby power. Therefore, in step S2 of the startup check shown in FIG. 11, it is determined whether at least one of the remote controller (30) and the outdoor units (10, 10,...) Is a standby power compatible model, and the remote controller (30). When at least one of the outdoor units (10, 10,...) Is a standby power compatible model, the process proceeds to step S3. In step S3, in addition to the standby power correspondence information, the outdoor unit information indicating which outdoor unit (10) of the standby power compatible model is stored in the indoor unit storage unit (24). Keep it. If the outdoor unit (10a, 10b) is a model that supports standby power and the outdoor unit (10c) is a model that does not support standby power, the outdoor unit control unit (23 ) Discriminates the outdoor unit (10) that is a standby power compatible model based on the above outdoor unit information, and shuts off the indoor unit main unit (20a) to the standby unit (10a, 10b) that supports the standby power. Configure to transmit signals.

  Also, the indoor unit slave units (20b, 20c, 20d) are all models that do not support standby power, but this is not a limitation, and models that support standby power and models that do not support standby power may be mixed. It may be a standby power compatible model. In this case, the power supply voltage is applied between the common line (N) and the signal line (S), and in order to avoid communication abnormality, the indoor unit slave unit (20b , 20c, 20d) is preferably configured not to turn on the relay (K2R).

  Further, the remote control (30) of the standby power compatible model is configured to be able to cut off the power supply to the remote control communication unit (32) and the liquid crystal display unit (33), but is not limited thereto, for example, the remote control communication unit (32) and You may comprise so that the electric power supply to one side of a liquid crystal display part (33) can be interrupted | blocked.

  In addition, an outdoor unit (10) that does not support standby power, a remote controller (30) that does not support standby power, and an indoor unit (20, 20,...) May be combined.

  Further, an air conditioner that can be combined only with a remote control (30) that does not support standby power may be configured. In this case, the model of the remote control (30) in step S1 of the startup check shown in FIG. Only the model specification information of the outdoor unit (10) is acquired without acquiring the specification information, and in step S2, it is determined whether or not the outdoor unit (10) is a standby power compatible model.

  Furthermore, in the air conditioner (1), a communication circuit (indoor unit transmission section (21)) that transmits a suspend transition signal (shutdown request signal) to the outdoor unit (10) and a suspend transition signal (shutdown) to the remote control (30). The communication circuit (indoor unit communication unit (25)) that transmits the execution signal) is provided separately, but the suspend transition signal is transmitted to both the outdoor unit (10) and the remote controller (30) with one communication circuit. It may be.

  In the present invention, a system failure does not occur even when an indoor unit of a standby power compatible model and an outdoor unit of a standby power incompatible model are combined, and the standby power compatible model and the standby power incompatible model are mixed in the indoor unit. However, it is useful in that it can provide a multi-type air conditioner that operates.

DESCRIPTION OF SYMBOLS 1 Air conditioning apparatus 10 Outdoor unit 15 Outdoor unit memory | storage part 20 Indoor unit 20a Master unit 20b Child unit 21 Indoor unit transmission part (transmission part)
23 Indoor unit control unit (determination unit)
25 Indoor unit communication section (transmission section)
30 Remote controller (remote control)
32 Remote control communication unit 33 Liquid crystal display unit 35 Remote control storage unit K2R relay (starting means)

Claims (2)

An air conditioner comprising one or more outdoor units (10) and a plurality of indoor units (20, 20,...)
The outdoor unit (10) has a storage unit (15) in which model specification information indicating whether or not the model is a standby power compatible model in which power supply is shut off during operation stop according to a predetermined transition signal. Have
Of the plurality of indoor units (20, 20,...), One indoor unit (20) provided with an activation means (K2R) for starting power supply to the outdoor unit (10) whose power supply is interrupted Is configured as a master unit (20a) and other indoor units (20) are configured as slave units (20b, 20c, 20d, ...) linked to the master unit (20a),
Based on the model specification information of the outdoor unit (10), the base unit (20a) of the indoor unit includes a determination unit (23) that determines whether or not the outdoor unit (10) is a standby power compatible model. Only when at least one of the outdoor units (10) is determined to be a standby power compatible model by the determination unit (23), the transmission for transmitting the transition signal to the standby power compatible model outdoor unit (10) And an air conditioner. In the air conditioning apparatus according to claim 1,
A communication unit (32) that transmits and receives control signals between the display unit (33) and the base unit (20a) of the indoor unit, and the display unit (33) and the communication unit ( 32) further comprising a remote control (30) having a storage unit (35) in which model specification information indicating whether or not the model is a standby power compatible model that cuts off power supply to at least one of
The determination unit (23) determines whether the outdoor unit (10) and the remote controller (30) are standby power compatible models based on the model specification information of the outdoor unit (10) and the remote controller (30). Determine
The transmission unit is configured so that the determination unit (23) determines that the at least one of the outdoor units (10) and the remote controller (30) are standby power compatible models. 10) An air conditioner that transmits the transition signal to the remote controller (30).

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