JP2013050223A - Air conditioner system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To decrease power consumption of a wired remote controller in an air conditioner system including a plurality of indoor units connected to the wired remote controllers, by supplying power to the wired remote controller only when the power is required.SOLUTION: An indoor unit includes a power supply part supplying power to the wired remote controller, a relay to supply/block power to the wired remote controller, and an indoor unit control part controlling the relay. A central control device stores a power supply control table for each indoor unit, the table storing an operation condition of the indoor unit and a power condition of the wired remote controller. The indoor unit transmits a data to the central control device for notifying the operation condition of the indoor unit upon starting or stopping the operation of the indoor unit. The central control device receives the data for notifying the operation condition, updates the term of operation condition of the corresponding indoor unit in the power control table, and transmits an instruction data for blocking power supply to the indoor unit in which the term of operation condition in the power supply control table is stopped; and the indoor unit opens the relay when receiving the instruction data.

Description

  The present invention relates to an air conditioner system including a plurality of indoor units to which wired remote controllers are individually connected, and more particularly to management of power supplied from an indoor unit to a wired remote controller.

  Conventionally, an air conditioner system provided with a plurality of indoor units that supply power to a wired remote controller using a power line has been disclosed. In such an air conditioner system, a centralized management device is provided, and in most cases, an instruction to start / stop the operation of an individual indoor unit is issued from the centralized management device. For this reason, operation of temperature setting and air volume adjustment is mainly performed in the wired remote controller connected to each indoor unit.

On the other hand, in a large-scale air conditioner system, the number of indoor units, that is, the number of wired remote controllers is large, and may be several tens to several hundreds. Since the indoor unit used in the air conditioner system needs to always communicate with the central control device even when the operation is stopped, the internal indoor unit control unit remains basically powered on. In addition, power is still supplied to the wired remote controller in case the user starts operation by operating the wired remote controller.
Therefore, even if it seems that there is little driving such as at night, the power to the wired remote controller is still supplied, and thus the power consumed by the wired remote controller is wasted.

  In order to reduce such wasteful power, continuous communication is performed between the device and the wired remote controller during operation of the device, and data is transmitted only when necessary from the wired remote control side when the device is stopped. There has been disclosed a remote control device that switches to a system (for example, see Patent Document 1).

  However, although such a method has an effect of partially reducing the power related to communication, the wired remote control has many circuits that consume power, such as a key input unit, a display unit, a storage unit, and a remote control unit. The power could not be reduced.

JP 2000-134675 A (page 3, FIG. 1)

  The present invention solves the above-described problems and reduces power consumption of the wired remote controller by supplying power to the wired remote controller only when necessary in an air conditioner system provided with a plurality of indoor units connected to the wired remote controller. Provide an air conditioner system.

In order to solve the above-described problems, the present invention according to claim 1 of the present invention manages a power supply of the wired remote controller, and a plurality of indoor units having a wired remote controller, and a communication connection to the indoor unit. Remote control power management means to
The indoor unit includes a power supply unit that supplies power to the wired remote controller, a switch unit that supplies / shuts off power to the wired remote controller, and an indoor unit control unit that controls the switch unit,
The remote control power management means includes, for each indoor unit, a storage unit that stores a power management table that stores an operation state of the indoor unit and a power supply state of the wired remote controller, and a control unit that controls the storage unit. Prepared,
The indoor unit transmits operation state notification data to the remote control power management means when the indoor unit starts or stops operating,
When the remote control power management means receives the operation state notification data, the remote control power management means updates the corresponding operation state item of the indoor unit in the power management table to the received operation state, and supplies power to the wired remote controller. When the operation status received for the status item is started, the supply is updated when the operation is started, and when the operation is stopped, it is updated to be shut off, while the indoor unit whose operation status in the power management table is stopped is supplied with power. Send instruction data to block,
When the indoor unit receives the instruction data, the indoor unit controls the switch unit according to the instruction data.

The invention according to claim 2 of the present invention is characterized in that the indoor unit is provided with current detecting means for detecting a supply current to the wired remote controller and a resistor connected in parallel to the switch means, and the wired remote controller. Is provided with a start switch to increase the load current of the wired remote control,
When the indoor unit is in a stopped state, the indoor unit control unit monitors the current via the current detection means, and the load current increases by operating the start switch and exceeds a predetermined threshold value. The switch means is in a power supply state, and the remote control power management means transmits the notification data indicating that the wired remote control is in a power supply state to the remote control power management means, and the remote control power management means that has received the notification data The content of the power state of the wired remote controller corresponding to the notification source indoor unit in the table is updated to supply.

According to a third aspect of the present invention, the timer value of the power supply time during the stop indicating the time during which the power is supplied to the wired remote controller while the indoor unit is stopped is stored in the power management table. Memorize it corresponding to the indoor unit,
The remote control power management means extracts an indoor unit in which the operation status item of each indoor unit in the power management table is stopped and the power status of the corresponding wired remote control is supplied, and the time elapses. Correspondingly, the timer value of the power supply time corresponding to the extracted indoor unit is updated, and when the timer value of the power supply time reaches a predetermined value, the power state of the wired remote controller is updated to cut off And transmitting instruction data for shutting off the power supply to the corresponding indoor unit.

  Further, in the invention according to claim 4 of the present invention, when the indoor unit stops operation, the switch means shuts off power to the wired remote controller, and the wired remote controller is in a power cutoff state. Alternatively, the operation data indicating that the operation has been stopped is transmitted to the remote control power management means, and the remote control power management means that has received the notification data corresponds to the notification source indoor unit in the power management table. The content of the power state of the wired remote controller is updated to cutoff.

By using the above means, according to the air conditioner system of the present invention,
In the invention according to claim 1, since the power supply management of each wired remote controller is collectively performed by the remote controller power management means, the operation is controlled or stopped for each indoor unit, or the operation is managed by the system such as the schedule operation. In addition, the power consumption of the wired remote control can be reduced by supplying power to the wired remote control only when the wired remote control is necessary.

  In the invention according to claim 2, since the start switch is provided on each wired remote controller side, the power supply from the wired remote controller side to the wired remote controller is started even when the power source of the wired remote controller is shut off. Can do. In addition, when the start switch is connected, the notification data indicating that the wired remote controller is in the power supply state is transmitted to the remote controller power management means, so that comprehensive power management can be performed even when the wired remote controller is operated.

  According to the third aspect of the present invention, in order to shut off the power supply of the wired remote controller when power is supplied to the wired remote controller and the operation of the indoor unit is stopped and the predetermined time has elapsed, Current consumption can be reduced. Further, the wired remote controller can be operated within a predetermined time, and the user's operability is not reduced within this predetermined time.

  The invention according to claim 4 shuts off the power to the wired remote controller when the indoor unit stops operation, and transmits notification data of this operation stop or power shutdown of the wired remote controller from the indoor unit to the remote control power management means. The remote control power management means updates the content of the power status of the wired remote control corresponding to the indoor unit of the notification source in the power management table to shut off. For this reason, it is not necessary to transmit the instruction data for shutting off the power of the wired remote controller from the remote control power management means to the indoor unit, and the transmission processing of the remote control power management means can be simplified.

It is a block diagram which shows the Example of the air conditioning system by this invention. It is a block diagram which shows the Example of the centralized management apparatus by this invention. It is a block diagram which shows the Example of the indoor unit by this invention. It is a block diagram which shows the Example of the wired remote control of the indoor unit by this invention. It is explanatory drawing explaining the power supply management of the wired remote control by this invention. It is explanatory drawing explaining the power management table of the wired remote control by this invention. It is a flowchart explaining the process of the control part of the centralized management apparatus by this invention. It is a flowchart explaining the process of the indoor unit control part by this invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail as examples based on the attached drawings.
The feature of the present invention is that power is supplied to the wired remote controller only during the time period when the wired remote controller is expected to be operated, that is, the period during which the indoor unit is operated and the period before and after that period. It is to reduce the power consumption of the wired remote control by shutting off the power.
In the embodiment, since a power supply from the wired remote controller to the wired remote controller is instructed to the indoor unit, a small amount of current is always consumed on the wired remote controller, but it is very small compared to the current during operation. Therefore, in the embodiment, even when the minute current is consumed, it is referred to as “shut off of the power supply”.

  FIG. 1 is a block diagram showing an embodiment of an air conditioner system according to the present invention. The air conditioner system includes a centralized management device 3, an outdoor unit 30, a plurality of indoor units 20a, 20b, 20c, and 20d, and wired remote controllers 10a, 10b, 10c, and 10d provided corresponding to the indoor units. It has. The central control device 3, the outdoor unit 30, and each indoor unit are connected by communication via a communication line 1, and each indoor unit and each wired remote controller are connected by communication via a remote control connection line 2. In addition to the communication line, the remote control connection line 2 is provided with a power line for driving the wired remote controller, and power is supplied from the indoor unit to the wired remote controller.

FIG. 2 is a block diagram showing an embodiment of the centralized management device 3 of the air conditioner system according to the present invention. The centralized management device 3 controls the entire air conditioner system and also serves as remote control power management means for managing power supply of each wired remote control.
The centralized management device 3 transmits instruction data to the indoor units 20a and the outdoor units 30 via the communication line 1 and the key input unit 32 for inputting the state of the key operated by the administrator, and state data from these A display unit 31, a backlight 37 that illuminates a liquid crystal panel (not shown) of the display unit 31 from behind, a storage unit 33 that stores data, and a microcomputer that stores a program for controlling these. And a control unit 35. This microcomputer has a clock function and always keeps time.

  The centralized management device 3 controls each device in the air conditioner system in accordance with an operation instruction from the administrator, receives status data transmitted from each device, and displays it on the display unit 31. Moreover, by storing the data of the scheduled operation instructed in advance in the storage unit 33, the operation of each indoor unit can be started / stopped at a predetermined time. The storage unit 33 stores a power management table described later.

  FIG. 3 is a block diagram showing an embodiment of an indoor unit of an air conditioner system according to the present invention. Since this indoor unit 20a has the same configuration as other indoor units, the indoor unit 20a will be described as a representative.

  The indoor unit 20a includes an indoor unit communication unit 21 that performs data communication with the wired remote controller 10a and the communication line 2a in the remote control connection line 2, a room temperature detection unit 27 that detects indoor temperature, and a storage unit that stores data. 25, a communication unit 22 that communicates with the outdoor unit 30 and the centralized management device 3, an indoor unit control unit 26 that controls these, a power supply unit 28 that inputs the AC power supply 4 and outputs the DC power supply Vcc, A relay 23 that is a switching means for switching whether to supply the DC power source Vcc to the power line 2b as a power source for driving the wired remote controller 10a, a resistor 29 connected in parallel with the switching contact of the relay 23, and a power source unit 28 And a current sensor 24, which is a current detecting means that is disposed between the output terminal of the first and second relays 23 and detects the load current of the wired remote controller 10a.

In addition, a voltage signal corresponding to the load current detected by the current sensor 24 is input to the indoor unit control unit 26, and the indoor unit control unit 26 passes through the resistor 29 when the contact of the relay 23 is open. A weak current flowing through the wired remote controller 10a is measured.
The remote control connection line 2 includes three lines including a communication line 2a for performing communication between the wired remote controller 10a and the indoor unit 20a, a power line 2b for supplying the DC power source Vcc to the wired remote controller 10a, and a ground line 2c. It is composed of electric wires.

  Each indoor unit and the centralized management device 3 include the destination and the address of the transmission source in the data transmitted by each, and the device that has received this data has the destination determined by its own preset address. The data to be received can be selected by checking whether or not it is addressed to itself. For example, the data transmitted from the centralized management apparatus 3 includes a destination address, a transmission source address, a transmission item (for example, an instruction to the indoor unit), a content of the transmission item (for example, scheduled operation start of the destination address # 20), and the like. . On the other hand, the indoor unit includes a destination address, a transmission source address, a transmission item (for example, the state of the indoor unit), a content of the transmission item (for example, operation start at address # 20), and the like. Therefore, the device that receives these data can receive the data addressed to itself, determine the item to be processed according to the transmission item, and execute the process according to the content of the transmission item. In this embodiment, the central management device 3 is assigned # 00, the outdoor unit 30 is assigned # 30, and the indoor units 20a to 20d are assigned addresses # 20 to # 23.

FIG. 4 is a block diagram showing an embodiment of the wired remote controller 10a of the air conditioner system according to the present invention. Since the wired remote controller 10a has the same configuration as other wired remote controllers, the wired remote controller 10a will be described as a representative.
The wired remote controller 10a transmits a command data to the indoor unit 20a via the communication line 2a and receives communication data from the indoor unit 20a, and a key input unit 12 for inputting the state of the key operated by the user. Remote control including a communication unit 16, a display unit 11, a backlight 17 that illuminates a reflective liquid crystal panel (not shown) of the display unit 11, a storage unit 13 that stores data, and a microcomputer that stores a program for controlling the data Part 15.

  In the wired remote controller 10a, the ground line 2c of the remote control connection line 2 is connected to the ground. The power supply line 2b is connected to the terminal of the DC power supply Vcc of the control circuit body 10 in the wired remote controller 10a, and is connected to the ground via the start switch 14 and the resistor 18. Accordingly, when the contact of the relay 23 of the indoor unit 20a is opened, that is, when the power source of the wired remote controller 10a is cut off, the user starts the operation of the indoor unit 20a. Turn on (connect). Thereby, the electric current which flows through the resistance 29 of the indoor unit 20a increases. The indoor unit control unit 26 monitors the current flowing through the resistor 29, and determines that there is a “power supply request” from the wired remote controller 10a when the current exceeds a predetermined threshold value. Therefore, if the indoor unit control unit 26 determines that the current flowing through the resistor 29 has exceeded the predetermined threshold value when the start switch 14 is closed, the contact of the relay 23 is connected, and the DC power source Vcc is connected to the wired remote controller 10a. Supply.

  Note that the start switch 14 is a push button switch that closes the contact point only while it is pressed, and the user who presses the button releases the button after confirming that power is supplied to the wired remote controller 10a. The resistor 18 is a resistor for preventing a short circuit, and prevents the DC power source Vcc from being short-circuited while the start switch 14 is pressed.

  The wired remote controller 10a supplied with the DC power supply Vcc starts operation. When the remote control unit 15 receives an instruction from the user, for example, an instruction operation for starting operation via the key input unit 12, the remote control unit 15 converts the key code corresponding to the key into the key code, and displays the key operation content on the display unit 11. At the same time, “operation instruction” data is transmitted to the indoor unit 20a. The indoor unit 20a that has received this operates the indoor unit 20a in accordance with the contents of the operation instruction, and transmits an “operation start notification” to the centralized management device 3 if the operation instruction is an instruction to start operation. Similarly, if the operation instruction is an instruction to stop operation, “operation stop notification” is transmitted to the centralized management device 3.

  FIG. 5 is an explanatory diagram for explaining power management of the remote controller according to the present invention, and shows a power supply state to the centralized management device 3, the indoor unit 20a, and the wired remote controller 10a. FIG. 5 (1) shows data transmitted by the centralized management device 3 to the indoor unit 20a, FIG. 5 (2) shows data transmitted by the indoor unit 20a to the centralized management device 3, and FIG. 5 (3) shows data of the indoor unit 20a. FIG. 5 (4) shows the operating state, FIG. 5 (4) shows the power supply state supplied to the wired remote controller 10a, and FIG. 5 (5) shows the state of the start switch 14.

  As shown in “in the case of scheduled operation” in FIG. 5 (1), the centralized management device 3 first shuts off the indoor unit 20 a that is the target of the scheduled operation when it is time to start the scheduled operation. “Power supply” instruction data is transmitted so as to supply power to the wired remote controller 10a. Subsequent to this, the instruction data for starting the scheduled operation is transmitted. Receiving this, the indoor unit 20a supplies power to the wired remote controller 10a as shown in FIG. 5 (4) and starts scheduled operation as shown in FIG. 5 (3). At this time, the indoor unit 20 a transmits “operation start notification” data to the centralized management device 3.

  Similarly, when the scheduled operation stop time comes, the centralized management device 3 transmits scheduled operation stop instruction data to the indoor unit 20a. Further, subsequently, the “power cutoff” instruction data is transmitted to the indoor unit 20a so as to shut off the power supply of the wired remote controller 10a that has been supplied. Receiving this, the indoor unit 20 a stops the scheduled operation as shown in FIG. 5 (3), and transmits “operation stop notification” data to the centralized management device 3. Further, as shown in FIG. 5 (4), the power source of the wired remote controller 10a is shut off.

  As shown in “in the case of a user request” in FIG. 5 (1), the user requests an administrator of the air conditioner system, and the administrator supplies power to the wired remote controller 10 a from the central control device 3 through the indoor unit 20 a. It can also be supplied. This is effective, for example, when the wired remote controller 10a does not have the activation switch 14. The central management device 3 transmits "power supply" instruction data to the indoor unit 20a, and the indoor unit 20a that has received the instruction data supplies power to the wired remote controller 10a. As a result, the user can operate the wired remote controller 10a.

  However, when the user does not start the operation of the indoor unit 20a after requesting the power supply, for example, when the conference is canceled and the operation of the indoor unit 20a becomes unnecessary, if the power supply is continued as it is, unnecessary power is consumed. Consume. For this reason, after the central management device 3 transmits the instruction data of “power supply”, the operation of the corresponding indoor unit 20a is not started within a predetermined time, for example, 30 minutes, that is, the operation start of the indoor unit 20a is started. When the notification data is not received, the “power cutoff” instruction data is transmitted to the indoor unit 20a, and the wired remote controller 10a is turned off.

  As shown in “in the case of a request on the remote control side” in FIG. 5 (1), when the start switch 14 is pressed in FIG. 5 (5), the control circuit body 10 of the wired remote control 10 a is connected in parallel with the resistor 18. As a result, the current detected by the current sensor 24 increases compared to the case where only the control circuit main body 10 is flowing. For this reason, when the current value detected by the current sensor 24 exceeds the threshold value, the indoor unit control unit 26 connects the contact of the relay 23 and supplies power to the wired remote controller 10a as shown in FIG. 5 (4). At the same time, the indoor unit control unit 26 transmits “power supply notification” data to the centralized management device 3.

  Thereafter, when manual operation is started by the user, the indoor unit 20 a transmits “operation start notification” data to the centralized management device 3. Further, when the manual operation is stopped by the user, the indoor unit 20 a transmits “operation stop notification” data to the centralized management device 3. In this case as well, if the operation stop state continues for a predetermined time (30 minutes) or more after the central management device 3 receives the “operation stop notification” data, the central management device 3 sends “power cutoff” to the indoor unit 20a. Send the instruction data.

  As shown in “in the case of forced shut-off” in FIG. 5 (1), when the manual operation in FIG. 5 (3) is stopped, the centralized management device 3 is used even if it is within a predetermined time (30 minutes). There is a case where an instruction of “power cut-off” is forcibly transmitted to 20a. For example, if the operation stop operation is performed when the working time has passed, the centralized management device 3 determines that the operation will not be resumed in a later time, and cuts off the power supply to the wired remote controller 10a.

Next, the power management table of FIG. 6 will be described.
FIG. 6 is an explanatory diagram for explaining a power management table according to the present invention. This table is stored in the storage unit 33 of the centralized management device 3, and when the scheduled operation time comes, when an operation start / stop operation is performed in each indoor unit, or when the wired switch 10 a is operated by the start switch 14. Is updated by the control unit 35 when power supply is started.

  The items next to the power management table are the “target remote control” to be managed, the “address” of the indoor unit corresponding to the target remote control, the “operating status” of the indoor unit corresponding to the target remote control, the “power status of the target remote control”, the target This is the “power supply time when stopped” for the indoor unit corresponding to the remote control. The vertical items of the power management table are wired remote controllers 10a to 10d (corresponding to the indoor units 20a to 20d, respectively).

For example, the control unit 35 monitors the time, and when the indoor unit 20a (address is # 20) reaches the scheduled operation start time according to a schedule table (not shown), as described in “Schedule operation” in FIG. The control unit 35 transmits “power supply” instruction data to the indoor unit 20a, and writes “supply” in the “power supply state of the target remote controller” column corresponding to the wired remote controller 10a of the power management table. Then, “operation start notification” data is received from the indoor unit 20a, the target remote controller is identified from the value of the received transmission source address, and “scheduled operation” is similarly written in the “operation state” column. If the “Power supply state of the target remote control” column is “Supply” and the “Operating state” column is any operation, the “Power supply time during stop” remains “0 minutes”.
On the other hand, when the control unit 35 receives the “operation stop notification” data from the indoor unit, the control unit 35 identifies the target remote controller from the received source address value and similarly writes “stopped” in the “operation state” column.

  Then, as time elapses, the control unit 35 sets “power supply time during stop” in which the “operating state” column is “stopped” and the “power state of the target remote controller” is “supplied”. Count up the timer value in the column. When this value becomes “30 minutes”, the control unit 35 of the centralized management device 3 transmits “power-off” instruction data to the indoor unit that has reached “30 minutes”. As a result, the power supply of the corresponding wired remote controller is shut off. Further, the centralized management device 3 writes “blocking” in the “power supply state of the target remote controller” column corresponding to the wired remote controller that has become “30 minutes”. Thereafter, the timer value of “30 minutes” is rewritten to “0 minutes”.

  As described above, the centralized management device 3 manages the operation state of each indoor unit, the power supply state of the target remote controller, and the power supply time during the stop by using the power management table. The power supply time is monitored and the power supply is cut off after a predetermined time.

  As described above, since the remote control power management means, that is, the centralized management device 3 performs the power supply management of each wired remote controller at once, there is a system such as a case where each indoor unit is operated or stopped, or a schedule operation. The power consumption of the wired remote controller can be reduced by supplying power to the wired remote controller only when the operation of each wired remote controller is necessary, including the operation to be managed.

  In addition, since the start switch is provided on each wired remote controller side, the power supply from the wired remote controller side to the wired remote controller can be started even when the power source of the wired remote controller is shut off. Further, when power is supplied to the wired remote controller 10a at the request from the wired remote controller 10a by the start switch 14, the wired remote controller is in a power supply state from the indoor unit 20a to the remote controller power management means (centralized management device 3). Since the notification data is transmitted, comprehensive power management can be performed even if the operation is performed on the wired remote controller 10a side.

  In addition, since the power is supplied to the wired remote controller 10a and the operation of the indoor unit 20a is stopped and the power supply of the wired remote controller 10a after a predetermined time is shut off, the current consumption of the unused wired remote controller 10a Can be reduced. The wired remote controller 10a can be operated within a predetermined time, and the user's operability is not deteriorated within the predetermined time.

  Next, the processing operation of the centralized management apparatus 3 according to the present invention will be described using the flowchart of the control unit 35 shown in FIG. Note that ST shown in FIG. 7 represents a step, numbers following the ST represent a step number, Y represents Yes, and N represents No.

  In FIG. 7, the control unit 35 checks whether there is data received from the indoor unit (ST1). When there is received data from the indoor unit (ST1-Y), the power management table is updated according to the received data (ST8). As described above, this is an operation of updating each item of the wired remote controller corresponding to each indoor unit in the corresponding power management table when each notification data of operation start / stop and power supply is received. Then jump to ST1.

  When there is no data received from the indoor unit (ST1-N), it is confirmed whether the time has passed (ST2). When the time has passed, that is, every minute (ST2-Y), the content of “power supply time during stop” in the power management table is updated (ST3). As described above, this is because the “operation status” of the power management table is “stopped” and the “power supply status of the target remote controller” is “supplied” for the “power supply time during stop” of the indoor unit. This is an operation to count up the contents.

  Next, it is confirmed whether there is a remote control to be shut off (ST4). This can be confirmed when the content of the “power supply time during stop” counted up in the power management table reaches a predetermined time, that is, 30 minutes. When there is a remote control to be turned off (ST4-Y), the instruction data of “Power off” is transmitted to the indoor unit corresponding to this remote control, and the content of “Power state of target remote control” in the power management table is set to “ At the same time, the content of “power supply time during stop” is set to “0 minutes” (ST5).

  Next, it is confirmed whether the scheduled operation start / stop time is reached (ST6). This is to confirm the time specified in advance by the operation management schedule (not shown) stored in the storage unit 33. In the case of the scheduled operation start / stop time (ST6-Y), the scheduled operation start or stop instruction data and the power supply or power cutoff instruction data are transmitted to the target indoor units (ST10). Then, jump to ST1.

  If it is not the start / stop time of the scheduled operation (ST6-N), it is confirmed whether there is power supply in accordance with an administrator instruction (ST7). This can be determined based on whether there is a power supply instruction to the wired remote controller of a specific indoor unit via the key input unit 32 of the centralized management device 3. When there is no power supply by an administrator instruction (ST7-N), the process jumps to ST1. When there is power supply by an administrator instruction (ST7-Y), the power supply instruction data is transmitted to the target indoor unit, and the content of “power state of target remote control” in the power management table is set to “supply” (ST9). . Then, jump to ST1.

  On the other hand, if ST1 does not pass the time (ST2-N) and there is no remote control to be powered off (ST4-N), the process jumps to ST6 without doing anything.

  Next, the processing operation of the indoor unit according to the present invention will be described using the flowchart of the indoor unit control unit 26 shown in FIG. Note that ST shown in FIG. 8 represents a step, numbers following the ST represent step numbers, Y represents Yes, and N represents No.

  In FIG. 8, the indoor unit control unit 26 checks whether there is instruction data (addressed to its own address) transmitted by the centralized management device 3 (ST21). When there is no instruction data (addressed to its own address) transmitted by the central management apparatus 3 (ST21-N), it is confirmed whether there is instruction data transmitted by the wired remote controller (ST22).

  When there is no instruction data transmitted by the wired remote controller (ST22-N), it is confirmed whether or not the own indoor unit is currently stopped (ST23). If its own indoor unit is not stopped (ST23-N), that is, if it is in operation, the current operation is continued (ST31), and the process jumps to ST21.

  When the operation of the indoor unit is stopped (ST23-Y), it is next confirmed whether the outflow current to the wired remote controller is equal to or greater than the threshold value (ST24). If the outflow current to the wired remote controller is not equal to or greater than the threshold (ST24-N), the process jumps to ST21.

  If the outflow current to the wired remote controller is equal to or greater than the threshold value (ST24-Y), the power shut-off / supply relay 23 is turned on (closed) (ST25). Next, “power supply notification” data is transmitted to the central management apparatus 3 (ST26). Then, the process jumps to ST21.

  On the other hand, when there is instruction data (addressed to its own address) transmitted from the centralized management apparatus 3 (ST21-Y), it is confirmed whether this data is instruction data for power shutoff / supply to the wired remote controller (ST27). When this data is power-off / supply instruction data for the wired remote controller (ST27-Y), the power-off / supply relay 23 is opened / closed according to the instruction data (ST30). Then, the process jumps to ST21.

  If it is not the instruction data for power shutoff / supply to the wired remote controller (ST27-N), that is, the instruction data for starting / stopping operation, the operation is started / stopped according to the instruction data (ST28). Next, operation start or stop notification data corresponding to the instruction data is transmitted to the central management apparatus 3 (ST29). Then, the process jumps to ST21.

  Further, when there is instruction data transmitted from the wired remote controller (ST22-Y), the operation is instructed by jumping to ST28 because it is an operation instruction by the user's operation.

  In this embodiment, the remote control power management means is also shared by the centralized management device 3, but the present invention is not limited to this, and a specific indoor unit or outdoor unit manages the power of all wired remote controls. That is, the same remote control power management means as that of the centralized management apparatus 3 in the first embodiment may be provided, and each indoor unit may follow the instructions of the remote control power management means.

  Further, in this embodiment, the centralized management device 3 receives the operation status data of the operation stop transmitted from the indoor unit, and in response thereto, the centralized management device 3 transmits the power-off instruction data to the indoor unit. However, the present invention is not limited to this. When the indoor unit stops operation, the relay 23 is opened to shut off the power supply, and then the operation stop state data or the operation of the operation stop. The state management data is transmitted to the centralized management device 3, and the centralized management device 3 that has received the data updates the operation state item of the corresponding indoor unit in the power management table to the operation stop state, and the wired remote controller You may make it update the item of a power supply state to interruption | blocking. In this case, power-off instruction data is not transmitted from the centralized management device 3 to the corresponding indoor unit. Thereby, the transmission process of the centralized management apparatus 3 can be simplified.

DESCRIPTION OF SYMBOLS 1 Communication line 2 Remote control connection line 2a Communication line 2b Power supply line 2c Ground line 3 Centralized control device 4 AC power supply 10 Control circuit body 10a Wired remote control 11 Display unit 12 Key input unit 13 Storage unit 14 Start switch 15 Remote control unit 16 Remote control communication Unit 17 Backlight 18 Resistance 20a, 20b, 20c, 20d Indoor unit 21 Indoor unit communication unit 22 Communication unit 23 Relay 23 Supply relay 24 Current sensor 25 Storage unit 26 Indoor unit control unit 27 Room temperature detection unit 28 Power supply unit 29 Resistance 30 Outdoor unit 31 Display unit 32 Key input unit 33 Storage unit 35 Control unit 36 Communication unit 37 Backlight

Claims (4)

A plurality of indoor units equipped with a wired remote control, and a remote control power management means connected to the indoor unit for communication and managing the power supply of the wired remote control,
The indoor unit includes a power supply unit that supplies power to the wired remote controller, a switch unit that supplies / shuts off power to the wired remote controller, and an indoor unit control unit that controls the switch unit,
The remote control power management means includes, for each indoor unit, a storage unit that stores a power management table that stores an operation state of the indoor unit and a power supply state of the wired remote controller, and a control unit that controls the storage unit. Prepared,
The indoor unit transmits operation state notification data to the remote control power management means when the indoor unit starts or stops operating,
When the remote control power management means receives the operation state notification data, the remote control power management means updates the corresponding operation state item of the indoor unit in the power management table to the received operation state, and supplies power to the wired remote controller. When the operation status received for the status item is started, the supply is updated when the operation is started, and when the operation is stopped, it is updated to be shut off, while the indoor unit whose operation status in the power management table is stopped is supplied with power. Send instruction data to block,
When the indoor unit receives the instruction data, the indoor unit controls the switch unit according to the instruction data. The indoor unit is provided with current detection means for detecting a supply current to the wired remote controller and a resistor connected in parallel with the switch means, and the wired remote controller is provided with an activation switch for increasing the load current of the wired remote controller ,
When the indoor unit is in a stopped state, the indoor unit control unit monitors the current via the current detection means, and the load current increases by operating the start switch and exceeds a predetermined threshold value. The switch means is in a power supply state, and the remote control power management means transmits the notification data indicating that the wired remote control is in a power supply state to the remote control power management means, and the remote control power management means that has received the notification data The air conditioner system according to claim 1, wherein the content of the power state of the wired remote controller corresponding to the indoor unit of the notification source in the table is updated to supply. In the power management table, the timer value of the power supply time during the stop indicating the time when the power is supplied to the wired remote controller while the indoor unit is stopped is stored in association with the indoor unit,
The remote control power management means extracts an indoor unit in which the operation status item of each indoor unit in the power management table is stopped and the power status of the corresponding wired remote control is supplied, and the time elapses. Correspondingly, the timer value of the power supply time corresponding to the extracted indoor unit is updated, and when the timer value of the power supply time reaches a predetermined value, the power state of the wired remote controller is updated to cut off The air conditioner system according to claim 1 or 2, wherein instruction data for cutting off power supply is transmitted to the corresponding indoor unit.   When the indoor unit stops operation, the switch means shuts off the power to the wired remote controller, and the wired remote controller is in a power-off state notification data, or the operation stop notification data in the operation stop state. The remote control power management means that transmitted to the remote control power management means and received the notification data updates the content of the power status of the wired remote control corresponding to the notification source indoor unit in the power management table to be cut off. The air conditioner system according to any one of claims 1 to 3, wherein

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