JP4179366B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner including a plurality of indoor units and an outdoor unit that manages them.

  Various techniques have been proposed for air conditioners. For example, in Patent Document 1, regarding an air conditioner including a plurality of indoor units and outdoor units that manage the indoor units, there is a technique for reducing the time required for auto address setting for automatically setting a communication address for each indoor unit. Proposed. Patent Document 2 proposes a technique that can reliably detect a communication abnormality of an air conditioner with an inexpensive device, and then the air conditioner can automatically return to the original operating state.

JP 2000-74461 A Japanese Patent Laid-Open No. 5-99477

  In a conventional air conditioner including a plurality of indoor units and outdoor units, such as the air conditioner described in Patent Document 1, when even one external power supply supplied to the indoor unit is shut off, the outdoor unit is Since communication with the indoor unit is not possible, it is determined that a communication abnormality has occurred, and control for all the indoor units has been stopped. As a result, the outdoor unit could not properly control the indoor unit in which the external power supply was not shut off, even though no communication abnormality actually occurred.

  Therefore, the present invention has been made in view of the above problems, and even when an external power supply supplied to a certain indoor unit is shut off, the outdoor unit performs appropriate control over the other indoor units. The purpose is to provide technology that can be performed.

In order to solve the above problem, a first aspect of an air conditioner according to the present invention includes a plurality of indoor units (1) and an outdoor unit (2) that manages each of the plurality of indoor units, Each of the plurality of indoor units includes a main control unit (11) that comprehensively controls the operation of the indoor unit and a communication unit (12) that performs communication with the outdoor unit, and the plurality of indoor units At least one of the external power source detection unit (13) for detecting that the external power source (EV) supplied to the indoor unit is shut off, and the communication unit when the external power source is shut off. A backup power supply unit (15) for outputting a backup power supply (VBAT), wherein the backup power is not supplied to the main control unit in the at least one of the plurality of indoor units , and the communication unit The external power supply detection unit When the source is interrupted is detected, it notifies the outdoor unit that the external power is interrupted.

  A second aspect of the air conditioner according to the present invention includes a plurality of indoor units (1) and an outdoor unit (2) that manages each of the plurality of indoor units, and each of the plurality of indoor units is A main control unit (11) for comprehensively controlling the operation of the indoor unit, and a communication unit (12) for communicating with the outdoor unit, wherein at least one of the plurality of indoor units A backup power supply unit (15) for outputting a backup power supply (VBAT) supplied to the communication unit when an external power supply (EV) supplied to the indoor unit is shut off; At least one, the backup power is not supplied to the main control unit, and the communication unit determines that the external power source is shut off when it does not receive a signal to be received from the main control unit, and That the power was cut off. To notify the serial outdoor unit.

  Desirably in the first and second aspects, the at least one of the plurality of indoor units is configured such that when the external power supply is shut off, the power supplied to the communication unit is changed from a main power supply (VC) to the backup power supply. A power supply switching unit (16) for switching is provided.

  A third aspect of the air conditioner according to the present invention is the first and second aspects, wherein in at least one of the plurality of indoor units, the backup power is supplied only to the communication unit.

  According to the first aspect of the air conditioner of the present invention, when the interruption of the external power supply supplied to the indoor unit is detected by the indoor unit, the indoor unit notifies that fact to the outdoor unit. The outdoor unit can recognize that the external power supplied to the indoor unit has been shut off. Accordingly, the outdoor unit can appropriately control the indoor unit managed by the outdoor unit except for the indoor unit in which the external power supply is shut off.

  According to the second aspect of the air conditioner according to the present invention, when the indoor unit determines that the external power supplied to the indoor unit is shut off, the indoor unit notifies the outdoor unit to that effect. Therefore, the outdoor unit can recognize that the external power supplied to the indoor unit has been shut off. Accordingly, the outdoor unit can appropriately control the indoor unit managed by the outdoor unit except for the indoor unit in which the external power supply is shut off.

  According to the third aspect of the air conditioner of the present invention, the backup power supply is supplied only to the communication unit that is required to operate at a minimum when the external power supply is shut off in the indoor unit. The power capacity can be reduced. Therefore, an inexpensive and small power supply device can be employed as the backup power supply unit of the indoor unit.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of an air conditioner according to the present invention. As shown in FIG. 1, the air conditioner according to Embodiment 1 includes a plurality of indoor units 1 and an outdoor unit 2 that manages each of the plurality of indoor units 1. Each of the plurality of indoor units 1 and the outdoor unit 2 can communicate with each other using the communication line CL. An external power supply EV is supplied to the outdoor unit 2 via the breaker BR, and an external power supply EV is also supplied to each indoor unit 1 via the breaker BR provided individually. The external power supply EV is, for example, an AC power supply. In the first embodiment, for example, the indoor unit 1 is arranged in each tenant in the building, and the outdoor unit 2 is arranged outside the rooftop of the building.

  FIG. 2 is a block diagram showing the configuration of the indoor unit 1. As shown in FIG. 2, each indoor unit 1 includes a main control unit 11, a communication unit 12, an external power supply detection unit 13, a control power supply unit 14, a backup power supply unit 15, and a power supply switching unit 16. I have.

  The main control unit 11 includes a CPU and the like, and comprehensively controls the operation of the indoor unit 1. The communication unit 12 communicates with the outdoor unit 2 using the communication line CL. The communication unit 12 extracts necessary data from the reception signal from the outdoor unit 2 and notifies the main control unit 11 or adds control data for communication to the transmission data generated by the main control unit 11 to transmit the data. And the transmission signal is output to the outdoor unit 2 using the communication line CL. The external power supply detection unit 13 detects the interruption of the external power supply EV supplied to the indoor unit 1 to which it belongs. The external power supply detection unit 13 may be configured as a relay that is turned on when the external power supply EV is supplied and is turned off when the external power supply EV is not supplied, and detects the voltage value of the external power supply EV. In this case, a voltage detection circuit that outputs the signal may be used.

  The control power supply unit 14 generates and outputs various DC power supplies used in the indoor unit 1 to which the control power supply unit 14 belongs from the external power supply EV. The control power supply unit 14 generates and outputs a power supply VM for the main control unit 11, a main power supply VC for the communication unit 12, and a charging power supply VB. The backup power supply unit 15 is composed of, for example, an electric double layer capacitor. The backup power supply unit 15 is charged by the charging power supply VB output from the control power supply unit 14 and outputs the backup power supply VBAT for the communication unit 12. When the main power source VC is output from the control power source unit 14, the power source switching unit 16 supplies the main power source VC to the communication unit 12 and stops outputting the main power source VC from the control power source unit 14. The backup power supply VBAT output from the backup power supply unit 15 is supplied to the communication unit 12. Here, as described above, the main power supply VC is generated from the external power supply EV. Therefore, when the external power supply EV is interrupted, the power supply switching unit 16 switches the power supplied to the communication unit 12 from the main power supply VC to the backup power supply VBAT.

  Each indoor unit 1 is also provided with mechanical elements (not shown) such as an expansion valve and a fan for adjusting the refrigerant pressure, and these mechanical elements are controlled by the main control unit 11. The outdoor unit 2 is also provided with mechanical elements (not shown) such as a compressor that compresses the refrigerant, a heat exchanger, a fan, an expansion valve that adjusts the refrigerant pressure, and a four-way valve that switches the direction in which the refrigerant flows. Yes. The outdoor unit 2 and each indoor unit 1 use these mechanical elements to deliver the refrigerant.

  In the air conditioner according to the first embodiment configured as described above, the outdoor unit 2 supplies a refrigerant to each indoor unit 1 by controlling a compressor or the like provided therein, and each indoor unit 1 Output a control signal. Each indoor unit 1 controls a fan or the like provided in itself based on a control signal output from the outdoor unit 2. Thereby, the temperature and humidity in each room in which the indoor unit 1 is provided are appropriately controlled.

  In addition, each indoor unit 1 notifies the outdoor unit 2 of its own operation status in response to a periodic or irregular request from the outdoor unit 2. Therefore, if there is no response from the indoor unit 1 to the response request notified to the indoor unit 1, the outdoor unit 2 can determine that a communication abnormality has occurred with the indoor unit 1. The outdoor unit 2 stops control of each of the plurality of indoor units 1 when a communication abnormality occurs with at least one of the plurality of indoor units 1 managed by the outdoor unit 2. As a result, the air conditioning control is stopped in each indoor unit 1.

  Next, the operation of the air conditioner according to the first embodiment when the external power supply EV supplied to the indoor unit 1 is interrupted will be described. FIG. 3 is a flowchart showing the operation. As shown in FIG. 3, when a breaker BR that supplies an external power supply EV to a certain indoor unit 1 is cut off in step s1, the external power supply detection unit 13 of the indoor unit 1 cuts off the external power supply EV in step s2. To detect. On the other hand, in step s3, the power supply switching unit 16 of the indoor unit 1 switches the power supplied to the communication unit 12 from the main power supply VC to the backup power supply VBAT.

  In step s2, when the external power supply detection unit 13 detects that the external power supply EV is shut off, in step s4, the communication unit 12 uses the communication line CL to send a power cut-off signal indicating that the external power supply EV is cut off. Output to the outdoor unit 2. In step s5, the outdoor unit 2 that has received the power cutoff signal determines that the external power supply EV supplied to the indoor unit 1 that has output the power cutoff signal has been cut off, and the number of operable indoor units 1 has decreased. Recognize that. Then, in step s6, the outdoor unit 2 performs new control on the remaining indoor units 1 except for the indoor unit 1 that is shut off by the external power supply EV among the plurality of indoor units 1 that it manages. Appropriate control is performed for the indoor unit 1.

  As described above, in the air conditioner according to the first embodiment, when the indoor unit 1 detects the interruption of the external power supply EV supplied to the indoor unit 1, the indoor unit 1 indicates that the outdoor unit 2. Will be notified. Therefore, the outdoor unit 2 can recognize that the external power supply EV supplied to the indoor unit 1 is shut off. That is, the outdoor unit 2 can distinguish and recognize communication abnormality and interruption | blocking of the external power supply EV. Therefore, the outdoor unit 2 can appropriately control the indoor unit 1 managed by the outdoor unit 2 except for the indoor unit 1 in which the external power supply EV is shut off. As a result, the user can shut off the external power supply EV of the indoor unit 1 in the room without disturbing the user in the other room, can reduce the electricity bill due to standby power, and save energy as the entire system. Can be realized.

  In the indoor unit 1 according to the first embodiment, the backup power VBAT is supplied only to the communication unit 12, but may be supplied to other components such as the main control unit 11. When the backup power source VBAT is supplied only to the communication unit 12 that is required to operate at a minimum when the external power source EV is shut off in the indoor unit 1 as in the first embodiment, the power source of the backup power source unit 15 A capacity | capacitance can be made small, As a result, an inexpensive and small-sized power supply device can be employ | adopted as the backup power supply part 15 of the indoor unit 1. FIG.

  In addition, after the power shut-off signal is output from the communication unit 12, it is not necessary to supply the backup power source VBAT to the communication unit 12. Therefore, after the power shut-off signal is output from the communication unit 12, the backup power The power supply unit 15 may be stopped. That is, the power supply capacity of the backup power supply unit 15 may be only a capacity for operating the communication unit 12 until the communication unit 12 outputs a power supply cut-off signal after the external power supply EV is cut off.

Embodiment 2. FIG.
FIG. 4 is a block diagram showing a configuration of the indoor unit 1 provided in the air conditioner according to Embodiment 2 of the present invention. In the indoor unit 1 according to Embodiment 1 described above, the external power supply detection unit 13 directly detects the interruption of the external power supply EV. However, in the indoor unit 1 according to Embodiment 2, the external power supply detection unit 13 is Without use, it detects indirectly the interruption of the external power supply EV. Below, the air conditioner which concerns on this Embodiment 2 is demonstrated centering on difference with the air conditioner which concerns on Embodiment 1. FIG.

  As shown in FIG. 4, the indoor unit 1 according to the second embodiment includes the main control unit 11, the communication unit 12, the control power supply unit 14, the backup power supply unit 15, and the power supply switching unit 16 described above. Unlike the indoor unit 1 according to Embodiment 1, the external power supply detection unit 13 is not provided.

  Next, the operation of the air conditioner according to Embodiment 2 will be described. FIG. 5 is a flowchart showing the operation of the air conditioner according to the second embodiment. As shown in FIG. 5, when receiving a response request from the outdoor unit 2 in step s21, the communication unit 12 notifies the main control unit 11 of the response request in step s22. Next, the communication unit 12 determines whether or not a response is returned from the main control unit 11 in step s23, and if there is no response from the main control unit 11 for a predetermined time, the communication unit 12 belongs in step s24. It determines with the external power supply EV supplied to the indoor unit 1 having been interrupted | blocked.

  As described in the first embodiment, the outdoor unit 2 outputs a response request to each indoor unit 1 periodically or irregularly. For example, the outdoor unit 2 outputs a response request so as to notify each indoor unit 1 of the operation status. In each indoor unit 1, the communication unit 12 outputs a response request from the outdoor unit 2 to the main control unit 11, and the operating main control unit 11 sends a response to the response request via the communication unit 12 to the outdoor unit. Output to 2. In the second embodiment, when the external power supply EV is cut off, the backup power supply VBAT is supplied to the communication unit 12, but the backup power supply VBAT is not supplied to the main control unit 11, so the external power supply EV is When it is blocked, the main control unit 11 cannot output a response even if a response request from the outdoor unit 2 is input. Therefore, when there is no response from the main control unit 11 in step s23, the communication unit 12 can determine that the external power supply EV is shut off in step s24.

  If step s24 is performed, the communication part 12 will output the power cutoff signal which shows that the external power supply EV was interrupted | blocked to the outdoor unit 2 in step s25. In step s26, the outdoor unit 2 that has received the power cutoff signal determines that the external power supply EV supplied to the indoor unit 1 that has output the power cutoff signal has been cut off, and the number of operable indoor units 1 has decreased. Recognize that. In step s27, the outdoor unit 2 performs new control on the remaining indoor units 1 excluding the indoor unit 1 that is shut off by the external power supply EV among the plurality of indoor units 1 that it manages. Appropriate control is performed for the indoor unit 1.

  In the above operation example, the communication unit 12 determines that the external power supply EV is shut off when there is no response from the main control unit 11 to the response request of the outdoor unit 2, but instead, the main control The unit 11 may periodically output a signal by itself, and the communication unit 12 may determine that the external power supply EV is cut off when the signal is interrupted. That is, the communication part 12 should just determine with the external power supply EV having been interrupted | blocked, when the signal which should be received from the main control part 11 is not received. The main control unit 11 may periodically output a signal indicating that it is operating as a signal that the communication unit 12 should receive. In addition, in response to a request from the outdoor unit 2, the main control unit 11 periodically outputs a signal indicating its own operation status notified to the outdoor unit 2 as a signal to be received by the communication unit 12. Also good. Further, in order to confirm the operation of the main control unit 11, the communication unit 12 itself outputs a response request to the main control unit 11, and the communication unit 12 receives a response signal from the main control unit 11 for the response request. When the communication unit 12 does not receive the signal, it may be determined that the external power supply EV is shut off.

  As described above, in the air conditioner according to Embodiment 2, when the indoor unit 1 determines that the external power supply EV supplied to the indoor unit 1 is shut off, the indoor unit 1 informs that effect. 2, the outdoor unit 2 can recognize that the external power supply EV supplied to the indoor unit 1 has been shut off. Therefore, the outdoor unit 2 can appropriately control the indoor unit 1 managed by the outdoor unit 2 except for the indoor unit 1 in which the external power supply EV is shut off.

  Similarly to the first embodiment, in the second embodiment, the backup power supply VBAT is supplied only to the communication unit 12 that is required to operate at a minimum when the external power supply EV is shut off in the indoor unit 1. Therefore, the power supply capacity of the backup power supply unit 15 can be reduced. As a result, an inexpensive and small power supply device can be adopted as the backup power supply unit 15 of the indoor unit 1.

  In the air conditioners according to Embodiments 1 and 2 described above, each of the plurality of indoor units 1 has a function of notifying the outdoor unit 2 to that effect when the external power supply EV is shut off. However, this is not always necessary, and at least one of the plurality of indoor units 1 managed by the outdoor unit 2 may have only the function. Even in this case, since the shutdown of the external power supply EV is notified to the outdoor unit 2 from at least one indoor unit 1, the outdoor unit 2 itself excludes the indoor unit 1 from which the external power supply EV is cut off. Appropriate control can be performed on the indoor unit 1 to be managed.

It is a block diagram which shows the structure of the air conditioner which concerns on Embodiment 1 of this invention. It is a block diagram which shows the structure of the indoor unit which concerns on Embodiment 1 of this invention. It is a flowchart which shows operation | movement of the air conditioner which concerns on Embodiment 1 of this invention. It is a block diagram which shows the structure of the indoor unit which concerns on Embodiment 2 of this invention. It is a flowchart which shows operation | movement of the air conditioner which concerns on Embodiment 2 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Indoor unit 2 Outdoor unit 11 Main control part 12 Communication part 13 External power supply detection part 15 Backup power supply part 16 Power supply switching part

Claims (4)

A plurality of indoor units (1);
An outdoor unit (2) for managing each of the plurality of indoor units,
Each of the plurality of indoor units is
A main control unit (11) for comprehensively controlling the operation of the indoor unit;
A communication unit (12) for communicating with the outdoor unit,
At least one of the plurality of indoor units is
An external power source detection unit (13) for detecting that the external power source (EV) supplied to the indoor unit is shut off;
A backup power supply unit (15) that outputs a backup power supply (VBAT) supplied to the communication unit when the external power supply is shut off;
In the at least one of the plurality of indoor units,
The backup power is not supplied to the main control unit,
When the external power source detecting unit detects that the external power source is shut off, the communication unit notifies the outdoor unit that the external power source is shut off. A plurality of indoor units (1);
An outdoor unit (2) for managing each of the plurality of indoor units,
Each of the plurality of indoor units is
A main control unit (11) for comprehensively controlling the operation of the indoor unit;
A communication unit (12) for communicating with the outdoor unit,
At least one of the plurality of indoor units includes a backup power supply unit (15) that outputs a backup power supply (VBAT) supplied to the communication unit when an external power supply (EV) supplied to the indoor unit is shut off Further comprising
In the at least one of the plurality of indoor units,
The backup power is not supplied to the main control unit,
The air conditioner, wherein the communication unit determines that the external power source is shut off when not receiving a signal to be received from the main control unit, and notifies the outdoor unit that the external power source is shut off. It is an air conditioner as described in any one of Claim 1 and Claim 2, Comprising:
In the at least one of the plurality of indoor units, an air conditioner in which the backup power is supplied only to the communication unit. It is an air conditioner as described in any one of Claim 1 thru | or 3, Comprising:
The at least one of the plurality of indoor units is
An air conditioner having a power supply switching unit (16) that switches the power supplied to the communication unit from a main power supply (VC) to the backup power supply when the external power supply is shut off.

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