JP2006226550A - Multi-chamber type air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a multi-chamber type air conditioner capable of sufficiently exercising performance of an outdoor unit 21 and indoor units of the multi-chamber type air conditioner, shortening an operation time of the outdoor unit 21, and achieving energy saving while improving occupant comfort. <P>SOLUTION: In this multi-chamber type air conditioner having a means for switching a plurality of operation modes, one of the modes is a mode for implementing air conditioning while judging an operation state and a stop state of the indoor units 11 on the basis of detection values from temperature sensors respectively mounted on the indoor units 11 and set temperature information, and the other mode is a mode for allowing at least two or more indoor units 11 to implement air conditioning by judging the operation state and the stop state of the indoor units 11 on the basis of a detection value from the temperature sensor 16 mounted in the specified indoor unit 11a and the set temperature information. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technique for improving the energy efficiency of a multi-room air conditioner, and more particularly to a technique for shortening the operation time of an outdoor unit while maintaining indoor comfort.

Conventionally, in order to reduce the installation space of an outdoor unit, a multi-room air conditioner in which a plurality of indoor units are connected to one outdoor unit is known. In such a multi-room air conditioner, a plurality of indoor units connected to one outdoor unit are individually operated, and the temperature detected and set by the temperature sensor attached to each indoor unit. According to temperature, it has the structure which switches the operating state which performs heating or cooling, and a stop state.
In such a configuration, the outdoor unit is operated by the operation of a plurality of connected outdoor units, and the operation time of the outdoor unit becomes long.
Therefore, it is also known that such a multi-room air conditioner is provided with a timer so as to periodically stop the operation of the outdoor unit in consideration of the operation efficiency of the outdoor unit (for example, Patent Documents). 1).
Also, in office rooms and the like, the temperature environment becomes complicated due to the heat generated by the OA equipment and the complicated arrangement of obstacles such as partitions, and a place where the user feels heat and cold locally tends to occur. Further, dust tends to be easily accumulated.
JP 2001-133010 A

In the above conventional method, the outdoor unit operates if there is at least one indoor unit that is in an operating state. When a plurality of indoor units are alternately operating, the outdoor unit is always operated. There is a need. For this reason, the operation time of the outdoor unit becomes longer and the fuel consumption also increases.
In addition, as shown in Patent Document 1, in the example in which the timer is installed so as to periodically stop the operation of the outdoor unit, the indoor temperature is taken into consideration because the operation time of the outdoor unit is shortened and the fuel consumption is reduced. It will not be air-conditioned. For this reason, it becomes difficult to fully demonstrate the performance of an outdoor unit and an indoor unit, and it becomes difficult to realize the further comfort of a resident.
In view of the above-described problems of the prior art, the present invention can achieve the performance of the outdoor unit and the indoor unit of the multi-room air conditioner and achieve energy saving while improving the comfort of residents. The problem is to do.
It is another object of the present invention to eliminate a large temperature difference and pollutant stagnation in an office environment where OA devices and partitions that generate heat are arranged.

  As described in claim 1, in a multi-room air conditioner in which a plurality of indoor units are connected to one outdoor unit, the multi-room air conditioner has means for switching a plurality of operation modes, and one mode is The operation control of the outdoor unit is performed based on the detection value of the temperature sensor disposed in the room and the set temperature information, and all the indoor units are in an operating state in synchronization with the operation status of the outdoor unit. In another mode, the operable state of the indoor unit is controlled by the detection value of the temperature sensor disposed in the room and the set value of the room temperature, and detection from the temperature sensor individually possessed by each indoor unit in the operable state A multi-room air conditioner that is a mode for controlling the operation of the indoor unit is configured by the value and the set temperature information.

  As described in claim 2, in a multi-room air conditioner in which a plurality of indoor units are connected to a single outdoor unit, the multi-room air conditioner has means for switching a plurality of operation modes, and one mode is This is a mode in which the air conditioner is operated by judging the operation state and the stop state of the indoor unit based on the detected value from the temperature sensor individually provided by each indoor unit and the set temperature information, and other modes have specific indoor units The operation state and the stop state of the indoor unit are determined based on the detection value from the temperature sensor and the set temperature information, and a multi-room air conditioner in which at least two indoor units perform air conditioning is configured.

  According to a third aspect of the present invention, a multi-room air conditioner that allows the specific indoor unit to be selected from a plurality of indoor units is configured by setting switching means.

  As described in claim 4, when the specific indoor unit is in an operating state by the means for switching the plurality of operation modes, the detected value and the set temperature from the temperature sensor that each of the other indoor units individually has A multi-room air conditioner is configured in which it is possible to select a mode in which the air conditioner is activated when it is determined that the indoor unit is in an operational state based on information.

  As described in claim 5, the outdoor unit is provided with means for switching the plurality of operation modes, the setting switching means, or both the means for switching the plurality of operation modes and the setting switching means. Constructs an air conditioner.

  As described in claim 6, the indoor unit is provided with means for switching the plurality of operation modes, the setting switching means, or both the means for switching the plurality of operation modes and the setting switching means. Constructs an air conditioner.

  As described in claim 7, a multi-room air conditioner that performs switching of operation mode or setting switching is constituted by a signal transmitted via a communication network.

  As described in claim 8, a multi-room air conditioner that performs switching of operation mode or setting switching is configured by a signal transmitted from a centralized monitoring system that manages a plurality of multi-room air conditioners.

Since the multi-room air conditioner is configured as described in claim 1, the operation time of the outdoor unit can be shortened, and the utilization efficiency of the outdoor unit by the indoor unit can be improved. Further, energy saving operation can be realized with a simple configuration.
Furthermore, by operating a plurality of indoor units at the same time, it becomes easy to generate convection of indoor air in an office environment or the like, and local temperature differences and contaminant stagnation can be reduced.

  As described in claim 2, since the multi-room air conditioner is configured, the operation time of the outdoor unit is reduced, so that the fuel consumption can be reduced. In addition, comfort is not significantly impaired because the operation is performed in consideration of room temperature. The performance of outdoor units and indoor units can be fully demonstrated, and the comfort of residents can be improved with energy saving.

  Since the multi-room air conditioner is configured as described in claim 3, it is possible to arbitrarily select a representative indoor unit corresponding to the change in the indoor load distribution.

  Since the multi-room air conditioner is configured as described in claim 4, each indoor unit determines the condition and stops, so that excessive air conditioning can be suppressed and comfort can be improved.

  As described in claim 5, since the multi-room air conditioner is configured, the user can select an operation mode in which comfort is emphasized and an operation mode in which labor-saving operation is emphasized, and can be switched as necessary. It is possible to construct a multi-room air conditioner that can respond to changes in users' intentions.

  Since the multi-room air conditioner is configured as described in claim 6, the setting of the operation mode can be changed indoors and the operability by the user can be ensured.

  Since the multi-room air conditioner is configured as described in claim 7, the setting can be easily changed even in a remote place, and the multi-room air conditioner installed in a wide area can be managed.

  Since the multi-room air conditioner is configured as described in claim 8, centralized management can be performed for a plurality of air conditioners, and the cost for management can be reduced. The running cost of the harmony machine can be reduced.

  By controlling the operation of other indoor units according to the operation status of a specific indoor unit and reducing the operation time of the outdoor unit, the energy efficiency of the indoor air conditioning is improved.

Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic diagram illustrating a configuration of a multi-room air conditioner according to Embodiment 1, FIG. 1 (a) is an overall configuration diagram, and FIG. 1 (b) is a diagram illustrating an example of an indoor unit.
In this embodiment, the operation state of the outdoor unit is controlled by the detection value of the representative temperature sensor 10 arranged at a specific position in the room and the set value as the indoor set temperature.
The multi-room air conditioner has a configuration in which a plurality of indoor units 11 are connected to one outdoor unit 21. The outdoor unit 21 and the indoor units 11, 11... Are connected by piping or the like, and are configured to perform heat exchange between the outdoor unit 21 and the indoor unit 11. Thereby, indoor air conditioning is possible by each indoor unit 11.
As shown in FIG. 1B, the indoor unit 11 includes a temperature sensor 16, a heat exchanger 17, a fan 14, a motor 13, a controller 12, and the like. The indoor unit 11 takes in indoor air from the intake port 15 and performs heat exchange. Air is exhausted from the air exhaust port 18 through the vessel 17. The temperature sensor 16 is provided in the vicinity of the intake port 15 and detects the temperature of the introduced indoor air. The temperature sensor 16 is connected to the controller 12 so that the controller 12 can recognize the temperature. The controller 12 stores the indoor set temperature, and controls the operation and stop of the indoor unit 11 based on the detected temperature with respect to the set temperature. The operating state of the indoor unit 11 is to radiate or absorb heat by the heat exchanger 17, and in the stopped state, heat exchange by the heat exchanger 17 is not performed. Here, the fan 14 may be stopped or the fan 14 may be circulated.
The controller 12 of the indoor unit 11 is connected to the outdoor unit 21 and can transmit the operation state of the indoor unit 11 to the outdoor unit 21. In the indoor unit 11, the operating state of the outdoor unit 21 can be recognized.

Next, the control configuration of the outdoor unit 21 and the indoor units 11, 11,. FIG. 2 is a diagram showing the control configuration of the multi-room air conditioner, FIG. 2 (a) shows the control configuration synchronized with the external unit, and FIG. 2 (b) shows the indoor unit under the operation of the outdoor unit. The control structure operated individually is shown.
The operation of the outdoor unit 21 is performed by comparing the detection value of the representative temperature sensor 10 disposed in the room with the set value. The location of the representative temperature sensor 10 can be arbitrarily set by the user, and can be set according to the preference of the indoor environment desired by the user. The representative temperature sensor 10 only needs to be able to transmit temperature information or an operation / stop command to the outdoor unit 21, and can use a wired connection or a wireless connection. It is also possible to transmit information from the representative temperature sensor 10 to the outdoor unit 21 via the indoor unit 11.
In the multi-room air conditioner of the present embodiment, at least two operation modes can be switched. One is a mode in which the indoor units 11, 11,... Are operated in synchronization with the operation of the outdoor unit 21, as shown in FIG. 2 (a), and the other is as shown in FIG. 2 (b), This is a mode in which each indoor unit 11 can operate while the outdoor unit 21 is operating.

First, a mode in which the indoor units 11, 11,... Are operated in synchronization with the operation of the outdoor unit 21 will be described. In this mode, as shown in FIG. 2A, when the detected value of the representative temperature sensor 10 arranged in the room and the set value have a predetermined relationship, the indoor unit 11 is operated together with the operation of the outdoor unit 21. Operates.
S0 indicates the time change between the operating state (upper stage: ON) and the stopped state (lower stage: OFF) of the outdoor unit 21 based on the detection value of the representative temperature sensor 10. S1, S2, S3, and S4 indicate temporal changes in the operating state (upper stage: ON) and the stopped state (lower stage: OFF) of the four indoor units 11, respectively.
As shown in FIG. 2A, when S0 is ON, all of S1 to S4 are ON, and when S0 is OFF, all of S1 to S4 are OFF. .
For example, when the detected value of the representative temperature sensor 10 is lower than the set temperature during heating, the outdoor unit 21 is in an operating state. And when the outdoor unit 21 will be in an operation state, all the indoor units 11 will be in an operation state.
That is, the indoor units 11, 11,... Operate according to the detection value of the representative temperature sensor 10 installed in the room to perform indoor air conditioning. Thereby, when the outdoor unit 21 is in an operating state, all the indoor units 11 are in an operating state, and the utilization efficiency of the outdoor unit 21 by the indoor unit 11 can be improved. And the operating time of the outdoor unit 21 can be shortened, and the energy saving in indoor air conditioning can be implement | achieved.

Next, a mode in which each indoor unit 11 can operate while the outdoor unit 21 is operating will be described. In this mode, as shown in FIG. 2B, when the detected value of the representative temperature sensor 10 disposed in the room and the set value of the room temperature have a predetermined relationship, the outdoor unit 21 is in an operating state. The specific indoor unit 11 is activated in synchronization. The other indoor units 11, 11,... Can be selected from the operating state and the stopped state based on the judgment of each indoor unit 11 when the outdoor unit 21 is in an operating state.
As shown in FIG. 2B, when S0 is ON, S1 indicating the state of the indoor unit 11 synchronized with the outdoor unit 21 is ON, and when S0 is OFF, S1 is OFF. When S0 is ON, S2 to S4 can be turned ON, and when S0 is OFF, S2 to S4 are OFF.
That is, the operation state of the outdoor unit 21 is an operable state of the indoor units 11 other than the specific indoor unit 11. In the operating state of the outdoor unit 21, each indoor unit 11 other than the specific indoor unit 11 determines the operating state and the stopped state based on the relationship between the detected value of the temperature sensor 16 and the set value.
Thereby, according to indoor environment, the external unit 21 can be made into an operation state, the operation time of the external unit 21 can be shortened and energy saving can be implement | achieved, being conscious of indoor comfort.

As another mode, when each indoor unit 11 is activated and stopped based on the relationship between the temperature sensor 16 of each indoor unit 11... It is also possible to set a mode in which 21 is in an operating state.
These modes are configured to be selectable in the outdoor unit 21 or the indoor unit 11.
When setting is possible in the outdoor unit 21, the configuration of the control circuit can be simplified and the configuration of the controller 12 in each indoor unit 11 can be simplified.
When setting is possible in the indoor unit 11, the mode change by the resident can be easily performed, and the operability of the air conditioner can be improved.

The operation of the outdoor unit 21 is controlled based on the detected value of the representative temperature sensor 10 disposed in the room and the set temperature information stored in the outdoor unit 21 or the indoor unit 11, and is synchronized with the operation status of the outdoor unit 21. In a mode in which all the indoor units 11 are in the operating state, all the indoor units 11 are in the operating state in conjunction with the detection value of the representative temperature sensor 10.
Then, the operable state of the indoor unit 11 is controlled based on the detected value of the representative temperature sensor 10 disposed in the room and the set value of the room temperature, and in the operable state, from the temperature sensor 16 that each indoor unit 11 has individually. In the mode in which the operation control of the indoor unit 11 is performed based on the detected value and the set temperature information stored in the controller 12, the operable state of the indoor unit 11 is determined based on the detected value of the representative temperature sensor 10. In this operable state, each indoor unit 11 determines the operation control based on the detected value of the temperature sensor 16 and the set value information stored in the controller 12. The setting information stored in the controller 12 may be the same setting information in all the indoor units 11 or may be stored individually in each indoor unit 11. The room temperature setting value to be compared with the detection value of the representative temperature sensor 10 may be stored and held in the outdoor unit 21 or stored and held in the controller 12 of the specific indoor unit 11.

  As described above, by enabling the operation of at least two indoor units 11 at the same time, indoor convection due to discharge of warm air or cold air can be enhanced by a synergistic effect, and indoor pollutants (carbon dioxide and dust) Concentration on the local area can be eliminated, the air conditioner can be operated with energy saving, air convection in the room can be promoted, and the living environment can be easily improved.

Next, a second embodiment of the multi-room air conditioner will be described. FIG. 3 is a diagram illustrating the configuration of the second embodiment, FIG. 3A is a diagram illustrating the configuration of the multi-room air conditioner of the second embodiment, and FIG. It is a figure which shows the control structure which links an indoor unit, FIG.3 (c) is a figure which shows the control structure of the other indoor unit by a specific indoor unit.
In this embodiment, one indoor unit 11 is selected as the specific indoor unit 11a from among the plurality of indoor units 11, 11,... Connected to the outdoor unit 21, and the temperature sensor of the specific indoor unit 11a Control in which at least two or more indoor units 11 including the specific indoor unit 11a perform air conditioning by determining the operating state and the stopped state of the indoor unit based on the detected value and the set temperature information stored and held in the specific indoor unit 11a. The mode, that is, the control mode that permits the operation of the other indoor units 11... Can be selected by the specific indoor unit 11a.
And each indoor unit 11 discriminate | determines operation | movement and a stop individually with the temperature sensor 16 and setting temperature information, and is linked with the operation | movement of the indoor unit 11, and the control mode in which the outdoor unit 21 will be in an operation state, ie, individual control. Mode can be selected. In the individual control mode, when each indoor unit 11... Operates, it requests the operation of the outdoor unit 21 individually, and when it stops, it makes a request to stop the outdoor unit 21. Operation of the outdoor unit 21 is controlled according to a request from the indoor unit 11.

In the control mode in which the operation of the other indoor units 11... Is permitted by the specific indoor unit 11a, the specific indoor unit 11a is specified by the detection value of the temperature sensor 16 disposed near the intake port 15 of the specific indoor unit 11a and the set temperature information. Control of the operation and stop of the indoor unit 11a is performed.
In FIG.3 (b), S1 shows the time change of the driving | running state (upper stage: ON) and the stop state (lower stage: OFF) of the indoor unit 11a. S2, S3, and S4 indicate temporal changes in the operating state (upper stage: ON) and the stopped state (lower stage: OFF) of the remaining indoor units 11,.
As shown in FIG. 3B, when S1 is ON, all of S2 to S4 are ON, and when S1 is OFF, all of S2 to S4 are OFF. .
For example, when the detected value of the temperature sensor 16 of the indoor unit 11a is lower than the set temperature during heating, the indoor unit 11a is activated and the operation of the outdoor unit 21 is started. In synchronism with this, the other indoor units 11 are activated. When the detected value of the temperature sensor 16 of the indoor unit 11a becomes higher than the set temperature, the indoor unit 11a is stopped and the operation of the outdoor unit 21 is stopped. In synchronization with this, the other indoor units 11 are stopped.
That is, the other indoor units 11... Operate according to the detection value of the temperature sensor 16 of the indoor unit 11a to perform indoor air conditioning. Thereby, in the operation state of the outdoor unit 21, all the indoor units 11 are in an operating state, and the utilization efficiency of the outdoor unit 21 by the indoor unit 11 can be increased. And the operating time of the outdoor unit 21 can be shortened, and the energy saving in indoor air conditioning can be implement | achieved.

In the control mode in which the operation of the other indoor units 11... Is permitted by the specific indoor unit 11a, when the specific indoor unit 11a is in the operating state, the operation of the other indoor units 11. In the state, individual determination is made based on the temperature sensors 16 of the other indoor units 11 and the set temperature information, and the operation and stop are controlled.
As shown in FIG. 3C, when S1 is ON, S2 to S4 can be turned ON, and when S1 is OFF, all of S2 to S4 are OFF. The two-dot chain line shown in S2 and S3 shows an example of the determination result by the temperature sensor 16 of the corresponding indoor unit 11, and when S1 is OFF, the indoor unit 11 does not operate, and the indoor unit 11 When the determination result by the temperature sensor 16 is ON and S1 is ON, the indoor unit 11 is turned ON.
For example, when the detected value of the temperature sensor 16 of the indoor unit 11a is lower than the set temperature during heating, the indoor unit 11a is activated and the operation of the outdoor unit 21 is started. And the other indoor unit 11 will be in an operable state. In this state, the indoor unit 11 detects the temperature by the temperature sensor 16 provided individually, and compares it with the set temperature information held in the controller 12. When the detected temperature is lower than the set temperature, the indoor unit 11 is in the operating state. .
Furthermore, when the detected value of the temperature sensor 16 of the indoor unit 11a is equal to or higher than the set temperature, the indoor unit 11a is stopped and the outdoor unit 21 is stopped. And the other indoor unit 11 will be in an operation impossible state. In this state, the indoor unit 11 does not enter the operating state even if the temperature sensor 16 provided individually detects a temperature below the set temperature.
In this way, by selecting the specific indoor unit 11a and enabling other indoor units 11 to operate in accordance with the operating state of the specific indoor unit 11a, the operating time of the outdoor unit 21 is improved and the operation time is shortened. it can.
Moreover, the indoor convection which generate | occur | produces when the some indoor unit 11 act | operates simultaneously can be gasified, and the convection of the pollutant in an indoor environment can be suppressed.

The specific indoor unit 11a can be arbitrarily selected from the indoor units 11 connected to the outdoor unit 21.
As a setting method for the specific indoor unit 11a, the outdoor unit 21 is controlled by the specific indoor unit 11a so that the other indoor units 11 can be operated in the operating state of the specific indoor unit 11a. The setting method can be taken. For example, a method of setting in the outdoor unit 21, a method of setting in each indoor unit 11.
As a method for setting in the outdoor unit 21, the controller mounted on the outdoor unit 21 is set so as to accept an operation request for only the specific indoor unit 11a.
As a method of setting in the indoor unit 11, the setting is made so that only the one set in the indoor unit 11 as the specific indoor unit 11 a makes an operation request to the outdoor unit 21.
In addition to this, for the indoor units 11 other than the specific indoor unit 11a, information is set to the effect that it is not the specific indoor unit 11a, and the outdoor unit 21 is not requested to operate or the outdoor unit 21 rejects the operation request. It can be set to be.

The multi-room air conditioner can perform a communication operation via a communication line or the like, and can set the above-described control mode or a specific indoor unit by the communication operation.
FIG. 4 is a diagram showing a communication control configuration of the multi-room air conditioner.
The multi-room air conditioner includes a communication unit that transmits and receives information via a server 30 that performs communication operation and a communication network 31, and the setting of the multi-room air conditioner is performed via the communication unit. The change and reference of the state and setting information of the multi-room air conditioner are performed.
In the example shown in FIG. 4, the outdoor unit 21 is provided with a communication unit, and the server 30 recognizes and identifies each of the outdoor units 21a, 21b, 21c,. Is possible. Instead of the server 30, an information terminal capable of transmitting / receiving information to / from the outdoor unit 21 can be used.
Thus, the server 30 can change the setting for each of the outdoor units 21a, 21b, 21c, and so on, and can change the control mode and set the specific indoor unit 11a.
As the communication network 31, a communication line in the same building, wireless communication, a general public telephone line, an Internet communication network, or the like can be used.
In this way, by making it possible to change the settings of a plurality of multi-room air conditioners through communication, the labor required to change the settings of the multi-room air conditioners can be reduced, and maintenance costs and other multi-room air conditioners can be reduced. Running costs can be reduced.
In addition, it is possible to provide a multi-room air conditioner that saves energy and can maintain the comfort of a living space without imposing a technical burden on setting changes or the like.
In addition, it is possible to centrally manage multiple multi-room air conditioners, making it possible to respond immediately to changes in user settings, saving energy even in remote locations, and comforting living spaces. It is possible to provide a multi-room air conditioner that can maintain the performance.

The schematic diagram which shows the structure of the multi-chamber type air conditioner in Example 1. FIG. The figure which shows the control structure of a multi-room air conditioner. FIG. 6 is a diagram illustrating a configuration of a second embodiment. The figure which shows the communication control structure of a multi-room air conditioner.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Representative temperature sensor 11 Indoor unit 12 Controller 13 Motor 14 Fan 15 Inlet port 16 Temperature sensor 17 Heat exchanger 18 Exhaust port 21 Outdoor unit 30 Server 31 Communication network

Claims (8)

In a multi-room air conditioner in which a plurality of indoor units are connected to one outdoor unit,
Having means for switching between a plurality of operation modes,
One mode controls the operation of the outdoor unit based on the detection value of the representative temperature sensor installed in the room and the set temperature information, and all the indoor units are in operation in synchronization with the operation status of the outdoor unit. Mode,
In another mode, the operational state of the indoor unit is controlled by the detection value of the representative temperature sensor disposed in the room and the set value of the room temperature, and in the operational state, each indoor unit has an individual temperature sensor. The multi-room air conditioner is in a mode in which operation control of the indoor unit is performed based on the detected value and set temperature information. In a multi-room air conditioner in which a plurality of indoor units are connected to one outdoor unit,
Having means for switching between a plurality of operation modes,
One mode is a mode in which the air conditioner is operated by judging the operating state and the stopped state of the indoor unit based on the detected value from the temperature sensor that each indoor unit has individually and the set temperature information,
The other mode is a mode in which at least two or more indoor units perform air conditioning by determining the operating state and the stopped state of the indoor unit based on the detection value from the temperature sensor of the specific indoor unit and the set temperature information. This is a multi-room air conditioner.   The multi-room air conditioner according to claim 1, wherein the specific indoor unit can be selected from a plurality of indoor units by setting switching means. By means for switching the plurality of operation modes,
When a specific indoor unit is in the operating state, and when it is determined that the indoor unit is in the operating state based on the detected value from the temperature sensor that each of the other indoor units individually has and the set temperature information, the air conditioner is activated. The multi-room air conditioner according to claim 1 or 2, wherein a mode to be performed can be selected.   The outdoor unit includes means for switching the plurality of operation modes, the setting switching means, or both the means for switching the plurality of operation modes and the setting switching means. The multi-room air conditioner according to any one of the above.   The indoor unit includes means for switching the plurality of operation modes, the setting switching means, or both means for switching the plurality of operation modes and the setting switching means. The multi-room air conditioner according to any one of the above.   The multi-room air conditioner according to any one of claims 1 to 3, wherein the operation mode is switched or the setting is switched by a signal transmitted via a communication network. The operation mode switching or setting switching is performed by a signal transmitted from a centralized monitoring system that manages a plurality of multi-room air conditioners. Room type air conditioner.

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