JP2011141099A - Air conditioner system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a constitution capable of easily and correctly grouping indoor units even when relationship between an installation place of the indoor unit and an address of the indoor unit is unknown in an air conditioner system. <P>SOLUTION: The indoor unit 12 includes a remote control receiving section 21 receiving an infrared ray signal, a sound detecting section 28 detecting indoor sound, and an indoor unit control section 26 for controlling them. The remote control receiving section 21 outputs an AGC (Automatic Gain Control) signal as a signal corresponding to a level of the received infrared ray (including that emitted by sunlight and lighting) to the indoor unit control section 26. The sound detecting section 28 outputs an indoor sound level to the indoor unit control section 26. The indoor unit control section 26 detects change of lighting and sound of a room where the indoor unit is installed on the basis of signal levels of the input infrared ray and sound, and transmits the detection information to a management device not shown in the figure. The management device receives the detection information for a prescribed time, and manages a group of the indoor units having the detection information as one group. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an air conditioner system including a plurality of indoor units and outdoor units, and more particularly to an air conditioner system having a configuration of grouping settings for indoor units.

  Conventionally, as a setting for grouping indoor units, there is one disclosed in Patent Document 1. As a general method, among the indoor units, there is a method of setting a group number for a group target indoor unit by using a corresponding remote controller or a switch provided on the indoor unit main body. However, since the indoor units are manually set one by one, it takes a long time to set all the indoor units, and there are problems such as forgetting to set or setting errors.

On the other hand, there is also a method in which a management device, a central remote controller, etc. are provided in the air conditioner system, and groups are set while designating device addresses. In this case, it is necessary to accurately grasp in advance in advance which indoor unit address to be grouped and in which room the indoor unit is located. However, in an actually operated air conditioner system, the addresses and arrangements of all indoor units are not always accurately grasped, and such information is updated every time group settings are made, or As described above, there was only a method for setting one by one manually.
On the other hand, in patent document 1, the indoor unit used as a group object is matched with a refrigerant | coolant system | strain, and the setting operation | work to each indoor unit is abbreviate | omitted and the automatic grouping is implement | achieved.

  Patent Document 1 describes a configuration in which a plurality of indoor units and outdoor units are provided corresponding to one refrigerant system, and these are connected for communication. The indoor unit is equipped with a heat exchanger, and this indoor unit is equipped with a temperature sensor, detects the temperature of the refrigerant flowing inside, and transmits this temperature information to the outdoor unit.

  Therefore, for example, when the outdoor unit starts the heating operation, the warmed refrigerant flows into the heat exchanger of each indoor unit, and the temperature of the heat exchanger of each indoor unit rises. Since the indoor unit in which the temperature of the heat exchanger rises in this way is only the indoor unit corresponding to the same refrigerant system as the outdoor unit that started the heating operation, the temperature information of the heat exchanger transmitted from each indoor unit and By monitoring the device address of the transmission source, it is possible to determine which address device belongs to the same group, and storing this information enables group management of indoor units (for example, see Patent Document 1). .

  However, since the refrigerant is used as a means for identifying the group, there is a problem in that the indoor unit connected to another refrigerant system cannot be grouped. In addition, since it is determined whether the temperature is within the group based on the temperature change of the refrigerant, when performing the grouping operation, the operation must be stopped until the refrigerant temperature decreases to near room temperature. There was also the problem of taking time.

Japanese Patent No. 2667950 (page 4-5, FIG. 1)

  The present invention solves the problems described above, and in an air conditioner system, even when the relationship between the location of an indoor unit and the address of this indoor unit is unknown, grouping of indoor units can be performed easily and accurately. An object is to provide an air conditioner system that can be performed.

In order to solve the above-described problems, the present invention includes a plurality of indoor units, an outdoor unit, and a management device that manages the indoor unit and the outdoor unit, which are communication lines. An air conditioner system connected by
The indoor unit includes brightness detection means for detecting the brightness of a room in which the indoor unit is installed, and transmits detection result data detected by the brightness detection means to the management apparatus according to an instruction from the management apparatus. Is what
The management device specifies the indoor units to be grouped in correspondence with the detection result data received from the indoor unit, and manages the specified indoor units as the same group.

The invention according to claim 2 is an air conditioner system including a plurality of indoor units, an outdoor unit, and a management device that manages the indoor unit and the outdoor unit, which are connected by a communication line,
The indoor unit includes a sound detection unit that detects a sound of a room in which the indoor unit is installed, and transmits detection result data detected by the sound detection unit to the management device according to an instruction from the management device. Yes,
The management device specifies the indoor units to be grouped in correspondence with the detection result data received from the indoor unit, and manages the specified indoor units as the same group.

By using the above means, according to the air conditioner system of the present invention,
In the invention according to claim 1, the selection of the indoor units to be grouped is determined by a change in lighting (turned on or off) of the room in which the indoor unit is installed, and this change occurred within a predetermined time. Since the management apparatus recognizes the indoor units as one group, the group setting can be easily performed even if the relationship between the arrangement of the indoor units and the addresses of the indoor units is unknown.

  In the invention according to claim 2, the selection of the indoor units to be grouped is determined by a change in sound (such as a telephone ringing tone) in the room in which the indoor unit is installed, and this change is detected within a predetermined time. Since the management apparatus recognizes the existing indoor units as one group, the group setting can be easily performed even if the relationship between the arrangement of the indoor units and the address of the indoor unit is unknown.

It is a block diagram which shows the Example of the air conditioning system by this invention. It is a sketch of the room explaining the concept of grouping by this invention. It is a block diagram of the indoor unit by this invention. It is a graph which shows the AGC signal in a remote control receiver. It is a graph which shows the sound level signal in a sound detection part. It is explanatory drawing which shows the management table memorize | stored in a management apparatus. It is a flowchart explaining the process with the indoor unit and management apparatus 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.

  FIG. 1 is a block diagram illustrating an air conditioner system according to the present invention.

  The case where the air conditioner system by this invention is arrange | positioned in the hotel 1 (building) is shown, This air conditioner system has several indoors each arrange | positioned at the management apparatus 4, the refrigerant | coolant system 5, and the refrigerant | coolant system | strain 6. A machine and an outdoor unit are provided. In addition, about piping of a refrigerant | coolant, since it is not directly related to this invention, illustration and description are abbreviate | omitted.

  The refrigerant system 5 includes an indoor unit 11, an indoor unit 12, an indoor unit 13, an indoor unit 14, a parent outdoor unit 15, and a child outdoor unit 16 connected thereto. Can communicate with each other via a communication line 7.

  Since each device is communicably connected to the management device 4 via the communication line 7, not only the indoor units 11 to 14 can be operated independently by a remote controller (not shown), but also from the management device 4 to the indoor units 11 to 14. The parent outdoor unit 15 and the child outdoor unit 16 are configured to be remotely controlled via the communication line 7.

On the other hand, the refrigerant system 6 includes an indoor unit 31, an indoor unit 32, an indoor unit 33, a parent outdoor unit 35, and a child outdoor unit 36 connected thereto. 7 can communicate with each other. As with the refrigerant system 5, the refrigerant system 6 can be operated alone or remotely.
The devices connected to the communication line 7 are assigned a communication address dedicated to each device, and can identify each other using this address and can communicate with each other.

A microcomputer is mounted on each device of the indoor unit and outdoor unit of the air conditioner system. Furthermore, the management device 4 is a personal computer or server provided with a CPU, and these microcomputers and CPU execute various programs by executing programs in each device to realize various functions and means. The system is configured to operate.
Therefore, each function in the process explanation flowchart for each device, which will be described later, is realized by these microcomputers and CPUs executing predetermined program steps according to the processing procedure.

  As shown in FIG. 1, the air conditioning group 2 is managed by the management device 4 as an indoor unit 11 to 14, and the air conditioning group 3 is managed by the management device 4 as an indoor unit 31 to 33. It has become. Such an air conditioning group is set to manage a plurality of indoor units for each tenant, office, and department in the hotel 1. Therefore, in many cases, one room or floor is grouped together. The addresses of the indoor units belonging to this air conditioning group are stored in the management device 4 as a management table.

FIG. 2 is a sketch of a room for explaining the concept of grouping according to the present invention.
Indoor units 11 to 13 are arranged in the office 41, and indoor units 14 are arranged in the toilet 42, respectively. Therefore, these four units constitute the air conditioning group 2. The office 41 is provided with lights 51 to 52, and the toilet 42 is provided with lights 53, which can be turned on / off by a switch (not shown).

  On the other hand, an indoor unit 31 and an indoor unit 32 are disposed in the office 43, and an indoor unit 33 is disposed in the conference room 44, respectively. Therefore, these three units constitute the air conditioning group 3. The office 43 is provided with a telephone 55, and the conference room 44 is provided with a telephone 56, which are connected to a telephone 57 in the management room 45 through an exchange (not shown). A management device 4 is installed in the management room 45.

  In FIGS. 1 and 2, communication addresses # 1 to # 4 are assigned to the indoor units 11 to 14, and addresses # 31 to # 33 are assigned to the management device 4. Address # 0, the parent outdoor unit 15 and the child outdoor unit 16 are assigned addresses # 5 and # 6, and the parent outdoor unit 35 and the child outdoor unit 36 are assigned addresses # 35 and # 36, respectively. This assignment is performed when the system is installed, and a description thereof is omitted here.

  In the present invention, attention is paid to the fact that the grouped indoor units are installed in the same room or arranged in adjacent rooms. Each indoor unit detects the on / off of the lighting of the room where the indoor unit itself is installed and the presence / absence of a ringing tone from the telephone in the room, and transmits this detection information to the management device 4. The management apparatus 4 recognizes indoor units having lighting on or telephone ringing tone as one group within a predetermined time for detecting the group.

  FIG. 3 is a block diagram of the indoor unit 12. Since this block diagram has the same configuration as other indoor units, description of the other indoor units is omitted.

  As shown in FIG. 3, the indoor unit 12 inputs a remote control receiving unit 21 that receives an infrared signal transmitted from an infrared remote controller (not shown), a room temperature sensor 27 that detects a room temperature, and a detection signal of the room temperature sensor 27. Via a room temperature sensor input unit 25, a notification unit 22 that generates a buzzer sound or synthesized sound according to an input instruction, a blower fan motor 23, a stepping motor 24 that adjusts the angle of the vertical air direction plate, and a communication line 7 A communication unit 29 that communicates with other devices, a sound detection unit 28 (sound detection unit) that detects the sound in the room with a built-in microphone and outputs the level of the sound, and a control unit that controls them. And an indoor unit control unit 26. The indoor unit controller 26 receives an instruction from an infrared remote controller (not shown) via the remote controller receiver 21.

  The remote control receiver 21 adjusts the reception sensitivity in inverse proportion to the level of received infrared rays (including those emitted by sunlight and illumination). AGC (Automatic) which is a signal corresponding to the reception sensitivity. Gain Control) signal is output to the indoor unit control unit 26. The indoor unit control unit 26 is connected to an A / D conversion circuit (not shown) provided inside the indoor unit control unit 26, and converts the received signal level into a digital value for processing. It has become. This AGC signal is a signal proportional to the level of the received signal. The brightness detection means is configured to detect the on / off of the illumination of the room in which the indoor unit is installed based on the level of the AGC signal.

  Note that an illuminance sensor is provided separately without using the remote control receiver 21, and the output of the illuminance sensor is connected to an A / D conversion circuit (not shown) provided in the indoor unit control unit 26 to output the illuminance sensor. You may make it detect lighting on / off by a level.

  The light receiving unit of the remote control receiving unit 21 is provided with an optical filter (not shown) so as to remove wavelengths other than infrared rays of the remote control as much as possible. However, a fluorescent lamp or the like outputs a signal in the vicinity of 40 kHz that is close to the 38 kHz signal that is a modulation signal of the remote control signal. When the sensitivity of the remote control receiver 21 is high, this frequency signal is used as illumination noise. Appears in the received signal. In the present invention, the on / off state of the indoor lighting is detected based on the presence or absence of noise output from the lighting.

  FIG. 4 is a graph showing an AGC signal in the remote control receiver 21. The vertical axis represents the voltage of the AGC signal, and the horizontal axis represents time. When the room in which the indoor unit is set is dark, the AGC signal is at a low level (high sensitivity). When the indoor lighting is turned on, the remote control receiver 21 detects this light and the AGC signal is at a medium level. (Medium sensitivity). Therefore, the indoor unit control unit 26 detects lighting on / off depending on whether or not the AGC signal voltage exceeds the lighting lighting threshold value, and transmits this information to the management device 4 via the communication line 7. This process will be described later in detail. Since the infrared signal of the infrared remote controller has a higher level than the infrared signal of the illumination, it can be distinguished even when the illumination is lit as indicated by the dotted line.

  On the other hand, the sound detection unit 28 is provided in the indoor unit 12 as described above, and the magnitude of the sound in the room in which the indoor unit is installed is output as a voltage level to the indoor unit control unit 26. The indoor unit control unit 26 inputs this signal to an A / D conversion circuit (not shown) provided inside the indoor unit control unit 26, and converts the input signal level into a digital value. In the present invention, the sound level in the room is monitored by this configuration, and the presence or absence of a ringing tone output from the telephone set in the room is detected. The sound detection unit 28 is a sound detection means.

  FIG. 5 is a graph showing a sound signal in the sound detector 28. The vertical axis represents the level of the sound signal, and the horizontal axis represents time. When the room in which the indoor unit is installed is quiet, the sound signal is at a low level. Here, when a ringing tone is emitted from the telephone installed in the room, the sound detection unit 28 detects the ringing tone. The sound signal is at a medium level. Therefore, the indoor unit control unit 26 detects the presence or absence of a ringing tone based on whether or not the sound signal exceeds the ringing tone threshold value, and transmits this information to the management device 4 via the communication line 7. This process will be described later in detail.

  Either the above-described configuration for detecting illumination or the configuration for detecting a ringing tone output from a telephone installed indoors may be used, or both may be used in combination. In addition, as means for instructing a group, a lamp that emits light or a device that emits an alarm sound may be used instead of indoor lighting or a telephone ringing tone.

Next, a method for selecting indoor units to be grouped using the illumination and ringing sound will be described with reference to FIG.
When selecting an indoor unit to be grouped, first, the administrator performs a grouping start instruction to the management device 4, and the management device 4 selects a group from the management device 4 to each indoor unit accordingly. Send a start command. Each indoor unit receiving this starts lighting on / off and monitoring for the presence or absence of sound as described above. It should be noted that the selection target (only lighting, only sound, both) is added to this group selection start command, and the indoor unit that has received this starts monitoring according to the instruction.

  The indoor unit control unit 26 of the indoor unit monitors the target indicated by the selection target, and the level change of the monitoring target, that is, the AGC voltage exceeds the lighting lighting threshold or the sound level exceeds the ringing tone threshold In this case, the group detection data that is the monitoring result data is transmitted to the management device 4. The management device 4 transmits a group selection stop command to each indoor unit when a certain time, for example, 10 minutes elapses after transmitting the group selection start command. Receiving this, the indoor unit control unit 26 of the indoor unit ends the monitoring process. In addition, during the monitoring process, the indoor unit control unit 26 generates a sound such as “in process of grouping” from the notification unit 22 or displays that effect. Of course, no sound is generated while the sound level is being monitored.

  The administrator who manages the air conditioner system operates the management device 4 to transmit a group selection start command, and then turns on the indoor lighting that is the grouping target or the grouping target. Call the telephone installed in the room. When processing in all rooms is completed, a group selection stop command is transmitted via the management device 4.

For example, if the lighting of the hotel 1 where the indoor unit is installed is turned off and it is desired to configure the air conditioning group 2, the manager can set the lighting 51, the lighting 52, and the lighting 53 while each indoor unit is monitoring the lighting. Light up.
Then, each of the indoor units 11 to 14 transmits group detection data, which is lighting information of these lights, to the management apparatus 4 together with its own address information # 1 to # 4. In the rooms other than the room where the indoor unit 11 to the indoor unit 14 are installed, the lighting remains off, and the management device 4 can recognize that all the indoor units that have transmitted the lighting lighting signals belong to the same group.

  Similarly, when it is desired to configure the air conditioning group 3, the sound level is monitored by the indoor units in the hotel 1, and the telephone 55 and the telephone 56 installed in the room to be grouped from the management room 45 during this monitoring. Then, the telephone 57 makes a call. Then, the indoor units 31 to 33 transmit information group detection data, which is detection data of ringing sounds of these telephones, to the management apparatus 4 together with their own address information # 31 to # 33. In a room other than the room in which the indoor unit 31 to the indoor unit 33 are installed, the ringing sound is not output from the telephone, so that the management device 4 can recognize that all the indoor units that have transmitted the ringing tone information belong to the same group.

  As described above, the selection of an indoor unit to be grouped is determined based on the change in lighting (turned on or off) of the room in which the indoor unit is installed, and the indoor unit that has changed within a predetermined time Since the management device recognizes as a group, even if the relationship between the arrangement of the indoor units and the addresses of the indoor units is unknown, group setting can be easily performed. In addition, since a change in room illumination is detected using the remote control receiver 21, it is not necessary to provide a separate illuminance sensor or the like, and the function of the present invention can be provided at low cost.

  In addition, the selection of indoor units to be grouped is determined by a change in the sound of the room in which the indoor unit is installed (such as a telephone ringing tone). Since the management device recognizes as one group, even if the relationship between the arrangement of the indoor units and the addresses of the indoor units is unknown, group setting can be easily performed. Further, by using the telephone ringing tone, the administrator can call the telephone 55 and the telephone 56 from the management room 45 using the telephone 57, and the administrator can easily move without moving to the room to be grouped. Group setting is possible.

Next, processing of the management device 4 that has received the group detection data including the lighting information and the ringing tone information will be described.
FIG. 6 is an explanatory diagram showing a management table stored in the management apparatus.
The management device 4 stores therein a management table for managing the operation status of each indoor unit and outdoor unit. The items to be managed as shown in FIG. 6 are “address” for identifying each device, “type” of indoor unit or outdoor unit, and “group number” if there is a grouped indoor unit. Other information such as “group detection”, current “operation status”, current “operation mode”, “set temperature”, “room temperature”, etc. which are lighting information or ringing tone information received from each indoor unit Is stored in the management device 4 as data for each device, and the table is updated with data sent from each device or data instructed to other devices by the management device itself.

  In this management table, for example, addresses # 31 to # 33 all have “group number” “3”, and the indoor units 31 to 33 corresponding to these addresses belong to the same air conditioning group 3. . In addition, an indoor unit with “?” In the “group number” indicates that it does not belong to a specific air conditioning group.

  In the state of such a management table, when a new group is set, the manager inputs a grouping instruction to the management apparatus 4 as described above, and the management apparatus 4 that receives this instruction A group selection start command is transmitted to each indoor unit. In this case, the management device 4 transmits this group selection start command only to the device whose “group number” is “?”, And in the “group detection” column of the indoor unit that is the transmission target of this command. Write “-”. This is because the setting of the existing group is not changed as it is. When a new group is configured including these, the administrator can operate the management device 4 and change the “group number” to “?” To be a grouping target. Note that the process of writing “?” In the management table in this manner is not described here. For example, in an existing group management operation, the specified group is released and managed by the indoor unit alone. It is good to do it by operation.

  Then, the management device 4 receives the group detection data from each indoor unit and writes the result in the “group detection” column. The “group detection” column for indoor units that have not received group detection data remains “−”, and the “group detection” column for indoor units that have received group detection data is “present”. The management device 4 transmits a group selection stop command when a predetermined time, for example, 10 minutes elapses after transmitting the group selection start command. Then, the indoor unit whose “group detection” column is “present” is set as a new air conditioning group 2, for example, “2” is written in the “group number” column.

  In addition, in order to improve the detection accuracy of the group target indoor unit, the number of lighting on / off is defined as 3 times, the ringing tone of the phone is defined as 3 times, or an unintended indoor unit by adding conditions Can be prevented from being grouped.

Next, the operation of the air conditioner system according to the present invention will be described with reference to the flowchart of FIG. FIG. 7A shows control of the indoor unit, and FIG. 7B shows control of the management apparatus.
In FIG. 7, ST represents a step, and the number following this represents a step number. Further, “Y” in FIG. 4 indicates Yes, and “N” indicates No.

  In FIG. 7A, the indoor unit control unit 26 first confirms whether data from the management device 4 has been received (ST1). When data from the management apparatus 4 is received (ST1-Y), it is next confirmed whether the received data is a group selection start command (ST2). If the received data is not a group selection start command (ST2-N), the indoor unit control unit 26 performs a normal air conditioning operation in accordance with received data (command) from the management device or an instruction from a remote controller (not shown) (ST3).

  Even when the group selection stop command transmitted from the management device 4 is received, the process jumps to the branch of (ST2-N), and consequently, the process proceeds to the group selection stop process. Then, after performing the process of ST3, the process jumps to ST1. If no data is received from the management apparatus 4 (ST1-N), the process jumps to ST3.

  On the other hand, if the received data is a group selection start command (ST2-Y), it is then confirmed whether lighting or a telephone ringing tone has been detected (ST4). When the lighting or the ringing sound of the telephone is detected (ST4-Y), the group detection data is transmitted to the management device 4. However, if indoor lighting detection or indoor sound detection is specified by the group selection start command, only the detection result corresponding to each is transmitted to the management device 4. Then jump to ST1.

  On the other hand, if the lighting or the ringing tone of the telephone cannot be detected (ST4-N), the process jumps to ST1. As described above, whether or not the lighting or lighting of the telephone can be detected is determined based on whether each detection level is equal to or higher than each threshold value.

Next, control of the management apparatus 4 will be described with reference to FIG. First, the management apparatus 4 first checks whether 10 minutes have elapsed since the group selection start command was transmitted (ST10).
This is to determine the end of the group selection period. When 10 minutes have elapsed since the transmission of the group selection start command (ST10-Y), a group selection stop command is transmitted to each indoor unit (ST11), and then “ A group is determined according to the data in the “group detection” column (ST18). Then jump to ST10.

  On the other hand, if 10 minutes have not elapsed since the transmission of the group selection start command (including the case where the group selection start command has not been transmitted), it is confirmed whether group detection data from the indoor unit has been received (ST12). When the group detection data is received from the indoor unit (ST12-Y), “Yes” is written and stored in the “Group detection” column of the corresponding indoor unit in the management table stored in the management device 4 (ST13). . Then jump to ST10. The indoor unit is an indoor unit that has transmitted group detection data. By searching the management table using the address of this indoor unit, the indoor unit to which “Yes” is written in the “Group detection” column is specified. The

  On the other hand, when the group detection data from the indoor unit has not been received (ST12-N), an operation of an instruction to start grouping to the management device 4 by the administrator is checked (ST14). When there is no grouping start instruction operation to the management device 4 by the administrator or when reception of group detection data is already being monitored (ST14-N), the management device 4 monitors normal operation, that is, each device. In accordance with an instruction from the administrator to the management device 4 (excluding grouping instruction input), the devices in the air conditioner system are controlled (ST15). Then jump to ST10.

  On the other hand, when the administrator performs an operation to start the grouping to the management apparatus 4 (ST14-Y), the management apparatus 4 follows the start instruction in the management table stored in the management apparatus 4. , “Group number” field is “? ] Is extracted as a group target indoor unit, and the “group detection” column of this target indoor unit is cleared (written) with “−” (ST16). Next, a group selection start command is transmitted by designating each address of this group target indoor unit (ST17). Then jump to ST10.

In this embodiment, the indoor unit determines a change in lighting or a change in sound, and this information is transmitted to the management device only when there is a change. However, the present invention is not limited to this. Regardless of the change in sound, the state detected by each indoor unit may be transmitted as it is to the management device as a detection result, and the indoor unit to be grouped may be selected from the detection result on the management device side.
With such a configuration, the processing of the indoor unit can be reduced and the cost can be reduced by using an inexpensive microcomputer.

1 Hotel (building)
2 Air-conditioning group 3 Air-conditioning group 4 Management device 5 Refrigerant system 6 Refrigerant system 7 Communication line 11, 12, 13, 14 Indoor unit 15 Parent outdoor unit 16 Sub-outdoor unit 21 Remote control receiver (brightness detection means)
DESCRIPTION OF SYMBOLS 22 Notification part 23 Blower fan motor 24 Stepping motor 25 Room temperature sensor input part 26 Indoor unit control part 27 Room temperature sensor 28 Sound detection part (sound detection means)
29 Communication Unit 31, 32, 33 Indoor Unit 35 Parent Outdoor Unit 36 Child Outdoor Unit 41 Office 42 Toilet 43 Office 44 Meeting Room 45 Management Room 51, 52, 53 Lighting 55, 56, 57 Telephone

Claims (2)

An air conditioner system comprising a plurality of indoor units, an outdoor unit, and a management device that manages the indoor unit and the outdoor unit, these being connected by a communication line,
The indoor unit includes brightness detection means for detecting the brightness of a room in which the indoor unit is installed, and transmits detection result data detected by the brightness detection means to the management apparatus according to an instruction from the management apparatus. Is what
The said management apparatus specifies the said indoor unit which should be grouped according to the said detection result data received from the said indoor unit, and manages the said specified indoor unit as the same group, The air conditioner system characterized by the above-mentioned. An air conditioner system comprising a plurality of indoor units, an outdoor unit, and a management device that manages the indoor unit and the outdoor unit, these being connected by a communication line,
The indoor unit includes a sound detection unit that detects a sound of a room in which the indoor unit is installed, and transmits detection result data detected by the sound detection unit to the management device according to an instruction from the management device. Yes,
The said management apparatus specifies the said indoor unit which should be grouped according to the said detection result data received from the said indoor unit, and manages the said specified indoor unit as the same group, The air conditioner system characterized by the above-mentioned.

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