KR102346642B1 - Air conditioning system and control - Google Patents

Abstract

The present invention relates to an air conditioning system and a method for controlling the same. In the method of controlling an air conditioning system according to an embodiment of the present invention, the method of controlling an air conditioning system including a wired remote control provided to communicate with a plurality of indoor devices, the first indoor device being any one of the plurality of indoor devices. A first communication signal is transmitted from the device to the wired remote control, the wired remote control determines a first communication rate included in the first communication signal, and the wired remote control and the first indoor device are connected to the first communication rate. A predetermined signal is transmitted and received accordingly.

Description

Air conditioning system and its control method {AIR CONDITIONING SYSTEM AND CONTROL}

The present invention relates to an air conditioning system and a method for controlling the same.

The air conditioning system is a system for maintaining the air in a predetermined space in the most suitable state according to the purpose and purpose. In general, an air conditioning system includes a compressor, a condenser, an expansion device, and an evaporator, and a refrigerant cycle performing compression, condensation, expansion, and evaporation of the refrigerant is driven to cool or heat the predetermined space.

In this case, the predetermined space may be variously proposed according to a place where the air conditioning system is used. For example, when the air conditioning system is used in a home or office, the predetermined space may be an indoor space of a house or a building. Also, when the air conditioning system is used in a vehicle, the predetermined space may be a boarding space in which a person boards.

In addition, the air conditioning system includes an indoor device disposed in the predetermined space and an outdoor unit connected to the indoor device. In this case, a plurality of indoor devices may be provided in various types such as an air conditioner, a hot water supply device, and a ventilation device. In addition, the air conditioning system may be provided with devices for managing and controlling such devices.

Prior literature information related to this technology is as follows.

(1) 1st Prior Document: Patent Publication No. 10-2008-0072281 (filed on January 01, 2007), multi-air conditioner integrated management system and its control method

The first prior document describes a central control unit and a user terminal that integrate and manage the outdoor unit and the indoor unit. In addition, although communication between devices is described, only an abstract structure is presented and a detailed structure is not described.

In particular, in the first prior document, there is no description about communication of a wired remote controller provided in the predetermined space to input a user's request. Conventional wired remote controllers are generally usable for only one device, so there is a problem in that a new communication program is required for use in various devices.

In addition, there is a problem in that the structure of the wired remote control becomes complicated in order to communicate in a communication method corresponding to each device. In addition, in order to communicate using a new communication method, a new communication program must be installed in the wired remote controller.

The present invention has been proposed to solve this problem, and it is to provide an air conditioning system having a wired remote controller and a method for controlling the same, which are provided to integrate and manage various communication methods corresponding to various indoor devices into one communication unit. The purpose.

Another object of the present invention is to provide an air conditioning system having a wired remote control capable of more effectively communicating with various indoor devices by adding information on a communication speed and a communication length to a communication protocol, and a method for controlling the same.

In the method of controlling an air conditioning system according to an embodiment of the present invention, the method of controlling an air conditioning system including a wired remote control provided to communicate with a plurality of indoor devices, the first indoor device being any one of the plurality of indoor devices. A first communication signal is transmitted from the device to the wired remote control, the wired remote control determines a first communication rate included in the first communication signal, and the wired remote control and the first indoor device are connected to the first communication rate. A predetermined signal is transmitted and received accordingly.

A second communication signal including a second communication rate different from the first communication rate is transmitted from the second indoor device, which is one of the plurality of indoor devices, to the wired remote controller, and the wired remote control unit transmits the second communication speed to the wired remote controller. , and the wired remote controller and the second indoor device may transmit/receive a predetermined signal according to the second communication speed.

The first communication signal and the second communication signal may be transmitted through the same communication protocol.

The plurality of indoor devices may transmit a communication signal according to the same communication protocol, and communication speed information may be included in a header of the communication protocol.

The wired remote controller may determine whether or not the first communication rate matches a preset communication rate, and if it does not match, change the set communication rate to the first communication rate.

The wired remote controller may determine a first communication length included in the first communication signal, and the wired remote controller may calculate a predetermined signal transmitted from the first indoor device according to the first communication length.

A second communication signal including a second communication speed different from the first communication speed and a second communication length different from the first communication length is transmitted from the second indoor device, which is one of the plurality of indoor devices, to the wired remote controller. is transmitted, the wired remote controller determines the second communication rate and the second communication length, the wired remote controller transmits a predetermined signal to the second indoor device according to the second communication rate, and the second communication A predetermined signal transmitted from the second indoor device may be calculated according to the length.

The plurality of indoor devices may transmit a communication signal according to the same communication protocol, and the communication speed and communication length information may be included in a header of the communication protocol.

In addition, in the air conditioning system according to the spirit of the present invention, a main control unit, at least one outdoor unit connected to the main control unit, a plurality of indoor devices connected to the at least one outdoor unit, and a plurality of indoor devices are communicatively connected to each other. A wired remote controller is provided, wherein the wired remote controller includes an input unit to which a user command is input, a communication unit for transmitting and receiving predetermined information to and from the plurality of indoor devices, and a plurality of indoor devices according to signals transmitted from the input unit and the communication unit. A control unit for controlling is included, wherein the communication unit includes a communication speed analysis unit for determining communication speed information included in the signals transmitted from the plurality of indoor devices, and communication length information included in the signals transmitted from the plurality of indoor devices. A communication speed analysis unit for judging is provided.

The wired remote controller may further include a memory unit for storing a set communication rate, which is a communication rate at which the communication unit and the plurality of indoor devices transmit and receive predetermined information.

The control unit compares the communication rate determined by the communication rate analysis unit and the set communication rate stored in the memory unit and does not match, changing the set communication rate to the communication rate determined by the communication rate analysis unit to the memory can be stored in wealth.

The control unit may interpret the information received from the plurality of indoor devices by the communication length determined by the communication speed analysis unit.

The input unit is provided with a plurality of indoor device input units respectively corresponding to any one of the plurality of indoor devices, and may transmit a communication signal from any one of the plurality of indoor devices to the communication unit according to the indoor device input unit.

The control unit may transmit a predetermined control command to the indoor device to which the communication signal is transmitted at a communication rate of the communication signal analyzed by the communication rate analysis unit.

The control unit may calculate a signal transmitted from the indoor device that has transmitted the communication signal as much as the communication length of the communication signal analyzed by the communication length analysis unit.

According to the present invention, there is an advantage that the wireless remote control can communicate with various indoor devices having different communication methods in one communication unit.

In particular, the communication unit of the wireless remote controller includes a communication rate analysis unit, so it has the advantage of being able to communicate by identifying the communication rate communicated with each indoor device and changing the communication rate.

Accordingly, there is an advantage that different communication methods having different communication speeds can be managed in a compatible manner in one communication unit.

In addition, the communication unit of the wireless remote controller includes a communication length analysis unit, so it has the advantage that communication is possible by identifying the communication length communicated with each indoor device and changing the communication length to the communication length.

Accordingly, since communication signals are calculated corresponding to different communication lengths, there is an advantage in that predetermined signals can be transmitted/received more actively and efficiently.

In addition, even if a new device or a new communication method is added or a new device or a new communication method is changed, there is an advantage that communication is possible without installing a separate program.

1 is a view showing an air conditioning system according to an embodiment of the present invention.
2 is a view showing various indoor devices of the air conditioning system according to an embodiment of the present invention.
3 is a diagram illustrating a wired remote controller of an air conditioning system according to an embodiment of the present invention.
4 is a diagram illustrating the configuration of a wired remote controller of an air conditioning system according to an embodiment of the present invention.
5 is a diagram schematically illustrating communication between a wired remote controller of an air conditioning system and an indoor device according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is "connected", "coupled" or "connected" to another component, the component may be directly connected or connected to the other component, but another component is between each component. It will be understood that may also be "connected", "coupled" or "connected".

1 is a view showing an air conditioning system according to an embodiment of the present invention.

1, the air conditioning system of the present invention includes a central control unit (C), at least one outdoor unit (O, Outdoor unit), and a plurality of indoor units (I, Indoor unit).

The central controller C may be provided to control the at least one outdoor unit O and the plurality of indoor devices I. In addition, the central control unit (C) may be provided to be connectable to a server (Server) or a portable terminal.

Accordingly, the user may control the operations of the at least one outdoor unit O and the plurality of indoor devices I through the central controller C or a device connected to the central controller C. In addition, it is possible to monitor the operating states of the at least one outdoor unit (O) and the plurality of indoor devices (I).

Also, the central control unit C is communicatively connected to the at least one outdoor unit O. That is, the central controller C may transmit a control command or transmit/receive predetermined information to the at least one outdoor unit O.

One or more of the at least one outdoor unit O may be provided. In FIG. 1, three outdoor units are exemplarily shown. For convenience, the outdoor unit O may be divided into a first outdoor unit O1 , a second outdoor unit O2 , and a third outdoor unit O3 .

As shown in FIG. 1 , each outdoor unit O may have a different shape. This is illustrated in different shapes for convenience of description, and the plurality of outdoor units O may have the same shape or more various types of outdoor units O may be provided.

In addition, each outdoor unit O may be disposed in different places. For example, the first outdoor unit O1 and the second outdoor unit O2 may be disposed on a roof of a building, and the third outdoor unit O3 may be disposed in a separate room located within the building.

The plurality of indoor devices (I) may be communicatively connected to each outdoor unit (O). In addition, the plurality of indoor devices (I) may form one refrigerant cycle with each outdoor unit (O).

1 illustrates a plurality of indoor devices I connected to the first outdoor unit O1 and a plurality of indoor devices I connected to the second outdoor unit O2 for convenience of description. In addition, it is shown that the indoor devices I of different shapes are connected to the first outdoor unit O1, and the indoor devices I of the same shape are connected to the second outdoor unit O2.

In detail, a first indoor device IA, a second indoor device IB, and a third indoor device IC having different shapes are connected to the first outdoor unit O1. In addition, a plurality of third indoor devices IC having the same shape are connected to the second outdoor unit O2.

In addition, the air conditioning system of the present invention is provided with a wireless remote controller (R) communicatively connected to the plurality of indoor devices (I). In general, the wireless remote control (R) may be provided in each indoor device (I). That is, the number of the wireless remote controllers R may correspond to the number of the indoor devices I.

In addition, the wireless remote control (R) may be connected to a plurality of indoor devices (I). That is, the wireless remote controller R may be provided in a number corresponding to or smaller than the number of the indoor devices I. In this case, the wireless remote controller R may be provided to communicate with any indoor device I. This will be described later in detail.

Hereinafter, the plurality of indoor devices I and the wireless remote controller R connected to the first outdoor unit O1 will be described in detail by way of example. For convenience of description, the first outdoor unit O1 is referred to as an outdoor unit O, and the plurality of indoor units are divided into a first indoor unit A, a second indoor unit B, and a third indoor unit C. .

2 is a view showing various indoor devices of the air conditioning system according to an embodiment of the present invention.

As shown in FIG. 2 , different indoor devices A, B, and C may be connected to one outdoor unit O. The outdoor unit O and the plurality of indoor devices A, B, and C are connected through a refrigerant pipe, and may constitute one refrigerant cycle.

A compressor and an outdoor heat exchanger may be disposed inside the outdoor unit O. In addition, the compressor and the outdoor heat exchanger may be provided in plurality and may be provided in various shapes.

The outdoor unit O is generally disposed in an outdoor space to exchange heat between the outdoor heat exchanger and outdoor air. Accordingly, the outdoor unit O may be provided with an inlet and outlet through which outdoor air passes, and a blower fan for forced convection of the air may be provided.

In addition, the outdoor unit O may include a distributor for distributing and flowing the refrigerant to the plurality of indoor devices A, B, and C. The refrigerant distributed through the distributor passes through a plurality of indoor devices A, B, and C, respectively, and flows to the outdoor unit O, and circulates between the indoor devices A, B, and C and the outdoor unit O. can do.

The first indoor device A may be a hot water supply device. In detail, the first indoor device A may heat water through a refrigerant compressed by the compressor of the outdoor unit O to heat the floor of the indoor space or provide hot water.

The second indoor device B may be a ventilation device. In detail, the second indoor device B may include a heat exchanger connected to the outdoor unit O and a blower fan to circulate air in the indoor space.

The third indoor device C may be a ceiling air conditioner. In detail, the third indoor device (C) includes an indoor heat exchanger that is connected to the outdoor unit (O) to exchange heat with indoor air, and can cool and cool an indoor space.

Such indoor devices A, B, and C may be controlled by the wired remote controller R. In FIG. 2, a plurality of indoor devices A, B, and C are controlled by one wired remote controller R, but each of the indoor devices A, B, and C may be provided with one wired remote controller R. can In this case, all of the wired remote controllers R connected to the indoor devices A, B, and C may have the same configuration.

In this case, the wired remote controller R may communicate with the indoor devices A, B, and C in different communication methods. For example, the first indoor device (A) and the wired remote controller (R) may communicate using the AWHP method. On the other hand, the second indoor device (B) and the wired remote controller (R) may communicate in TTL method, and the third indoor device (C) and the wired remote controller (R) may communicate in the Tlv method.

Each communication method has a different communication speed and communication length. For example, the AWHP method in which the first indoor device A and the wired remote controller R communicate may have a communication speed of 300 bps and a communication length of 30 bytes. In addition, the TTL method in which the second indoor device (B) and the wired remote controller (R) communicate has a communication speed of 100 bps and a communication length of 13 bytes, and the third indoor device (C) and the wired remote controller (R) This communication Tlv method may have a communication speed of 600 bps and a communication length of 10 bytes to 255 bytes.

In this case, the wired remote controller R may connect communication methods having different communication speeds and communication lengths through one communication unit, that is, one device driver. Hereinafter, exemplary shapes and configurations of the wired remote controller R will be described in detail.

3 is a diagram illustrating a wired remote controller of an air conditioning system according to an embodiment of the present invention, and FIG. 4 is a diagram illustrating a configuration of a wired remote controller of the air conditioning system according to an embodiment of the present invention.

3 and 4, the wired remote controller R according to the spirit of the present invention is provided with various input units 10 to which user commands are input. As shown in FIG. 3 , the input unit 10 includes a power supply unit 11 for selecting operation and stop of the indoor device, a temperature control unit 12 for adjusting the temperature of the indoor space, and a mode selection unit for selecting various modes. (13) and a time selection unit 14 for reservation operation, etc. may be provided.

In addition, the input unit 10 is provided with a plurality of indoor device input units 16 respectively corresponding to any one of the plurality of indoor devices. That is, the indoor device input unit 16 may be provided to correspond to the number of indoor devices I connected to the wired remote controller R. In FIG. 3, buttons A, B, and C corresponding to the first to third indoor devices A, B, and C are illustrated.

In addition, the wired remote controller R according to the spirit of the present invention is provided with a display unit 20 that displays the operating states of the connected indoor devices A, B, and C. An operation mode, a desired temperature, an air volume, a wind direction, etc. may be visualized on the display unit 20 .

In addition, the wired remote controller R according to the spirit of the present invention includes a control unit 30 , a communication unit 40 , and a memory unit 50 .

The communication unit 40 is provided to transmit and receive predetermined information to and from the connected indoor devices A, B, and C. In particular, as described above, the communication unit 40 is not provided in plurality to correspond to different communication methods, but is provided as one.

At this time, the communication unit 40 is provided with a communication rate analysis unit 42 for determining the communication rate information included in the signal transmitted from the indoor devices (A, B, C). In addition, the communication unit 40 may further include a communication length analysis unit 44 for determining communication length information included in the signals transmitted from the plurality of indoor devices (A, B, C).

The control unit 30 controls the indoor devices A, B, and C according to the signals transmitted from the input unit 10 and the communication unit 40 . In detail, the control unit 30 transmits the command input from the input unit 10 to the indoor devices A, B, and C, and displays the information transmitted from the indoor devices A, B, and C. It can be visualized in part 20 .

The memory unit 50 functions to store various information and may store information on the operating state of the indoor devices A, B, and C. In addition, the memory unit 50 stores a set communication rate, which is a communication rate at which the communication unit 40 and the indoor devices A, B, and C transmit and receive predetermined information.

In this case, the set communication rate may be understood as a communication rate at which data is transmitted from the wireless remote controller R to another device through the communication unit 40 . The set communication rate may be stored at a preset initial communication rate before operation. And, it can be continuously changed after operation.

Hereinafter, communication between the wired remote controller R and an indoor device will be exemplarily described based on the configuration of the wired remote controller R as described above.

5 is a diagram schematically illustrating communication between a wired remote control and an indoor device of an air conditioning system according to an embodiment of the present invention.

As shown in FIG. 5 , the set communication rate of the wireless remote controller R is stored in the memory unit 50 as an initial communication rate V. As shown in FIG. When trying to control the first indoor device A through the wireless remote controller R, a predetermined communication signal may be requested (S1).

In this case, the communication signal may be understood as a signal transmitted from the indoor device to the wireless remote controller R when the wireless remote controller R and any one indoor device communicate for the first time. In addition, all signals transmitted and received between the wireless remote controller R and the indoor device may be referred to as communication signals.

Such a communication signal request S1 may be performed as the user inputs the indoor device input unit 16 . That is, when the user selects the indoor device input unit 16 corresponding to the first indoor device A, the control unit 30 requests a communication signal from the first indoor device A (S1).

Accordingly, the first indoor device A transmits a first communication signal (S2). In this case, the first communication signal means a communication signal transmitted from the first indoor device (A).

Then, the wired remote controller R determines the first communication speed V1 included in the first communication signal (S3). That is, the communication signal includes information on the communication speed, and the first communication speed V1 means the communication speed included in the first communication signal.

At this time, the communication speed analysis unit 42 determines the communication speed included in the communication signal. Then, the control unit 30 compares the communication rate determined by the communication rate analysis unit 42 with the set communication rate stored in the memory unit 50 .

As described above, the initial communication rate V is stored in the memory unit 50 as a set communication rate, and the first communication rate V1 included in the first communication signal V1 by the communication rate analysis unit 42 is stored in the memory unit 50 . The communication signal is judged.

In addition, when the communication rate determined by the communication rate analysis unit 42 and the set communication rate stored in the memory unit 50 do not match, the control unit 30 sets the set communication rate to the communication rate analysis unit 42 ) may be changed to the determined communication speed and stored in the memory unit 40 .

That is, when the initial communication rate (V) and the first communication signal (V1) do not match, the set communication rate stored in the memory unit 40 is changed from the initial communication rate (V) to the first communication signal ( Change to V1).

In addition, the control unit 30 may transmit a predetermined control command to the indoor device that has transmitted the communication signal at the communication rate of the communication signal analyzed by the communication rate analysis unit 42 . That is, predetermined data is transmitted and received with the first indoor device A using the first communication signal V1 (S4).

In this case, there is a case where the user desires to drive the second indoor device B. That is, the user can select the indoor device input unit 16 corresponding to the second indoor device (B). Accordingly, the control unit 30 requests a communication signal from the second indoor device B (S5).

Accordingly, the second indoor device B transmits a second communication signal (S6). In this case, the second communication signal means a communication signal transmitted from the second indoor device (B).

Then, the wired remote controller R determines the second communication speed V2 included in the second communication signal (S7). In this case, the second communication rate V2 means a communication rate included in the second communication signal.

Posture is determined by the second communication speed (V2) included in the second communication signal in the communication speed analysis unit 42, the control unit 30 is the second determined by the communication speed analysis unit (42) The communication speed V2 is compared with the first communication speed V1 which is a set communication speed stored in the memory unit 50 .

And, when the first communication rate (V1) and the second communication signal (V2) do not match, the set communication rate stored in the memory unit 40 is set to the second communication rate at the first communication rate (V1). Change to signal V2.

In addition, the control unit 30 may transmit a predetermined control command to the indoor device that has transmitted the communication signal at the communication rate of the communication signal analyzed by the communication rate analysis unit 42 . That is, predetermined data is transmitted and received with the first indoor device A using the first communication signal V1 (S4).

In this way, the control unit 30 may request a communication signal from the corresponding indoor device according to the user's selection, change the set communication speed according to the communication signal, and transmit/receive predetermined data to/from the corresponding indoor device.

In this case, the information on the communication speed is included in the communication protocol between the wireless remote controller R and the indoor device. In detail, information about the communication speed is included in the header part of the communication protocol, and the wireless remote controller R can determine the communication speed from any signal transmitted from the indoor device.

In summary, the wireless remote controller R and the plurality of indoor devices are provided to be able to communicate through a communication protocol including a communication speed. Accordingly, even if a new device is added or changed to the wireless remote controller R or a new communication method is added or changed, there is no need to install a separate program in the wireless remote controller R.

In addition, the communication protocol may include information on a communication length. In detail, information on the communication length is included in the header part of the communication protocol, and the wireless remote controller R can determine the communication length from any signal transmitted from the indoor device.

In detail, the wireless remote controller R may determine the communication length in the header part of the communication protocol from the transmitted signal, and calculate data corresponding to the length. That is, data can be calculated actively and efficiently by changing the operation length according to the communication length.

For example, when the first communication signal and the second communication signal have different communication lengths, the wired remote controller R may determine each communication length and calculate only the corresponding length. For example, it is assumed that the first communication signal is 13 bytes and the second communication signal is 30 bytes. When the first communication signal is transmitted, the wired remote controller R performs an operation for 13 bytes, and when the second communication signal is transmitted, performs an operation for 30 bytes.

In this way, by including the communication speed and communication length in the header of the communication protocol, the wireless remote controller R can be effectively provided to communicate with any indoor device I. That is, by changing the communication speed, different communication methods can be compatible with one communication unit, and by changing the communication length, it is possible to actively respond to the different communication methods.

O: Outdoor unit A: First indoor unit
B: Second indoor device C: Third indoor device
R: Wired remote control 40: Communication unit
42: communication speed analysis unit 44: communication length analysis unit

Claims (15)

A method for controlling an air conditioning system including a wired remote control provided to communicate with a plurality of indoor devices, the method comprising:
A first communication signal is transmitted from a first indoor device, which is one of the plurality of indoor devices, to the wired remote control,
The wired remote control determines a first communication speed and a first communication length included in the first communication signal,
The wired remote controller transmits and receives a predetermined signal to and from the first indoor device according to the first communication speed, and calculates a predetermined signal transmitted from the first indoor device according to the first communication length;
A second communication signal including a second communication speed different from the first communication speed and a second communication length different from the first communication length is transmitted from the second indoor device, which is one of the plurality of indoor devices, to the wired remote controller. transmitted,
The wired remote control determines the second communication rate and the second communication length, and the wired remote control transmits a predetermined signal to the second indoor device according to the second communication rate, and according to the second communication length, the wired remote control transmits a predetermined signal to the second indoor device. The control method of the air conditioning system, characterized in that calculating a predetermined signal transmitted from the second indoor device.
delete The method of claim 1,
The control method of the air conditioning system, characterized in that the first communication signal and the second communication signal is transmitted through the same communication protocol. The method of claim 1,
The plurality of indoor devices transmits a communication signal according to the same communication protocol,
The control method of the air conditioning system, characterized in that the header of the communication protocol includes communication speed and communication length information. The method of claim 1,
The wired remote controller determines whether the first communication rate matches a preset communication rate,
If they do not match, the control method of the air conditioning system, characterized in that by changing the set communication rate to the first communication rate. delete delete delete main control unit;
at least one outdoor unit connected to the main controller;
a plurality of indoor devices connected to the at least one outdoor unit; and
a wired remote controller provided to be communicatively connected to the plurality of indoor devices;
In the wired remote control,
an input unit to which a user command is input;
a communication unit for transmitting and receiving predetermined information to and from the plurality of indoor devices; and
a control unit for controlling the plurality of indoor devices according to the signals transmitted from the input unit and the communication unit;
In the communication unit,
a communication rate analysis unit for determining communication rate information included in the signals transmitted from the plurality of indoor devices; and
a communication speed analysis unit for determining communication length information included in the signals transmitted from the plurality of indoor devices;
The input unit,
A plurality of indoor device input units respectively corresponding to any one of the plurality of indoor devices is provided;
A communication signal is transmitted from any one of a plurality of indoor devices to the communication unit according to the indoor device input unit,
The control unit is
Transmitting a predetermined control command to the indoor device to which the communication signal is transmitted at the communication rate of the communication signal analyzed by the communication rate analysis unit,
Analyze the information received from the plurality of indoor devices with the communication length determined by the communication length analysis unit,
The air conditioning system according to claim 1, wherein the signal transmitted from the indoor device to which the communication signal is transmitted is calculated by the communication length of the communication signal analyzed by the communication length analysis unit. 10. The method of claim 9,
The air conditioning system according to claim 1, wherein the wired remote controller further includes a memory unit for storing a set communication rate, which is a communication rate at which the communication unit and the plurality of indoor devices transmit/receive predetermined information. 11. The method of claim 10,
The control unit compares the communication rate determined by the communication rate analysis unit and the set communication rate stored in the memory unit and does not match,
The air conditioning system according to claim 1, wherein the set communication rate is changed to the communication rate determined by the communication rate analysis unit and stored in the memory unit. delete delete delete delete

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