KR102205162B1 - Air-conditioning System and method - Google Patents

Abstract

The present invention relates to an air conditioner system and a method of operating the same, which can be managed and controlled in a centralized manner by forming a mutual network when a plurality of air conditioner units are distributed in a plurality of locations. By communicating wirelessly between the installed air conditioner units, data of other air conditioner units are collected and transmitted to the central remote controller, so that a plurality of air conditioners can be integrated and managed regardless of the location installed at the remote controller. There is an effect of improving convenience and improving management and control efficiency.

Description

Air-conditioning system and method of operation {Air-conditioning System and method}

The present invention relates to an air conditioner system and a method of operating the same, and more particularly, to an air conditioner system and a method of operating the air conditioner system for centrally integrated control by interconnecting a plurality of air conditioner units.

The air conditioner is installed to provide a more comfortable indoor environment to humans by discharging cold and hot air into the room to create a pleasant indoor environment, adjusting the indoor temperature, and purifying the indoor air. In general, an air conditioner includes an indoor unit configured as a heat exchanger and installed indoors, and an outdoor unit configured with a compressor and a heat exchanger to supply refrigerant to the indoor unit.

The air conditioner is controlled separately from an indoor unit composed of a heat exchanger and an outdoor unit composed of a compressor and a heat exchanger, and is operated by controlling power supplied to the compressor or heat exchanger. In addition, the air conditioner may be connected to at least one indoor unit to the outdoor unit, and is operated in a cooling or heating mode by supplying a refrigerant to the indoor unit according to a requested operation state.

The air conditioner is operated for cooling or heating according to the flow of the refrigerant.In cooling operation, when a high-temperature, high-pressure liquid refrigerant is supplied to the indoor unit through the heat exchanger of the outdoor unit from the compressor of the outdoor unit, the refrigerant is expanded and evaporated in the indoor unit. As the temperature of the air decreases and the indoor fan rotates, cool air is discharged into the room.When a high-temperature and high-pressure gas refrigerant is supplied to the indoor unit from the outdoor unit's compressor during heating operation, the high-temperature, high-pressure gas refrigerant is liquefied in the heat exchanger of the indoor unit. Air warmed by the released energy is discharged into the room according to the operation of the indoor fan.

When the air conditioner is provided with a plurality of outdoor units and is interconnected, particularly when connecting air conditioner units installed in different buildings to each other, there is a difficulty in that a communication line must be buried in advance. In particular, since outdoor units are often located on the upper floors of buildings, the length of the communication line is substantially longer, making it difficult to determine the network of the air conditioner. In addition, when each network is formed, there is a limit to management because it cannot be controlled by being integrated with each other.

Republic of Korea Patent Publication 10-2011-0057484

An object of the present invention relates to an air conditioner system capable of managing and controlling a plurality of air conditioner units in a centralized manner by forming a mutual network when a plurality of air conditioner units are dispersed in a plurality of locations, and an operating method thereof.

An air conditioner system according to the present invention includes a plurality of indoor units; A plurality of outdoor units; And a remote controller configured to monitor and control the plurality of indoor units and the plurality of outdoor units by integrating, and wherein the plurality of outdoor units includes at least two communication modules to collect data of the indoor unit and other outdoor units, and A first outdoor unit that transmits to a controller and transmits a control command of the remote controller; And a second outdoor unit for performing wireless communication with the first outdoor unit, transmitting data to the first outdoor unit, and receiving and executing a control command of the remote controller from the first outdoor unit.

In addition, the operating method of the air conditioner system of the present invention includes the steps of: receiving data from the second outdoor unit through wireless communication by the first outdoor unit; Converting the data received from the second outdoor unit by the first outdoor unit and transmitting the converted data to a remote controller connected through a communication line; Transmitting, by the first outdoor unit, a control command received from the remote controller to a third outdoor unit connected through a communication line; And converting the control command by the first outdoor unit and transmitting the converted control command to the second outdoor unit through wireless communication.

The air conditioner system and its operation method according to the present invention configured as described above are wirelessly communicated with each other between air conditioner units installed at a plurality of locations, thereby collecting data of other air conditioner units and a central remote controller. By transmitting to the remote controller, it is possible to integrate and manage a plurality of air conditioners regardless of the location installed in the remote controller, thereby improving convenience and improving the efficiency of management and control.

1 is a diagram showing the configuration of an air conditioner system according to the present invention.
2 is a block diagram showing the configuration of an air conditioner unit according to the present invention.
3 is a diagram illustrating a data flow between air conditioner units according to the present invention.
4 is a flowchart illustrating a method of operating an air conditioner according to the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and are common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings.

1 is a diagram showing the configuration of an air conditioner system according to the present invention.

1, the air conditioner system includes a plurality of outdoor units (20, 21 to 24), a plurality of indoor units (30, 31 to 29), remote controllers (40, 41, 43, 46, 48), and a remote controller ( 10).

In addition, the air conditioner may further include units such as a ventilation unit, an air cleaning unit, a humidifying unit, a dehumidifying unit, and a heater, as well as an outdoor unit and an indoor unit, but a description thereof will be omitted below.

In the air conditioner, the outdoor unit 20 and the indoor unit 30 are connected through a refrigerant pipe to discharge cold and hot air from the indoor unit into the room according to the circulation of the refrigerant. In this case, the indoor unit 30 may be connected to the outdoor unit 20 in plural, and the number is not limited to the drawing. In addition, a plurality of indoor units and outdoor units are connected through a communication line to transmit and receive control commands according to a predetermined communication method.

The indoor unit 30 allows an expansion valve (not shown) to expand the refrigerant supplied from the connected outdoor unit 20, an indoor heat exchanger (not shown) for heat exchange of the refrigerant, and allows indoor air to flow into the indoor heat exchanger. An indoor unit fan (not shown) to be exposed to the room, a plurality of sensors (not shown), and a control means (not shown) for controlling the operation of the indoor unit. The indoor unit 30 includes a discharge port (not shown) for discharging heat-exchanged air, and a wind direction control means (not shown) for opening and closing the discharge port and controlling the direction of discharged air is provided at the discharge port. The indoor unit adjusts the air volume by controlling the intake air and the discharged air by controlling the rotation speed of the indoor unit fan. In addition, the indoor unit may further include a human body detecting means for detecting a human body existing in the indoor space in some cases. In addition, the indoor unit 30 may further include an output unit for displaying the operation state and setting information of the indoor unit and an input unit for inputting setting data.

The indoor unit 30 is connected to the remote control 40 by a wired or wireless method, an operation is set according to data input from the remote control, and a driving state is displayed through the remote control.

The remote control 40 may be provided in each of the indoor units, or one remote control may be connected to a plurality of indoor units. When one remote control is connected to a plurality of indoor units, the plurality of indoor units are connected through a communication line, so that a remote control input is transmitted to each of the plurality of indoor units, so that the plurality of indoor units can operate in the same manner according to a control command input from the remote control. In some cases, an indoor unit connected to the remote control may operate as a master indoor unit and transmit a control command of the remote control to a plurality of indoor units.

The outdoor unit 20 operates in a cooling mode or a heating mode in response to a request from the connected indoor unit 30 or a control command from the remote controller 10, and supplies refrigerant to a plurality of indoor units.

The outdoor unit 20 is at least one compressor (not shown) that compresses the incoming refrigerant to discharge a high-pressure gaseous refrigerant, and separates the gaseous refrigerant and the liquid refrigerant from the refrigerant to prevent the non-vaporized liquid refrigerant from flowing into the compressor. An accumulator (not shown), an oil separator (not shown) that recovers oil from the refrigerant discharged from the compressor, an outdoor heat exchanger (not shown) that condenses or evaporates the refrigerant by heat exchange with outside air, and heat exchange between the outdoor heat exchanger. To make it more smooth, an outdoor fan (not shown) that introduces air into the outdoor heat exchanger and discharges the heat-exchanged air to the outside, a four-way valve (not shown) that changes the flow path of the refrigerant according to the operation mode of the outdoor unit, and measures pressure. At least one pressure sensor (not shown), at least one temperature sensor (not shown) that measures temperature, and a control configuration that controls the operation of the outdoor unit and communicates with other units. The outdoor unit further includes a number of other sensors, valves, and supercooling devices, but a description thereof will be omitted below.

The remote controller 10 monitors the operation state of each air conditioner unit in response to data received by being connected to the plurality of outdoor units 20 and the plurality of indoor units 30, and controls a plurality of air conditioners according to the input control command. This unit or a specific air conditioner unit is controlled to operate according to a control command.

The remote controller 10 may be provided in plural, and may be connected through a network. At this time, the second remote controller (not shown) connects to the remote controller 10, receives and displays data on the air conditioner unit after authentication, and transmits the input data to the remote controller 10 so that the control command is transmitted. I can. At this time, the remote controller 10 may operate as a server for the second remote controller.

The remote controller 10 stores information on a plurality of received air conditioner units, respectively, and stores information on an indoor unit connected to each outdoor unit, and information on a location where the outdoor unit and the indoor unit are installed.

In addition, the remote controller 10 forms an air conditioner network, allocates addresses to each air conditioner unit, and controls its operation based on the assigned address.

At this time, the plurality of outdoor units are connected to each other by wire or wirelessly to transmit and receive data, and the first outdoor unit 21 connected to the remote controller 10 is set as a master outdoor unit, and the third and fourth outdoor units 23 and 24 Data is transmitted to the remote controller 10. Of course, data of the second outdoor unit 22 may also be transmitted to the remote controller 10 through the first outdoor unit 21.

However, when the second outdoor unit 22 is directly connected to the remote controller 10 by wire, data can be transmitted to the remote controller 10 regardless of the first outdoor unit 21. In addition, when the second outdoor unit 22 is connected to another outdoor unit (not shown) through wireless communication, the second outdoor unit 22 may also wirelessly receive data from the other outdoor unit and transmit the data to the remote controller 10.

2 is a block diagram showing the configuration of an air conditioner unit according to the present invention. 2 illustrates the configuration of the air conditioner unit according to the present invention, which can be applied to an air conditioner unit including an outdoor unit or an indoor unit, and describes a configuration commonly provided with respect to a plurality of units. Hereinafter, the outdoor unit will be described as an example.

The outdoor unit 20 includes a driving control unit 170, a sensing unit 160, an input unit 140, an output unit 150, a data unit 120, a communication unit 130, and a control unit 110 that controls the overall operation of the unit. ).

The communication unit 130 includes a plurality of communication modules, transmits and receives data to an outdoor unit or other outdoor unit by wire or wirelessly, and communicates with the remote controller 10. In this case, the communication unit 130 may have different communication targets according to the connection position of the outdoor unit.

The communication unit 130 transmits not only data on the operation state of the outdoor unit, but also data received from the indoor unit 30 to the remote controller 10. In addition, the communication unit 130 transmits data received from another outdoor unit to the remote controller 10. In addition, the communication unit 130 may transmit data received from the remote controller 10 to a plurality of indoor units and outdoor units, or may transmit the data to a specific indoor unit.

The communication unit 130 includes an air conditioner communication module 131 and a wireless communication module 132.

When transmitting and receiving data between the outdoor unit and the indoor period, the communication unit 130 transmits and receives data through the air conditioner communication module 131, and transmits and receives data through the wireless communication module 132 with another outdoor unit in a wireless communication method. At this time, the communication unit 130 communicates by wire or wirelessly according to the connection state of the outdoor period.

The wireless communication module 132 may be a Zigbee communication module. It is specified that the communication method may be applied to a different communication method depending on the distance of the outdoor period or the position of an obstacle, and is not limited thereto.

For example, the first outdoor unit 21 is connected to the second outdoor unit 22 through a communication line, transmits and receives data through the communication line, and transmits and receives data with the third outdoor unit 23 through a wireless communication method. At this time, the first outdoor unit 21 transmits the received data to the remote controller 10. In some cases, the second outdoor unit 22 may transmit data to the first outdoor unit 21 or may directly transmit data to the remote controller 10 according to a connection method thereof.

The drive control unit 170 controls the operation of the unit according to a control command from the control unit 110. The configuration of the driving control unit 170 may be different depending on the type of unit. The outdoor unit 20 controls operations of a compressor, a valve, and an outdoor unit fan by the driving control unit 170, and in this case, a compressor driving control unit, a valve driving control unit, and a fan driving control unit may be provided, respectively.

The sensing unit 160 includes a plurality of sensors measuring temperature, pressure, rotational speed, voltage, and current. The sensing unit 160 measures the internal and external temperature of the outdoor unit, the temperature and pressure of the refrigerant pipe, the voltage and current supplied to the compressor or motor through a plurality of sensors, and measures the rotational speed of the fan to the controller 110. Enter.

The input unit 140 is provided with at least one button or a predetermined input means such as a touch pad, and inputs a predetermined signal to the control unit 110 as the input means is operated. For example, the outdoor unit 20 may be provided with a switch for power, address assignment, and master outdoor unit setting as the input unit 140.

The output unit 150 includes predetermined display means for outputting numbers, characters, special characters, or images. In addition to the display means, the output unit may include a buzzer or speaker that outputs a predetermined sound effect or warning sound, and a lamp that is lit or flashes to output an operating state, a connection state with each device, or a warning.

The output unit 150 outputs a user command input through the input unit 140 on a screen, or displays a predetermined screen corresponding to the input user command, so that the operation setting of the air conditioner, operation status, or abnormality Display information about.

The data unit 120 stores basic data for the unit, control data for controlling the operation of the unit, input/output data, and data received through the communication unit 130. In addition, authentication data for performing authentication between air conditioner units or external terminals during communication is stored.

The control unit 110 processes data input and output through the input unit 140 and the output unit 150, stores data in the data unit 120, and transmits/receives data between units through the communication unit 130, the remote controller 10 It controls data transmission/reception with

The control unit 110 stores the control settings received from the indoor unit 30 or the remote controller 10, controls the driving control unit 170 to operate according to the received control settings, and controls a predetermined number from an external terminal or other unit. When data is requested, a predetermined authentication procedure is performed, and then the requested data is controlled to be transmitted through the communication unit 130.

In addition, the controller 110 may transmit/receive data through the wireless communication module 132 or transmit/receive data through the air conditioner communication module 131 in response to the connection state of each outdoor unit among the plurality of outdoor units. 130).

3 is a diagram illustrating a data flow between air conditioner units according to the present invention.

Referring to FIG. 3, the remote controller 10 may be connected to the first outdoor unit 21 through a communication line to transmit and receive data (S1). At this time, since the remote controller 10 communicates with the first outdoor unit 21 that is the master outdoor unit, control commands for the plurality of indoor units 30 or the plurality of outdoor units 20 are also transmitted through the first outdoor unit 21. . Further, the remote controller 10 transmits control commands for the plurality of indoor units 30 and the plurality of outdoor units 20 through the first outdoor unit 21.

In some cases, when the second outdoor unit 22 is connected to the remote controller 10 by a communication line as shown in FIG. 1 described above, the remote controller 10 transmits and receives data to and from the first and second outdoor units 21 and 22. Is done. At this time, the second outdoor unit 22 may directly receive a control command from the remote controller 10.

Hereinafter, transmission and reception of data through the first outdoor unit 21 will be described. In addition, it is specified that only some indoor units are displayed among a plurality of indoor units for explaining communication between units.

The first outdoor unit 21 is connected to the first indoor unit 31 through a communication line to transmit and receive data (S3). Of course, the first outdoor unit 21 communicates with the second indoor unit 32 as well.

The first indoor unit 31 is connected to the first remote control 41 to receive data from the first remote control 41 and transmit the indoor unit data (S4). At this time, when the first indoor unit 31 is set as a master indoor unit and is connected to the second indoor unit 32 by a communication line, the first indoor unit 31 may transmit data of the first remote control to the second indoor unit 32.

In addition, the first outdoor unit 21 is connected to the second outdoor unit 22 through a communication line, transmits data of the remote controller 10 to the second outdoor unit, and receives data of the second outdoor unit (S2).

At this time, the second outdoor unit 22 is connected to a plurality of indoor units including the third indoor unit 33 to receive data of the indoor unit and transmit a control command of the remote controller (S5). The second outdoor unit 22 transmits data of not only the second outdoor unit 22 but also a plurality of indoor units connected to the second outdoor unit, for example, the third indoor unit 33 to the first outdoor unit (S5).

The third indoor unit 33 is connected to the second remote control 43 to transmit operation state data, and may also receive data from the second remote control to change the operation (S6).

Meanwhile, the first outdoor unit 21 performs wireless communication with the third outdoor unit 23 (S10).

For example, when the first outdoor unit 21 and the third outdoor unit 23 are located in different buildings, mutual data is transmitted and received through the wireless communication module 132 without a separate communication line. At this time, the wireless communication method may be different depending on the distance between the first outdoor unit 21 and the third outdoor unit 23, but communication may be performed using, for example, Zigbee.

The third outdoor unit 23 is connected to and communicates with a plurality of indoor units including the sixth indoor unit 36 (S12). The third outdoor unit 23 transmits indoor unit data received from a plurality of indoor units and data of the third outdoor unit to the first outdoor unit 21 in a wireless communication method.

At this time, the third outdoor unit 23 communicates by being connected to the fourth outdoor unit 24 through a communication line (S11). Accordingly, the third outdoor unit 23 receives data of a plurality of indoor units connected to the fourth outdoor unit 24 and the fourth outdoor unit, for example, the eighth indoor unit 38 from the fourth outdoor unit 24, and the first outdoor unit ( 21), and transmits data received from the first outdoor unit to the fourth outdoor unit.

The fourth outdoor unit 24 transmits the received data to a plurality of connected indoor units, and each indoor unit operates accordingly (S14). The eighth indoor unit 38 transmits the driving state to the connected fourth remote control 44 (S15), and the fourth remote control 44 displays data of the indoor unit. Also, the fourth remote control transmits the input data to the eighth indoor unit 38.

4 is a flowchart illustrating a method of operating an air conditioner according to the present invention. In particular, an operation method thereof will be described centering on the first outdoor unit 21.

Referring to FIG. 4, while the first outdoor unit 21 is driving (S310), data is received from an indoor unit or another outdoor unit connected by a communication line (S320). At this time, the operation state data may be repeatedly transmitted according to a predetermined period, and data may be transmitted when there is a separate request.

For example, data on the operation state of the indoor unit is transmitted from the first and second indoor units 31 and 32 to the first outdoor unit 21, and from the second outdoor unit 22 to the second outdoor unit 22 and the second outdoor unit. Data of a plurality of connected indoor units, that is, the third to fifth indoor units 33 to 35, is received by the first outdoor unit 21.

The first outdoor unit 21 transmits the received data to the remote controller 10 (S330).

At this time, the second outdoor unit 22 transmits data to the first outdoor unit 21 according to the connection state of the communication line or separately directly transmits data to the remote controller 10, and receives a control command from the remote controller 10. can do.

Meanwhile, when data is received from the remote controller 10 (S340), the first outdoor unit 21 transmits the data to the indoor unit and the second outdoor unit connected by a communication line (S350).

In addition, the first outdoor unit 21 converts data received from the remote controller 10 into wireless communication data (S360), and transmits the converted data to the third outdoor unit 23 through wireless communication (S370).

When data is received from the third outdoor unit 23 through wireless communication (S380), the first outdoor unit 21 converts the received data (S390). At this time, the third outdoor unit 23 transmits the data of the indoor unit connected to the third outdoor unit, as well as the data of the fourth outdoor unit received from the fourth outdoor unit 24 and the data of the indoor unit connected to the fourth outdoor unit, to the first outdoor unit 21 do.

The first outdoor unit 21 transmits data received from the third outdoor unit 23, that is, data of the third and fourth outdoor units and the indoor units to the remote controller 10 (S400).

Until the operation stop command is input (S410), the first outdoor unit 21 is connected to the third and third outdoor units 23 through wireless communication as well as the remote controller 10 and the indoor unit and the second outdoor unit 21. 4 Repeat sending and receiving data of the outdoor unit.

When the operation stop command is input, the first outdoor unit 21 transmits the operation stop command to the indoor unit and stops the operation (S420).

Accordingly, the present invention enables the remote controller 10 to receive data of a plurality of outdoor units and a plurality of indoor units through wireless communication in an adjacent outdoor period and transmit a control command, even if the remote controller 10 is not connected to a plurality of outdoor units and indoor units by a communication line. do.

The outdoor unit not only transmits and receives data by wire through a communication line, but also transmits and receives data to and from each other through wireless communication and transmits it to a remote controller, thereby interworking with each other, and integrated management and control by the remote controller.

Even if all the constituent elements constituting an embodiment of the present invention are described as being combined and operated as one, the present invention is not necessarily limited to this embodiment. As long as it is within the scope of the object of the present invention, depending on the embodiment, all components may be selectively combined into one or more to operate.

All components may be implemented as one independent hardware, but a computer having a program module that performs some or all functions combined in one or more hardware by selectively combining some or all of the components It can also be implemented as a program.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention.

10: remote controller 20, 21 to 24: outdoor unit
30, 31 to 39: indoor unit 40, 41, 43, 46, 48: remote control
110: control unit 120: data unit
130: communication unit 131: air conditioner communication module
132: wireless communication module

Claims (16)

A plurality of indoor units;
A plurality of outdoor units; And
A remote controller for monitoring and controlling the plurality of indoor units and the plurality of outdoor units by integrating,
The plurality of outdoor units,
Having at least two communication modules, transmits data of at least one connected indoor unit and data received from another outdoor unit among the plurality of outdoor units to the remote controller, operates according to a control command of the remote controller, and operates according to a control command of the remote controller. A first outdoor unit transmitted to the outdoor unit; And
A second outdoor unit connected to the first outdoor unit and the remote controller through a communication line;
The first outdoor unit is installed at a different location from the first outdoor unit, performs wireless communication with the first outdoor unit, transmits data to the first outdoor unit, and receives and executes a control command of the remote controller from the first outdoor unit. 3 outdoor unit; and
A fourth outdoor unit connected to the third outdoor unit through a communication line and performing wired communication with the third outdoor unit; and
The remote controller receives data on the third outdoor unit or the fourth outdoor unit, which are not connected by a communication line, through the first outdoor unit, monitors its operation, and transmits the control command through the first outdoor unit Air conditioner system characterized by. The method of claim 1,
The fourth outdoor unit transmits data of the connected indoor unit and the data of the fourth outdoor unit to the third outdoor unit, and receives and executes a control command of the remote controller from the third outdoor unit. system. The method of claim 1,
The third outdoor unit receives data of the fourth outdoor unit and data of an indoor unit connected to the fourth outdoor unit through a communication line, and transmits the data to the first outdoor unit through wireless communication,
And transmitting the control command received from the first outdoor unit to the fourth outdoor unit. The method of claim 1,
And the first outdoor unit receives data of the third outdoor unit, the fourth outdoor unit, and an indoor unit connected thereto from the third outdoor unit and transmits the data to the remote controller. The method of claim 1,
The third outdoor unit and the fourth outdoor unit are installed in the same building. delete The method of claim 1,
The first outdoor unit and the third outdoor unit are respectively installed in different buildings separated by a predetermined distance. The method of claim 1,
And the second outdoor unit transmits data of the indoor unit connected to the data of the second outdoor unit to the first outdoor unit through a communication line. The method of claim 1,
And the second outdoor unit transmits data of the indoor unit connected with the data of the second outdoor unit to the remote controller through a communication line, and operates according to a control command received from the remote controller. The method of claim 1,
The remote controller displays data of the first outdoor unit and the second outdoor unit on a screen, and receives data on the third outdoor unit and the fourth outdoor unit that are not connected by a communication line through the first outdoor unit and displays the data on the screen. Thus, the air conditioner system, characterized in that to monitor the operation of the first to the fourth outdoor unit. Communicating with the second outdoor unit through wired communication by the first outdoor unit;
Communicating the first outdoor unit to a third outdoor unit through wireless communication;
Converting the data received from the third outdoor unit by the first outdoor unit and transmitting the converted data to a remote controller connected through a communication line;
Monitoring, by the remote controller, operating states of a plurality of outdoor units based on the received data;
Transmitting, by the remote controller, a control command for the third outdoor unit or the fourth outdoor unit that is not connected to the communication line to the first outdoor unit;
Transmitting, by the first outdoor unit, a control command for the third outdoor unit, received from the remote controller, to the third outdoor unit through wireless communication; And
And transmitting a control command for the fourth outdoor unit, received from the remote controller, to the third outdoor unit through wireless communication by the first outdoor unit. The method of claim 11,
Receiving data from the fourth outdoor unit connected to the third outdoor unit through a communication line; And
When the third outdoor unit communicates with the first outdoor unit, transmitting data of the third outdoor unit and data received from the fourth outdoor unit to the first outdoor unit; operation of the air conditioner system further comprising Way. The method of claim 11,
Transmitting a control command for the fourth outdoor unit, received from the first outdoor unit, to the fourth outdoor unit through a communication line by the third outdoor unit; And
Operating the fourth outdoor unit according to the control command received from the third outdoor unit; the method of operating an air conditioner system further comprising. The method of claim 11,
Transmitting data to the first outdoor unit connected by the second outdoor unit through a communication line;
The method of operating an air conditioner system further comprising the step of transmitting the data received from the second outdoor unit to the remote controller by the first outdoor unit. The method of claim 11,
Transmitting, by the second outdoor unit, data to the remote controller; And
Operating method of an air conditioner system further comprising the step of receiving and operating a control command from the remote controller. The method of claim 11,
Receiving, by the remote controller, data on the third outdoor unit or the fourth outdoor unit from the first outdoor unit and displaying it on a screen; Operating method of the air conditioner system further comprising a.

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