KR20200116686A - Operating method of Air-conditioner - Google Patents

Abstract

According to an aspect of the present invention, an operation method of an air conditioner comprises the steps of: receiving, by one indoor unit, a control signal from any one of wired remote controls; and performing, by the indoor unit, a corresponding operation based on the control signal when the control priority level of the wired remote control is higher than the control priority level of the indoor unit. Accordingly, indoor units can be freely controlled by any one of the wired remote controls, and can operate without collision according to the priority level.

Description

Operating method of Air-conditioner

The present invention relates to an air conditioner and a method of operating the same, and more particularly, to an air conditioner capable of conveniently controlling units using a wired remote control installed corresponding to an indoor unit, and a method of operating the same.

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 comfortable indoor environment, adjusting the indoor temperature, and purifying the indoor air. In general, an air conditioner includes an indoor unit configured with 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 separated and controlled by an indoor unit composed of a heat exchanger and an outdoor unit composed of a compressor and heat exchanger, and the outdoor unit and indoor unit are connected by a refrigerant pipe, and the refrigerant compressed from the compressor of the outdoor unit is supplied to the heat exchanger of the indoor unit through the refrigerant pipe. Then, the refrigerant heat-exchanged in the heat exchanger of the indoor unit is again introduced into the compressor of the outdoor unit through a refrigerant pipe. Accordingly, the indoor unit discharges hot and cold air into the room through heat exchange using a refrigerant.

Units such as outdoor units and indoor units in the air conditioner are interconnected in units of buildings or small groups to transmit and receive data, and monitor and control the state of each unit through the transmitted and received data.

In general, the indoor unit is configured to transmit data to the outdoor unit, and the outdoor unit to receive data from the indoor unit and transmit the data of the indoor unit to the central controller.

Meanwhile, a wired remote control is connected to each indoor unit, and a user can control a specific indoor unit by operating the wired remote control.

For example, the prior art (Korean Patent Laid-Open Publication No. 10-2008-0094278, publication date October 23, 2008) includes a button unit indicating the operation of the air conditioner, and a display indicating the operation state of the air conditioner. A wired remote control for an air conditioner including a rotary switch for setting the reserved operation time of the unit and the air conditioner is proposed.

In the case of such a conventional wired remote control, since it is limited to monitoring and controlling the state of a connected indoor unit, there is a limitation in the expandability of functions because the wired remote control cannot be a communication subject to a single unit.

An object of the present invention is to provide a way to freely control not only units directly connected with a wired remote control, but also units that are not.

An object of the present invention is to provide an air conditioner capable of improving convenience in use and a method of operating the same by monitoring and controlling the states of units with any one wired remote control.

An object of the present invention is to provide a method for solving a collision problem that may occur when units are freely controlled by any one wired remote controller.

An object of the present invention is to provide an air conditioner having a communication structure having advantages in terms of low cost, communication performance and expandability, and an operating method thereof.

In order to achieve the above or other objects, the air conditioner and its operation method according to an aspect of the present invention include indoor unit units and wired remote controllers, and freely control the indoor unit units with one of the wired remote controllers. I can.

In order to achieve the above or other objects, an air conditioner and a method of operation thereof according to an aspect of the present invention include various signals by communicating with indoor units other than the indoor units directly connected to wired remote controllers through a signal according to a TLV (Type Length Value) protocol. Can transmit and receive effectively.

In order to achieve the above or other objects, the air conditioner and its operation method according to an aspect of the present invention can solve a collision problem with other controllers and wired remote controllers by setting a control priority level in the wired remote controller.

In order to achieve the above or other objects, the air conditioner and its operation method according to an aspect of the present invention can solve a collision problem with other controllers and wired remote controllers by setting a control priority level to the wired remote control and the indoor unit. have.

In order to achieve the above or other objects, a method of operating an air conditioner according to an aspect of the present invention provides a setting input for a control priority level of the wired remote control through any one wired remote control in a control priority level setting process. Receiving, transmitting the received information on the control priority level of the wired remote control to the indoor unit connected to the wired remote control, and the indoor unit storing information on the control priority level of the wired remote control It may include the step of.

In addition, in order to achieve the above or another object, a method of operating an air conditioner according to an aspect of the present invention includes receiving a setting input for a control priority level of the indoor unit through the wired remote controller, and the received The method may further include transmitting information on the control priority level of the indoor unit to the indoor unit, and storing information on the control priority level of the indoor unit by the indoor unit.

In order to achieve the above or other objects, a method of operating an air conditioner according to an aspect of the present invention is, in a control process after setting a control priority level, any one indoor unit is connected to one of the wired remote controllers. Receiving a control signal, comparing, by the indoor unit, a control priority level of the wired remote control with a control priority level of the indoor unit, and the control priority level of the wired remote control has priority to control the indoor unit. When higher than the priority level, by including the step of the indoor unit to perform a corresponding operation based on the control signal, the indoor unit can be freely controlled by any one of the wired remote controllers, and the priority level is Therefore, it can operate without collision.

When the control priority level of the wired remote control is not higher than the control priority level of the indoor unit, by ignoring the control signal, there may be no state change according to a control signal received from a wired remote control having a lower control priority level. .

When the control priority level of the wired remote controller is not higher than the control priority level of the indoor unit, information on the control level comparison result may be output to inform the user of the reason for not performing the operation and the current state. .

In order to achieve the above or other objects, a method of operating an air conditioner according to an aspect of the present invention, when a control priority level of the indoor unit is greater than a minimum level, performs the control priority level comparison step, and the When the control priority level of the indoor unit is the minimum level, the step of comparing the control priority level may be omitted, and the indoor unit may immediately perform a corresponding operation based on the control signal.

In order to achieve the above or other objects, a method of operating an air conditioner according to an aspect of the present invention includes whether the control signal is a local control received from a directly connected wired remote control or the control signal is received from a wired remote control that is not directly connected. It may further include the step of determining whether or not the remote control.

When it is determined by the remote control, if the control priority level of the wired remote control is higher than the control priority level of the indoor unit, it is possible to determine whether to set a controller lock of a higher priority level, and the further If there is no controller lock setting of a high priority level, an operation corresponding to the control signal is performed, otherwise the control signal may be ignored.

Meanwhile, the control priority level is a minimum level, a first level having higher priority than the minimum level, a second level having higher priority than units other than the central controller, and a third level having higher priority than the central controller. It may include.

According to at least one of the embodiments of the present invention, not only units directly connected by a wired remote control but also units not directly connected can be freely controlled, thereby improving usability.

In addition, according to at least one of the embodiments of the present invention, by monitoring and controlling the states of the units with any one wired remote control, it is possible to improve convenience in use.

In addition, it is possible to solve a collision problem that may occur when units are freely controlled by any one wired remote control.

In addition, according to at least one of the embodiments of the present invention, a communication structure having advantages in terms of communication performance and scalability can be implemented at low cost.

Meanwhile, other various effects will be directly or implicitly disclosed in the detailed description according to the embodiments of the present invention to be described later.

1 is a diagram illustrating a configuration of an air conditioner according to an embodiment of the present invention.
2 is a schematic diagram of the outdoor unit and the indoor unit of FIG. 1.
3 is a diagram illustrating a communication structure of an air conditioner according to an embodiment of the present invention.
4 and 5 are diagrams illustrating a data structure used for communication between units in an air conditioner according to an embodiment of the present invention.
6 is a block diagram schematically illustrating a control configuration of a wired remote controller according to an embodiment of the present invention.
7 is a flowchart illustrating a method of operating an air conditioner according to an embodiment of the present invention.
8 is a view referred to for description related to a method of operating an air conditioner according to an embodiment of the present invention.
9 is a flowchart illustrating a method of operating an air conditioner according to an embodiment of the present invention.
10 is a flow chart illustrating a method of operating an air conditioner according to an embodiment of the present invention.
11 is a flowchart illustrating a method of operating an air conditioner according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, it goes without saying that the present invention is not limited to these embodiments and may be modified in various forms.

Meanwhile, the suffixes "module" and "unit" for the constituent elements used in the following description are given in consideration of only ease of writing in the present specification, and do not impart a particularly important meaning or role by themselves. Therefore, the "module" and "unit" may be used interchangeably with each other.

In addition, in this specification, terms such as first and second may be used to describe various elements, but these elements are not limited by these terms. These terms are only used to distinguish one element from another.

1 is a diagram illustrating a configuration of an air conditioner according to an embodiment of the present invention.

Referring to FIG. 1, the air conditioner 50 according to an embodiment of the present invention may include a plurality of units. For example, the air conditioner 50 according to an embodiment of the present invention includes indoor units 31 to 35, outdoor units 21 and 22 connected to the indoor units 31 to 35, and indoor units 31 To 35) may include remote controllers 41 to 45 connected to each. In addition, the air conditioner 50 according to an embodiment of the present invention may further include a central controller 10 that controls a plurality of indoor units 31 to 35 and outdoor units 21 and 22.

The central controller 10 is connected to a plurality of indoor units 31 to 36 and a plurality of outdoor units 21 and 22 to monitor and control the operation thereof. At this time, the central controller 10 may be connected to a plurality of indoor units to perform operation setting, lock setting, schedule control, group control, and the like for the indoor unit.

The air conditioner may be any of a stand type air conditioner, a wall-mounted type air conditioner, and a ceiling type air conditioner, but for convenience of explanation, a ceiling type air conditioner is described as an example. In addition, the air conditioner may further include at least one of a ventilation device, an air purifier, a humidifier, and a heater, and may operate in conjunction with the operation of the indoor unit and the outdoor unit.

The outdoor units 21 and 22 include a compressor (not shown) that receives and compresses a refrigerant, an outdoor heat exchanger (not shown) that heats the refrigerant with outdoor air, and an accumulator that extracts gaseous refrigerant from the supplied refrigerant and supplies it to the compressor. It includes (not shown) and a four-way valve (not shown) for selecting a flow path of the refrigerant according to the heating operation. In addition, it may further include a plurality of sensors, valves and oil recoverers.

The outdoor units 21 and 22 operate a compressor and an outdoor heat exchanger provided to compress or heat exchange the refrigerant according to a setting to supply the refrigerant to the indoor units 31 to 35.

The outdoor units 21 and 22 are driven by the request of the central controller 10 or the indoor units 31 to 35, and the number of operation of the outdoor units and the number of compressors installed in the outdoor unit are The number of operations is variable.

At this time, the outdoor units 21 and 22 are described on the basis of supplying a refrigerant to a plurality of outdoor units, respectively connected indoor units, but a plurality of outdoor units are interconnected to each other according to the connection structure of the outdoor unit and the indoor unit. You can also supply.

The indoor units 31 to 35 are connected to any one of the plurality of outdoor units 21 and 22 to receive a refrigerant and discharge hot and cold air into the room. The indoor units 31 to 35 include an indoor heat exchanger (not shown), an indoor unit fan (not shown), an expansion valve (not shown) through which the supplied refrigerant is expanded, and a plurality of sensors (not shown).

At this time, the outdoor units 21 and 22 and the indoor units 31 to 35 are connected by a communication line to transmit and receive data, and the outdoor unit and the indoor unit are connected to the central controller 10 by a separate communication line to control the central controller 10. It works accordingly.

The remote controllers 41 to 45 are respectively connected to the indoor unit, input a user's control command to the indoor unit, and receive and display status information of the indoor unit. In this case, the remote control communicates by wire or wirelessly depending on the connection type with the indoor unit, and in some cases, one remote control is connected to the plurality of indoor units, and settings of the plurality of indoor units may be changed through one remote control input.

Meanwhile, according to an embodiment, the remote controllers 41 to 45 may include various sensors such as a temperature sensor therein.

2 is a schematic diagram of the outdoor unit and the indoor unit of FIG. 1.

Referring to FIG. 2, the air conditioner 50 is largely divided into an indoor unit 31 and an outdoor unit 21.

The indoor unit 31 includes an indoor heat exchanger 108 disposed indoors to perform a cooling/heating function, and an indoor fan 109a disposed at one side of the indoor heat exchanger 108 to promote heat dissipation of a refrigerant. And an indoor blower 109 composed of an electric motor 109b that rotates the fan 109a.

At least one indoor heat exchanger 108 may be installed. At least one of an inverter compressor and a constant speed compressor may be used as the compressor 102.

In addition, the air conditioner 50 may be composed of a cooler that cools the room, and may be configured with a heat pump that cools or heats the room.

The outdoor unit 21 includes a compressor 102 that compresses a refrigerant, a compressor motor 102b that drives the compressor, an outdoor heat exchanger 104 that dissipates the compressed refrigerant, and an outdoor unit. An outdoor blower 105 composed of an outdoor fan 105a which is disposed on one side of the heat exchanger 104 to promote heat dissipation of the refrigerant and an electric motor 105b that rotates the outdoor fan 105a, and expansion to expand the condensed refrigerant A mechanism 106, a cooling/heating switching valve 110 that changes the flow path of the compressed refrigerant, and an accumulator 103 that temporarily stores the gasified refrigerant to remove moisture and foreign substances, and then supplies a refrigerant having a constant pressure to the compressor. And the like.

Meanwhile, in FIG. 2, one indoor unit 31 and one outdoor unit 21 are shown, but the driving device of the air conditioner according to the embodiment of the present invention is not limited thereto, and a multi-type unit including a plurality of indoor units and outdoor units Of course, it can be applied to an air conditioner, an air conditioner having one indoor unit and a plurality of outdoor units.

3 is a diagram illustrating a communication structure of an air conditioner according to an embodiment of the present invention.

The air conditioner according to an embodiment of the present invention may include at least one outdoor unit and a plurality of indoor units connected to the outdoor unit through a refrigerant pipe, and a plurality of wired remote controllers respectively connected to the plurality of indoor units. In addition, the outdoor unit and the indoor unit may be connected through a wired communication line.

Referring to the example illustrated in FIG. 3, the first outdoor unit 23a may communicate with each other by being connected to a plurality of indoor units 36a, 37a, and 38a through a wired communication line 1.

According to an embodiment, the first outdoor unit 23a and the first to third indoor units 36a, 37a, and 38a may be connected through a wired serial communication line 1.

Meanwhile, the air conditioner according to an embodiment of the present invention may include a plurality of wired remote controllers 46a, 47, and 48 that are wired to each corresponding individual indoor unit among the plurality of indoor units 36a, 37a, and 38a. have.

For example, a first wired remote control 46a is connected to the first indoor unit 36a, a second wired remote control 47 is connected to the second indoor unit 37a, and a third wired remote control unit is connected to the third indoor unit 38a. A remote control 48 may be connected.

The plurality of wired remote controllers 46a, 47, and 48 may control the connected indoor units by transmitting a predetermined signal to the connected indoor units 36a, 37a, 38a, respectively. In addition, the plurality of wired remote controllers 46a, 47, and 48 may receive status information from the connected indoor units 36a, 37a, and 38a, respectively.

3 shows an example in which all the indoor units 36a, 37a, 38a are connected to the wired remote controllers 46a, 47, and 48, but as described with reference to FIG. 1, some indoor units may be configured to be controlled by a wireless remote controller. have.

Meanwhile, the outdoor unit 23a and the plurality of indoor units 36a, 37a, 38a may each include communication units 23b, 36b, 37b, and 38b, or may be connected to communication units 23b, 36b, 37b, and 38b. . The communication units 23b, 36b, 37b, and 38b may be built into each unit or installed outside the unit.

Meanwhile, the outdoor unit 23a and the plurality of indoor units 36a, 37a, and 38a may include communication units 23b, 36b, 37b, and 38b each using an RS-485 communication standard. In this case, the communication units 23b, 36b, 37b, and 38b may include a communication module supporting the RS-485 communication standard or may be a 485 modem.

Meanwhile, the communication units 23b, 36b, 37b, and 38b may transmit and receive data packets according to the RS-485 communication standard. For example, the communication unit 23b of the outdoor unit 23a transmits the generated data packet according to the RS-485 communication standard according to the control of the control unit (not shown) of the outdoor unit 23a. It can be transmitted to the communication unit 36b of (36a). In addition, the communication unit 36b of the first indoor unit 36a may process the received data packet and transmit it to a control unit (not shown) of the first indoor unit 36a.

The RS-485 communication standard is a serial communication protocol standard standard that supports a home network, and a plurality of transmission/reception nodes may be connected to one serial communication line 1. In this case, the plurality of transmission/reception nodes may perform multi-party data transmission and reception on the same communication line.

The outdoor unit (23a) and the plurality of indoor units (36a, 37a, 38a) can transmit and receive data to and from each other through RS-485 communication, and the outdoor unit (23a) includes the plurality of indoor units (36a, 37a, 38a). ) Can be monitored. In addition, the outdoor unit 23a and the plurality of indoor units 36a, 37a, 38a may transmit and receive control signals with each other.

Conventional air conditioners transmit and receive data at a fixed communication speed and data structure. However, when the amount of data increases, there are limitations in scalability and compatibility problems. In addition, there is a problem in that response time is delayed and network efficiency is deteriorated due to a fixed speed and data structure.

For example, conventional air conditioners generally use only the RS-485 protocol format configured based on pages of a fixed size. For example, the wired remote controller used a protocol having a fixed size of 13 bytes with the connected indoor unit.

In the case of communication using a protocol of such a fixed size, at the present time when functions become complex and diversified, it is difficult to add or expand new functions and communication speed is delayed. In particular, it was difficult to expand the wired remote control other than the (Local) area communication with the connected individual indoor unit.

Accordingly, in the present invention, the wired remote controller can use a signal according to a type length value (TLV) protocol in which the data size is variable in communication with other units.

For example, among the plurality of wired remote controllers 46a, 47, and 48, the first wired remote controller 46a includes indoor units other than the corresponding first indoor unit 36a among the plurality of indoor units 36a, 37a, and 38a. Signals according to the TLV (Type Length Value) protocol can be transmitted and received through the (37a, 38a) and the serial communication line (1).

Also, as in the past, the first wired remote controller 46a may perform local area communication with the corresponding first indoor unit 36a. Even in this case, the first wired remote controller 46a and the first indoor unit 36a may transmit and receive signals having a data structure according to a Type Length Value (TLV) protocol.

4 and 5 are diagrams illustrating a data structure used for communication between units in an air conditioner according to an embodiment of the present invention.

Referring to FIG. 4, units such as a wired remote control use a data link layer method, which is a second layer of the OSI hierarchical structure, and data packets used during communication include an address data area and message data. ) Area and a Cyclic Redundancy Check (CRC) area (CRC16) for error detection. For example, the CRC for error detection can be processed as 16-Bit. The CRC checksum is used for error detection, but this is not limited and other error detection methods may be used.

The address data area is composed of an address length including address length information and an address including a source address and a destination address.

The message data area is composed of an application ID (Application ID), a message type, a sequence number (Sequence no.), a data length (Data Length), and data (Data).

In this case, the data may have a data structure according to a type length value (TLV) protocol. The TLV protocol is a communication standard that concisely and efficiently expresses complex data in three structured field elements, namely, type, length, and value.

For example, the data may be composed of a type field, a length field, and a value field.

In addition, the data may have a size of 0 to 255 bytes, the size of the data value may be variable, and the data length may be changed to express the size of a variable data value.

5 is a diagram illustrating examples of a data area.

As shown in FIG. 5, the data field may be composed of a type, a length, and a data value.

Type is an identifier for information to be included in the data value, the length is the size of the data value, and the data value is actually transmitted information. At this time, the type is 10 bits and the length is 2 bits, and the size of the data value varies according to the type and length.

Event information to be transmitted is transmitted through a data field by varying the data value according to the type, and the size of the information to be transmitted is varied and transmitted.

For example, when the type is 1, the operation mode, and when the type is 2, information on the compressor on/off may be transmitted. In addition, when the data length is expressed as 0, 1, 2, 3 according to the size of information, 4 bits (a), 8 bits (b), 16 bits (c), and 24 bits (d) can be represented, respectively. . Depending on the length, the size of information that can be sent as a data value varies.

Referring to FIG. 5A, in the basic structure of a data packet, a data type (Type) occupies a size of 10 bits and a data length (Len) indicating the size of a data value is 2 bits (bit). It is implemented as occupying the size of ). The size of a data value basically occupies a size of 4 bits.

Referring to (b), (c), and (d) of FIG. 5, the size of the data value may be expanded in units of 8 bits according to the type. The length (Len) represents the size of a variable data value.

Accordingly, compared to the conventional outdoor unit and indoor unit always transmitting and receiving data of a fixed size, communication can be performed at a faster communication speed. In addition, since the size of the data is expandable, it is easy to add a new function to the data packet.

Accordingly, the wired remote control according to the present invention transmits and receives data to and receives data from an indoor unit connected by wire, and can control an indoor unit connected by wire, as well as participate in communication between indoor units and outdoor units through TLV communication, and communication with other indoor units. I can.

Accordingly, the present invention applies a communication structure capable of monitoring and controlling a remote communication area between a wired remote control, a plurality of indoor units, and an outdoor unit in addition to the existing wired remote control, local area communication between indoor units, and a connected unit. It can provide a synchronization function that can control.

Meanwhile, in the present specification, a wired remote controller and an indoor unit connected one-to-one are defined as a local area, and an area other than the local area is defined as a remote communication area.

Accordingly, the serial communication line 1 may also be referred to as a remote communication line.

According to the present invention, through remote communication that transmits and receives a signal having a data structure according to the TLV (Type Length Value) protocol, a wired remote control can communicate with other indoor units, wired remote controllers, and outdoor units, and various functions can be applied. The existing environment is established, and basic wired remote control control, which was only possible with existing physical installation, can be solved through communication.

In addition, the wired remote controllers 46a, 47, 48 according to the present invention can communicate with other indoor units in the remote area through the communication units 36b, 37b, 38b of the indoor units 36a, 37a, 38a in the local area. I can. For example, the first wired remote control 36a may communicate with the communication units 37b and 38b of the other indoor units 37a and 38a through the communication unit 36b of the first indoor unit 36a.

In addition, the wired remote controllers 46a, 47, 48 according to the present invention communicate with the outdoor unit 23a in the remote area through the communication units 36b, 37b, 38b of the indoor units 36a, 37a, 38a in the local area. can do.

That is, the wired remote controllers 46a, 47, 48 according to the present invention are connected to the serial communication line 1 through the communication units 36b, 37b, 38b of the indoor units 36a, 37a, 38a in the local area, And a signal having a data structure according to the TLV protocol can be transmitted and received.

In addition, by using the existing 485 modems (23b, 36b, 37b, 38b) and the serial communication line (1), it is possible to implement a communication structure having advantages in terms of communication performance and scalability without additional cost, low cost.

According to the present invention, it is possible to establish a control environment for other units in a remote area with any one wired remote control, so that various functions can be applied and expanded in the future.

For example, it is possible to transmit and receive signals to the remote communication area in addition to the local control communication protocol with the existing indoor unit of the wired remote control, and implement group control and remote individual control functions that were only possible with the existing physical installation. have.

Meanwhile, according to an embodiment of the present invention, the communication unit 250 of the wired remote controllers 46a, 47, 48 may further include a Wi-Fi communication module, and may be connected to a server or a mobile terminal through Wi-Fi communication. I can. For example, among the plurality of wired remote controllers 46a, 47, 48, the first wired remote controller 46a, 46b includes a Wi-Fi communication module 46b, the server 310 or the mobile terminal 320 Can communicate with

In addition, an air conditioner, a server, and/or a mobile terminal that is connected to communication to transmit and receive signals and operate may be referred to as an air conditioner system. For example, the air conditioner system may include an air conditioner 50 and a server 310 and/or a mobile terminal 320.

On the other hand, the first wired remote control 46a is TLV through the serial communication line (1) and indoor units (37a, 38a) other than the corresponding first indoor unit (36a) among the plurality of indoor units (36a, 37a, 38a). Signals according to the protocol can be transmitted and received.

Meanwhile, in FIG. 3, the first wired remote controller 46a and 46b is divided into a first wired remote controller 46a and a WiFi communication module 46b, but if not required in the present specification, the WiFi communication module 46b Do not explain separately.

In some cases, the communication unit 250 of the first wired remote control 46a may have a Wi-Fi communication module 46b therein or be connected to an external Wi-Fi communication module 46b to communicate. have.

In the case of the existing wired remote control communication, there is a limit in diversification of functions by interlocking and controlling only the directly connected indoor unit.

According to the present invention, the wired remote control (46a, 47, 48) can communicate and control the units in the air conditioner through TLV communication. In addition, by communicating and interworking with external devices through Wi-Fi communication, various functions can be provided, thereby providing a higher level of scalability.

For example, by interlocking the wired remote control (46a, 47, 48) with the server 310 or the mobile terminal 320 through Wi-Fi communication, various databases and functions are established using the server 310 and the mobile terminal 320 Can provide remote control.

For example, the wired remote controllers 46a, 47, 48 can receive various information from the server 310 through Wi-Fi communication, and build a database using the server 310, user-customized function, automatic update, server 310 ) And interworking services with other devices.

In addition, the wired remote control (46a, 47, 48) and the mobile terminal (320) are linked through Wi-Fi communication, so that unit monitoring and control through the mobile terminal (320) is possible, and the wired remote control (46a, 47, 48) It is possible to provide various additional functions beyond the limits of input/output means and system resources.

Wired remote controllers (46a, 47, 48) can receive a signal from the server 310 or mobile terminal 320 through Wi-Fi communication, and transmit a control signal to each unit through TLV communication according to the received signal. have.

In addition, the wired remote controllers 46a, 47, and 48 may receive status information from each unit through TLV communication and transmit status information of the units to the server 310 or mobile terminal 320 through Wi-Fi communication. .

Meanwhile, the wired remote controllers 46a, 47, and 48 may be linked to the server 310 or the mobile terminal 320 according to a user input.

Hereinafter, an example in which the first wired remote controller 46a among the wired remote controllers 46a, 47, and 48 is linked with the server 310 or the mobile terminal 320 through the Wi-Fi communication module 46b will be described.

When the first wired remote control 46 is connected to the first indoor unit 36a through wired communication, the server 310 is configured through a Wi-Fi communication, an application link menu linked to the mobile terminal 320, and the Wi-Fi communication. A server-linked menu linked to and may be displayed on the display unit 230.

If the application linking menu is selected, the first wired remote control 46 may perform Wi-Fi paring with the mobile terminal 320.

After paring, the first wired remote control 46 interlocks with the mobile terminal 320 and controls the first indoor unit 36a based on a signal received from the mobile terminal 320. It is possible to perform local control or remote control to control indoor units 37a and 38a other than the first indoor unit 36a.

According to an embodiment, the linkage between the first wired remote control 46 and the mobile terminal 320 may include linkage with the server 310. For example, the first wired remote control 46 may be linked with the mobile terminal 320 through the server 310.

In this case, the first wired remote control 46 may also be linked with the server 310 to perform the local control or the remote control based on a signal received from the server 310.

On the other hand, when the server linkage menu is selected, the first wired remote controller 46 is interlocked with the server 310 to transmit signals received from the plurality of indoor units 36a, 37a, 38a to the server 310. Can be delivered to.

In addition, the first wired remote controller 46 controls the first indoor unit 36a or other indoor units 37a and 38a other than the first indoor unit 36a based on a signal received from the server 310. ) Can be controlled.

6 is a block diagram schematically illustrating a control configuration of a wired remote controller according to an embodiment of the present invention.

6, a wired remote control according to an embodiment of the present invention includes a control unit 210 for controlling overall operations, an operation unit 220 for receiving user input, a display unit 230 for displaying a predetermined screen, and A memory 240 in which data is stored and a communication unit 250 including one or more communication modules may be included.

The operation unit 220 includes at least one input means such as a button, a switch, and a touch input means. For example, the operation unit 220 may be provided with a power key, a menu input key, an operation setting key, a temperature control key, an air volume key, a lock key, and the like. When a user command or predetermined data is input in response to an operation of the input means, the manipulation unit 220 may transmit the input data to the control unit 210.

The display unit 230 may output a menu screen for controlling the unit, and output at least one of a character, a number, and an image of an operation setting or operation state of the unit.

In addition, the display unit 230 outputs a user command input through the operation unit 220 to the screen, or displays a predetermined screen corresponding to the input user command, so that the operation setting and operation status of the air conditioner are , It is possible to display information about abnormality.

The memory 240 stores a software program of a wired remote control, control data for controlling the operation of a unit, communication data for setting an address or group for communication with other units, and data transmitted and received through the communication unit 250.

In terms of hardware, the memory 240 may be various storage devices such as ROM, RAM, EPROM, flash drive, and hard drive.

The communication unit 250, including one or more communication modules, may transmit and receive data between different units. For example, the communication unit 250 may communicate with other units using signals according to the TLV protocol.

The controller 210 may process input/output data and control data transmission/reception between units through the communication unit 250.

3 and 6, the wired remote control according to the present invention is connected to each corresponding indoor unit by wire, and may transmit a predetermined signal to the connected indoor unit. Also, the wired remote control may receive status information or the like from the connected indoor unit.

For example, the first wired remote control 46a may perform local area communication with the corresponding first indoor unit 36a. Depending on the embodiment, the first wired remote controller 46a and the first indoor unit 36a may transmit and receive signals having a data structure according to a Type Length Value (TLV) protocol.

In addition, according to the present invention, the wired remote controller may use a signal according to a type length value (TLV) protocol in which a data size is variable in communication with another unit in a remote area.

For example, among the plurality of wired remote controllers 46a, 47, and 48, the first wired remote controller 46a includes indoor units other than the corresponding first indoor unit 36a among the plurality of indoor units 36a, 37a, and 38a. Signals according to the TLV (Type Length Value) protocol can be transmitted and received through the (37a, 38a) and the serial communication line (1).

In this case, the control unit 210 of the first wired remote control 46a can generate a control signal for controlling the second indoor unit 37a among indoor units 37a and 38a other than the first indoor unit 36a. have.

Under the control of the controller 210, the communication unit 250 may transmit the generated control signal to the second indoor unit 37a using the TLV protocol. That is, the communication unit 250 may transmit a signal having the data structure of the TLV protocol to the second indoor unit 37a.

In addition, when the communication unit 250 receives a signal including status information from the second indoor unit 37a, the control unit 210 controls the display unit 230 to display status information based on the received signal. can do.

According to an embodiment of the present invention, the first wired remote control 46a transmits a signal including data including status information from at least one of the indoor units 37a and 38a other than the first indoor unit 36a. It may include a communication unit 250 for receiving using the TLV protocol and a display unit 230 for displaying status information based on the received signal.

On the other hand, the display unit 230 of the first wired remote control 46a, in a remote communication mode capable of controlling indoor units 37a and 38a other than the first indoor unit 36a, List can be displayed.

In addition, the first wired remote control 46a may transmit a request signal according to the TLV protocol to indoor units 37a and 38a other than the first indoor unit 36a through the communication unit 250, and transmit a response signal. Can receive.

The controller 240 may control the communication unit 250 to broadcast a request signal according to the TLV protocol a predetermined number of times through the serial communication line 1.

The control unit 240 of the first wired remote control 46a may be connected in communication with indoor units that have transmitted a response signal, and may control to enter the remote communication mode.

Meanwhile, units according to an embodiment of the present invention may include a communication unit using the RS-485 communication standard. The outdoor unit 23a and the plurality of indoor units 36a, 37a, and 38a may include communication units 23b, 36b, 37b, and 38b each using an RS-485 communication standard. In this case, the communication units 23b, 36b, 37b, and 38b may include a communication module supporting the RS-485 communication standard or may be a 485 modem.

Meanwhile, the communication units 23b, 36b, 37b, and 38b may transmit and receive data packets according to the RS-485 communication standard. Also, the communication units 23b, 36b, 37b, and 38b may transmit and receive data packets having a data structure according to the TLV protocol according to the RS-485 communication standard.

In addition, the wired remote controllers 46a, 47, 48 according to the present invention can communicate with other indoor units in the remote area through the communication units 36b, 37b, 38b of the indoor units 36a, 37a, 38a in the local area. I can. For example, the first wired remote control 36a may communicate with the communication units 37b and 38b of the other indoor units 37a and 38a through the communication unit 36b of the first indoor unit 36a.

Meanwhile, according to an embodiment of the present invention, the communication unit 250 of the wired remote controllers 46a, 47, 48 may further include a Wi-Fi communication module, and through Wi-Fi communication, the server 310 or the mobile terminal Communication with 320 may be connected.

For example, the communication unit 250 of the wired remote controllers 46a, 47, 48 communicates with the plurality of indoor units with signals according to the TLV protocol, and communicates with the server 310 or the mobile terminal through the Wi-Fi communication. Can communicate with 320.

In some cases, the communication unit 250 may include a Wi-Fi communication module inside or be connected to an external Wi-Fi communication module to communicate.

In addition, the wired remote controllers 46a, 47, and 48 may communicate with the server 310 or the mobile terminal 320 through Wi-Fi communication, and are interlocked to provide various additional functions.

7 is a flowchart illustrating a method of operating an air conditioner according to an embodiment of the present invention, and illustrates a process of setting a control priority level.

As described with reference to FIGS. 1 to 6, wired remote controllers 46a, 47, and 48 may be connected to each of the indoor unit units 36a, 37a, and 38a, and interlocking settings may be performed (S710).

In the case of the existing wired remote control communication, there was a limit to diversification of functions by performing control by interlocking only with the directly connected indoor unit, but the wired remote control (46a, 47, 48) is a unit that is not directly connected in the air conditioner through TLV communication. They can also communicate and control them.

Accordingly, the air conditioner according to the present invention has a function of monitoring and controlling a remote area between indoor units, outdoor units, and other units that are not directly connected to the wired remote controller and other units, as well as local area communication between the wired remote controller and the indoor unit unit. This possible communication structure can be implemented. Therefore, the air conditioner according to the present invention has a very high degree of freedom in communication and control.

Meanwhile, in the case of the existing wired remote control communication, there is no function to freely change the control state of the local indoor unit and the remote indoor unit. In addition, if you want to change the indoor unit control status that is forcibly set from the central control (control) and other control units, release the lock status from the central control and other control units one by one, and after performing the control change, the existing lock ( Lock) There was an inconvenience of having to reset the settings.

Since the air conditioner according to the present invention has a very high degree of freedom in communication and control, and can control several units with an arbitrary wired remote control, a control collision avoidance means is required. In addition, it is possible to perform control on a specific unit and set a lock on the executed control state, but it is inefficient to release and reset the lock setting each time during control.

Accordingly, the air conditioner according to the present invention may set a control priority level (S720). The setting of the control priority level may be performed by input through a wired remote control.

Users, such as installers, can set the control priority level for a specific wired remote control. In addition, a user, such as an installer, can also set a control priority level in the indoor unit.

For example, a setting input for a control priority level of the wired remote control may be received through any one of a plurality of wired remote controllers, and the control priority level of the wired remote control may be set according to the setting input (S720). ). That is, the control priority level setting for the wired remote control can be performed by directly setting input to the corresponding wired remote control.

In addition, a setting input for a control priority level of the indoor unit may be received through the wired remote control, and a control priority level of a local indoor unit connected to the wired remote control may be set according to the setting input (S720). That is, the control priority level setting for the indoor unit may be performed by inputting the setting to a wired remote control connected to the indoor unit.

Meanwhile, wired remote controllers according to the present invention may transmit and receive signals according to a Type Length Value (TLV) protocol through a serial communication line 1, even with indoor units in a remote area other than an indoor unit directly connected.

Therefore, in the installer setting of the wired remote control applying TLV communication, the local control that controls the local indoor unit directly connected to the wired remote control and the remote control the unit not directly connected to the wired remote control through TLV communication. It is also possible to set for each control type of control.

FIG. 8 is a diagram referred to for a description related to a method of operating an air conditioner according to an embodiment of the present invention, and shows an example of a control priority level.

8, the control priority level is a minimum level (Priority 0 Level), a first level (Priority 1 Level) higher priority than the minimum level (Priority 0 Level), priority over units other than the central controller. A second level having a higher priority (Priority 2 Level) and a third level having a higher priority than the central controller may be included.

The minimum level (Priority 0 Level) may be an initial setting of the control priority level. Accordingly, the wired remote controller and the indoor unit for which a user has not input a special setting may have a minimum level (Priority 0 Level), which is an initial setting, as a control priority level.

In addition, as shown in FIG. 8, the priority of control has the highest priority 3 level and the lowest priority 0 level.

-Control priority

Priority 3 Level> Central Control Lock> Second Level (Priority 2 Level)> Unit Control Lock Other than Central Control> Priority 1 Level> Minimum Level (Priority 0 Level)

In this way, by setting the control priority for each unit, even when the central control (control) and other unit settings are applied in a locked state, it is possible to easily control in various situations where indoor unit control changes are required according to the control priority level of the wired remote control. .

In addition, when the control priority level is set from the wired remote control linked to the indoor unit unit, the indoor unit unit receiving the setting prevents control input of a priority lower than its own control priority level, thereby preventing any change of the control state easily. I can.

Meanwhile, the wired remote control may transmit the setting information on the control priority level of the wired remote control received as a user's setting input to the indoor unit connected to the wired remote control (S730). Accordingly, the indoor unit may receive setting information on the control priority level of the wired remote control (see S1010 of FIG. 10), and may store setting information on the control priority level of the wired remote control (FIG. 10). See S1020).

Depending on the embodiment, setting information on the control priority level of the wired remote control may be stored in the wired remote control and transmitted together with a control signal whenever the wired remote control transmits a control signal.

Meanwhile, when the control priority level of the indoor unit is separately set, setting information on the control priority level of the indoor unit received as a user's setting input may be transmitted to the indoor unit (S730). Accordingly, the indoor unit may receive setting information on the control priority level of the indoor unit (see S1010 of FIG. 10), and may store setting information on the control priority level of the indoor unit (Fig. 10). See S1020).

Depending on the embodiment, the control priority level of the locally connected wired remote control and the indoor unit may be set equally. In this case, the wired remote control may transmit the setting information on the control priority level received as a user's setting input to the locally connected indoor unit and apply the same control priority level.

9 is a flowchart illustrating a method of operating an air conditioner according to an exemplary embodiment of the present invention, and illustrates a control process after setting a control priority level described with reference to FIGS. 7 and 8.

Referring to FIG. 9, while any one indoor unit receives a control signal from one of the wired remote controllers, the indoor unit control through the wired remote controller may be started (S900).

The indoor unit to be controlled, which has received the control signal, may determine whether to change a control state or perform an operation by comparing the control priority level of the wired remote control and the control priority level of the indoor unit (S931 and S951).

According to an embodiment of the present invention, the air conditioner includes wired remote controllers and indoor unit units, and the wired remote controllers comply with a type length value (TLV) protocol through a serial communication line with remote indoor units other than the directly connected indoor unit. It is possible to transmit and receive the corresponding signal.

According to an embodiment, the indoor unit to be controlled that has received a control signal determines whether the control signal is a local control received from a directly connected wired remote control or whether the control signal is a remote control received from a wired remote control that is not directly connected. Can do it (S910).

If it is determined by the remote control, it proceeds to the remote indoor unit control (S920). If it is determined as the local control, it may proceed to the local indoor unit control (S940).

Meanwhile, the indoor unit to be controlled that has received the control signal may compare the control priority level of the wired remote control with the control priority level of the indoor unit (S931 and S951).

If the control priority level of the wired remote controller is higher than the control priority level of the indoor unit to be controlled (S931, S951), the indoor unit to be controlled may perform a corresponding operation based on the control signal ( S937, S955).

The control state of the indoor unit to be controlled is changed based on the control signal, and the indoor unit to be controlled may perform a corresponding operation according to the changed control state (S937 and S955).

When the control priority level of the wired remote control is not higher than the control priority level of the indoor unit (S931, S951), the indoor unit to be controlled ignores the control signal, thereby preventing a control state change ( S933, S953).

That is, when the control priority level of the wired remote control is not higher than the control priority level of the indoor unit to be controlled (S931, S951), by ignoring the control signal, the control received from the wired remote control having a lower control priority level It is possible to prevent state change in response to signals.

Depending on the embodiment, when the control priority level of the wired remote control is not higher than the control priority level of the indoor unit to be controlled (S931, S951), information on the control level comparison result is converted into image and/or sound. Can be printed.

Accordingly, the reason for not performing the operation and the current state may be informed to the user. The user will be able to change the control priority level or take other actions if necessary.

According to an embodiment, when it is determined as remote control (S910), if the control priority level of the wired remote control is higher than the control priority level of the indoor unit to be controlled (S931), the controller lock of a higher priority level ( lock) can be determined (S935).

For example, the control priority is the above-described third level (Priority 3 Level)> Central control lock> Second level (Priority 2 Level)> Unit control lock other than central control> First level (Priority 1 Level)> Minimum level It can be set in the order of (Priority 0 Level).

In this case, the indoor unit to be controlled may determine whether a central control lock is set or a unit control lock other than the central control is set (S935).

If there is no controller lock setting of a higher priority level, the indoor unit to be controlled may perform an operation corresponding to the control signal (S937), otherwise it may ignore the control signal (S933). .

For example, if the control priority level of the wired remote control is a second level, and there is a central controller lock setting of a higher priority level, the indoor unit to be controlled is The control signal can be ignored (S933).

In addition, if the control priority level of the wired remote control is a priority 2 level and there is only a unit control setting other than the central control, there is no controller lock setting of a higher priority level, so the control target The indoor unit unit may perform an operation corresponding to the control signal (S937).

When the control priority level of the indoor unit to be controlled is the minimum level, comparison of the control priority levels may be meaningless. In addition, in this case, since there is an intention to freely set the control of the indoor unit to any unit, comparison of priority levels can be omitted for quick execution.

Accordingly, when the control priority level of the indoor unit to be controlled is greater than the minimum level, the control priority level comparison steps S931 and S951 may be performed.

However, when the control priority level of the indoor unit to be controlled is the minimum level, the control priority level comparison step (S931, S951) is omitted, and the indoor unit immediately performs a corresponding operation based on the control signal. Can be performed (S937, S955).

According to an embodiment of the present invention, a corresponding operation may be performed or a control state change may be prevented by changing a control state based on a control type and a control priority level.

For example, when controlling a local indoor unit through a wired remote control, if there is a forced control of a unit higher than the control priority level of the wired remote control in the currently controlled local indoor unit, the control is not changed. However, when there is no forced control of a unit higher than the control priority level of the wired remote control in the current local indoor unit to be controlled, control change may be performed according to a control signal.

When controlling a remote indoor unit through a wired remote control, if a higher control priority level is set for the current remote indoor unit to be controlled than the control priority level of the wired remote control that delivers commands, the control is not changed.

However, if the control priority level of the current remote indoor unit to be controlled is equal to or lower than the control priority level of the wired remote control that transmits the command, it is possible to check the forced control settings of the mid-range controller and other units. If the forced control priority is low, the control change is in progress, and if the forced control priority is high, the control change may not be performed.

10 and 11 are flow charts illustrating a method of operating an air conditioner according to an embodiment of the present invention, illustrating an operation of an indoor unit to be controlled.

Referring to FIG. 10, the indoor unit to be controlled may receive setting information on the control priority level of the wired remote control from a locally connected wired remote control (S1010), and receive setting information on the control priority level of the wired remote control. Can be stored (S1020).

Depending on the embodiment, the indoor unit to be controlled may also receive setting information for its own control priority level (S1010) and may store setting information about its own control priority level (S1020).

Thereafter, the indoor unit to be controlled may receive a control signal including a control command from an arbitrary wired remote control in the air conditioner (S1030).

The indoor unit to be controlled may compare its own control priority level with the control priority level of the wired remote controller (S1040).

The indoor unit to be controlled may change a control state and perform a corresponding operation according to a control signal received from a wired remote controller higher than its own control priority level (S1050).

However, the indoor unit to be controlled may ignore a control signal received from a wired remote control that is lower than its own control priority level and prevent a change of a control state from any wired remote control.

Depending on the embodiment, information on the control level comparison result may be output as an image and/or sound (S1060). Accordingly, the user can know the reason and the current state of the indoor unit to be controlled not performing the operation.

Meanwhile, the indoor unit to be controlled can prevent input processing of forced-lock control of units having a priority lower than their own control priority level.

According to an embodiment of the present invention, when the control priority level of the indoor unit to be controlled is the minimum level, comparison of the control priority levels may be omitted for quick execution.

Referring to FIG. 11, the indoor unit to be controlled may receive a control signal including a control command from a wired remote control in a remote area other than the directly linked wired remote control (S1110).

If the indoor unit to be controlled receives a control signal from a wired remote control in a local area directly linked, the control state can be changed and the corresponding operation can be performed. Depending on the embodiment, for a specific function, a lock setting may be applied from the central controller to change the control state of the wired remote control in the local area.

On the other hand, if the control priority level of the indoor unit to be controlled is higher than or equal to the first level (S1120), the indoor unit to be controlled may compare its own control priority level with the control priority level of the remote wired remote controller. Yes (S1130).

That is, if the control priority level of the indoor unit to be controlled is not the minimum level (Priority 0 Level) (S1120), its own control priority level and the control priority level of the remote wired remote controller may be compared (S1130).

On the other hand, if the control priority level of the indoor unit to be controlled is not higher than or equal to 1 (Priority 1 Level) and is at the minimum level (S1120), the indoor unit to be controlled will immediately perform a corresponding operation based on the control signal. Can be (S1140).

Meanwhile, the indoor unit to be controlled may ignore a control signal received from a wired remote control lower than its own control priority level and prevent a change of a control state from an arbitrary wired remote control.

According to an embodiment, information on the control level comparison result may be output as an image and/or sound (S1150). Accordingly, the user can know the reason and the current state of the indoor unit to be controlled not performing the operation.

According to at least one of the embodiments of the present invention, by monitoring and controlling the status of units with one wired remote control, convenience of use can be improved, and may occur when freely controlling units with one wired remote control. You can solve the conflict problem.

The air conditioner according to the present invention is not limited to the configuration and method of the embodiments described as described above, but the embodiments are all or part of each of the embodiments selectively combined so that various modifications can be made. It can also be configured.

On the other hand, the operating method of the air conditioner according to the embodiment of the present invention can be implemented as code that can be read by the processor on a recording medium that can be read by the processor. The processor-readable recording medium includes all types of recording devices that store data that can be read by the processor. Further, the processor-readable recording medium is distributed over a computer system connected through a network, so that the processor-readable code can be stored and executed in a distributed manner.

In addition, although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. In addition, various modifications are possible by those of ordinary skill in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

23a: outdoor unit
36a, 37a, 38a: indoor unit
46a, 47, 48: wired remote control

Claims (14)

In the operating method of an air conditioner including indoor unit units and wired remote controllers,
Receiving a setting input for a control priority level of the wired remote control through any one wired remote control;
Transmitting the received information on the control priority level of the wired remote control to an indoor unit connected to the wired remote control; And,
And storing, by the indoor unit unit, information on a control priority level of the wired remote controller. The method of claim 1,
Receiving a setting input for a control priority level of the indoor unit through the wired remote control;
Transmitting the received information on the control priority level of the indoor unit to the indoor unit; And,
Storing, by the indoor unit unit, information on a control priority level of the indoor unit unit. The method of claim 1,
The wired remote controllers transmit and receive signals according to a TLV (Type Length Value) protocol through a serial communication line with indoor units other than the directly connected indoor units. In the operating method of an air conditioner including indoor unit units and wired remote controllers,
Receiving, by any one indoor unit, a control signal from any one of the wired remote controllers;
Comparing, by the indoor unit unit, a control priority level of the wired remote control and a control priority level of the indoor unit unit; And,
And when the control priority level of the wired remote control is higher than the control priority level of the indoor unit, performing, by the indoor unit, a corresponding operation based on the control signal. The method of claim 4,
When the control priority level of the wired remote control is not higher than the control priority level of the indoor unit, the control signal is ignored. The method of claim 4,
If the control priority level of the wired remote controller is not higher than the control priority level of the indoor unit, outputting information on the comparison result of the control level; and further comprising. The method of claim 4,
When the control priority level of the indoor unit is greater than the minimum level, the control priority level comparison step is performed,
When the control priority level of the indoor unit is the minimum level, the step of comparing the control priority level is omitted, and the indoor unit unit performs a corresponding operation based on the control signal. How it works. The method of claim 4,
The control priority level includes a minimum level, a first level having higher priority than the minimum level, a second level having higher priority than units other than the central controller, and a third level having higher priority than the central controller. An operating method of an air conditioner, characterized in that. The method of claim 4,
Determining whether the control signal is a local control received from a directly connected wired remote control or whether the control signal is a remote control received from a wired remote control that is not directly connected to the air conditioner. The method of claim 9,
In the case of the remote control, if the control priority level of the wired remote control is higher than the control priority level of the indoor unit, determining whether to set a controller lock of a higher priority level; air further comprising How the harmonic works. The method of claim 10,
If there is no controller lock setting of the higher priority level, an operation corresponding to the control signal is performed, otherwise, the control signal is ignored. The method of claim 4,
The wired remote controllers transmit and receive signals according to a TLV (Type Length Value) protocol through a serial communication line with indoor units other than the directly connected indoor units. The method of claim 4,
Receiving a setting input for a control priority level of the wired remote control through any one wired remote control;
Transmitting the received information on the control priority level of the wired remote control to an indoor unit connected to the wired remote control; And,
And storing, by the indoor unit unit, information on a control priority level of the wired remote controller. The method of claim 13,
Receiving a setting input for a control priority level of the indoor unit through the wired remote control;
Transmitting the received information on the control priority level of the indoor unit to the indoor unit; And,
Storing, by the indoor unit unit, information on a control priority level of the indoor unit unit.
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