KR20120081485A - Air conditioning system and communicating method of the same - Google Patents

Abstract

PURPOSE: An air conditioning system and a method for performing communicating of the same are provided to perform communication by forming wireless network between indoor device and a control device. CONSTITUTION: One or more outdoor units(200a~200c) are connected to one or more of indoor units(100a~100i) through a refrigerant pipe(500). The outdoor unit operates the indoor unit. One or more controllers(300a~300d) form indoor wireless network with some of indoor units. The controllers control the operation of the indoor unit and the outdoor unit through the indoor wireless network. A communication unit(400) performs communication with the indoor unit, the outdoor unit, and the controllers through various communication methods.

Description

Air conditioner and communication method thereof {AIR CONDITIONING SYSTEM AND COMMUNICATING METHOD OF THE SAME}

The present invention relates to an air conditioner, and more particularly, to an air conditioner for performing communication through a wireless communication scheme by forming a wireless network between component devices, and a communication method thereof.

A general air conditioner includes an outdoor unit which controls distribution and circulation of a refrigerant, an indoor unit which is shared with the outdoor unit, and discharges air into each chamber, and a controller connected to the outdoor unit to control them.

The controller includes a control program that can pre-set the setting information of the air conditioner such as network information, device information of the indoor unit and the outdoor unit by a user, etc., and individually control each unit according to the registered setting information.

Recently, the air conditioner is generally equipped with a central controller to increase the efficiency of the air conditioner management in the common building of the company, school, factory, etc. installed, and as the performance of the outdoor unit is improved, a large number of indoor units are installed in the outdoor unit. Shared and connected, the central controller is a trend to integrate and control a number of outdoor units and indoor units.

A communication line is required for a controller including the central controller to communicate with the outdoor unit and the indoor unit. In the related art, a communication line is performed with the outdoor unit and the indoor unit using a separate dedicated line. Recently, the indoor unit is configured to transmit and receive data through a power line communication method through a power line so as not to provide a separate communication line on the indoor unit side.

Meanwhile, as the air conditioner is installed in the common building, the number of indoor units required increases, and as the number of indoor units increases, the number of outdoor units increases due to the limitation of capacity. In this case, a communication line for performing communication between the controller and the outdoor unit, the controller and the indoor unit, the outdoor unit as well as the outdoor unit is required, and there is a problem that the connection of the communication line becomes more complicated.

The present invention is to solve the problems of the prior art, and to form a wireless network between the indoor unit and the controller, or between the outdoor unit by using an air conditioner and communication method that can perform communication without using a wired communication line. The purpose is to provide.

An object of the present invention is to provide an air conditioner for controlling one or more outdoor units and a plurality of indoor units, without providing a separate dedicated communication line or reducing the use of a dedicated communication line, and a communication method thereof.

The present invention relates to an air conditioner in which an outdoor unit or an indoor unit communicates with each other using a plurality of communication methods such as a wireless communication method and a pipe communication method, or a wireless communication method and a dedicated line communication method, and performs communication using a controller and a wireless communication method. Another purpose is to provide a communication method thereof.

According to an aspect of the present invention, an air conditioner includes: a plurality of indoor units for performing air conditioning, one or more outdoor units connected to some or all of the indoor units through a refrigerant pipe, and driving the indoor units, among the indoor units At least one controller which forms an indoor wireless network with a part and controls the operation of the indoor unit and the outdoor unit through the indoor wireless network, the indoor unit is connected to or provided with the outdoor unit or the indoor unit, and the indoor unit via a plurality of communication methods, And a communication device for performing communication of the outdoor unit and the controller.

The air conditioner according to the present invention further includes an indoor network manager provided in the indoor wireless network to perform communication in the indoor wireless network, and to approve or reject participation of other devices into the indoor wireless network.

When the air conditioner according to the present invention includes a plurality of outdoor units, the outdoor units form an outdoor wireless network. Here, the air conditioner further includes an outdoor network manager provided in the outdoor wireless network to perform communication in the outdoor wireless network and to approve or reject participation of another device into the outdoor wireless network.

The air conditioner according to the present invention may further include a relay device for receiving and reproducing a signal transmitted by the outdoor network manager and transmitting the reproduced signal to another outdoor unit.

When the air conditioner according to the present invention includes a plurality of controllers, the controllers respectively form the indoor wireless network with some of the indoor units, and each indoor wireless network includes an indoor network manager.

A communication method of an air conditioner according to the present invention for achieving the above object is, a plurality of indoor unit for performing air conditioning, at least one outdoor unit connected to some or all of the indoor unit through a refrigerant pipe to drive the indoor unit And at least one controller for controlling operation of the indoor unit and the outdoor unit through the indoor wireless network, wherein the controller and a part of the indoor unit form an indoor wireless network, and the controller Converting a control command into a wireless signal, transmitting, by the controller, the wireless signal through the indoor wireless network, and the indoor unit receiving the wireless signal transmits the wireless signal to the outdoor unit or another indoor unit. It consists of steps.

In the communication method of the air conditioner according to the present invention, the step of transmitting to the outdoor unit or another indoor unit, the indoor unit receiving the wireless signal converts the wireless signal into a pipe communication signal, and receiving the wireless signal One indoor unit includes transmitting the pipe communication signal to an outdoor unit or an indoor unit that is the target of the control command.

In the communication method of the air conditioner according to the present invention, the step of transmitting to the outdoor unit or another indoor unit, the indoor unit receiving the wireless signal converts the wireless signal into a dedicated line communication signal, and the wireless signal And transmitting the dedicated line communication signal to the outdoor unit or the indoor unit which receives the outdoor unit or the indoor unit which is the target of the control command.

The communication method of the air conditioner according to the present invention further includes the step of setting one device included in the indoor wireless network as an indoor network manager. The forming of the indoor wireless network may include: searching for a wireless channel by the indoor network manager, selecting an optimal wireless channel among the wireless channels by another indoor network manager, and another indoor device by the indoor network manager. And requesting a manager to join the indoor wireless network, and accepting or rejecting the participation based on the information of the device that the indoor network manager has requested to join.

The communication method of the air conditioner according to the present invention further includes the steps of forming a wireless outdoor network by a plurality of outdoor units, and transmitting, by one outdoor unit of the outdoor units, the wireless signal to another outdoor unit. The communication method may further include setting one outdoor unit included in the outdoor wireless network as an outdoor network manager. The forming of the outdoor wireless network may include: searching for a wireless channel by the outdoor network manager, selecting an optimal wireless channel among the wireless channels by the outdoor network manager, and not the outdoor network manager. Requesting the outdoor unit to join the outdoor wireless network to the outdoor network manager; and accepting or rejecting the participation based on the outdoor unit information requested by the outdoor network manager to participate.

The communication method of the air conditioner according to the present invention may further include relaying a wireless signal transmitted by the outdoor network manager, not the outdoor network manager.

The present invention forms a wireless network between an indoor unit and a controller or between outdoor units to perform communication, thereby reducing the cost of installing and managing a wired communication line and improving user convenience. In addition, the present invention can easily perform the addition or deletion of the device by performing a communication by forming a wireless network between the indoor unit and the controller, or between the outdoor units, thereby increasing the convenience and operation efficiency of the user.

The present invention does not provide a separate dedicated communication line, or by reducing the use of the dedicated communication line by reducing the installation and operation costs by controlling one or more outdoor units and a plurality of indoor units.

According to the present invention, an outdoor unit or an indoor unit performs communication using a plurality of communication methods such as a wireless communication method, a pipe communication method, a wireless communication method, and a dedicated line communication method, and communicates with a controller using a wireless communication method. Without any particular concern, system operation efficiency is increased and system stability is improved.

1 is a view for explaining an operation of performing wireless communication between a controller and an outdoor unit or an indoor unit, and performing pipe communication between an outdoor unit and an indoor unit in an air conditioner according to the present invention;
2 and 3 are views for explaining an operation of performing communication by forming an indoor wireless network between a controller and an indoor unit in an air conditioner according to the present invention;
4 is a view for explaining an operation of performing communication by forming an outdoor wireless network between a plurality of outdoor units in an air conditioner according to the present invention;
FIG. 5 is a view for explaining an operation of forming an indoor wireless network between a controller and an indoor unit and forming an outdoor wireless network between a plurality of outdoor units in the air conditioner according to the present invention.
6 is a view for explaining an operation of performing communication via an indoor wireless network in an air conditioner according to the present invention;
7 and 8 are diagrams for explaining an operation of performing communication via an outdoor wireless network in the air conditioner according to the present invention;
9 is a view for explaining an operation of forming a plurality of indoor wireless network in the air conditioner according to the present invention;
10 is a block diagram schematically showing the configuration of a communication device in the case of performing pipe communication between an outdoor unit and an indoor unit in an air conditioner according to the present invention;
11 and 12 are views for explaining an operation of performing wireless communication between a controller and an outdoor unit or an indoor unit, and performing dedicated line communication between the outdoor unit and the indoor unit in the air conditioner according to the present invention;
Fig. 13 is a block diagram schematically showing the configuration of a communication device in a case where dedicated line communication is performed between an outdoor unit and an indoor unit in an air conditioner according to the present invention;
14 to 16 are schematic flowcharts showing a communication method of an air conditioner according to the present invention;
17 is a flowchart illustrating an operation in which a device joins a wireless network in a communication method of an air conditioner according to the present invention.

Hereinafter, an air conditioner and a communication method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 13, the air conditioner according to the present invention is connected to a plurality of indoor units 100 performing air conditioning, some or all of the indoor units through a refrigerant pipe 500, and the indoor units. At least one outdoor unit 200 to drive, at least one indoor unit to form an indoor wireless network, and at least one controller 300 to control the operation of the indoor unit and the outdoor unit through the indoor wireless network, and the outdoor unit or the Is connected to or provided with an indoor unit, and comprises a communication device 400 for performing communication of the indoor unit, the outdoor unit, and the controller through a plurality of communication schemes.

The communication device 400 is connected to or provided with the outdoor unit 200 or the indoor unit 100 to perform wireless communication with the controller 300, and data is communicated between the outdoor unit and the indoor unit in a pipe communication or a dedicated line communication method. Send and receive. The communication device 400 may be provided in the outdoor unit 200 or the indoor unit 100 closest to the controller 300. For example, when the communication device 400 is installed in an indoor unit installed closest to the controller 300, the controller 300 operates / stops, cools, and heats the air in the indoor unit by using a wireless communication method. When sending a control command of the indoor unit performs an operation according to the control command. In this case, the controller 300 may send a control command to another indoor unit in which the communication device 400 is not installed. That is, when the controller 300 first transmits the control command to the indoor unit equipped with the communication device using a wireless communication method, the indoor unit receiving the control command transmits the pipe communication method or the dedicated line communication method to the indoor unit. To pass the control command.

1 to 10 together, in the air conditioner according to the present invention, the communication device 400, the first wireless communication for performing communication between the outdoor unit or the indoor unit and the controller through a wireless communication method Module 410. In addition, the communication device further includes a pipe communication module 430 for performing communication between the outdoor unit and the indoor unit through a pipe communication method.

The communication device 400 further includes a signal conversion module 420 for converting a wireless signal based on the wireless communication method into a pipe communication signal according to the pipe communication method, or converting the pipe communication signal to the wireless signal. It is configured to include.

Referring to FIG. 1, two indoor units 100a and 100b are connected to one outdoor unit 200, and the outdoor unit includes a communication device 400. The controller 300 also includes a second wireless communication module 310. At this time, the controller 300 transmits a control command to the outdoor unit 200 using a wireless communication method, and the outdoor unit 200 converts the control command into a pipe communication signal and corresponds to the received control command. The pipe communication signal corresponding to the control command is transmitted to the indoor unit.

Referring to FIG. 2, two indoor units 100a and 100b are connected to one outdoor unit 200 with a wall or a floor interposed therebetween, and the controller 300 is installed indoors. Preferably, the communication device 400 is installed in the indoor unit 100b closest to the controller 300. This has the advantage of reducing the effect of signal attenuation according to distance and allowing the location of the controller 300 to be indoors. For example, when the controller 300 tries to give a control command to the indoor unit 100a, the controller 300 issues a control command to the indoor unit 100b through the second wireless communication module 310 installed therein. When transmitting to the installed communication device 400, and converts the control command received by the communication device 400 into a pipe communication signal, the indoor unit (100b) transmits to the indoor unit (100a) using a pipe communication method. At this time, the indoor wireless network (A) is formed between the controller 300 and the indoor unit (100b) having the closest installed and provided with the communication device 400. The air conditioner may further include an indoor network manager provided in the indoor wireless network to perform communication in the indoor wireless network and to approve or reject participation of other devices in the indoor wireless network. In general, the controller 300 becomes an indoor network manager, and the indoor network manager manages data transmission and reception in the indoor wireless network to which the controller 300 belongs, and participates in the indoor wireless network of another device, for example, another controller or another indoor unit. Approve or reject

3 is a diagram illustrating a case of an air conditioner including a plurality of controllers 300a to 300d, which have controllers installed indoors, and perform a wireless communication method with the nearest indoor unit 100c. As illustrated in FIG. 3, the plurality of controllers 300a to 300d and the indoor unit 100c closest to the plurality of controllers 300 may form an indoor wireless network A. Referring to FIG. At this time, one controller of the plurality of controllers becomes the indoor network manager. If there is a master controller among the plurality of controllers, the controller becomes the indoor network manager. As shown in FIG. 6, in the indoor wireless network, the indoor network manager may be configured to simultaneously transmit the same signal or data to all devices constituting the indoor wireless network. Of course, the air conditioner may be configured so that any device constituting the indoor wireless network simultaneously transmits data to other devices.

Referring to FIG. 4, four indoor units 100a to 100d are connected to two outdoor units 200a and 200b with a wall or a floor interposed therebetween, and the outdoor units each include a communication device 400. In addition, the controller 300 includes a second wireless communication module 310 and is installed indoors. For example, when the controller 300 attempts to send a control command to the indoor unit 100a, the controller 300 converts the control command into a wireless signal to the nearest indoor unit 100d using a wireless communication method and transmits the signal. In addition, the communication device 400 receiving the wireless signal converts the wireless signal into a pipe communication signal, and the indoor unit 100d transmits the pipe communication signal to the outdoor unit 200b connected through the refrigerant pipe 500. . The outdoor unit 200b which has received the pipe communication signal converts it into a wireless signal again and transmits it to the outdoor unit 200a to which the indoor unit 100a is connected, and the outdoor unit 200a which has received the radio signal as a pipe communication signal. It converts and delivers it to the indoor unit 100a. Here, the outdoor units 200a and 200b form an outdoor wireless network B. Here, the air conditioner further includes an outdoor network manager provided in the outdoor wireless network to perform communication in the outdoor wireless network and to approve or reject participation of another device into the outdoor wireless network. The outdoor network manager manages transmission and reception of signals or data between the outdoor units, and manages whether other outdoor units participate in the outdoor wireless network. In this case, the outdoor network manager is an outdoor unit adjacent to the controller.

Referring to FIG. 5, the air conditioner according to the present invention includes an indoor wireless network A between a plurality of controllers 300a to 300d and an indoor unit 100i, and a plurality of outdoor units 200a to 200c. An outdoor wireless network B may be formed. In this case, one of a plurality of controllers, for example, a master controller, becomes the indoor network manager, and an indoor unit 100i having a communication device 400, that is, an indoor unit 100i that forms an indoor wireless network A. And the outdoor unit 200c connected through the refrigerant pipe 500 may be an outdoor network manager.

7 illustrates a case where three outdoor units 200a to 200c form an outdoor wireless network, and the outdoor unit 200a is an outdoor network manager. In this case, the outdoor network manager 200a transmits and receives data with all other outdoor units 200b and 200c. 8 illustrates a case in which a relay device receives and reproduces a signal transmitted from the outdoor network manager and transmits the reproduced signal to another outdoor unit. That is, the three outdoor units 200a to 200c form an outdoor wireless network, and the outdoor unit 200a is set as an outdoor network manager, but the distance of some outdoor units 200c from the outdoor network manager is directly increased by an obstacle or the like. When communication is not possible, a signal or data from the outdoor network manager is received by using a relay device, and is reproduced and transmitted to the outdoor unit. In this case, the repeater may be an outdoor unit itself in the outdoor wireless network, or may be provided or connected in the form of a repeater in the outdoor unit.

Referring to FIG. 9, the controller includes a plurality of controllers, and each controller is installed separately in different floors, for example, the first floor and the fifth floor, and each of the controllers uses a different indoor wireless network from adjacent indoor units. Form. That is, the controller forms the indoor wireless network with each of the indoor units, and each indoor wireless network includes an indoor network manager. The controllers 300a and 300b have a communication device and form an indoor indoor network 100i with an adjacent indoor unit 100i, and the controller 300c also has a communication device and another indoor wireless network with an adjacent indoor unit 100f. (A2) is formed.

Referring to FIG. 10, the communication device 400 is connected to or provided with the outdoor unit 200 or the indoor unit 100, and communicates between the outdoor unit or indoor unit and the controller 300 through a wireless communication method. And communicate between the indoor unit and the outdoor unit through a pipe communication method.

The communication device 400 may include a first wireless communication module 410 for communicating between the outdoor unit or the indoor unit through the wireless communication method, and the controller, and the outdoor unit and the indoor unit through the pipe communication method. A pipe communication module 430 for performing communication and a signal conversion module for converting a radio signal according to the wireless communication method into a pipe communication signal according to the pipe communication method, or converting the pipe communication signal to the radio signal ( 420).

The first wireless communication module 410 receives an operation command or control data of the outdoor unit or the indoor unit from the controller 300, and transmits data of the outdoor unit or the indoor unit to the controller 300. The first wireless communication module 410 may use all commonly used wireless communication schemes. For example, the first wireless communication module 410 may use wireless LAN, RF communication, Bluetooth, infrared communication, and the like.

The pipe communication module 430 is a data transmission / reception unit 431 for receiving data from the outdoor unit or the indoor unit and transmitting the data to the outdoor unit or the indoor unit, and converts the data into the pipe communication signal, And a pipe communication signal conversion unit 432 for converting the pipe communication signal into the data. A carrier frequency of the pipe communication signal is selected in consideration of the characteristics of the refrigerant pipe 500 used as a transmission medium. That is, the frequency signal is coupled to the refrigerant pipe 500, and a frequency band for improving communication reliability by reducing signal attenuation and interference from external noise is used. The data transmission / reception unit 431 receives data such as operation data from the outdoor unit or indoor unit and transmits the data to the pipe communication signal conversion unit 432. The pipe communication signal conversion unit 432 converts the data into the pipe communication signal to be transmitted to another outdoor unit or indoor unit through the refrigerant pipe.

In addition, the pipe communication module 430 further includes a pipe communication signal coupling unit 434 for coupling the pipe communication signal to the refrigerant pipe. The pipe communication signal coupling unit 434 includes a magnetic core that forms a predetermined inductance with respect to the pipe communication signal to increase communication reliability.

The pipe communication module 430 is provided between the pipe communication signal conversion unit 432 and the pipe communication signal coupling unit 434 to filter the pipe communication signal and block noise and surge. It further includes a signal coupling unit 433. The pipe communication signal coupling unit 434 is composed of an inductor and a capacitor in a non-isolated manner to filter a signal, or a transformer in a transformer-isolated manner to block external noise and surge.

The signal conversion module 420 converts a radio signal according to the radio communication scheme into the pipe communication signal, or converts the pipe communication signal into the radio signal. The signal conversion module 420 may be included in the first wireless communication module 410 or the pipe communication module 430.

5 to 9 and 11 to 13, the air conditioner according to the present invention includes a plurality of indoor units 100 that perform air conditioning, some or all of the indoor units, and a refrigerant pipe 500. One or more outdoor units 200 connected to each other to drive the indoor unit, and an indoor wireless network with some of the indoor units, and one or more controllers 300 for controlling the operation of the indoor unit and the outdoor unit through the indoor wireless network. And a communication device connected to or provided with the outdoor unit or the indoor unit, configured to perform communication between the outdoor unit or indoor unit and the controller through a wireless communication method, and perform communication between the indoor unit and the outdoor unit through a dedicated line communication method. 400).

Referring to FIG. 13, the communication device 400 includes a first wireless communication module 410 for performing communication between the outdoor unit or the indoor unit and the controller through the wireless communication method, and through the dedicated line communication method. A dedicated line communication module 440 for communicating between an outdoor unit and the indoor unit, and converts a wireless signal based on the wireless communication method into a dedicated line communication signal according to the dedicated line communication method, or converts the dedicated line communication signal into the wireless signal. It is configured to include a signal conversion module 421.

The first wireless communication module 410 receives an operation command or control data of the outdoor unit or the indoor unit from the controller 300, and transmits data of the outdoor unit or the indoor unit to the controller 300. The first wireless communication module 410 may use all commonly used wireless communication schemes. For example, the first wireless communication module 410 may use wireless LAN, RF communication, Bluetooth, infrared communication, and the like.

The dedicated line communication module 440 may be configured to receive data from the outdoor unit or the indoor unit, convert the data into the dedicated line communication signal, and a data transmission / reception unit 441 for transmitting the data to the outdoor unit or the indoor unit. A dedicated line communication signal conversion unit 442 for converting the dedicated line communication signal into the data. In addition, the dedicated line communication module 440 further includes a dedicated line communication signal coupling unit 444 for coupling the dedicated line communication signal to the dedicated line. The dedicated line communication module 440 is provided between the dedicated line communication signal conversion unit 442 and the dedicated line communication signal coupling unit 444, and leased line communication signal coupling unit 443 filters the dedicated line communication signal. It includes more.

The data transmission / reception unit 441 receives data from the outdoor unit or the indoor unit and transmits the data to the dedicated line communication signal conversion unit or transmits data received from the dedicated line communication signal conversion unit to the outdoor unit or the indoor unit. The dedicated line communication signal conversion unit 442 converts the data into a dedicated line communication signal or converts the dedicated line communication signal into data and transmits the data to the data transmission / reception unit 442. The dedicated line communication signal coupling unit 444 has a matching means to couple the dedicated line communication signal to the dedicated line. The dedicated line communication signal coupling unit 443 blocks the influence of external noise or surge and filters the dedicated line communication signal. Here, although the dedicated line communication method may use serial communication, parallel communication, LAN communication, etc., generally, RS-485 communication method is used.

The signal conversion module 421 converts a radio signal according to the radio communication method into the dedicated line communication signal, or converts the dedicated line communication signal into the radio signal. The signal conversion module 421 may be included in the first wireless communication module 410 or the dedicated line communication module 440.

Referring to FIG. 14, a communication method of an air conditioner according to the present invention includes a plurality of indoor units that perform air conditioning, and one or more outdoor units connected to some or all of the indoor units through a refrigerant pipe to drive the indoor units. And at least one controller for controlling the operation of the indoor unit and the outdoor unit through the indoor wireless network, wherein the communication method comprises: a part of the controller and the indoor unit forms an indoor wireless network. In step S110, the controller converts a control command into a radio signal (S120), the controller transmits the radio signal through the indoor radio network (S130), and receives the radio signal. An indoor unit is configured to transmit the wireless signal to the outdoor unit or another indoor unit (S140). Here, the controller may be an indoor network manager. That is, the air conditioner includes an indoor network manager provided in the indoor wireless network to perform communication in the indoor wireless network and to approve or reject participation of another device into the indoor wireless network. In general, a controller, for example, a master controller, becomes an indoor network manager, and the indoor network manager manages data transmission and reception in the indoor wireless network to which it belongs, and the indoor wireless network of another device, for example, another controller or another indoor unit. Approve or reject participation in the network. Hereinafter, the apparatus will be described with reference to FIGS. 1 to 13.

For example, as illustrated in FIG. 3, the plurality of controllers 300a to 300d and the indoor unit 100c closest to the plurality of controllers 300 may form an indoor wireless network A (S110). At this time, one controller of the plurality of controllers becomes the indoor network manager. If there is a master controller among the plurality of controllers, the controller becomes the indoor network manager. As shown in FIG. 6, in the indoor wireless network, the indoor network manager may be configured to simultaneously transmit the same signal or data to all devices constituting the indoor wireless network. Of course, the air conditioner may be configured so that any device constituting the indoor wireless network simultaneously transmits data to other devices.

Referring to FIG. 9, the controller includes a plurality of controllers, and each controller is installed separately in different floors, for example, the first floor and the fifth floor, and each of the controllers uses a different indoor wireless network from adjacent indoor units. It forms (S110). That is, the controller forms the indoor wireless network with each of the indoor units, and each indoor wireless network includes an indoor network manager. The controllers 300a and 300b have a communication device and form an indoor indoor network 100i with an adjacent indoor unit 100i, and the controller 300c also has a communication device and another indoor wireless network with an adjacent indoor unit 100f. (A2) is formed (S110).

Referring to FIG. 15, in the communication method of the air conditioner according to the present invention, the controller and a part of the indoor unit form an indoor wireless network (S210), and the controller converts a control command into a wireless signal. (S220), the controller transmitting the wireless signal through the indoor wireless network (S230), and the indoor unit receiving the wireless signal transmits the wireless signal to the outdoor unit or another indoor unit (S240) And transmitting to the outdoor unit or another indoor unit (S240), the indoor unit receiving the wireless signal converts the wireless signal into a pipe communication signal (S243), and the indoor unit receiving the wireless signal And transmitting the pipe communication signal to an outdoor unit or an indoor unit that is the target of the control command (S245). In addition, the step (S240) of transmitting the outdoor unit or another indoor unit, the indoor unit receiving the wireless signal converts the wireless signal into a dedicated line communication signal (S244), and the outdoor unit or the indoor unit receiving the wireless signal And transmitting the dedicated line communication signal to an outdoor unit or an indoor unit that is the target of the control command (S245).

Referring to FIG. 2, two indoor units 100a and 100b are connected to one outdoor unit 200 with a wall or a floor interposed therebetween, and the controller 300 is installed indoors. Preferably, the communication device 400 is installed in the indoor unit 100b closest to the controller 300. This has the advantage of reducing the effect of signal attenuation according to distance and allowing the location of the controller 300 to be indoors. At this time, some of the indoor units (100a, 100b) and the controller 300 forms an indoor wireless network (S210), the controller becomes an indoor network manager. Of course, when the controller 300 is installed outside or adjacent to the outdoor unit 200, the controller 300 and the outdoor unit 200 directly transmit and receive signals through a wireless communication method. For example, when the controller 300 tries to send a control command to the indoor unit 100a, the controller 300 converts the control command into a wireless signal through the second wireless communication module 310 installed therein. When transmitting to the communication device 400 installed in the indoor unit (100b) (S220, S230), and converts the control command received by the communication device 400 into a pipe communication signal (dedicated line communication signal in Figs. 11 to 13) ( S243 and S245, the indoor unit 100b transmits to the indoor unit 100a by using a pipe communication method (or a dedicated line communication method) (S245). Here, the wireless communication method may be one or more of a general wireless communication method such as wireless LAN, RF communication, Bluetooth, infrared communication. In addition, the dedicated line communication method may use serial communication, parallel communication, LAN (Local Area Network) communication, etc., but generally uses the RS-485 communication method.

Referring to FIG. 16, in the communication method of the air conditioner according to the present invention, the controller and a part of the indoor unit form an indoor wireless network (S310), and one device included in the indoor wireless network is indoors. Step (S311) to be set as a network manager, the indoor network manager to transmit the wireless signal through the indoor wireless network (S330), and the indoor unit receiving the wireless signal the wireless signal to the outdoor unit or other It is configured to include a step (S340) for transmitting to the indoor unit.

17, the forming of the indoor wireless network may include: searching for a wireless channel by the indoor network manager (S420) and selecting an optimal wireless channel among the wireless channels by the indoor network manager. Process (S430), requesting another device to join the indoor wireless network to the indoor network manager (S460), and accepting or rejecting the participation based on the information of the device that the indoor network manager requested to participate. It comprises a process (S470 to S490). The air conditioner forms the indoor wireless network through the above procedures.

Referring to FIG. 16, in the communication method of the air conditioner, a plurality of outdoor units form an outdoor wireless network (S320), and one outdoor unit transmits the radio signal to another outdoor unit ( S350) is configured to further include. In addition, the communication method further includes the step (S321) of setting one outdoor unit included in the outdoor wireless network as an outdoor network manager. 17, the forming of the outdoor wireless network may include: searching for a wireless channel by the outdoor network manager (S420), and selecting an optimal wireless channel among the wireless channels by the outdoor network manager. Process (S430), an outdoor unit other than the outdoor network manager requesting the outdoor network manager to participate in the outdoor wireless network (S460), and the participation is performed based on the outdoor unit information requested by the outdoor network manager to participate. Approving or rejecting a process (S470 to S490). The air conditioner goes through the above procedures to form the outdoor wireless network.

For example, referring to FIG. 4, the outdoor units 200a and 200b form an outdoor wireless network B. Referring to FIG. The air conditioner includes an outdoor network manager provided in the outdoor wireless network to perform communication in the outdoor wireless network and to approve or reject another device's participation in the outdoor wireless network. The outdoor network manager manages transmission and reception of signals or data between the outdoor units, and manages whether other outdoor units participate in the outdoor wireless network. In this case, the outdoor network manager is an outdoor unit adjacent to the controller.

Referring to FIG. 5, the air conditioner forms an indoor wireless network A between the plurality of controllers 300a to 300d and the indoor unit 100i (S310), and between the plurality of outdoor units 200a to 200c. An outdoor wireless network B may be formed at step S320. In this case, one of a plurality of controllers, for example, a master controller, becomes the indoor network manager (S311), and an indoor unit provided with the communication device 400, that is, an indoor unit that forms an indoor wireless network (A). The outdoor unit connected through the 100i and the refrigerant pipe 500 may be an outdoor network manager (S321). For example, when the controller 300a tries to send a control command to the indoor unit 100a, the controller 300a transmits a control command to the indoor unit 100d in the indoor wireless network by using a wireless communication method through the formed indoor wireless network. The control command is converted into a wireless signal and transmitted (S330). Here, the controller 300a is set as an indoor network manager (S311). The communication device 400 of the indoor unit 100d receiving the wireless signal converts the wireless signal into a pipe communication signal or a dedicated line communication signal (S341, S342), and the indoor unit 100d transmits the pipe communication signal or a dedicated line communication. The signal is transmitted to the outdoor unit 200c connected through the refrigerant pipe 500 or the dedicated line 600 (S343). Here, the outdoor unit 200c is set as an outdoor network manager (S321). The outdoor unit 200c receiving the pipe communication signal or the dedicated line communication signal converts it into a wireless signal again (S351) and transmits it to the outdoor unit 200a to which the indoor unit 100a is connected (S352), and receives the wireless signal. When the outdoor unit 200a converts it into a pipe communication signal (or a dedicated line communication signal) and transmits it to the indoor unit 100a (S355), the indoor unit 100a performs the control command.

Referring to FIG. 16, the communication method may further include steps S353 and S354 for relaying a wireless signal transmitted by the outdoor network manager instead of the outdoor network manager. Referring to FIG. 7, three outdoor units 200a to 200c form an outdoor wireless network, and the outdoor unit 200a is set as an outdoor network manager, but the distance of some outdoor units 200c from the outdoor network manager is increased. If direct communication is not possible due to an obstacle or the like, that is, if a signal or data relay is required (S353), the relay device receives a signal or data from the outdoor network manager, reproduces the signal, and transmits the data to the outdoor unit. (S354).

In the above embodiments, the pipe communication method or the dedicated line communication method is used together with the wireless communication method, but it is also possible to use other wired or wireless communication methods such as a power line communication method.

As described above, the air conditioner and the communication method thereof according to the present invention form a wireless network between the indoor unit and the controller or between the outdoor units to perform communication, thereby easily performing addition or deletion of the device. Can be. In addition, the present invention does not provide a separate dedicated communication line, or control the one or more outdoor units and a plurality of indoor units while reducing the use of a dedicated communication line, the outdoor unit or indoor unit wireless communication method and pipe communication method, wireless communication method and dedicated line By performing communication using a plurality of communication methods of a communication method, and communicating with a controller using a wireless communication method, system operation efficiency is increased without increasing the installation environment, and system stability is improved.

100: indoor unit 200: outdoor unit
300: controller 400: communication device
410: first wireless communication module 420, 421: signal conversion module
430: pipe communication module 440: dedicated line communication module
500: refrigerant pipe 600: dedicated line

Claims (19)

A plurality of indoor units for performing air conditioning;
At least one outdoor unit connected to some or all of the indoor units through a refrigerant pipe to drive the indoor unit;
At least one controller forming an indoor wireless network with some of the indoor units, and controlling the operation of the indoor unit and the outdoor unit through the indoor wireless network; And
And a communication device connected to or provided with the outdoor unit or the indoor unit and configured to communicate with the indoor unit, the outdoor unit, and the controller through a plurality of communication schemes. The method according to claim 1,
And an indoor network manager provided in the indoor wireless network to perform communication in the indoor wireless network and to approve or reject another device's participation in the indoor wireless network. The method according to claim 1 or 2,
When the outdoor unit includes a plurality of outdoor units, the outdoor units form an outdoor wireless network. The method of claim 3,
And an outdoor network manager provided in the outdoor wireless network to perform communication in the outdoor wireless network and to approve or reject another device's participation in the outdoor wireless network. 5. The method of claim 4,
And a relay device which receives and reproduces a signal transmitted from the outdoor network manager and transmits the reproduced signal to another outdoor unit. The method of claim 2,
In the case of including a plurality of controllers, the controllers form the indoor wireless network with each of the indoor units, respectively,
The indoor wireless network each has an indoor network manager, characterized in that the air conditioner. The method of claim 1, wherein the communication device,
And a first wireless communication module configured to communicate between the outdoor unit and the indoor unit and the controller through a wireless communication method. The method of claim 7, wherein the controller,
And a second wireless communication module configured to communicate with a first wireless communication module provided in an indoor unit in the indoor wireless network through a wireless communication method. The method of claim 7, wherein the communication device,
And a pipe communication module configured to perform communication between the outdoor unit and the indoor unit through a pipe communication method. The method of claim 7, wherein the communication device,
And a dedicated line communication module configured to perform communication between the outdoor unit and the indoor unit through a dedicated line communication method. A plurality of indoor units performing air conditioning, one or more outdoor units connected to some or all of the indoor units through a refrigerant pipe, and driving the indoor units, and one controlling the operation of the indoor unit and the outdoor unit through the indoor wireless network In the communication method of the air conditioner comprising the above controller,
Forming part of an indoor wireless network by the controller and a part of the indoor unit;
The controller converting a control command into a wireless signal;
The controller transmitting the wireless signal through the indoor wireless network; And
And an indoor unit receiving the wireless signal transmits the wireless signal to the outdoor unit or another indoor unit. The method of claim 11, wherein the transferring to the outdoor unit or another indoor unit,
The indoor unit receiving the wireless signal converts the wireless signal into a pipe communication signal; And
And transmitting the pipe communication signal to an outdoor unit or an indoor unit that is the target of the control command. The method of claim 11, wherein the transferring to the outdoor unit or another indoor unit,
An indoor unit receiving the wireless signal converts the wireless signal into a dedicated line communication signal; And
And transmitting the dedicated line communication signal to an outdoor unit or an indoor unit that is the target of the control command. 12. The method of claim 11,
And setting one device included in the indoor wireless network as an indoor network manager. The method of claim 14, wherein forming the indoor wireless network,
Searching for a wireless channel by the indoor network manager;
Selecting an optimal wireless channel among the wireless channels by the indoor network manager;
Requesting another device to join the indoor wireless network to the indoor network manager; And
And approving or rejecting the participation based on the information of the device that the indoor network manager has requested to participate. 12. The method of claim 11,
Forming a wireless outdoor network by the plurality of outdoor units; And
And transmitting, by one outdoor unit of the outdoor units, the wireless signal to another outdoor unit. 17. The method of claim 16,
And setting one outdoor unit included in the outdoor wireless network as an outdoor network manager. The method of claim 17, wherein forming the outdoor wireless network,
Searching for a wireless channel by the outdoor network manager;
Selecting, by the outdoor network manager, an optimal wireless channel among the wireless channels;
Requesting an outdoor unit other than the outdoor network manager to join the outdoor wireless network to the outdoor network manager; And
And approving or rejecting the participation based on the outdoor unit information requested by the outdoor network manager to participate. 19. The method of claim 18,
And relaying, by the outdoor unit, not the outdoor network manager, the wireless signal transmitted by the outdoor network manager.

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