KR20090078637A - Air conditioner - Google Patents

Abstract

An air-conditioner is provided to execute various setting and control using option as well as simple on/off control of additional units. An air-conditioner comprises one or more outdoor units(O), a plurality of indoor units(I) and a remote controller(RC). A plurality of indoor units are connected to the outdoor units. The remote controller center-controls the outdoor units and the indoor units. At least one of the indoor unit and the remote controller comprises a contact point controller(DCN) to which contact point control units(OP) such as ventilator, humidifier, air purifier, and heater are connected. The contact point controller includes a mode setting part to set the mode for controlling the operation of the contact point control units.

Description

Air Conditioner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner that connects and controls units of different communication methods or different protocols through a contact controller.

In general, an air conditioner is provided for cooling, heating, and air purification, and is installed to discharge air of cold and warm air into a room, and to clean indoor air to create a more comfortable indoor environment for humans. 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 a heat exchanger, and is operated by controlling power supplied to a compressor or a heat exchanger.

The air conditioner may be connected to at least a plurality of indoor units to a plurality of outdoor units, and at least one of the plurality of outdoor units is driven in correspondence to the number of indoor units to be driven, and supplies refrigerant to the indoor units according to a requested driving state, thereby cooling or It is operated in heating mode.

Such an air conditioner may be installed by connecting an additional unit directly to an indoor unit, in addition to the unit of the air conditioner initially installed, or may be additionally installed by using a predetermined connection device.

However, the additionally installed unit as described above is difficult to control when the product is different from the previously installed unit or only simple control to turn on or off the operation, there is a difficulty in controlling the added unit. In addition, since it is impossible to monitor and control the operation state of the added unit through the remote controller of the air conditioner, and the control is performed only at the site where the unit is installed, there is a problem of low convenience and efficiency of control.

It is an object of the present invention to monitor and control a unit additionally installed through a remote controller in addition to the pre-installed unit, and not only simple on and off control, but also air conditioning to enable various controls according to options To provide a flag.

An air conditioner according to the present invention comprises at least one outdoor unit and a plurality of indoor units connected to the outdoor unit, and an air conditioner including a remote controller for centrally controlling the outdoor unit and the indoor unit, wherein at least one of the indoor unit and the remote controller Further comprising a contact controller for connecting a predetermined unit, the contact controller is characterized in that it comprises a mode setting unit for setting a mode for controlling the operation of the contact control unit connected to the contact controller.

In addition, the air conditioner according to the present invention is an air conditioner including an outdoor unit and a plurality of indoor units connected to the outdoor unit, and a remote control unit for central control of the outdoor unit and the indoor unit, the remote controller and a predetermined protocol or communication method is different A contact controller for connecting the contact control unit of the controller to set an operation mode of the contact control unit, wherein the contact controller controls an operation of the connected unit in response to a control command of the remote controller. .

The air conditioner according to the present invention configured as described above is not only simple on and off control for the unit additionally installed, but also various settings and control using options, and easy to change it, greatly improving the convenience of control In addition, since it can be monitored and controlled together with other units of the air conditioner at a long distance without moving to the field, the efficiency of the air conditioner control and management is greatly improved.

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

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

As shown in FIG. 1, the air conditioner according to the present invention includes at least one indoor unit (I11 to I13, I21 to I23) and at least one outdoor unit (O1, O2) connected to the indoor units (I11 to I13, I21 to I23). , A remote controller (RC) for controlling and monitoring the indoor unit and the outdoor unit, and a local controller (R) for controlling the indoor unit connected to at least one indoor unit.

In addition, the air conditioner is connected to at least one of the remote controller (RC), outdoor unit (O1, O2), indoor unit (I11 to I13, I21 to I23), the contact controller (DCN) for connecting the contact control unit (OP01, OP02) More). At least one of the ventilation device, the humidifier, the air cleaner, and the heater may be used as the contact control units OP01 and OP02, and the indoor unit and the outdoor unit may be additionally installed as additional contact control units.

The indoor units I11 to I13 and I21 to I23 include an indoor heat exchanger, an indoor unit fan, an expansion valve to which the refrigerant supplied from the outdoor units O1 and O2 are expanded, and a plurality of sensors.

The outdoor units (O1, O2) are a compressor for receiving and compressing a refrigerant, an outdoor heat exchanger for exchanging refrigerant and outdoor air, an accumulator for extracting gas refrigerant from the supplied refrigerant, and supplying it to the compressor, and a refrigerant flow path for heating operation. It includes a four-way valve to select. In addition, a high pressure pressure sensor for measuring the pressure of the refrigerant discharged from the compressor and a low pressure pressure sensor for measuring the pressure of the refrigerant supplied to the compressor. In addition, a plurality of sensors, valves and oil recoverers, etc. are further included, but a description of the configuration will be omitted below.

The outdoor units O1 and O2 and the indoor units I11 to I13 and I21 to I23 are connected through a refrigerant pipe to perform cooling or heating operations according to the flow of the refrigerant according to the flow of the refrigerant between the outdoor unit and the indoor unit, and predetermined communication. Send and receive data with each other according to the method.

The remote controller RC transmits and receives data through communication with the outdoor unit and the indoor unit, and outputs the operation state through display means provided to enable the user to monitor the operation state of the indoor unit and the outdoor unit.

In addition, the remote controller RC generates and transmits a control command to control the operation of the indoor unit and the outdoor unit according to the input user command, and controls the outdoor unit and the indoor unit to be driven according to a predetermined schedule. Even if the air conditioner includes a unit such as a ventilator, a humidifier, an air cleaner, and a heater other than the indoor unit and the outdoor unit, remote control and monitoring through the remote controller (RC) is possible.

At least one of the remote controllers RC is included in the air conditioner and connected to each other according to a predetermined communication method to control the units included in the air conditioner.

The contact point controller DCN transmits and receives data in a different communication manner from an additional unit to which an additionally connected option unit is installed, or uses a different protocol, and transmits and receives data to or from any of the connected devices, that is, a remote controller, an indoor unit, and an outdoor unit. It transmits data of the contact control unit and receives a control command to operate the contact control unit. At this time, the contact controller DCN variably controls the setting so that the connected contact control unit is operated in a plurality of operation modes.

2 is a block diagram showing a connection configuration of a contact controller according to an embodiment of the present invention.

As shown in FIG. 2, the contact controller DCN may be connected to the remote controller RC to connect an outdoor unit and an indoor unit having a different communication scheme or a different protocol from the pre-installed outdoor unit and the indoor unit as the contact control unit. In this case, the contact controller DCN may be provided inside the remote controller RC or may be separately connected to the outside. In addition to the indoor and outdoor units, the DCN may additionally connect an air cleaner, a ventilation device, a humidifier, a heater, an alarm device, and the like.

In addition, the contact controller DCN may be connected to the outdoor unit O or the indoor unit I to connect a unit driven in conjunction with the operation of the indoor unit or the outdoor unit. In this case, the contact controller DCN may connect a ventilation device, an air cleaning device, a humidifier, a heater, or the like, or, in some cases, an alarm device and a lighting device.

At this time, the contact controller DCN may set options for the contact control units OP1 and OP2 regardless of the connected position, and the setting unit for setting the options is provided in the contact controller or installed externally through a separate communication line. Can be connected. In particular, the contact controller DCN may have a setting unit attached to or provided on the side of the local controller R or the remote controller RC, so that the setting of the contact controller DC is variably controlled.

The contact point controller (DCN) includes conversion means according to a plurality of communication methods or protocols to enable data transmission and reception between communication using different communication methods or different protocols, and converts the transmitted / received data to transmit data to the destinations of the respective data. Be sure to

3 is a block diagram showing the configuration of an air conditioner according to connection to a contact controller according to an embodiment of the present invention.

As shown in FIG. 3, in the first embodiment of the contact controller DCN, the contact controller DCN1 is connected to the remote controller RC1 as shown in FIG. Controls the contact control unit OP1 connected to the controller. In this case, the setting unit of the contact control unit for setting options for the contact control unit OP1 may be provided in the local controller, and in some cases, a separate local controller for the contact control unit OP1 may be provided. When a local controller for the contact control unit exists, data of the user command input through the local controller is applied to the contact controller DCN1, and the contact controller DCN1 controls the contact control unit accordingly.

In the second embodiment of the contact controller, as shown in Fig. 3B, the contact controller DCN2 is provided inside the remote controller RC2. That is, by embedding the contact controller DCN2 in the remote controller RC2, the contact control unit as described above, that is, the air cleaning device, the ventilation device, the humidifier, the heater, the alarm device, and the like is further connected to the air conditioner, It can be operated in cooperation with the harmonic. At this time, since the contact controller DCN2 is built in the remote controller, the option control unit can be connected to the remote controller without a separate contact controller connected to the outside.

As shown in (c) of FIG. 3, the third embodiment of the contact controller includes a contact controller DCN3 connected to the outdoor unit O3 and interlocked with the operation of the outdoor unit O3 and the indoor unit I3 connected to the outdoor unit. OP3) can be controlled to operate.

In addition, in the fourth embodiment of the contact controller, as shown in FIG. 3D, the contact controller DCN4 is connected to the indoor unit I4, so that the option control unit OP4 is connected. In the fifth embodiment of the contact controller, as shown in (e) of FIG. 3, the contact controller DCN5 is connected to the indoor unit I5, and at the same time, it is provided inside the remote controller RC2 as in the above-described second embodiment. The other contact controller DCN2 is connected in a predetermined communication manner so that the connected contact control unit OP5 is connected to the indoor unit and the remote controller RC2.

4 is a block diagram showing the configuration of the contact controller of FIG.

As shown in FIG. 4, the contact controller DCN includes a communication unit 60, a contact controller 10, a display unit 20, a contact signal unit 30, a mode setting unit 40, and an initialization setting unit 50. It includes.

The communication unit 60 includes at least one communication module to apply data received by different communication schemes to the contact controller 10 and transmit data in response to a control command of the contact controller 10. At this time, the communication unit 60 includes a wired or wireless communication module, and operates as a gateway for converting and transmitting different protocols in some cases. In addition, the communication unit 60 further includes a conversion unit for converting the type of data transmitted and received.

The contact controller 10 is provided with a display unit 20 for displaying an option setting state or a message, or connected to another unit to be connected, for example, the local controller R, so that the option setting is input from the local controller R. In the case of the display, the display unit provided in the local controller R may display the state information of the contact controller and the option setting of the contact control unit without a separate display unit.

The contact signal unit 30 receives a signal corresponding to the connection state of the contact and applies it to the contact control unit 10. In this case, the contact connection state may be indicated by a signal of 1,0 or high low according to connection and disconnection, and may correspond to various connection states in correspondence with the number of connection terminals or ports provided.

The mode setting unit 40 includes a plurality of switches to provide the contact point controller 10 with mode information corresponding to the setting of the mode setting switch. In addition, the mode setting unit 40 sets the control mode of the contact connection unit according to the switch setting to correspond to the contact signal of the contact signal unit 30.

The mode setting unit 40 sets the mode by combining the switch according to the operation state of the switch and the contact signal, and sets a plurality of modes for controlling the contact control unit in response to the number of the mode setting switches and the combination thereof. .

At this time, the mode setting unit 40 may receive the contact signal of the contact signal unit 30, set whether the local controller can be controlled, and set the on / off or power saving mode of the temperature controller. In addition, when the connected contact control unit is operated, the mode setting unit 40 sets an initial driving state, whether or not interlocking with other devices, a lock setting, and an operation mode according to the type of the unit.

In addition, the mode setting unit 40 sets the temperature corresponding to the measured value of the temperature control unit provided, and sets the on / off temperature control unit.

For example, when the indoor unit is connected as the contact control unit OP to the contact controller DCN, when the mode setting unit 40 sets the operation mode to the blowing mode, the indoor unit connected to the contact controller DCN is operated and It is operated in blow mode. In addition, when the temperature is set to 20 degrees through the mode setting unit 40, the indoor unit that is the contact control unit (OP) stops the operation when the temperature drops to 20 degrees or less in the cooling mode.

The initialization setting unit 50 restores the settings for controlling the contact control unit OP by the mode setting unit 40 and the contact signal unit 30 to an initial state.

The initialization setting unit 50 releases the preset setting in any of the cases in which the switch provided is operated for a predetermined time or continuously operated, and restores the initial setting value. At this time, when the setting is initialized, the initialization setting unit 50 outputs a predetermined warning sound or turns on the warning light.

Here, the display unit 20 outputs an operation state of the contact controller, and in particular, the contact setting information according to the mode setting unit 40 and the contact signal unit 30 is displayed. In addition, the display unit 20 may display state information of the contact control unit connected to the contact controller in some cases. In addition, the display unit 20 outputs an error when it occurs.

5 is a diagram illustrating a configuration of a contact signal unit of the contact controller of FIG.

As shown in FIG. 5, the contact signal unit 30 of the contact controller includes contact contact terminals CP21, CP22, and CP23 for transmitting signals of the contact connector INA and INB and the contact connector to the contact controller 10. Include.

Here, the mode setting unit 40 includes a control mode switch SW6 for variably setting the control mode according to the contact signal of the contact signal unit 30.

At this time, the mode setting unit 40 is connected to the contact signal input from the contact connection unit (INA, INB) of the contact signal unit 30, whether the input power is applied according to the operation state of the control mode switch (SW6), the local controller Set whether the on / off control is possible and whether the temperature controller is on or off. In this case, when the power is set to be applied, an external input power is used through the contact controller, and when the power is not applied, 5V is applied.

The control mode switch SW6 sets any one of a plurality of control modes in accordance with the setting. At this time, the signal is applied to the contact controller 10 so that the contact control unit OP connected to the set control mode is operated. The control mode switch SW6 may be a rotary switch or a slide switch capable of setting a plurality of modes, but is not limited thereto.

Referring to the control mode switch SW6 and the state of the contact signal, the control mode setting of the contact control unit will be described as follows.

In a state where the control mode switch SW6 is set to 0, independent control by the wired local controller is possible regardless of input signals of the first contact connecting portion INA and the second contact connecting portion. All other inputs are ignored here.

In addition, when the control mode switch SW6 is set to 1, when the input signal of the first contact connector INA is 0 and the input signal of the second contact connector is 0, on / off control by the local controller is impossible. When the input signal of the first contact connecting unit INA is 1 and the input signal of the second contact connecting unit is 0, the connected contact control unit is set to operate and at the same time, it is set to be impossible to control by the local controller. On the other hand, when the input signal of the first contact connector INA is 0, the input signal of the second contact connector INA is 1, the input signal of the first contact connector INA is 1, and the input signal of the second contact connector INA is 1 In this case, the operation of the connected contact control unit is stopped, and control by the local controller is also impossible.

Here, when the second contact connecting portion INB is 1, the connected contact control unit is forcibly stopped regardless of the setting of the control mode switch SW6 and the first contact connecting portion. However, when the control mode switch SW6 is set to 11 to 16, exceptionally other settings are performed.

At this time, when the second contact connecting portion (INB) is changed from 1 to 0, the contact control unit may start the operation, but only when the setting of the first contact connecting portion (INA) is changed, the operation starts, the first contact If the state of the connection INA is not maintained automatically.

When the control mode switch SW6 is set to 2, when the input signal of the first contact connecting portion INA is 0 and the input signal of the second contact connecting portion is 0, on-off control by the local controller is impossible. When the input signal of the first contact connecting unit INA is 0 and the input signal of the second contact connecting unit is 0, it is set to enable on / off control by the local controller.

When the input signal of the first contact connecting portion INA is 0 and the input signal of the second contact connecting portion is 0 while the control mode switch SW6 is 3, operation stop control by the local controller is possible, and the first contact point is When the input signal of the connecting portion INA is 1 and the input signal of the second contact connecting portion is 0, the contact control unit is operated while the operation stop control by the local controller is possible. However, operation start control by the local controller is not possible.

Further, when the input signal of the first contact connecting portion INA is 0 and the input signal of the second contact connecting portion is 0 while the control mode switch SW6 is 4, on-off control by the local controller is possible. When the input signal of the first contact connector INA is 0 and the input signal of the second contact connector is 0, on-off control by the local controller is possible, but operation control by the contact control unit is set to be impossible.

That is, when the control mode switch SW6 is 1 to 4, the operation of the contact control unit connected to the contact controller is changed and set according to the signal of the first contact connector INA.

When the control mode switch SW6 is set to 5, when the input signal of the first contact connector INA is 0 and the input signal of the second contact connector is 0, the on / off control by the local controller is disabled. When the input signal of the first contact connecting unit INA is 1 and the input signal of the second contact connecting unit is 0, on / off toggle control is enabled when the first contact connecting unit INA is changed to on.

On the other hand, when the control mode switch SW6 is 6, when the input signal of the first contact connecting portion INA is 0 and the input signal of the second contact connecting portion is 0, it is set to enable individual control of the local controller. When the input signal of the first contact connector INA is 0 and the input signal of the second contact connector is 0, on / off toggle control is enabled at the moment when the signal of the first contact connector becomes a high signal. When the input signal of the second contact connecting unit is 0, the connected contact control unit is stopped regardless of the signal of the first contact connecting unit INA, and the on / off control by the local controller becomes impossible.

On the other hand, when the control mode switch SW6 is 7 to 11, the operation setting for the contact control unit is changed and set in response to the signals of the first contact connecting portion and the second contact connecting portion.

In addition, when the control mode switch SW6 is 7 to 10, if the signal of the second contact connector is 1, the contact control unit is stopped regardless of the signal of the first contact connector, and the on / off control by the local controller is limited. do.

When the signal of the second contact connector is 0 and the signal of the first contact connector INA is 0, the on / off control by the local controller is impossible when the control mode switch SW6 is 7 and 8. do. On the other hand, when the control mode switch SW6 is 9, it is possible to control off by the local controller. When the control mode switch SW6 is 10, the on / off control by the local controller is set.

If the signal of the second contact connector is 0 and the signal of the first contact connector INA is 1, when the control mode switch SW6 is 7, the contact control unit is operated and on / off control by the local controller is impossible. When the control mode switch SW6 is 8, the contact control unit is operated and the on / off control by the local controller is enabled. In addition, when the control mode switch SW6 is 9, the contact control unit is operated, and operation start control by the local controller is not possible, but the off control is set to be possible, and when the control mode switch SW6 is 10, the local controller Enable on and off control. However, control by the contact control unit controller becomes impossible.

On the other hand, when the control mode switch SW6 is 11, the local controller can be individually controlled when the input signal of the first contact connector INA is 0 and the input signal of the second contact connector is 0. Control is impossible, and when the input signal of the first contact connector INA is 1 and the input signal of the second contact connector is 0, the contact control unit is operated and is set to be able to be turned off and on by the local controller.

When the control mode switch SW6 is 12th to 16th, the operation of the temperature measuring instrument using the signal of the second contact connecting portion INB is set.

When the control mode switch SW6 is 12, when the input signal of the first contact connecting portion INA is 0 and the input signal of the second contact connecting portion is 0, on / off control by the local controller is set to be impossible. When the input signal of the one contact connecting portion INA is 1, the on and off toggle control is enabled when the signal is changed to 1. In addition, when the second contact connecting portion INB is 1, the temperature measuring device is stopped regardless of the input signal of the first contact connecting portion INA.

When the control mode switch SW6 is set to 13, when the input signal of the first contact connecting portion INA is 0 and the input signal of the second contact connecting portion is 0, on / off control by the local controller is impossible. If the input signal of the first contact connecting portion INA is 1, the on / off toggle control is enabled when the signal is changed to 1. In this case, when the input signal of the second contact connector INB is 1, the power saving mode is set regardless of the input signal of the first contact connector INA.

When the control mode switch SW6 is set to 14, the input signal of the first contact connector INA is 0, the input signal of the second contact connector is 0, and individual control of the local controller is possible. If it is ignored, if the input signal of the first contact connecting portion INA is 1, the on and off dog control is enabled when the signal is changed, and at this time, the on and off control by the local controller is also set. At this time, when the input signal of the second contact connecting portion INB is 1, the temperature measuring device is stopped regardless of the input signal of the first contact connecting portion INA.

In addition, when the control mode switch SW6 is set to 15, the same as when the control mode switch SW6 is 14, but when the input signal of the second contact connecting portion INB is 1, the first contact connecting portion INA Power saving mode is set regardless of).

FIG. 6 is a diagram illustrating a configuration of a mode setting unit of the contact controller of FIG. 4.

As shown in FIG. 6, the mode setting unit 40 may set the temperature at the connected contact control unit OP.

The mode setting unit includes a temperature control unit VB01, connection terminals CP11 and CP12 of the temperature control unit, and a plurality of setting switches S1, S2, and S3.

At this time, the temperature control unit (VB01) may be used a variable resistor whose resistance value is variable according to the operating state. The connection terminals CP11 and CP12 are connected to both ends of the temperature controller VB01 and are connected to the contact controller 10.

At this time, the contact control unit OP may be set to operate based on the temperature set by the temperature controller VB01 according to the operation state of the setting switches S1, S2, and S3. That is, when the control using the temperature is turned off by the setting switch, the contact control unit OP is operated irrespective of the set temperature even if the temperature is set by the temperature adjusting unit. Further, in the control by the local controller according to the operation state of the setting switch, it can be set so that the contact control unit is controlled according to the temperature value of the temperature controller.

Looking at the operation according to an embodiment of the present invention configured as described above are as follows.

7 is a flowchart illustrating a method of operating an air conditioner using a contact controller according to an embodiment of the present invention.

Referring to FIG. 7, it is determined whether the remote controller, that is, the remote controller RC is connected (S110), and when connected, it is determined whether the protocols between the products match (S120). At this time, if the protocols between the products match, check the communication speed to determine whether the communication speed matches (S130).

Here, when the protocol and the communication speed between the products match, by controlling the operation of the contact control unit by communicating with the device connected through the remote controller (RC) by sending and receiving data between the products in the communication method set using the specified protocol. do. (S150).

On the other hand, if at least one of the protocol and the communication method between the products do not match, it is determined whether the contact controller is installed (S140), if the contact controller is installed and the contact control unit is connected through the contact controller to correspond to the setting of the contact controller Controls the on and off operation of the contact control unit.

At this time, the operation of the contact control unit can be controlled differently according to the setting of the contact controller.

Here, when at least one of a protocol and a communication method does not match, and a different contact control unit is connected in a state where a contact controller is not connected, the control of the corresponding contact control unit through the central controller is impossible (S170). The message is output (S180).

Although the air conditioner according to the present invention has been described with reference to the illustrated drawings, the present invention is not limited by the embodiments and drawings disclosed herein, and may be applied within the scope of the technical idea.

1 is a block diagram showing the configuration of an air conditioner according to an embodiment of the present invention,

2 is a block diagram showing a connection configuration of a contact controller according to an embodiment of the present invention;

3 is a block diagram showing the configuration of an air conditioner according to connection to a contact controller according to an embodiment of the present invention;

4 is a block diagram showing the configuration of the contact controller of FIG.

5 is a diagram showing the configuration of a contact signal unit of the contact controller of FIG.

6 is a diagram showing the configuration of the mode setting unit of the contact controller of FIG.

7 is a flowchart illustrating a method of operating an air conditioner using a contact controller according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

I, I11 to I13, I21 to I23: indoor unit

O, O1, O2: Outdoor unit RC1: Remote controller

R: Local Controller

DCN: Contact Controller OP1, OP2: Contact Control Unit

10: contact control unit 20: display unit

30: contact signal unit 40: mode setting unit

50: initialization unit 60: communication unit

Claims (12)

An air conditioner including at least one outdoor unit and a plurality of indoor units connected to the outdoor unit, and a remote controller for centrally controlling the outdoor unit and the indoor unit, At least one of the indoor unit and the remote controller further comprises a contact controller for connecting a predetermined unit, And the contact controller includes a mode setting unit for setting a mode for controlling the operation of the contact control unit connected to the contact controller. The method according to claim 1, The contact controller further includes a contact signal unit for receiving a contact signal corresponding to the connection state of the contact control unit, And the mode setting unit sets the contact control unit to operate in a predetermined operation mode in response to a set mode and a combination of settings by the contact signal. The method according to claim 2, The contact controller corresponds to a mode set by the mode setting unit, the temperature setting for the operation control of the contact control unit, whether to receive a command from the controller, the energy saving mode, the initial driving state, the operation mode, the operation state and the lock Air conditioner characterized in that for controlling the operation of the contact control unit in at least one operation mode of the setting. The method according to claim 2, The contact controller corresponds to a mode set by the mode setting unit, and sets a ventilation mode for controlling the operation of the contact control unit, whether to interlock with another outdoor unit or an indoor unit, an initial driving state and a ventilation setting for the ventilation mode. Air conditioner characterized in that for controlling the operation of the contact control unit in at least one operation mode of the lock. The method according to claim 3, When the contact controller is set to receive a command from any one of a remote controller, a local controller, and an indoor unit by the mode setting unit, the contact controller controls the contact control unit to operate in response to the received command. group. The method according to claim 3, The contact controller further includes a temperature controller configured to set a temperature for the contact controller in the mode setting unit, and sets the temperature value set by the temperature controller as a target temperature for the contact controller. Air conditioning. The method according to claim 6, The temperature control unit further includes a variable resistor in which a resistance value is varied according to an operation state, and in response to the resistance value of the variable resistor, inputting a target temperature. The method according to claim 1, The mode setting unit includes a plurality of switches, wherein at least one of the plurality of switches is attached or provided to at least one of an indoor unit, a remote controller, a local controller to which the contact controller is connected. The method according to claim 8, The mode setting unit includes at least one of a rotary switch, a sliding switch, a touch input means and a button. The method according to claim 1, The air conditioner of claim 1, wherein the contact control unit comprises at least one of an indoor unit, an air cleaner, a ventilator, a heater, and a humidifier. An air conditioner including a plurality of indoor units connected to an outdoor unit and the outdoor unit, and a remote controller for centrally controlling the outdoor unit and the indoor unit, A contact controller which connects the remote controller with a predetermined contact control unit having a different protocol or communication method, and sets an operation mode of the contact control unit, And the contact controller controls an operation of the unit connected in response to a control command of the remote controller. The method according to claim 9, And the contact controller controls the contact control unit to operate in association with the operation state of the indoor unit and the outdoor unit in response to the heat of the remote controller.

Images