KR101962164B1 - Air-conditioning system and controlling method thereof - Google Patents

Abstract

The present invention relates to an air conditioning system and a control method thereof. The air conditioning system according to the present invention includes a plurality of indoor units installed in one space, at least one outdoor unit connected to the plurality of indoor units, and a control unit provided to transmit predetermined information to the plurality of indoor units , The control unit includes a receiver for receiving room temperature information sensed by any one of the plurality of indoor units and a transmitter for transmitting the room temperature information so that the plurality of indoor units are controlled to the room temperature received by the receiver do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioning system,

The present invention relates to an air conditioning system and a control method thereof.

The air conditioning system is a system for keeping the air in a predetermined space in a most suitable state according to the purpose of use. Generally, the air conditioning system includes a compressor 210, a condenser, an expansion device, and an evaporator, and a refrigerant cycle for compressing, condensing, expanding, and evaporating the refrigerant is driven to cool or heat the predetermined space .

At this time, the predetermined space may be variously proposed according to the place where the air conditioning system is used. For example, when the air conditioning system is used in a home or an office, the predetermined space may be a house or an indoor space of a building. In addition, when the air conditioning system is used in an automobile, the predetermined space may be a boarding space on which a person is boarded.

The air conditioning system includes an indoor unit disposed in the predetermined space and an outdoor unit connected to the indoor unit to form a refrigerant cycle. In particular, a plurality of indoor units may be provided to provide air in harmony with the user.

The present applicant has filed a patent application relating to an air conditioning system including a plurality of indoor units as follows.

(1) First Prior Art: Japanese Patent Application Laid-Open No. 10-2015-0097174, a remote control unit of an air conditioner and an air conditioner including the same

(2) Second Prior Art: Registration No. 10-1203559, air conditioning system capable of group control and operation method thereof

Such prior art documents control a plurality of indoor units to provide conditioned air to the user. At this time, in the first prior art document, while the desired temperature setting information of a plurality of indoor units is the same in the group control connection state, the indoor temperature information state is different, and the operation of the outdoor unit is performed differently for each indoor unit. In the second prior art, the desired temperature setting of each indoor unit can be set to the same, but the operation of the outdoor unit can not be unified.

That is, the first preceding document and the second preceding document have a problem that the outdoor units must operate differently for each indoor unit. In particular, a plurality of indoor units arranged in one space provide different air due to outdoor units operating differently.

For example, during the cooling operation of the air conditioning system, cool air can be discharged to any indoor unit arranged in one space, and blowing air can be discharged to other indoor units. Accordingly, there is a problem that the user does not trust the operation of the indoor unit and feels uncomfortable. Particularly, when a plurality of indoor units are installed together in one space, the user feels that the operation of the indoor unit is different and can feel inconvenience.

The present invention provides an air conditioning system and a control method thereof in which a plurality of indoor units arranged in one space are operated in the same manner.

The present invention also provides an air conditioning system and its control method that can be controlled in various forms, such as selecting or replacing an indoor unit requiring a group control among a plurality of indoor units using a control unit.

The air conditioning system according to the present invention includes a plurality of indoor units installed in one space, at least one outdoor unit connected to the plurality of indoor units, and a control unit provided to transmit predetermined information to the plurality of indoor units , The control unit includes a receiver for receiving room temperature information sensed by any one of the plurality of indoor units and a transmitter for transmitting the room temperature information so that the plurality of indoor units are controlled to the room temperature received by the receiver do.

The control unit is further provided with an input unit for selecting one of the plurality of indoor units as an indoor unit for transmitting the room temperature information to the receiving unit.

The input unit may be configured to change one of the plurality of indoor units to transmit the room temperature information to another indoor unit.

The control unit may further include an input unit for selecting at least one of the plurality of indoor units to receive the indoor temperature information from the transmission unit.

The input unit may be configured to change at least one indoor unit among the plurality of indoor units to receive the room temperature information from the transmission unit to at least one other indoor unit.

The control unit may further include a room temperature sensing unit for sensing a room temperature, and the transmitter may transmit room temperature information so that the plurality of indoor units are controlled to a room temperature sensed by the room temperature sensing unit.

According to another aspect of the present invention, there is provided a method of controlling an air conditioning system including a plurality of indoor units installed in a space, the method comprising: receiving indoor temperature information from any one of the plurality of indoor units And transmits the room temperature information to the plurality of indoor units so that the plurality of indoor units are controlled to an indoor temperature of any one of the plurality of indoor units, and the plurality of indoor units are controlled to be one indoor temperature.

So that any one of the plurality of indoor units can be selected to receive indoor temperature information.

At least one of the plurality of indoor units may be selected to transmit the room temperature information, and only the indoor units selected from the plurality of indoor units may be controlled at a room temperature.

The indoor temperature can be sensed through the indoor temperature sensing unit provided in the control unit, the sensed room temperature can be transmitted to the plurality of indoor units, and the plurality of indoor units can be controlled at the sensed room temperature.

According to the present invention, there is an advantage that a plurality of indoor units arranged in one space can be controlled to be one room temperature, and the same discharged air can be provided.

Accordingly, there is an advantage that a user existing in the one space can trust the operation of the plurality of indoor units and obtain satisfaction.

Particularly, the control unit can be used to control the plurality of indoor units to a room temperature simply by transmitting the indoor temperature of any one of the plurality of indoor units to other indoor units.

In addition, by selecting and changing the indoor unit that senses the indoor temperature, it is more accurate and can be controlled in the direction desired by the user.

Also, since the indoor temperature controlled by the indoor temperature can be selected and changed, it is possible to control the indoor temperature more easily.

In addition, since the control unit is provided with the room temperature sensing unit separately, it is possible to control a plurality of indoor units to one room temperature without receiving the room temperature from the indoor unit.

1 is a view showing a space in which an air conditioning system according to an embodiment of the present invention is installed.
2 is a view illustrating an indoor unit of an air conditioning system according to an embodiment of the present invention.
3 is a view showing a configuration of an air conditioning system according to a first embodiment of the present invention.
FIG. 4 is a view showing a configuration of an air conditioning system according to a second embodiment of the present invention.
5 is a view showing a configuration of an air conditioning system according to a third embodiment of the present invention.
6 is a view showing a configuration of an air conditioning system according to a fourth embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

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

As shown in FIG. 1, the air conditioning system according to the present invention includes a plurality of indoor units 10 installed in one space.

In this case, 'one space' means a space that is not separated. It can be understood that the plurality of indoor units 10 are arranged adjacently so that a user thinks that the plurality of indoor units 10 are installed in one space. That is, 'one space' is a space where physical space is shared or the user is recognized as one space.

In FIG. 1, two indoor units are shown, which are divided into a first indoor unit 20 and a second indoor unit 30. The number of indoor units shown in FIG. 1 is an example, and the indoor unit 10 may be provided in a plurality of various numbers.

The first indoor unit 20 and the second indoor unit 30 are shown in the same shape but may be different from each other. Hereinafter, an exemplary configuration of the indoor unit 10 will be described.

2 is a view illustrating an indoor unit of an air conditioning system according to an embodiment of the present invention.

As shown in FIG. 2, the indoor unit 10 according to the present invention is provided with a case 105 forming an outer appearance. The case 105 may include a main body 101 forming a side surface and a front panel 102 coupled to the main body 101 and forming a front surface.

The main body 101 may be installed on the ceiling of the predetermined space. The main body 101 is preferably installed on the ceiling of the predetermined space in consideration of space utilization or aesthetics, but the installation space of the main body 101 is not limited thereto. For example, the main body 101 may be installed on a side wall of the predetermined space.

The front panel 102 may be detachably coupled to the lower portion of the main body 101. In addition, the front panel 102 may be arranged to be exposed to the predetermined space so as to suck or discharge air into the indoor unit 10.

In addition, the front panel 102 may include a suction port 150 for sucking room air and a discharge port 140 for discharging air to the room. The suction port 150 may be formed in a grill structure at a central portion of the front panel 102.

The discharge ports 140 may be symmetrically formed on the outer sides of the suction port 150. The discharge port 140 may have a rectangular structure having a predetermined width and length. However, the shapes of the suction port 150 and the discharge port 140 are not limited thereto.

The discharge port 140 may be provided with a vane 141 for controlling the moving direction of the air. The vane 141 may be configured to be rotatable at a predetermined angle. In addition, the vane 141 may be inclined outward from the front surface of the front panel 102. This is to provide a wind having a uniform wind speed in the predetermined space. However, the direction, arrangement, construction, and operation of the vane 141 are not limited thereto.

The main body 101 may be opened to communicate with the suction port 150 and the discharge port 140 formed on the front surface of the front panel 102. In addition, the front panel 102 may cover an open portion of the main body 101. For example, the front panel 102 may have a rectangular plate shape so as to cover the opening of the main body 101.

A filter (not shown) may be provided on the inside of the front panel 102 to remove various foreign substances contained in the air sucked into the main body 101 through the suction port 150.

In addition, a fan, a fan motor, and an indoor heat exchanger (not shown) may be installed inside the case 105. At this time, the indoor heat exchanger forms a refrigeration cycle with the outdoor unit 200, which will be described later, and can function as an evaporator or a condenser. That is, the indoor unit 10 may be operated in a cooling mode or a heating mode.

Hereinafter, the configuration of the air conditioning system including the indoor unit 10 shown in Figs. 3 to 5 will be described.

3 to 5, at least one outdoor unit 200 connected to the plurality of indoor units 10 is provided in the air conditioning system according to an embodiment of the present invention. Although the outdoor units 200 are shown as one unit, they may be provided in plurality.

 As described above, the indoor unit (10) and the outdoor unit (200) form a refrigerant cycle. In detail, the indoor unit 10 is provided with an indoor heat exchanger, and the outdoor unit 200 is provided with an outdoor heat exchanger and a compressor 210.

The indoor unit (10) and the outdoor unit (200) are connected to a refrigerant pipe (220) so that refrigerant can flow. That is, the indoor heat exchanger, the outdoor heat exchanger, and the compressor 210 are connected to the refrigerant pipe 220.

When the air conditioning system is operated in the cooling mode, the indoor heat exchanger functions as an evaporator and the outdoor heat exchanger functions as a condenser. Accordingly, the refrigerant can circulate in the compressor 210 - the outdoor heat exchanger-indoor heat exchanger.

Meanwhile, when the air conditioning system operates in the heating mode, the indoor heat exchanger functions as a condenser, and the outdoor heat exchanger functions as an evaporator. Accordingly, the refrigerant can circulate in the compressor 210 - the indoor heat exchanger-outdoor heat exchanger.

At this time, the air conditioning system is controlled through 'set temperature' and 'room temperature'. The 'set temperature' means a temperature of a predetermined space desired by the user, and the 'indoor temperature' means a temperature of an actual predetermined space. For example, if the set temperature is lower than the room temperature, the air conditioning system operates in the cooling mode, and if the set temperature is higher than the room temperature, the air conditioning system operates in the heating mode.

In addition, when the indoor temperature reaches the set temperature by the operation of the air conditioning system, the air conditioning system can be operated in the air blowing mode. At this time, the ventilation mode can be understood as a standby mode in which the room temperature has reached the set temperature but the room temperature may be changed by the user's body temperature, outdoor temperature, and the like.

In the blowing mode, the refrigerant is not circulated and the fan provided in the indoor unit 10 operates to circulate the air. That is, air circulating in the predetermined space is circulated without supplying cold air or warm air.

In summary, the air conditioning system is operated so that the indoor unit 10 circulates the refrigerant to supply the cold air or hot air, or stops the circulation of the refrigerant, and the indoor unit 10 circulates the air.

At this time, the circulation of the refrigerant is determined by the compressor 210 provided in the outdoor unit 200. In detail, when the compressor 210 is turned on, the refrigerant circulates, and when the compressor 210 is turned off, the circulation of the refrigerant is stopped. That is, when the compressor 210 is turned on, the indoor unit 10 supplies cold air or hot air, and when the compressor 210 is turned off, the indoor unit 10 circulates air.

At this time, a distributor is provided between the indoor unit (10) and the outdoor unit (200), and the refrigerant can be circulated to each of the plurality of indoor units (10). That is, at least a part of the plurality of indoor units 10 may circulate the refrigerant, and at least a part of the indoor units 10 may not circulate the refrigerant.

3 to 5, the indoor unit 10 includes a first indoor unit 20, a second indoor unit 30, and an Nth indoor unit 90. At this time, 'N' corresponds to a natural number of 2 or more.

The first indoor unit 20 to the Nth indoor unit 90 are connected to the outdoor unit 200 through the refrigerant pipe 220. Each of the indoor units 10 is provided with a room temperature sensor and a room temperature unit for storing information about the room temperature. That is, each indoor unit stores information about the room temperature.

In detail, the first indoor temperature unit 22 is connected to the first indoor unit 20, the second room temperature unit 32 is connected to the second indoor unit 30, and the Nth indoor temperature unit 32 is connected to the Nth indoor unit 90. [ (92).

The first indoor unit (20) to the Nth indoor unit (90) are provided with a set temperature input unit for storing the input set temperature. Specifically, the first set temperature input unit 24 is connected to the first indoor unit 20, the second set temperature input unit 34 is connected to the second indoor unit 30, and the Nth set temperature input unit 34 is connected to the Nth indoor unit 90. [ (94).

Accordingly, different indoor temperatures can be input to different indoor units, and they are operated by sensing room temperature differently from each other.

For example, the set temperatures of the first indoor unit 20 and the second indoor unit 30 may be set to be equal to 23 degrees. At this time, the first indoor unit 20 senses the room temperature at 24 degrees, and the second indoor unit 30 senses the room temperature at 23 degrees. Accordingly, the first indoor unit 20 operates in a cooling mode, and the second indoor unit 30 operates in a blowing mode.

At this time, a user located in the space where the first indoor unit 20 and the second indoor unit 30 are installed may have a question about the operation of the air conditioning system. That is, as the indoor units located in one space operate differently, the reliability of the air conditioning system can be questioned.

A control unit 300 is provided in the air conditioning system so that the user can control the operation of the indoor unit 10. The control unit 300 refers to a device that can be operated by a user, and includes a wired remote controller, a wireless remote controller, and a mobile device.

Also, although the control unit 300 is shown as one unit, it may be provided in plurality. In particular, if the control unit 300 is a mobile device provided by a user, the control unit 300 may be provided for the number of users. At this time, the control unit 300 can be understood as an APP related to the control of the air conditioning system installed in the mobile device.

The control unit 300 may have various functions. For example, as shown in FIGS. 3 to 5, the display unit 310, the input unit 320, the receiving unit 330, and the transmitting unit 340 may be included.

The display unit 310 corresponds to a display unit that provides the user with information about the operation of the air conditioning system. For example, information on ON / OFF of the system, room temperature, set temperature, and the like can be provided.

The input unit 320 corresponds to at least one button provided for the user to select a desired function. For example, a button for selecting ON / OFF of the system, a button for selecting a set temperature, and the like. Further, the input unit 320 may be provided with a function of selecting a necessary indoor unit, which will be described in detail later.

The control unit 300 is provided so as to be able to communicate with the indoor units 10. 3 to 6, communication lines are omitted for convenience of description. The receiving unit 330 receives predetermined information from the indoor unit 10 and the transmitting unit 340 transmits predetermined information to the indoor unit 10. [

3 to 5 will be described below based on such a configuration. Figs. 3 to 5 show examples in which they have the same configuration but operate in different control modes.

In addition, the control unit 300 can control the set temperature and the room temperature of each indoor unit equally. At this time, control of the set temperature of each indoor unit by the control unit 300 is omitted by a general technique.

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

As shown in FIG. 3, the control unit 300 receives predetermined information from the first indoor unit 20. Specifically, the indoor temperature detected by the indoor temperature sensor installed in the first indoor unit 20 from the first indoor temperature unit 22 is received through the receiving unit 330.

For example, the room temperature sensor installed in the first indoor unit 20 senses 20 degrees, and the first room temperature unit 22 stores information indicating that the room temperature is 20 degrees. The control unit 300 transmits the room temperature information to the receiving unit 330 so that the indoor temperature of the first indoor unit 20 is 20 degrees.

The control unit 300 transmits predetermined information to the indoor unit 10. In detail, the indoor temperature information received from the first indoor temperature unit 22 is transmitted to the second indoor unit 30 to the Nth indoor unit 90.

For example, the control unit 300 receives information that the room temperature stored by the first indoor unit 20 is 20 degrees. The control unit 300 transmits information indicating that the room temperature is 20 degrees to the second indoor unit 30 to the Nth indoor unit 90.

Accordingly, information indicating that the room temperature is 20 degrees is stored in the second indoor unit (30) to the Nth indoor unit (90). That is, information indicating that the room temperature is 20 degrees is stored in the second room temperature section 32 and the Nth room temperature section 92.

Accordingly, the indoor temperatures of the first indoor unit (20) to the Nth indoor unit (90) can be unified. That is, the first indoor unit 20 to the Nth indoor unit 90 can be controlled at the same room temperature.

For example, when the set temperature is 23 degrees from the control unit 300, the first to Nth indoor units 20 to 90 operate in the same manner. In detail, the first indoor unit (20) to the Nth indoor unit (90) are operated in the heating mode so that the room temperature stored at 20 degrees is 23 degrees.

The control unit 300 receives the information of the first room temperature unit 22 and transmits the information to the second room temperature unit 32 to the Nth room temperature unit 92. [ Accordingly, when the room temperature stored in the first indoor temperature section 22 reaches 23 degrees, the first indoor unit 20 to the Nth indoor unit 90 are driven in the air blowing mode.

At this time, the indoor unit in which the control unit 300 receives the room temperature information is referred to as a master indoor unit, and the remaining indoor units are referred to as a slave indoor unit. 3, the first indoor unit 20 is a main indoor unit, and the second indoor unit 30 to the Nth indoor unit 90 are auxiliary indoor units.

At this time, the user can select and change the main indoor unit through the control unit 300.

FIG. 4 is a view showing a configuration of an air conditioning system according to a second embodiment of the present invention.

4, the control unit 300 receives the room temperature information from the second room temperature unit 32 and transmits the room temperature information to the other indoor units.

That is, the first indoor unit 20 to the Nth indoor unit 90 are operated on the basis of the indoor temperature stored in the second indoor temperature unit 32. Therefore, it is understood that the second indoor unit 30 is the main indoor unit and the remaining indoor units including the first indoor unit 20 are the auxiliary indoor units.

At this time, the input unit 320 is provided with a function of selecting one of the plurality of indoor units to transmit the room temperature information to the receiving unit 330 so that the user can select the main indoor unit. That is, the user can select the main indoor unit as one of the first indoor unit (20) through the Nth indoor unit (90) through the input unit (320).

In addition, the input unit 320 is provided with a function of changing one indoor unit, which transmits the indoor temperature information among the plurality of indoor units, to another indoor unit so that the user can change the main indoor unit. For example, the user can change the main indoor unit from the second indoor unit 30 to the first indoor unit 20 through the input unit 320.

At this time, the user may select and change the auxiliary indoor units through the control unit 300. [

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

As shown in FIG. 5, the control unit 300 receives the room temperature information from the first room temperature unit 22 and transmits the room temperature information to the second room temperature unit 32. That is, the second indoor unit 30 operates in the same manner as the first indoor unit 20 based on the indoor temperature stored in the first indoor temperature unit 22.

Therefore, it is understood that the first indoor unit 20 is the main indoor unit and the second indoor unit 30 is the auxiliary indoor unit. At this time, the indoor units other than the first indoor unit 20 and the second indoor unit 30 do not correspond to the main indoor unit and the auxiliary indoor unit, and can operate based on the room temperature stored in each indoor temperature unit.

The main indoor unit and the auxiliary indoor unit can be understood as one group, and the user can select and change indoor units included in one group.

That is, the input unit 320 is provided with a function of selecting an indoor unit to receive the room temperature information from the transmitter 340 as at least one of the plurality of indoor units. In other words, a function of selecting the auxiliary indoor unit is provided.

In addition, the input unit 320 is provided with a function of changing at least one indoor unit of the plurality of indoor units to receive the indoor temperature information from the transmitter 340 into at least one other indoor unit. In other words, a function of changing the auxiliary indoor unit is provided.

6 is a view showing a configuration of an air conditioning system according to a fourth embodiment of the present invention. 6 is a modification of some of the configurations in Figs. 3 to 5, and description of the same configuration will be omitted.

As shown in FIG. 6, the control unit 300 further includes an indoor temperature sensing unit 350 for sensing a room temperature. At this time, the receiver 330 may be omitted.

The room temperature sensing unit 350 may be understood as an indoor temperature sensor included in the control unit 300. [ In addition, the room temperature sensing unit 350 may receive the room temperature from a predetermined server and store the room temperature information.

At this time, the transmitter 340 can transmit the room temperature information so that the plurality of indoor units are controlled to the room temperature sensed by the room temperature sensing unit 350. Also, it is possible to transmit room temperature information to at least a part of the plurality of indoor units.

That is, the indoor unit 10 can be controlled through the room temperature information stored in the control unit 300, rather than the room temperature information stored in the indoor unit 10. Further, it can be understood that the control unit 300 functions as a main indoor unit.

This can be used when the indoor temperature information received in the indoor unit 10 is not reliable. For example, when the indoor temperature information received from the main indoor unit differs from the indoor temperature information stored in the indoor temperature sensing unit 350 by at least 5 degrees, the room temperature information stored in the indoor temperature sensing unit 350 is stored in the auxiliary indoor unit .

As described above, the air conditioning system according to the present invention can select or change the main indoor unit with any one of a plurality of indoor units installed in one space. Also, the auxiliary indoor unit controlled by the indoor temperature sensed by the main indoor unit may be selected or changed to at least one of the plurality of indoor units.

Also, the indoor unit can be operated with room temperature information stored in the control unit 300. [ The user can control the indoor unit desired by the user through the room temperature information desired by the user, thereby enhancing the reliability and convenience of the user.

10: indoor unit 200: outdoor unit
210: compressor 300: control unit
310: display unit 320:
330: input unit 340:
350: Room temperature sensing unit

Claims (10)

A plurality of indoor units installed in one space;
At least one outdoor unit connected to the plurality of indoor units; And
And a control unit provided to transmit predetermined information to the plurality of indoor units,
Wherein the plurality of indoor units include a main indoor unit and a supplementary indoor unit,
In the control unit,
A receiving unit receiving indoor temperature information sensed from the main indoor unit; And
And a transmitter for transmitting the room temperature information so that the auxiliary indoor unit is controlled to an indoor temperature of the main indoor unit received by the receiving unit,
The control unit includes:
And setting one of the plurality of indoor units to be changeable to the main indoor unit,
Wherein at least one of the plurality of indoor units except for the main indoor unit is set to be changeable to the auxiliary indoor unit. The method according to claim 1,
In the control unit,
Further comprising an input unit for selecting the main indoor unit as any one of the plurality of indoor units,
Wherein the input unit is capable of changing the main indoor unit to another indoor unit of the plurality of indoor units. delete delete The method according to claim 1,
In the control unit,
Further comprising an input unit for selecting at least one of the plurality of indoor units as the auxiliary indoor unit,
Wherein the input unit is configured to delete the auxiliary indoor unit, to change the auxiliary indoor unit to another indoor unit of the plurality of indoor units, or to change the auxiliary indoor unit by adding at least one of the plurality of indoor units. system. The method according to claim 1,
The control unit may further include a room temperature sensing unit for sensing a room temperature,
Wherein the transmitter transmits room temperature information so that the plurality of indoor units are controlled to a room temperature sensed by the room temperature sensing unit. A control method for an air conditioning system having a plurality of indoor units installed in one space,
Setting one of the plurality of indoor units as a main indoor unit,
Receiving indoor temperature information from the main indoor unit,
At least one of the plurality of indoor units excluding the main indoor unit is set as the auxiliary indoor unit and the indoor temperature information is transmitted to the auxiliary indoor unit so that the auxiliary indoor unit is controlled to the indoor temperature of the main indoor unit,
The main indoor unit and the auxiliary indoor unit are controlled to have one indoor temperature,
Wherein the main indoor unit is changed to another one of the plurality of indoor units, and the auxiliary indoor unit is changed to at least one of the plurality of indoor units except for the main indoor unit. delete delete 8. The method of claim 7,
The control unit detects the room temperature through the room temperature sensing unit,
And transmits the sensed room temperature to the plurality of indoor units,
Wherein the plurality of indoor units are controlled to a sensed room temperature.

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