KR20140113792A - Air conditioner and method - Google Patents

Abstract

The present invention relates to an air conditioner and an operation method thereof. The present invention distributes the power consumed in the air conditioner to multiple indoor units to enable a user to check the distributed power information in the respective indoor units through a remote controller and control the power consumption of the indoor units by using the remote controller. Accordingly, the present invention can enhance user convenience and reduce the power consumption to save energy.

Description

[0001] Air conditioner and method [0002]

The present invention relates to an air conditioner and an operation method thereof, and more particularly, to an air conditioner that distributes and displays the amount of power consumed by an air conditioner to a plurality of indoor units and an operation method thereof.

The air conditioner is installed to provide a comfortable indoor environment for humans by discharging cold air to the room to adjust the room temperature and purify the room air to create a pleasant indoor environment. Generally, the air conditioner includes an indoor unit which is constituted by a heat exchanger and installed in a room, and an outdoor unit which is constituted by a compressor, a heat exchanger and the like and supplies the refrigerant to the indoor unit.

Such an air conditioner is controlled separately by an indoor unit constituted by a heat exchanger, an outdoor unit constituted by a compressor, a heat exchanger and the like, and controlled by a power source supplied to a compressor or a heat exchanger. Also, at least one indoor unit may be connected to the outdoor unit, and the air conditioner is operated in the cooling or heating mode by supplying the refrigerant to the indoor unit according to the requested operation state.

When the liquid refrigerant of high temperature and high pressure is supplied from the compressor of the outdoor unit to the indoor unit through the heat exchanger of the outdoor unit during the cooling operation, the refrigerant expands and vaporizes in the heat exchanger of the indoor unit, When the temperature of the air is lowered and the indoor fan is rotated, the cool air is discharged into the room. When the gas refrigerant of high temperature and high pressure is supplied from the compressor of the outdoor unit to the indoor unit during the heating operation, the gas refrigerant of high temperature and high pressure is liquefied in the heat exchanger of the indoor unit The air warmed by the released energy is discharged to the room according to the operation of the indoor fan.

In such an air conditioner, a plurality of indoor units are connected to one outdoor unit, or a plurality of outdoor units are interconnected and connected to a plurality of indoor units. Thereby distributing the energy to each indoor unit consumed in the air conditioner.

The distributed power information is displayed on the power meter, so that it can not be confirmed by the individual user, and only the administrator can confirm the power information of the indoor unit. There is a problem that it is possible.

An object of the present invention is to provide an air conditioner which can distribute the amount of power consumed in a plurality of indoor units included in an air conditioner and separately display power information consumed in each of the indoor units through a remote controller, And a method of operating the same.

An air conditioner according to the present invention includes at least one indoor unit and an outdoor unit; A power meter for measuring the amount of power consumed in the indoor unit and the outdoor unit and distributing the amount of power to the indoor unit; And a remote controller connected to the indoor unit for inputting operation settings of the indoor unit and displaying an operation state of the indoor unit, wherein the remote controller receives power information distributed to the indoor unit by the power meter and displays the amount of power consumption for the indoor unit .

A method of operating an air conditioner according to the present invention includes: receiving power information from an indoor unit; Analyzing the power information to calculate an amount of power consumption for the indoor unit as an instantaneous power consumption amount and a cumulative power amount; Changing the amount of power consumption of the indoor unit in real time and displaying the amount of power consumption in real time; And displaying the amount of power consumption of the indoor unit as a cumulative amount of power for a predetermined period of time.

The air conditioner and the method of operating the air conditioner according to the present invention can distribute power consumed by the air conditioner to a plurality of indoor units, And the individual energy saving setting can be performed for each indoor unit, so that the user can confirm the information of the consumed electric power, and the power consumption can be controlled in units of indoor units, so that there is an energy saving effect in which power consumption is reduced.

1 is a view showing a configuration of an air conditioner according to the present invention.
2 is a view showing the flow of data of the air conditioner according to the present invention.
3 is a block diagram briefly showing a control configuration of a remote controller of an air conditioner according to the present invention.
FIG. 4 is a diagram illustrating a screen for displaying the amount of power consumed in the remote controller of the air conditioner according to the present invention.
FIG. 5 is a diagram illustrating an example of a setting screen for controlling a power amount of a remote control of an air conditioner according to the present invention.
6 is a flowchart showing a method of displaying the amount of power of the air conditioner according to the present invention.
7 is a flowchart showing an operation method according to an energy saving setting of the air conditioner according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

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

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

1, the air conditioner includes an outdoor unit 10, a plurality of indoor units 20 and 21 to 24, and remote controllers 30 and 31 to 34. In addition, the air conditioner includes a power meter 50 that outputs information on the power consumed by the air conditioner.

Further, the air conditioner may further include a remote controller (not shown) for monitoring the operation state of the indoor unit and the outdoor unit and controlling the operation thereof.

The air conditioner is connected to the watt hour meter 1 by a power line 62 and supplied with power from three phases and the power meter 50 is connected to the watt hour meter 1 by a power line 61 to measure the amount of power consumed in the air conditioner And receives a pulse signal from the watt hour meter 1 by a power line communication method.

The outdoor unit (10) and the indoor unit (20) are connected to each other by a refrigerant pipe. The indoor unit is discharged from the indoor unit to the indoor unit according to the circulation of the refrigerant, and the indoor unit is connected to the outdoor unit. The plurality of indoor units and the outdoor units are connected to the refrigerant piping as well as the communication line 65 so that control commands can be transmitted and received according to a predetermined communication method.

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

The indoor unit 20 includes an expansion valve (not shown) for expanding the refrigerant supplied from the connected outdoor unit 10, an indoor heat exchanger for exchanging the refrigerant, indoor air introduced into the indoor heat exchanger, (Not shown), a plurality of sensors (not shown), and control means (not shown) for controlling the operation of the indoor unit. The indoor unit (20) includes a discharge port for discharging the heat-exchanged air, and the discharge port is provided with a wind direction adjusting means for closing the discharge port and controlling the direction of the discharged air. The indoor unit controls the rotational speed of the indoor unit fan to control the air sucked and the air to be discharged, thereby regulating the air volume. The indoor unit may further include human body sensing means for sensing a human body present in the indoor space as the case may be. The indoor unit 20 may further include an output unit for displaying an operation status and setting information of the indoor unit, and an input unit for inputting setting data.

The indoor unit main body is connected to the remote controller 30 in a wired or wireless manner so that the operation is set according to the data input from the remote controller 30 and the operation status can be displayed through the remote controller 30. [

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

The outdoor unit 10 includes at least one compressor (not shown) for compressing the refrigerant introduced therein and discharging the high-pressure gas refrigerant, a gas refrigerant separator for separating the gas refrigerant and the liquid refrigerant from the refrigerant, An oil separator for recovering oil from the refrigerant discharged from the compressor, an outdoor heat exchanger (not shown) for condensing or evaporating the refrigerant by heat exchange with the outside air, and a heat exchanger (not shown) An outdoor fan (not shown) for introducing air into the outdoor heat exchanger and discharging the heat-exchanged air to the outside, a four-way valve (not shown) for changing the refrigerant passage according to the operation mode of the outdoor unit, A pressure sensor (not shown), at least one temperature sensor (not shown) for measuring the temperature, a controller for controlling the operation of the outdoor unit and communicating with other units A control configuration. The outdoor unit further includes a plurality of sensors, valves, supercooling units and the like, and a description thereof will be omitted below.

The power meter 50 is connected to the watt hour meter 1 for supplying electric power to the electric equipment including the air conditioner and is supplied with electric power and receives a signal about the electric power consumption through power line communication with the watt hour meter.

The electric power meter 50 measures the amount of electric power consumed by an electric appliance that is located in a predetermined building or a predetermined area and is operated by using electric power as a power source, for example, an appliance such as a lamp, an elevator or a household appliance of a building in which an air conditioner is installed . In particular, the power meter 50 displays information on the amount of power consumed in the air conditioner.

The power meter 50 is connected to the outdoor unit 10 and the communication lines 63 and 64 to receive the operation information on the outdoor unit and the indoor unit 20 from the outdoor unit and distribute the amount of power consumption corresponding to the operation information to each indoor unit And then transmits the power information to the outdoor unit.

Communication lines A 63 and B 62 are connected between the power meter 50 and the outdoor unit 10 to communicate in one direction from the power meter to the outdoor unit and from the outdoor unit to the power meter. At this time, the communication method between the power meter and the outdoor unit may be different from the communication method between the outdoor unit and the indoor unit.

The power meter 50 distributes the electric power to the plurality of indoor units with respect to the amount of power consumed by the outdoor unit 10, and the distribution mode can be varied according to the operation state of the indoor unit.

For example, when the first indoor unit 21 operates alone, not only the amount of power consumed in the indoor unit 21 but also the power consumed in the outdoor unit 10 are all allocated to the first indoor unit 21, When all of the four indoor units 21 to 24 are operated, the power amount of the indoor unit and the outdoor unit is distributed according to the operation information of each indoor unit. At this time, the distribution ratio for distributing the amount of power to each indoor unit varies depending on not only whether or not the indoor unit is operated, but also the capacity of the indoor unit and the air volume set for the indoor unit. For example, when the capacity of the indoor unit is large and the air volume is set high, the distribution ratio is higher than that of the indoor unit having a small capacity and a low air volume.

The power meter 50 displays the power information distributed to each indoor unit, and the power consumption can be divided into the instantaneous power and the cumulative power according to the setting. In addition, power information for a plurality of indoor units can be displayed together with the indoor unit list.

The power meter 50 can display power information of a specific indoor unit when a button provided therein is input. For example, when the address of a specific indoor unit is inputted, the power meter 50 can display power information of the indoor unit corresponding to the input address.

The air conditioner according to the present invention may include a plurality of units such as an indoor unit for discharging cold air and an outdoor unit connected to an indoor unit. Particularly, a plurality of indoor units are connected to the outdoor unit, and the outdoor units can supply the refrigerant to the plurality of indoor units connected to each other. The air conditioner of the present invention can be applied to any of a stand-type air conditioner, a wall-mounted air conditioner and a ceiling-type air conditioner, and a unit including a plurality of outdoor units and an outdoor unit is connected to a remote controller. . Here, the air conditioner according to the embodiment of the present invention is described as an example of a stand type or a wall type, but the form thereof is not limited to the drawings.

2 is a view showing the flow of data of the air conditioner according to the present invention.

2, the power meter 50 measures the amount of power supplied to the air conditioner in accordance with the information received from the watt hour meter 1, and controls the operation of the outdoor unit 10 and the plurality of indoor units 20 Information is received (S13).

At this time, the outdoor unit 10 receives the operation information from the indoor unit 20 (S12) and transmits it to the power meter. The operation information includes data related to power consumption such as the on / off state of the indoor unit, the operation time, the capacity of the indoor unit, and the air volume information in the indoor unit operation.

The power meter 50 distributes the measured power amount to a plurality of indoor units in accordance with the operation information of the outdoor unit and the indoor unit. The power meter 50 also distributes the amount of power consumed in the outdoor unit to a plurality of indoor units according to the operation information. In this case, when the indoor unit is operated alone, the electric power of the outdoor unit is distributed to the indoor units to be operated independently. When two or more indoor units are operated, the indoor units are divided into two or more indoor units operated, .

When the electric power is distributed to the plurality of indoor units, the power meter 50 transmits the power information on the distributed electric power to the outdoor unit 10 (S1), and the outdoor unit transmits the electric power information to the plurality of indoor units 20 (S2 ).

When the indoor unit 20 receives the electric power information from the outdoor unit 10, the indoor unit 20 transmits the electric power information to the local controller, that is, the remote controller 30 according to the wired or wireless communication method (S3).

The remote controller 30 outputs the power information received from the indoor unit 20 to the screen.

At this time, when the power information about the indoor unit 20 is received from the power meter 50 in the state where the setting for the power consumption is inputted, the remote controller 30 not only outputs the power information but also sets the predetermined power consumption You can output a warning accordingly. For example, an alarm for at least one of a warning sound, a warning light and a warning message for power consumption when the target amount of power is reached.

When the operation setting is inputted or changed, the remote controller 30 transmits the setting data to the indoor unit 20 (S11), and the indoor unit changes the operation setting in accordance with the setting data of the remote controller. At this time, as the operation setting is changed, the indoor unit transmits data according to the operation setting to the outdoor unit (S12) so that the outdoor unit is operated or stopped or the amount of the supplied refrigerant is changed. The outdoor unit 10 transmits the operation information of the changed indoor unit to the electric power meter 50 by the outdoor unit 10 (S13), and is utilized in the next power distribution.

3 is a block diagram briefly showing a control configuration of a remote controller of an air conditioner according to the present invention.

3, the remote controller 30 includes a data unit 250, a communication unit 220, an input unit 230, an output unit 240, and a control unit 210 for controlling overall operation of the remote control .

The input unit 230 includes at least one button or touch input means, and may include both a button and a touch input means as the case may be. The input unit 120 applies a user command to the controller 210 according to an operation of the input unit.

The input unit 230 includes an ECO button 231 for setting the eco mode to limit the power consumption to a predetermined target value.

The output unit 240 includes predetermined display means for outputting numbers, characters, special characters, or images. The output unit 240 outputs a user command input through the input unit 120 to a screen, Screen is displayed.

The output unit 240 may further include a speaker for outputting a predetermined sound effect or a warning sound, and a lamp for lighting or blinking to output an operation state of the remote control, a connection state with the indoor unit, or a warning.

The output unit 240 displays the operation status of the indoor unit 20 received through the communication unit 220 according to the control command of the control unit 210 and displays the control menu and setting menu for the connected indoor unit on the screen. Further, the setting information for the remote controller 30 is displayed on the screen.

In particular, the output unit 240 displays power information received from the indoor unit 20 on the screen. At this time, the power information distributed to the indoor unit from the power meter 50 is displayed as the instantaneous power and the accumulated power in the display means of the output unit 240.

In addition, a power setting menu for limiting the power consumption of the indoor unit is displayed on the screen of the output unit 240.

The data unit 250 stores data input through the input unit 230, control data for remote control operation, setting data for the indoor unit 20, indoor unit data received from the indoor unit, and power information.

The communication unit 220 includes a plurality of communication modules for transmitting and receiving data according to a communication method of wired radio, and transmits and receives data to and from the indoor unit. The communication unit 220 receives the power information and the status information of the indoor unit from the indoor unit 20 and transmits data on the indoor unit operation setting and data according to the eco mode setting inputted by the input unit 230. At this time, the indoor unit 20 can display data received from the remote controller 30 through a display unit provided in the indoor unit.

The control unit 210 controls data transmitted and received through the communication unit 220 and controls input and output data by displaying data input through the input unit 230 on the output unit 240. At this time, the control unit 110 generates data on the operation settings for controlling the operation of the indoor unit in response to the user command input from the input unit 230, and transmits the generated data to the communication unit 220. The control unit 210 can set a reserved operation and an operation schedule according to data inputted through the input unit 230 as well as an operation setting for the indoor unit.

The control unit 210 displays the power information of the indoor unit 20 on the output unit 240 when the power information of the indoor unit 20 distributed from the power meter 50 is received through the communication unit 220. [ In response to the button input of the input unit 230, the control unit 210 divides the power information of the indoor unit into the real time power amount, the power amount per period, and the accumulated power amount. The control unit 210 displays the amount of power for each period according to the setting for the amount of power consumed for a day, week, month, or year.

The control unit 210 displays the menu screen for setting the eco mode through the output unit 240 when the eco mode button 231 is input to the input unit 230. The control unit 210 sets an echo mode for limiting the power consumption according to the setting inputted through the input unit 230 on the menu screen.

The control unit 210 stores the input power limit value or the target value in the data unit 250 when the eco mode is set and when the power information of the indoor unit 20 is received through the communication unit 220, (240), and outputs a warning through the output unit (240) in comparison with a predetermined limit value.

When the eco mode is set, the control unit 210 outputs a warning according to the degree of approximation to the limit value so that the total power consumption amount for the specified period does not exceed the limit value, and may limit the operation of the indoor unit in some cases.

For example, when the limit value of monthly power consumption is set to 500 KW in the eco mode, the control unit 210 outputs a warning when the monthly accumulated power reaches 400 KW, and forcibly changes the operation setting of the indoor unit when the monthly accumulated power reaches 450 KW To the indoor unit, thereby limiting the operation of the indoor unit. The indoor unit may be changed to the forced air blowing mode in some cases.

The operation of the present invention configured as described above will now be described with reference to the drawings.

FIG. 4 is a diagram illustrating a screen for displaying the amount of power consumed in the remote controller of the air conditioner according to the present invention.

4, the remote controller 30 receives the power information distributed from the power meter 50 to the indoor unit 20 from the indoor unit, and outputs the received power information to the screen.

4A, the control unit 210 of the remote controller 30 analyzes the received power information, and outputs the real time power amount to the indoor unit through the display unit of the output unit 240 do. The output unit 240 graphically displays the amount of power consumption in units of set time.

The output unit 240 displays the amount of real-time electric power according to the control command of the control unit 210, and displays the new amount of power consumption while moving the graph in either one of the left and right directions. At this time, the control unit 210 changes the real-time power amount displayed through the output unit 240 in units of several seconds and several minutes in response to the power information.

As shown in FIG. 4B, the controller 210 displays the accumulated power amount for a predetermined period of time in response to the power information of the indoor unit.

The control unit 210 analyzes the power information received from the indoor unit 20 and accumulates the power information in the data unit 250 and displays the amount of power in units of a predetermined period through the output unit 240.

For example, the control unit 210 may divide the amount of power consumption of the indoor unit by month based on the data accumulated in the data unit 250, and output the divided data to the screen. Monthly power consumption can be graphically displayed to compare power consumption over a year, and power consumption can be compared over a month by displaying daily power consumption according to the setting.

In some cases, changes in power consumption can be identified annually. In this case, the controller 210 does not store all the received power information but may delete the power information that has elapsed for a predetermined period of time, and may analyze the amount of power for each period and store the cumulative data as separate accumulated data.

The output unit 240 has been described by way of example in terms of a bar graph in the description of the amount of power, but it can be displayed in a line graph, a circle graph, or a numerical value.

FIG. 5 is a diagram illustrating an example of a setting screen for controlling a power amount of a remote control of an air conditioner according to the present invention.

5, when the echo button 231 of the input unit 230 is pressed, the control unit 210 displays a menu screen for setting the power according to a signal input from the input unit 230, .

At this time, a limit value for the power consumption of the indoor unit can be inputted through the menu screen. When the limit value is inputted through the button operation of the input unit 230, the control unit 210 sets the eco mode and controls the operation of the indoor unit according to the change in the amount of power consumed.

For example, you can set a limit for the cumulative power over a month.

When the monthly cumulative power amount approaches the limit value while the eco mode is set, the control unit 210 can output the power information and output the warning at the same time. At this time, the output unit 240 outputs a warning in the form of at least one of a warning message, a warning sound, and a warning light according to a control command of the control unit 210. For example, a warning message may be displayed as "Power is greater than ECO settings."

In addition, when the monthly cumulative power amount approaches the limit value after the warning output, the control unit 210 may forcibly change the operation setting of the indoor unit 20 to limit the power consumption of the indoor unit in addition to the warning.

6 is a flowchart showing a method of displaying the amount of power of the air conditioner according to the present invention.

Referring to FIG. 6, the communication unit 220 of the remote controller 30 receives the power information including the power consumption of the indoor unit from the indoor unit 20 (S310).

The control unit 210 analyzes the power information received through the communication unit 220 to calculate a real time power amount.

Also, the controller 210 analyzes the power information and calculates the cumulative power amount and the amount of power consumption for the set period based on the data stored in the data part 250 (S320).

When the power amount display command is input by the input unit 230, the control unit 210 causes the output unit 240 to display the calculated amount of power consumption.

At this time, the real time electric energy amount is displayed according to the button operation of the input unit 230 or the electric energy amount for each period is displayed (S330).

7 is a flowchart showing an operation method according to an energy saving setting of the air conditioner according to the present invention.

Referring to FIG. 7, when the echo button 231 of the input unit 230 is operated, the control unit 210 sets an echo mode for the indoor unit corresponding to the input signal (S410).

The control unit 210 displays the menu screen according to the eco mode setting through the output unit 240 and sets the input target value as a limit value for limiting the power of the indoor unit when the target value for the period is inputted through the input unit 230 (S420).

At this time, the control unit 210 transmits information according to the eco mode setting to the indoor unit 20 through the communication unit 220 (S430), and the indoor unit is connected to a display unit (not shown) provided in the indoor unit according to the information received from the remote control unit Indicates that the eco mode is set,

The control unit 210 causes the output unit 240 to display the setting of the eco mode on at least one of an icon, an image, a special character, and a character (S440).

When power information including data on the amount of power consumption of the indoor unit is received from the indoor unit 20 through the communication unit 220 in step S450, the control unit 210 analyzes the received power information and displays the analyzed power information on the output unit 240 .

At this time, when the real time electric energy amount is selected according to the button input of the input unit 230, the amount of power consumption is changed and displayed in units of a predetermined time interval. On the other hand, when the cumulative power amount is selected, the cumulative amount of power is displayed on the screen for a predetermined period of time. As shown in Figs. 4A and 4B, the power consumption of the indoor unit is graphically displayed. Here, the power consumption of the indoor unit includes the power consumption of the indoor unit at the power amount allocated to each indoor unit in the power meter 50 and the power amount of the outdoor unit distributed to each indoor unit in the power meter.

The control unit 210 compares the power amount of the indoor unit according to the received power information with the set value (S450). At this time, the setting value can be set to 80% or 90% of the target value, which is automatically set based on the target value input when the eco mode is set.

If the power amount is equal to or greater than the set value, the control unit 210 outputs a warning to the output unit 240 indicating that the power consumption of the indoor unit is close to the target value, and changes the operation setting of the indoor unit (S470). At this time, it is possible to limit the power consumption of the indoor unit by reducing the air volume of the indoor unit or reducing the operation time.

In addition, the control unit 210 compares the amount of power with the target value (S480). If the received amount of power consumption is included between the set value and the target value, the control unit 210 repeats the warning output and the change of the indoor unit setting (S450 to S480). In some cases, it is possible to output a warning by comparing the target value with the target value directly without comparing the set values.

If the accumulated power amount is equal to or greater than the target value, the control unit 210 outputs a warning through the output unit 240 indicating that the accumulated power amount has reached the target value (S490). The controller 210 may forcibly end the operation of the indoor unit or forcefully change the indoor unit mode to the air blowing mode so that the indoor unit does not operate.

Therefore, the present invention can confirm the power consumption of each indoor unit through the remote controller and control the power consumption of the indoor unit in the remote controller through the eco mode setting.

The present invention is not necessarily limited to these embodiments, as all the constituent elements constituting the embodiment of the present invention have been described as being combined or combined in one operation. Within the scope of the present invention, depending on the embodiment, all of the components may operate selectively in combination with one or more.

All of the components may be implemented as one independent hardware, but a part or all of the components may be selectively combined to provide a computer having a program module that performs some or all of the functions combined in one or a plurality of hardware May be implemented as a program.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

1: watt hour meter 10: outdoor unit
20: indoor unit 30: remote control
50: Power indicator
210: control unit 220:
230: input unit 231: ECO button
240: output section 250: data section

Claims (16)

At least one indoor unit and an outdoor unit;
A power meter for measuring the amount of power consumed in the indoor unit and the outdoor unit and distributing the amount of power to the indoor unit; And
And a remote controller, connected to the indoor unit, for inputting an operation setting of the indoor unit and displaying an operation state,
Wherein the remote controller receives power information distributed to the indoor unit by the power meter and displays an amount of power consumption for the indoor unit. The method according to claim 1,
Wherein the remote controller displays the amount of power consumption for the indoor unit by either the real time power amount or the accumulated power amount for each period. 3. The method of claim 2,
Wherein the remote controller displays the amount of power consumption in a graph. 3. The method of claim 2,
Wherein the remote controller changes and displays the amount of power consumption in units of seconds, minutes, and hours in real time,
Wherein the cumulative amount of power for each period is displayed for any one of days, weeks, months, and years. The method according to claim 1,
Wherein the remote control includes an echo button,
And displays a setting menu for controlling power consumption of the indoor unit on the screen when the eco button is operated. 6. The method of claim 5,
Wherein the remote controller controls the indoor unit by setting data inputted through the setting menu as a target value for the amount of power consumption of the indoor unit. The method according to claim 6,
Wherein the remote controller outputs a warning when the power consumption of the indoor unit reaches or approaches the target value. The method according to claim 6,
Wherein the remote controller restricts the power consumption of the indoor unit by forcibly changing the operation setting of the indoor unit when the amount of power consumption of the indoor unit reaches or approaches the target value. The method according to claim 6,
The remote controller outputs a warning indicating that the power consumption is close to the target value when the power consumption of the indoor unit reaches a set value corresponding to 80% to 90% of the target value, and changes the operation setting of the indoor unit Characterized by an air conditioner. The method according to claim 1,
Wherein the indoor unit receives power information distributed by the power meter from the outdoor unit, and transmits the power information to the remote controller in a wired or wireless communication manner. The method according to claim 1,
Wherein the remote controller comprises: a communication unit for communicating with the indoor unit to receive the power information;
An output unit for outputting the power information to a screen and outputting a warning;
An input unit for inputting a setting for the indoor unit;
A data unit for storing the power information; And
And a controller for analyzing the power information to display an amount of power to the indoor unit through the output unit and to control the indoor unit in response to data input of the input unit. Receiving power information from the indoor unit;
Analyzing the power information to calculate an amount of power consumption for the indoor unit as an instantaneous power consumption amount and a cumulative power amount;
Changing the amount of power consumption of the indoor unit in real time and displaying the amount of power consumption in real time; And
And displaying the amount of power consumption of the indoor unit as a cumulative amount of power for a predetermined period of time. 13. The method of claim 12,
Wherein the control unit displays the real time electric energy by changing the electric energy consumption in units of seconds, minutes, and hours, and displays the accumulated electric energy for each period for one of week, week, month and year. Lt; / RTI > 13. The method of claim 12,
And the amount of power consumption is displayed in a graph. 13. The method of claim 12,
Setting a target value for the amount of power consumption of the indoor unit when the eco button is input;
Comparing the power consumption of the indoor unit with the target value according to the received power information, and outputting a warning when the power consumption of the indoor unit reaches the target value or is close to a predetermined value to the target value, Operating method of the machine. 16. The method of claim 15,
And compares the power consumption of the indoor unit with the target value according to the received power information to forcibly change the operation setting of the indoor unit when the power consumption of the indoor unit reaches the target value or approaches a predetermined value to the target value, Further comprising the step of limiting power consumption of the indoor unit.

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