KR102560971B1 - Air conditioner and a method for controlling the same - Google Patents

Abstract

This embodiment relates to an air conditioner and a control method thereof.
An air conditioner control method according to the present embodiment includes the steps of starting an operation of an air conditioner equipped with a compressor; determining a target input current by setting a current level used by the air conditioner; determining a current input current by detecting an amount of current input to the air conditioner; and comparing the target input current with the current input current to increase or decrease the operating frequency of the compressor.

Description

Air conditioner and its control method {Air conditioner and a method for controlling the same}

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

An air conditioner is a device for maintaining the air in a predetermined space in the most suitable state according to the use and purpose. In general, the air conditioner includes a compressor, a condenser, an expansion device, and an evaporator, and a refrigeration cycle that performs compression, condensation, expansion, and evaporation of refrigerant is driven to cool or heat the predetermined space. .

The predetermined space may be proposed in various ways according to a place where the air conditioner is used. For example, when the air conditioner is disposed in a home or office, the predetermined space may be an indoor space of the house or building.

When the air conditioner performs a cooling operation, the outdoor heat exchanger provided in the outdoor unit functions as a condenser and the indoor heat exchanger provided in the indoor unit performs the function of an evaporator. On the other hand, when the air conditioner performs a heating operation, the indoor heat exchanger functions as a condenser and the outdoor heat exchanger functions as an evaporator.

The outdoor air temperature in the Middle East, such as Iraq and Lebanon, or in Southeast Asia, such as Indonesia, is relatively high at about 35 degrees or more. Therefore, in these areas, the use of an air conditioner is essential, and smooth power supply is required for stable use of the air conditioner.

However, in the case of the above countries, especially Iraq, power supplied by the government is relatively unstable, and each household has the inconvenience of separately purchasing electricity from a local power generator to receive additional power supply. In addition, households and local power generators make purchase contracts based on the total amount of current, but the purchase cost per unit current is high, so there is a problem that sufficient electricity cannot be used at home.

In addition, in the event of an emergency, for example, when the power supply from the government is interrupted, it is difficult to drive electrical appliances in the home, including air conditioners, with only the power purchased from the local power generation company. There was a difficulty in purchasing an additional air conditioner and using it in an emergency.

1. Publication number (publication date): 10-2015-0029196 (March 18, 2015) 2. Title of Invention: Air conditioner system and its operation method

The present embodiment has been proposed to solve the above problems, and the purpose of providing an air conditioner and a control method capable of controlling the operation of a compressor according to the limited amount of current when the amount of current that can be used is limited. do.

Another object of the present invention is to provide an air conditioner capable of controlling the current level of the air conditioner based on the amount of current available to the user and a control method thereof.

In addition, an object of the present invention is to provide an air conditioner and a control method thereof in which a protection logic can be operated when the outdoor temperature rises or low voltage is supplied to the home due to circumstances of the power supply source and the required cooling performance is not met. .

Another object of the present invention is to provide an air conditioner having a display unit for displaying current level information of the air conditioner being operated or information on whether protection logic is driven, and a control method thereof.

An air conditioner control method according to the present embodiment includes the steps of starting an operation of an air conditioner equipped with a compressor; determining a target input current by setting a current level used by the air conditioner; determining a current input current by detecting an amount of current input to the air conditioner; and comparing the target input current with the current input current to increase or decrease the operating frequency of the compressor.

The step of raising or lowering the operating frequency of the compressor includes lowering the operating frequency of the compressor when it is recognized that the current input current is greater than or equal to the target input current.

When it is recognized that the current input current is less than the target input current, recognizing whether the current input current is less than a value obtained by subtracting the stable current from the target input current is further included.

The stable current is characterized in that a current value obtained by subtracting a preset operating current corresponding to the level of the amount of current used from supplyable spare current.

The step of raising or lowering the operating frequency of the compressor includes raising the operating frequency of the compressor when it is recognized that the current input current is smaller than a value obtained by subtracting the stable current from the target input current.

The step of raising or lowering the operating frequency of the compressor includes maintaining the operating frequency of the compressor when it is recognized that the current input current is greater than or equal to a value obtained by subtracting a stable current from the target input current.

A plurality of levels of the amount of current used are provided, and the level increases as the limit amount of the usable current increases.

The plurality of use current levels include level 1 in which a target input current is determined to be 8 amperes (A), and the level 1 may be selectable when the available current is 9 to 10 amperes (A).

The plurality of use current levels include level 2 in which a target input current is determined to be 6 amperes (A), and the level 2 may be selectable when the available current is 7 to 8 amperes (A).

The plurality of use current levels include level 3 in which a target input current is determined to be 4 amperes (A), and level 3 may be selectable when an available current is 5 to 6 amperes (A).

When it is recognized that the current input current is greater than the target input current by a set amount or more, the compressor is turned off.

An air conditioner according to another aspect includes a compressor; a display unit displaying information on a target input current related to the current supplied to the compressor; a current sensing unit for sensing a current input current currently supplied to the compressor; a memory unit storing information about an operating frequency of the compressor mapped to the target input current; and a control unit which compares the current input current sensed by the current sensor with the target input current and controls an increase or decrease in the operating frequency of the compressor.

The display unit may include a current mode display unit displaying information on the target input current; and a notification unit notifying that the compressor is turned off when the current input current rises above a set value.

An input device capable of inputting a use current level is further included, and the control unit can determine the target input current based on the use current level input through the input device.

According to the above solution, when the amount of current that can be used is limited, the frequency of the compressor can be adjusted according to the limited amount of current, so that the current amount of current input to the air conditioner can be maintained below the preset target current amount. Therefore, an effect that stable operation of the air conditioner can be achieved appears.

In addition, since the user can set the level of the amount of current used by the air conditioner based on the amount of current available, there is an advantage in that the user-customized operation control of the air conditioner can be performed.

In addition, when the outdoor temperature rises or low voltage is supplied to the home due to the circumstances of the power supply source and the required cooling performance is not met, the protection logic is activated to stop the operation of the compressor. ) has the advantage of preventing

In addition, since the display unit is provided to display current level information of the air conditioner being operated or information on whether protection logic is driven, the user can easily check operation information and current consumption information of the air conditioner.

1 is a schematic diagram showing the configuration of a network system according to an embodiment of the present invention.
2 is a diagram showing configurations of an air conditioner and a remote controller according to an embodiment of the present invention.
3A to 3C are graphs showing changes in the operating current (I) and operating range (A) of the air conditioner according to the current level of the air conditioner according to the embodiment of the present invention.
4 is a block diagram showing the configuration of an air conditioner according to an embodiment of the present invention.
5 is a flowchart showing a control method of an air conditioner according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function hinders understanding of the embodiment of the present invention, the detailed description will be omitted.

Also, terms such as first, second, A, B, (a), and (b) may be used to describe components of an embodiment of the present invention. These terms are only used to distinguish the component from other components, and the nature, order, or order of the corresponding component is not limited by the term. When an element is described as being “connected,” “coupled to,” or “connected” to another element, that element may be directly connected or connected to the other element, but there may be another element between the elements. It should be understood that may be "connected", "coupled" or "connected".

1 is a schematic diagram showing the configuration of a network system according to an embodiment of the present invention.

Referring to FIG. 1 , in a network system 10 according to an embodiment of the present invention, a plurality of power supply sources 30 and 40 and electric appliances 25 receiving power from the plurality of power supply sources 30 and 40; 27,100) may be included. As an example, the country where the network system 10 is installed is Iraq, and the outside air temperature may form an average of 35° C. or higher.

In the plurality of power supply sources 30 and 40, a first power supply source 30 for supplying power to the home 20 by the state or government and supplying power to the home 20 as a local power supplier A second power supply source 40 is included.

The first power supply source 30 can receive power relatively inexpensively, but power supply and demand is not smooth, and the second power supply source 40 can receive power relatively stably, but electricity purchase cost is high. It may be so high that you may not be able to use enough electricity.

The household 20 and the second power supply source 40 may enter into a purchase contract based on the total amount of current. For example, the household 20 may purchase and use electricity in the range of about 10 to 12 (A) based on current.

In summary, while the household 20 basically uses the electricity supplied from the first power supply source 30, it prepares for unstable power supply of the first power supply source 30 and provides electrical appliances in the home 20. Electricity may be purchased and used from the second power supply source 40 in consideration of the number of or power consumption.

The electrical appliances 25 , 27 , and 100 provided in the home 20 may include, for example, a refrigerator 25 , a TV 27 , and an air conditioner 100 .

The network system 10 includes a current amount display device 50 displaying information on the amount of current supplied to the home 20 (hereinafter, the amount of supplied current) and the amount of current used in the home 20 (hereinafter, the amount of current used). More may be included. In FIG. 1 , for example, the amount of current supplied to the household 20 is 12 amperes (A) and the amount of current used is 9 amperes (A) on the current amount display device 50 . The current amount of 9 amperes (A) may be the sum of current consumption of electric appliances provided in the home 20 .

The current amount display device 50 may be provided as a separate device, or may be installed and provided in any one of the home appliances 25, 27, and 100. Hereinafter, operation control of the air conditioner 100 among the home appliances 25, 27, and 100 using power supplied from a plurality of power supply sources 30 and 40 will be described.

2 is a diagram showing configurations of an air conditioner and a remote controller according to an embodiment of the present invention, and FIGS. 3A to 3C are operating current levels of the air conditioner according to use current levels of the air conditioner according to an embodiment of the present invention. It is a graph showing changes in (I) and operating area (A).

Referring to FIGS. 2 to 3C , the air conditioner 100 according to an embodiment of the present invention may include a wall-mounted indoor unit. The indoor unit includes a casing 101 forming an exterior. The casing 101 includes a front portion 102 forming the front exterior of the indoor unit and side portions 103 provided on both sides of the front portion 102 and extending backward from the front portion 102 toward the wall surface. included And, the rear part of the casing 101 may be coupled to the wall surface of the indoor space.

The front part 102, both side parts 103 and the rear part 105 form an inner space, and a number of parts provided in the indoor unit 10 can be accommodated in the inner space. The plurality of parts may include a heat exchanger (not shown) and a fan (not shown).

The indoor unit further includes a suction grill 120 disposed above the casing 101 . The suction grill 120 may form an upper surface portion of the casing 101 . In addition, a suction port for sucking air from an indoor space into the indoor unit 100 is formed in the suction grill 120 . The air sucked in through the inlet 125 may be cooled or heated while passing through the heat exchanger.

The indoor unit 100 further includes a discharge panel 140 disposed below the casing 101 and having a discharge port 142 through which air sucked into the indoor unit 10 is discharged. A discharge vane 145 may be installed in the discharge port 142 to be movable and adjust a discharge direction or air volume of air discharged from the discharge port 142 . For example, the discharge vane 145 may be provided rotatably forward and backward around hinge shafts provided at both ends of the discharge vane 145 .

When the fan is driven, air in the indoor space is sucked into the indoor unit 10 through the intake grill 120 and heat exchanged in the heat exchanger. Also, the heat-exchanged air may be discharged through the outlet 142 .

The indoor unit 100 further includes a receiver 150 capable of receiving a signal from the remote control 200 . The receiver 150 may be provided on the discharge panel 140 . The remote controller 200 is an "input device" and can be understood as a component of the air conditioner 100 in a broad sense.

The indoor unit 100 further includes a display unit 160 displaying information about operation of the air conditioner. The display unit 160 may be provided on the front unit 102 .

The information about the operation of the air conditioner may include information about a target input current or current level. To this end, the display unit 160 may include a current mode display unit 162 that displays information about the target input current or current level. For example, on the current mode display unit 162 of FIG. 2 , the target input current value is displayed as 4 amperes (A).

Also, the information on the operation of the air conditioner may include information notifying that the protection logic is in operation when a current input current rises above a set value when an emergency occurs. For example, the emergency situation may include a time when the voltage supplied from the first and second power supply sources 30 and 40 is lowered below a set value or when the external temperature increases and the current input current of the air conditioner rises.

For example, when the emergency situation occurs, a protection logic may be operated to prevent a power failure, and the compressor of the air conditioner may be turned off. To this end, the display unit 160 includes a notification unit 165 notifying that the protection logic is in operation. For example, the notification unit 165 may be configured to flicker a predetermined pattern or symbol.

A user may operate and control the air conditioner 100 using the remote controller 200 . The remote control 200 includes a remote control display unit 240 that displays operation information of the air conditioner 100 .

The remote controller 200 further includes a current level input unit 210 capable of inputting the current level of the air conditioner. When the current level input unit 210 is selected, a screen for selecting the level of current applied to the air conditioner may be displayed on the remote control display unit 240 .

For example, in the remote control display unit 240, a "level 1" at which a relatively large amount of current (8A) can be supplied to the air conditioner, and a "level" at which a moderate amount of current (6A) can be supplied to the air conditioner 2" and "Level 3" in which a relatively small amount of current (4A) can be supplied to the air conditioner can be selectively displayed.

The remote controller 200 further includes level increase/decrease input units 221 and 225 that can be manipulated to select one of a plurality of current levels displayed on the remote control display unit 240. The level increase/decrease input units 221 and 225 may include a level increase input unit 221 capable of increasing the current level and a level decrease input unit 225 capable of decreasing the current level. The level increase input unit 221 and the level decrease input unit 225 may be understood as up and down direction keys.

The remote controller 200 further includes a transmitter 250 that transmits a signal related to a command input through a plurality of input units 210 , 221 , and 225 to the air conditioner 100 . A signal transmitted from the transmitter 250 may be received through the receiver 150 of the air conditioner 100 .

A user may set the amount of current used by the air conditioner 100 . In detail, referring to FIGS. 3A to 3C , in relation to the amount of current supplied to the air conditioner 100, there are a plurality of preset levels, and the user uses the remote control 200 to select one of the plurality of levels. The air conditioner 100 may be driven by selecting any one level.

The plurality of levels may include level 1 (current: 8 amperes), level 2 (current: 6 amperes), and level 3 (current: 4 amperes).

For example, when the external temperature is relatively high and the cooling capacity of the air conditioner 100 is to be increased, driving of other electrical appliances in the home 20 is stopped and a large portion of the current available in the home 20 is used. can be devoted to the air conditioner 100.

In this case, as shown in FIG. 3A, one current level may be selected. When the first current level is selected, the target input current supplied to the air conditioner 100 is determined to be 8 amperes (A), and the cooling capacity can be determined accordingly. This current level 1 step can be selected when the available current (surplus current) in the home 20 is 9 to 10 (A), and this information is displayed on the display unit 160 and can be guided to the user. .

In detail, when the first current level is selected, the first operating current I1 of the air conditioner 100 is determined to be 8 to 9(A). In addition, the first operating area (A1) of the air conditioner 100 is defined by a current consumption (A) ranging from a minimum of 1.5 (A) to a maximum of 10 (A) and a cooling capacity of up to 23,000 (Btu/h). It can be formed into an area that becomes

On the other hand, when it is desired to maintain the cooling capacity of the air conditioner 100 at an appropriate level, a second level of current level may be selected as shown in FIG. 3B. When the current level 2 is selected, the target input current supplied to the air conditioner 100 is determined to be 6 amperes (A), and the cooling capacity can be determined accordingly. This second level of current level can be selected when the available current (surplus current) in the home 20 is 7 to 8 (A), and this information is displayed on the display unit 160 and can be guided to the user. .

In detail, when the second level of the current level is selected, the second operating current I2 of the air conditioner 100 is determined to be 6 to 7(A). And, the second operating area (A2) of the air conditioner 100 is defined by the current consumption (A) ranging from a minimum of 1.5 (A) to a maximum of 8 (A) and a cooling capacity of up to 20,000 (Btu/h). It can be formed into an area that becomes

In addition, when it is desired to maintain the cooling capacity of the air conditioner 100 at a low level, for example, when it is desired to increase the amount of current used by other electrical appliances, three levels of current levels may be selected as shown in FIG. 3C. When the current level 3 is selected, the target input current supplied to the air conditioner 100 is determined to be 4 amperes (A), and the cooling capacity can be determined accordingly. These three current levels can be selected when the available current (surplus current) in the home 20 is 5 to 6 (A), and these contents are displayed on the display unit 160 to guide the user. .

In detail, when the third current level is selected, the third operating current I3 of the air conditioner 100 is determined to be 4 to 5 (A). And, the third operating area (A3) of the air conditioner 100 is defined by the current consumption (A) ranging from a minimum of 1.5 (A) to a maximum of 6 (A) and a cooling capacity of up to 16,000 (Btu/h). It can be formed into an area that becomes

Meanwhile, the operating current (IN) range of 1.5 to 17 (A) shown in FIGS. 3A to 3C can be understood as an operating current value input to the air conditioner 100 when current level control is not performed. can

In this way, since the user can select one of a plurality of current levels in consideration of the amount of electricity supplied to the home 20 and the amount of electricity used, user convenience can be increased.

4 is a block diagram showing the configuration of an air conditioner according to an embodiment of the present invention, and FIG. 5 is a flow chart showing a control method of the air conditioner according to an embodiment of the present invention.

Referring to FIG. 4 , the air conditioner 100 according to the embodiment of the present invention includes a current sensor 181 that senses the amount of current input to the air conditioner 100, that is, the amount of operating current of the air conditioner 100. ) and a memory unit 185 for storing target input current amount information mapped according to the current level selected by the user.

Information about the operating frequency 175 of the compressor 175 mapped to the target input current amount information may be further stored in the memory unit 185 .

The air conditioner 100 controls the operation of the compressor 175 and drives the display unit 160 based on information transmitted from the current sensor 181 and the memory unit 185. A controller 170 for controlling is further included.

Referring to FIG. 5 , a control method of the air conditioner 100 according to an embodiment of the present invention will be described.

When the air conditioner 100 is turned on and driven, the user can set a level related to the amount of current used by the air conditioner 100 using the remote controller 200 . That is, any one of levels 1 to 3 shown in FIGS. 3A to 3C may be set. When the level of the amount of current used is determined, a target input current may be determined.

For example, when the level 1 is set, the target input current is determined to be 8 (A), and when the levels 2 and 3 are set, the target input current is determined to be 6 (A) and 4 (A), respectively. It can (S11, S12).

As the air conditioner 100 is driven, the current input current supplied to the air conditioner 100, that is, the operating current, may be detected by the current sensor 181. Then, the sensed current input current and the determined target input current may be compared (S13).

When it is recognized that the current input current is equal to or greater than the target input current, that is, when it is recognized that the operating current of the air conditioner 100 is supplied higher than the target input current limited by the user, the operating frequency of the compressor 175 decreases. It can be (S14, S15).

On the other hand, if it is recognized that the current input current is less than the target input current, it can be recognized whether the current input current is less than (target input current-stable current). The stable current may be understood as a value obtained by subtracting the operating currents I1, I2, and I3 from the available current (surplus current) in the household 20 described in FIGS. 3A to 3C. For example, the stable current may be 1 (A).

That is, considering that unstable electricity supply is made and the operating current of the air conditioner 100 varies little by little in real time, the stable current is reflected as a safety factor section for stable operation of the air conditioner 100. , It is intended to prevent the current input current from becoming more than the target input current in an unexpected situation.

When it is recognized that the current input current is less than the (target input current-stable current), since there is some margin in the supplyable current, the operating frequency of the compressor 175 can be increased (S16, S17).

However, if the current input current is less than the target input current but recognized as greater than (target input current-stable current), it is recognized that the current input current is close to the target input current, and the compressor 175 is operated. The frequency can be maintained (S18).

This control method may be performed until the air conditioner 100 is turned off.

On the other hand, although not described in the above flow chart, in the case where the current input current rises excessively above the set value than the target input current in step S14 and goes out of the operation area A described in FIGS. 3A to 3C , the protection logic may be activated and the compressor 175 may be turned off.

Also, a display notifying that the protection logic is in operation may be displayed on the notification unit 165 . The user will be able to drive the air conditioner 100 again after changing the current level or turning off the power of other electrical appliances in the home 20 by being guided by the display contents of the notification unit 165. .

According to this control method, there is an advantage in that user-customized operation control can be performed together with stable driving of the air conditioner 100 .

10: network system 20: home
30: first power supply source 40: second power supply source
50: current amount display device 100: air conditioner
160: display unit 170: control unit
175: compressor 181: current sensing unit
185: memory unit 200: remote control

Claims (14)

starting an operation of an air conditioner equipped with a compressor;
determining a target input current by selecting a plurality of preset use current levels corresponding to a change in the amount of current supplied to the air conditioner based on an available current amount;
determining a current input current by detecting an amount of current input to the air conditioner;
comparing the target input current with the current input current and increasing or decreasing the operating frequency of the compressor; and
When it is recognized that the current input current is less than the target input current, determining whether the current input current is smaller than a value obtained by subtracting a stable current from the target input current,
As the amount of current supplied to the air conditioner increases, the maximum value of the amount of current that can be used increases.
The use current amount level is set to be lower as the maximum value of the available current amount increases,
The operating current and operating range of the air conditioner are determined based on the current level used,
The control method for an air conditioner according to claim 1 , wherein the stable current is a current value obtained by subtracting a preset operating current corresponding to the use current level from supplyable spare current. According to claim 1,
In the step of raising or lowering the operating frequency of the compressor,
and lowering an operating frequency of the compressor when it is recognized that the current input current is equal to or greater than the target input current. According to claim 2,
The control method of the air conditioner, characterized in that the amount of current supplied to the air conditioner is supplied by a plurality of power supply sources. According to claim 3,
The air conditioner displays the amount of current used,
The method of controlling an air conditioner according to claim 1 , wherein the amount of current used is a sum of current consumption of at least one electrical appliance included in the home including the air conditioner. According to claim 2,
In the step of raising or lowering the operating frequency of the compressor,
and increasing an operating frequency of the compressor when it is recognized that the current input current is smaller than a value obtained by subtracting the stable current from the target input current. According to claim 2,
In the step of raising or lowering the operating frequency of the compressor,
and maintaining the operating frequency of the compressor when it is recognized that the current input current is equal to or greater than the value obtained by subtracting the stable current from the target input current. delete According to claim 1,
The plurality of used current levels include level 1 in which a target input current is determined to be 8 amperes (A),
The first operating current, which is the operating current at the level 1, is determined to be 8 to 9 amperes (A),
The first operating region, which is the operating region at level 1, is defined by a current consumption (A) ranging from a minimum of 1.5 amperes (A) to a maximum of 10 amperes (A) and a cooling capacity of up to 23,000 (Btu/h) formed into an area
The level 1 is an air conditioner control method that can be selected when the available current is 9 to 10 amperes (A). According to claim 1,
The plurality of used current levels include level 2 in which a target input current is determined to be 6 amperes (A),
The second operating current, which is the operating current at the level 2, is determined to be 6 to 7 amperes (A),
The second operating region, which is the operating region at level 2, is defined by a current consumption (A) ranging from a minimum of 1.5 amperes (A) to a maximum of 8 amperes (A) and a cooling capacity of up to 20,000 (Btu/h) formed into an area
The level 2 is an air conditioner control method that can be selected when the available current is 7 to 8 amperes (A). According to claim 1,
The plurality of used current levels include level 3 in which a target input current is determined to be 4 amperes (A),
The third operating current, which is the operating current at the level 3, is determined to be 4 to 5 amperes (A),
The third operating region, which is the operating region in the level 3, is defined by a current consumption (A) ranging from a minimum of 1.5 amperes (A) to a maximum of 6 amperes (A) and a cooling capacity of up to 16,000 (Btu/h) formed into an area
The level 3 is an air conditioner control method that can be selected when the available current is 5 to 6 amperes (A). According to claim 2,
and turning off the compressor when it is recognized that the current input current is greater than the target input current by a predetermined amount or more. compressor; a display unit displaying information on a target input current related to the current supplied to the compressor; a current sensing unit for sensing a current input current currently supplied to the compressor; a memory unit for storing information about the target input current mapped according to the level of current used and information about the operating frequency of the compressor mapped according to the target input current; an input device capable of inputting the level of the amount of current used; and a controller comparing the current input current sensed by the current sensor with the target input current stored in the memory unit and controlling an increase or decrease in the operating frequency of the compressor.
The level of the amount of current used is preset to a plurality in response to the change in the amount of current supplied to the air conditioner,
The control unit,
Based on an available current amount whose maximum value increases as the amount of current supplied to the air conditioner increases, the use current level is determined to be lowered as the maximum value of the available current amount increases,
determining an operating current and an operating region of the air conditioner based on the determined current level;
determining the target input current based on a current level input through the input device according to the available current amount;
When it is recognized that the current input current is less than the target input current, it is determined whether the current input current is less than a value obtained by subtracting a stable current from the target input current;
The stable current is a current value obtained by subtracting a preset operating current corresponding to the level of the use current amount from the available current amount. According to claim 12,
In the display unit,
a current mode display unit displaying information on the target input current; and
An air conditioner comprising a notification unit notifying that the compressor is turned off when the current input current rises above a set value. According to claim 12,
The amount of current supplied to the air conditioner is supplied by a plurality of power supply sources.

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