KR101760744B1 - Apparatus for controlling refrigerator and method the same - Google Patents

Abstract

A refrigerator control device and a control method are disclosed. The present invention improves operation efficiency by providing power information at the time of refrigerator operation and provides one or more of time information, electricity rate information, electricity rate time zone information, and power consumption information through wired / wireless communication means to save power . In addition, the present invention provides a user with a power consumption according to the operation of the refrigerator and the household appliance, a predicted emission amount of the greenhouse gas according to the input power, or an electric charge to the user so that the power consumption, greenhouse gas, Power can be distributed, power demand can be distributed, and peak power can be reduced, contributing to the construction of a smart grid and overall energy savings.

Refrigerator, power saving, peak, power information

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigerator,

The present invention relates to an apparatus and a method for controlling a refrigerator, and more particularly, to a refrigerator which can operate a refrigerator by using power information received from an external device, And a control method.

BACKGROUND ART Generally, a refrigerator is a device used to store freshly stored foods such as foods, drinks, etc. for a long period of time. The refrigerator is stored by being frozen or refrigerated according to the type of the storage object to be stored.

The refrigerator is operated by driving a compressor provided therein. The cold air supplied to the inside of the refrigerator is generated by the heat exchange action of the refrigerant and is continuously supplied to the inside of the refrigerator while repeatedly performing a cycle of compression-condensation-expansion-evaporation. It can be uniformly transferred to the inside of the refrigerator and the food inside the refrigerator can be stored at a desired temperature.

In recent years, there has been an increasing demand for a refrigerator having a large utilization efficiency of a storage space, so that not only the demand for the conventional cooling efficiency but also the storage capacity of various kinds of storage varied according to the improvement of the living standard, In addition, there is a growing demand for the addition of various functions to improve user convenience.

Since the refrigerator consumes electric energy, the electric power consumption and electric charges are sensitive to the user. In recent years, as the energy consumption has increased, more energy resources and energy development have become necessary. However, as the above-mentioned energy is developed, a large amount of greenhouse gas is emitted, and environmental problems such as global warming are emerging. Alternative energy sources such as wind power, solar power, solar power, intelligence, tidal power, and hydroelectric power are being developed in addition to nuclear power and fuel cells to reduce greenhouse gas emissions, especially carbon dioxide. In addition, the next generation power grid, Smart Grid, is introduced, which aims to optimize energy efficiency by exchanging real-time information in both directions between power suppliers and consumers by applying IT technology to existing power grids.

The refrigerator control device and the control method according to the related art have a problem that the efficiency of use of the refrigerator is decreased because the power saving information and the driving information are not provided at the time of operating the refrigerator.

In addition, the refrigerator control apparatus and the control method according to the prior art do not take into consideration the amount of greenhouse gas emissions from an energy source that generates energy, thereby failing to cope with environmental problems such as global warming.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a refrigerator control device and a control method for providing power information when a refrigerator is used.

In addition, the present invention can provide a rational and efficient refrigerator operation by providing at least one of time information, electricity rate information, electricity rate time zone information, and power consumption information periodically or at each time point of time change, The present invention also provides a refrigerator control device and a control method that allow a user to consider a power saving by displaying a current operation state of the device.

In addition, the present invention provides users or the like with power consumption according to the operation of the refrigerator, estimated greenhouse gas emission amount according to the energy source, or electric fee, Another object of the present invention is to provide a refrigerator control device and a control method capable of considering the power saving.

According to an aspect of the present invention, there is provided a refrigerator control apparatus including an input unit for receiving a control command of a refrigerator, a communication unit for receiving power information from an external device via a wired / wireless communication method, A control unit that operates the refrigerator and generates one or more messages based on the power information, and an output unit that displays the generated message. The power information is one or more of time information, electricity bill information, electricity bill time zone information, and power consumption information.

The refrigerator control device according to the present invention further comprises a detection unit for detecting a plurality of states inside and outside the refrigerator. Here, the control unit calculates a power consumption and an electricity price of the refrigerator based on the power information and the states. Further, the output unit further displays the detected states, the calculated power consumption and the electric bill.

In the refrigerator control apparatus according to the present invention, the power information further includes a type of the external power source and a corresponding GHG index. Here, the control unit further calculates a greenhouse gas emission amount based on the power information, and the output unit further displays the calculated greenhouse gas emission amount.

In the refrigerator control device according to the present invention, the external device may be at least one of a home server, a smart meter, and an external power system, and the wired / wireless communication method may be one of power line communication, wireless LAN, Internet, Zigbee, Or more.

According to another aspect of the present invention, there is provided a method for controlling a refrigerator comprising the steps of: receiving electric power information by a wired / wireless communication method with an external device; generating at least one message based on the electric power information; And displaying the message. Here, the power information is at least one of time information, electricity bill information, electricity bill time zone information, and power consumption information.

The refrigerator control method according to the present invention further comprises detecting a plurality of states inside and outside the refrigerator. The control method may further include calculating power consumption of the refrigerator based on the power information and the states, and calculating an electricity rate based on the power consumption. Further, the control method may further include displaying the detected states, the calculated power consumption, and the electricity rate.

In the refrigerator control method according to the present invention, the power information may further include a type of an external power source supplying power to the refrigerator and a corresponding GHG index, and the control method may further include: And a step of calculating the number

The refrigerator control device and the control method according to the present invention are effective in improving the operation efficiency and saving power by providing the power information during the operation of the refrigerator.

Also, the refrigerator control apparatus and the control method according to the present invention have an advantage of saving power by providing at least one of time information, electricity rate information, electricity rate time zone information, and power consumption information through wired / wireless communication means .

In addition, the refrigerator control device and the control method according to the present invention can provide a user with a power consumption due to the operation of the refrigerator and the household appliance, a predicted emission amount of the greenhouse gas according to the input power, , Greenhouse gas, or electricity rates.

According to the present invention, the power demand can be dispersed and the peak power can be reduced, contributing to the construction of the smart grid and the total energy savings.

Hereinafter, a refrigerator control apparatus and a control method according to the present invention will be described in detail with reference to the accompanying drawings.

1, a refrigerator having a refrigerator control device according to the present invention includes a main body 100 having a storage space therein, and one or more doors 210, And a freezer compartment 300 having a refrigerating compartment 200 and one or more doors 310 for freezing and storing the stored contents. The refrigerator includes a home bar 600 provided in the refrigerator compartment door 210 according to the type of refrigerator and capable of easily storing or storing the stored contents and a dispenser 700 provided on the front of the freezer compartment door 310 .

Referring to FIG. 2, the refrigerator includes an input unit 440 receiving a control command of a refrigerator, a communication unit 420 connected to an external device through a wired / wireless communication method to receive power information, A control unit 430 for generating one or more messages based on the power information, and an output unit 450 for displaying the generated messages. The power information is at least one of time information, electricity bill information, electricity bill time zone information, and power consumption information.

At this time, the electric time zone information among the electric power information includes information about a general time zone and a peak time zone. The peak time zone is a time zone in which an electricity bill higher than the normal time zone is imposed. The electricity billing time zone information includes a start time and an end time of the general time zone and the peak time zone. The power supplier sets a peak time zone based on data such as statistical data or in real-time, when the total power consumption increases and the remaining power that can be supplied to each household is reduced below a predetermined value. Thus, the power supplier generally imposes a high electricity bill at the peak time to control the use of power. The general time zone is a time zone other than the peak time zone. The information on the peak time period may be stored in advance in one or more of the above-mentioned external apparatuses, that is, a power-related apparatus installed in a home such as a home server, a smart meter, or the like, or an external power system. In addition, the power supplier may provide the electricity billing time zone information in real time. On the other hand, the time information includes current time information, and the current time information is notified to individual refrigerators, so that the accurate electricity rate can be calculated. In addition, the electricity rate information includes an electricity rate according to each time zone, and the electricity rate is provided to the refrigerator so that the accurate electricity rate can be calculated. Also, the power information includes power consumption information transmitted from an external device connected to the external device. Accordingly, the refrigerator control device can provide the user with the power consumption of all household appliances installed in the home.

The refrigerator control apparatus according to the present invention further comprises a detection unit (460) for detecting a plurality of states inside and outside the refrigerator. Here, the control unit 430 calculates power consumption and electricity cost of the refrigerator based on the power information and the states. Further, the output unit 450 further displays the detected states and the calculated power consumption and electric charge.

In addition, the refrigerator control device includes a power unit 410 connected to an external power source to supply power into the refrigerator, and a control unit 410 for driving a load provided in a refrigerator such as a compressor, an evaporator, and a defrost heater according to a control signal of the control unit And a driving unit 480.

The power supply unit 410 receives the external power supply, that is, commercial AC power, and outputs a DC voltage for driving a circuit, a unit, and the like constituting the refrigerator and the refrigerator control apparatus. In general, the power supply unit 410 uses a switched-mode power supply (SMPS). Of course, other types of power conversion devices besides SMPS can be used. The switch mode power supply rectifies and smoothes an AC voltage of an external power supply to convert the DC voltage into a DC voltage and generates drive voltages necessary for the refrigerator and the refrigerator control apparatus by using a DC voltage and a transformer unit such as a regulator.

The detection unit 460 may include one or more internal temperature detection units (not shown) for detecting the temperature in the at least one storage space provided in the refrigerator. The internal temperature detecting unit includes a refrigerating compartment temperature detecting unit for detecting the temperature in the refrigerating compartment and a freezing compartment temperature detecting unit for detecting the temperature in the freezing compartment. Further, when there are a plurality of refrigerating compartments or freezing compartments, a plurality of in-compartment temperature detecting units can be installed, respectively, and a plurality of in-compartment temperature detecting units can be provided in the respective refrigerating compartments or freezing compartments. Further, the detection unit 460 may further include a high temperature detection unit (not shown) for detecting a temperature outside the refrigerator, that is, a room temperature. The detection unit 460 may include one or more height detection units (not shown) for detecting the height of the stored contents stored in the at least one storage space provided in the refrigerator. The height detection unit (not shown) may be installed in each of the refrigerating chamber 200 and the freezing chamber 300. When there are a plurality of refrigerating compartments or a plurality of freezing compartments, a plurality of height detecting units may be provided in each of the refrigerating compartments or the freezing compartments. When a plurality of compartments are formed in each compartment, have. As the height detection unit, a pair of infrared sensors, ultrasonic sensors, etc., having a transmitter and a receiver can be used. In this way, it is possible to easily detect the height of a stored object by judging whether a signal transmitted from a transmitter is received by a receiver . In addition, the detection unit 460 may further include a sensor (not shown) for sensing the opening and closing of the door. The detection unit 460 may further include a gas sensor (not shown) that detects a greenhouse gas such as carbon dioxide generated in the refrigerator itself. The detection unit 460 may include a frequency detection unit (not shown) for detecting the driving frequency of the compressor driving the refrigerator. The control unit 430 can calculate the power consumption required for driving the compressor based on the driving frequency inputted from the frequency detection unit (not shown), and calculates the power consumption consumed in the refrigerator based on the calculated power consumption. The detecting unit 460 may further include a voltage detecting unit or a current detecting unit for detecting a change in voltage or current applied to the compressor that drives the refrigerator, Based on the current, it is possible to calculate the electric power consumption and electricity consumption in the refrigerator.

The communication unit 420 is connected to the external device through a wired / wireless communication scheme to receive the power information. The wired / wireless communication scheme is a communication that can transmit and receive data, such as power line communication, wireless LAN, Internet, Zigbee, Both methods are possible. In addition, the communication unit 420 can transmit information such as a power demand of a refrigerator, an electricity rate, and a greenhouse gas emission amount to the outside through the wired / wireless communication system.

A user or the like inputs a control command of the refrigerator through the input unit 440. For example, the control unit receives control commands such as a refrigeration temperature setting command, a freezing temperature setting command, a defrosting command, and a quenching command through the input unit 440.

The output unit 450 displays one or more messages generated through the control unit 430 based on the power information received via the communication unit 420. [ For example, the output unit 450 may store information such as the current time, the electricity billing time zone, the current power consumption, the current electricity bill, the power consumption statistics for a certain period of time, As shown in FIG. In addition, it is possible to simultaneously output the electric power consumption and the electric power consumption of other home appliances in the home connected to the external device. In addition, the output unit 700 may display a control command input through the input unit 440 and a change in state of the refrigerator according to the control command. In addition, the output unit 450 may display one or more of the plurality of states detected through the detection unit 460. The output unit 450 may further display the power consumption and the electricity rate calculated through the control unit 430. [ When a display device such as an LCD (Liquid Crystal Display) or an OLED (Organic Light Emitting Diodes) is used as the output unit 450, the output unit 450 may perform color conversion of the display device or "PEAK TIME" It is possible to provide electricity billing time zone information.

The refrigerator control apparatus according to the present invention further comprises a storage unit 470 for storing the power information, the control command, and the state change. That is, the storage unit 470 stores the time information, the electricity bill information, the electricity billing time zone information, and the power consumption information received through the communication unit 420, and transmits the control information to the control unit 430 And is displayed through the output unit 450. The storage unit 470 may store the control command input through the input unit 440 and the corresponding refrigerator operation status information, and may store the detected status information through the detection unit 460.

The driving unit 480 receives the control signal from the control unit 430 and drives the loads necessary for the refrigerator operation. For example, the driving unit 480 drives the compressor to supply cold air to the interior of the refrigerator, which is generated by the heat exchange action of the refrigerant, and repeatedly performs compression-condensation-expansion-evaporation cycles And continuously supplied to the inside of the refrigerator. The refrigerant thus supplied is uniformly transferred to the inside of the refrigerator by the convection so that the food inside the refrigerator can be stored at a desired temperature. Further, the driving unit 480 drives the evaporator so that the low-pressure and low-temperature liquid refrigerant absorbs the surrounding heat to become the low-pressure, high-temperature gas refrigerant, and the absorbed heat is vaporized.

In the refrigerator control apparatus according to the present invention, the power information further includes a type of the external power source and a corresponding GHG index. At this time, the control unit 430 may calculate the estimated electricity bill and the greenhouse gas emission amount based on the power information. The output unit 450 further displays one or more of the type of the external power source, the greenhouse gas index, the estimated electricity rate, and the greenhouse gas emission amount. Also, the control unit 430 may calculate the estimated greenhouse gas emission amount of the energy source supplied to the refrigerator based on the calculated estimated power consumption. For example, the estimated carbon dioxide emission amount can be calculated by multiplying the carbon dioxide index according to the energy source by the calculated estimated power consumption. As the energy sources, alternative energy sources such as fossil fuels such as oil and gas, sunlight, solar heat, wind power, tidal power, hydroelectric power, and intelligent power, nuclear power, and fuel cells can be used. An index, for example a carbon dioxide index, can be set through experiments and the like. The storage unit 470 stores the greenhouse gas index and the corresponding electricity tariff according to the type of the energy source in advance, and the control unit 430 reads it and calculates it according to the calculated predicted power amount Estimated carbon dioxide emissions can be calculated.

The display operation through the output unit of the refrigerator control apparatus according to the present invention will be described with reference to FIGS. 3 and 4. FIG.

3 (a), the output unit 450 displays the refrigeration set temperature (-19 ° C), the refrigeration set temperature (2 ° C), and the current power consumption (8.02 kWh). Referring to FIG. 3 (b), the output unit 450 also displays a refrigeration set temperature (-19 ° C.) and a refrigeration set temperature (2 ° C.), and displays a trend of the power consumption through a graph. Referring to FIG. 3 (c), the output unit 450 displays the refrigeration set temperature (-19 ° C.) and the refrigeration set temperature (2 ° C.), and displays the daily average power consumption (6.05 kWh). Referring to FIG. 4, the output unit 450 calculates the consumption power (32 kWh) of the refrigerator itself and the electricity consumption (123 kWh) of the other household appliances connected with the electricity rate (6,200 won) (20,150 won) can be displayed at the same time. Of course, the output unit 450 can display the power consumption and the electric charge of the individual home appliances. The output unit 450 also displays power information received via the communication unit 420, for example, peak time zone information (15: 00-18: 00). Further, the output unit 450 further displays the electric charge rate (350 won / kWhr) at the peak time zone.

Referring to FIG. 5, a method for controlling a refrigerator according to the present invention includes a step S110 of receiving electric power information in a wired / wireless communication manner with an external device, generating at least one message based on the electric power information S111 And displaying the generated message (S400). In the refrigerator control method, the displaying step (S400) further displays the received power information. Here, the power information is at least one of time information, electricity bill information, electricity bill time zone information, and power consumption information. The configuration of the apparatus is described below with reference to FIG.

At this time, the electric time zone information among the electric power information includes information about a general time zone and a peak time zone. The peak time zone is a time zone in which an electricity bill higher than the normal time zone is imposed. The electricity billing time zone information includes a start time and an end time of the general time zone and the peak time zone. The power supplier sets a peak time zone based on data such as statistical data or in real-time, when the total power consumption increases and the remaining power that can be supplied to each household is reduced below a predetermined value. Thus, the power supplier generally imposes a high electricity bill at the peak time to control the use of power. The general time zone is a time zone other than the peak time zone. The information on the peak time period may be stored in advance in one or more of the above-mentioned external apparatuses, that is, a power-related apparatus installed in a home such as a home server, a smart meter, or the like, or an external power system. In addition, the power supplier may provide the electricity billing time zone information in real time. On the other hand, the time information includes current time information, and the current time information is notified to individual refrigerators, so that the accurate electricity rate can be calculated. In addition, the electricity rate information includes an electricity rate according to each time zone, and the electricity rate is provided to the refrigerator so that the accurate electricity rate can be calculated. Also, the power information includes power consumption information transmitted from an external device connected to the external device. Accordingly, the refrigerator control method can provide the user with the power consumption of all household appliances installed in the home.

The step of receiving the power information (S110) is connected to the external device through a wired / wireless communication method to receive the power information. The wired / wireless communication method may include data communication such as power line communication, wireless LAN, Internet, Zigbee, All communication systems capable of transmitting and receiving are possible. In addition, the control method may transmit information such as a power demand amount of a refrigerator, an electricity rate, and a greenhouse gas emission amount to the outside through the wired / wireless communication method (S300).

The method for controlling a refrigerator according to the present invention further includes a step (S130) of detecting a plurality of states inside and outside the refrigerator. In addition, the control method may further include calculating power consumption of the refrigerator based on the power information and the states (S210), and calculating an electricity rate based on the power consumption (S220) . In the control method, the displaying step (S400) may further display the detected states, the calculated power consumption and the electricity rate.

In operation S130, a plurality of states inside and outside the refrigerator are detected by detecting a temperature in one or more storage spaces provided in the refrigerator, that is, one or more in-compartment temperatures, and detecting a temperature outside the refrigerator. In addition, the detecting step may detect the height of the stored product stored in the at least one storage space provided in the refrigerator. Further, the detecting step may detect the opening and closing of the door, or detect a greenhouse gas such as carbon dioxide generated in the refrigerator itself. Wherein the detecting step detects the driving frequency of the compressor driving the refrigerator, and the control method can calculate the power consumption required for driving the compressor based on the inputted driving frequency, and based on the power consumption consumed in the refrigerator (S210). Further, the detecting step may detect a change in voltage or current applied to the compressor driving the refrigerator, and the control method may further include calculating a consumption power and an electricity rate consumed in the refrigerator based on the detected voltage or current (S210, S220).

The refrigerator control method according to the present invention may further include a step (S120) of inputting a control command of the refrigerator. For example, the control method receives control commands such as a refrigeration temperature setting command, a freezing temperature setting command, a defrosting command, and a quenching command.

In the refrigerator control method according to the present invention, the displaying step (S400) further displays one or more messages generated based on the received power information. For example, the displaying step S400 may display information such as the current time, the electricity billing time zone, the current power consumption, the current electricity bill, the power consumption statistics for a certain period of time, And so on. In addition, the displaying step (S400) may simultaneously display the power consumption and the electric charge in the other household appliances in the home connected to the external apparatus. Also, the displaying step may display a state change of the refrigerator according to the input control command and the control command. Further, the displaying step may display at least one of a plurality of states, and further display the power consumption and the electric charge. The refrigerator control method according to the present invention may further include storing the power information, the control command, and the state change (not shown).

In the refrigerator control method according to the present invention, the power information may further include a type of the external power source and a corresponding GHG index. The control method may further include a step (S230) of calculating a predicted electricity rate and a greenhouse gas emission amount based on the power information, and the step of displaying (S400) The greenhouse gas index, the estimated electricity rate, and the greenhouse gas emission amount. Further, the control method may calculate the estimated greenhouse gas emission amount of the energy source supplied to the refrigerator based on the calculated estimated power consumption. For example, the estimated carbon dioxide emission amount can be calculated by multiplying the carbon dioxide index according to the energy source by the calculated estimated power consumption. As the energy sources, alternative energy sources such as fossil fuels such as oil and gas, sunlight, solar heat, wind power, tidal power, hydroelectric power, and intelligent power, nuclear power, and fuel cells can be used. An index, for example a carbon dioxide index, can be set through experiments and the like.

Referring to FIG. 3 (a), the displaying step S400 displays the refrigeration setting temperature (-19 ° C), the refrigeration set temperature (2 ° C), and the current consumption power (8.02 kWh). Referring to FIG. 3 (b), the displaying step S400 also displays the refrigeration setting temperature (-19 ° C.) and the refrigeration setting temperature (2 ° C.), and the trend of the power consumption is indicated by a graph. Referring to Fig. 3 (c), the displaying step S400 displays the refrigeration setting temperature (-19 deg. C) and the refrigeration setting temperature (2 deg. C) and displays the daily average power consumption (6.05 kWh). Referring to FIG. 4, the displaying step (S400) includes a power consumption (32 kWh) of the refrigerator itself and a total electricity consumption (123 kWh) of the other household appliances connected together with the electricity rate (6,200 won) The electricity bill (20,150 won) can be displayed at the same time. Of course, the display step (S400) may display the power consumption and the electric charge of the individual home appliances. Also, the displaying step S400 displays the received power information, for example, peak time zone information (15: 00-18: 00). In addition, the displaying step (S400) further displays the electricity rate (350 won / kWhr) in the peak time zone.

As described above, the refrigerator control device and the control method according to the present invention can improve the operation efficiency reasonably by providing the electric power information at the time of the refrigerator operation, and can provide the time information, the electricity rate information, the electricity rate time zone information, To provide power saving by providing one or more pieces of information through wired / wireless communication means. Also, the refrigerator control device and the control method according to the present invention can provide a user with a power consumption due to the operation of the refrigerator and the household appliance, a predicted emission amount of the greenhouse gas according to the input power, , Greenhouse gas, or electricity bills, and can further dissipate demand. By reducing peak power, it can contribute to the construction of a smart grid and overall energy savings.

1 is a front view showing a refrigerator equipped with a refrigerator control device according to the present invention;

2 is a block diagram schematically showing a configuration of a refrigerator control apparatus according to the present invention;

FIG. 3 and FIG. 4 are diagrams for explaining a display operation through an output unit in FIG. 2;

5 is a flowchart schematically illustrating a refrigerator control method according to the present invention.

Claims (16)

An input unit for receiving a control command of the refrigerator; A communication unit connected to an external device via a wired / wireless communication scheme to receive power information; A detection unit for detecting a plurality of states inside and outside the refrigerator; A control unit that operates the refrigerator based on the control command and generates one or more messages based on the power information; And And an output unit for displaying the generated message, The external device includes: Connected to the other household appliances, collects power consumption information of the other household appliances, The power information includes: Information on at least one of time information, electricity bill information, electricity billing time zone information, power consumption information, and power consumption information of the other household appliances, Further comprising a type of an external power source supplying power to the refrigerator and a corresponding greenhouse gas index, The output unit includes: And displaying information of the refrigerator and the other household appliances, Wherein the detection unit comprises: At least one internal temperature detection unit for detecting a temperature in at least one storage space provided in the refrigerator; At least one high temperature detection unit for detecting temperature outside the refrigerator; And At least one height detection unit for detecting the height of the stored contents stored in the at least one storage space provided in the refrigerator; A sensing sensor for sensing opening and closing of the refrigerator door; A gas sensor for sensing a greenhouse gas generated in the refrigerator itself; And A frequency detecting unit included in the refrigerator and detecting a driving frequency of the compressor driving the refrigerator; ≪ / RTI > Wherein the control unit comprises: Calculating a greenhouse gas emission amount, a power consumption of the refrigerator, and an electricity rate based on the power information and states of the refrigerator detected through one or more detection means included in the detection unit, The amount of the greenhouse gas emission, And a discharge amount generated from the external power source calculated on the basis of the power information and a discharge amount generated in the refrigerator based on a result of sensing the gas sensor. delete delete delete The image processing apparatus according to claim 1, And further displays the detected states, the calculated power consumption and the electric charge. delete The method according to claim 1, Wherein the output unit further displays the calculated greenhouse gas emission amount. The apparatus according to claim 1, A home server, a smart meter, and an external power system. The method of claim 1, wherein the wired / Wherein the control unit is one of a power line communication, a wireless LAN, an Internet, a Zigbee, and a serial communication. A refrigerator control method comprising: Receiving electric power information from an external device through a wired / wireless communication method; Generating one or more messages based on the power information; And And displaying the generated message, The external device includes: Connected to the other household appliances, collects power consumption information of the other household appliances, The power information includes: Information on at least one of time information, electricity bill information, electricity billing time zone information, power consumption information, and power consumption information of the other household appliances, Further comprising a type of an external power source supplying power to the refrigerator and a corresponding greenhouse gas index, Detecting a plurality of states inside and outside the refrigerator; Calculating a greenhouse gas emission amount and a power consumption of the refrigerator based on the power information and the detected states inside and outside the refrigerator; And And calculating an electricity rate based on the power consumption, Wherein the detecting of the plurality of states inside and outside the refrigerator comprises: A temperature of one or more storage spaces provided in the refrigerator, at least one of extreme temperatures detecting a temperature outside the refrigerator, a height of a stored product in at least one storage space provided in the refrigerator, whether the refrigerator is open or closed, And a driving frequency of a compressor included in the refrigerator to drive the refrigerator, The amount of the greenhouse gas emission, And a discharge amount generated in the refrigerator itself calculated on the basis of a result of detection of a discharge amount generated due to the external power source calculated based on the power information and a greenhouse gas generated in the refrigerator itself Way. delete delete delete 11. The method of claim 10, And displaying the detected states and the calculated power consumption and electricity rate. delete delete

Images