KR101827833B1 - Demand response system - Google Patents

Abstract

A DR controller for generating a plurality of DR levels having different power rates per unit of power and for transmitting a current DR level and for receiving the DR level transmitted by the DR controller and for receiving the received DR level And a home appliance that differentially controls the energy output of the product according to the power consumption of the product.

Description

DEMAND RESPONSE SYSTEM

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a demand reaction system, and more particularly, to a demand reaction system that reduces peak power in a period where power charges are high to reduce power charges.

In a power system, there must be a balance between supply and demand. This is important for reasonably utilizing limited energy resources.

For this purpose, the need for demand management has been emphasized, and nowadays, research on demand response (DR), which is an advanced form of demand management, is increasing.

Demand response can be defined as a change in the consumption pattern depending on the change in the electricity rate. It can also be defined as an incentive payment to suppress electricity usage when the market price is high.

Demand response also includes deliberate processes that change consumption patterns like the latter. The two methods described above can lead to the demand response of the customers, which can reduce the inconvenience and reduce the consumption of electric power in the area where electricity charges are high. This is an example of pausing the use of air conditioning in the hot summer months.

However, in the existing demand reaction system, a simple control method which is dependent on the price information has been proposed. That is, the user may feel inconvenience in using the household appliance because the electric appliance charges the electric appliance according to the electricity rate.

One aspect of the present invention provides a demand response system that alters the energy output of a product in accordance with a demand response level (DR level) with power rate information per unit of power to reduce power charges in periods of high power charges.

To this end, the demand reaction system according to an aspect of the present invention includes a DR controller for generating a plurality of DR levels having different power rates per unit of power and transmitting a current DR level, and a DR controller for receiving the DR level transmitted by the DR controller And a consumer appliance that differentially controls the energy output of the product according to the received DR level so as to reduce energy consumption of the product.

The home appliance may further include a storage unit for storing information related to an energy output of the home appliance at each DR level, a receiver for receiving a DR level from the DR controller, and a receiver for saving energy consumed in the home appliance. A control unit for changing the energy output of the home appliance to an output value corresponding to the received DR level according to the DR level received through the home appliance and a load driver for driving various loads of the home appliance in accordance with a control signal of the controller .

Also, the control unit may change the energy output to a lower output value as the received DR level is higher.

Also, the home appliance is an induction heating cooker having a working coil for heating the container, and the controller changes the initial output level of the working coil to a level value corresponding to the received DR level in accordance with the received DR level .

Also, the home appliance may be an air conditioner, and the controller may change the initial set temperature of the air conditioner to a temperature value corresponding to the received DR level according to the received DR level.

Also, the home appliance may be a refrigerator, and the controller may change the first freezer compartment temperature of the refrigerator to a temperature value corresponding to the received DR level according to the received DR level.

Also, the home appliance may be a refrigerator, and the controller may change an initial compressor operation rate of the refrigerator to an operation rate corresponding to the received DR level in accordance with the received DR level.

Also, the home appliance includes an input unit for receiving a user command, and the controller includes disabling or enabling energy output control according to the DR level according to a user command input through the input unit.

Also, the input unit may include a first button for setting a time zone and a second button for setting the DR level, and the control unit may set the DR level input through the second button to a predetermined value .

The input unit may include a first button for setting a time and a second button for setting the DR level, and the controller may set the DR level input through the second button during the time input through the first button to .

In addition, the household appliance may include a display unit for displaying information, and the control unit may include displaying the currently operating DR level on the display unit.

In addition, the controller may display information related to the reduction of the electric power cost associated with the energy output control according to the DR level in the display unit.

Also, the DR controller receives the electricity price information, accumulates the received electricity price information in units of one day, one week, one month, or one year, and sets the plurality of DR levels using the accumulated electricity price information .

According to another aspect of the present invention, there is provided an induction heating cooker including a load driving unit for driving a working coil for heating a container, a receiver for receiving a DR level associated with a power charge per unit of power, And a controller for checking the output level corresponding to the DR level received through the receiver, changing the output level set in the working coil to the identified output level, And a control unit for controlling the operation of the control unit.

In addition, the information stored in the storage unit may be stored such that the output level becomes lower as the DR level is higher.

According to another aspect of the present invention, there is provided an air conditioner comprising: a load driving unit for driving a compressor; a receiver for receiving a DR level associated with a power charge per unit of power; a storage unit for storing temperature values for each of a plurality of DR levels; The operation of the load driving unit is controlled so that the set temperature of the air conditioner is changed to the confirmed temperature value and the set temperature of the air conditioner reaches the changed temperature value And a control unit for controlling the control unit.

In addition, the information stored in the storage unit may be stored such that the temperature value increases as the DR level is higher.

According to another aspect of the present invention, there is provided a refrigerator including a load driving unit for driving a compressor, a receiver for receiving a DR level associated with a power charge per unit of power, a storage unit for storing a plurality of freezer temperature values corresponding to a plurality of DR levels, The control unit changes the freezer compartment temperature set in the refrigerator to the identified freezer compartment temperature value and controls the temperature of the freezer compartment so that the freezer compartment temperature of the refrigerator reaches the changed freezer compartment temperature value. And a control unit for controlling the operation.

Also, the information stored in the storage unit may be stored such that the temperature of the freezing compartment increases as the DR level is higher.

According to another aspect of the present invention, there is provided a refrigerator including a load driving unit for driving a compressor, a receiver for receiving a DR level associated with a power charge per unit of power, a storage unit for storing a plurality of compressor levels corresponding to a plurality of DR levels, The compressor operation rate corresponding to the DR level received through the compressor, the compressor operation rate set in the refrigerator to the verified compressor operation rate, and the operation of the load driving unit to drive the refrigerator at the changed compressor operation rate As shown in FIG.

In addition, the information stored in the storage unit may be stored so that the compressor operation rate becomes shorter as the DR level is higher.

According to an aspect of the present invention described above, by changing the initial output of a home appliance according to a plurality of DR levels having different power rates per power unit, it is possible to reduce power consumption in a section where the electricity rate is high, have.

1 is a configuration diagram of a demand reaction system according to an embodiment of the present invention.
2 is a control block diagram of a household appliance in a demand reaction system according to an embodiment of the present invention.
3 is a graph showing an initial output level according to a DR level in an induction heating cooker of a demand reaction system according to an embodiment of the present invention.
4 is a control flowchart for explaining a control method of the induction heating cooker in the demand reaction system according to the embodiment of the present invention.
5 is a diagram illustrating a temperature level according to a DR level in an air conditioner of a demand reaction system according to an embodiment of the present invention.
6 is a control flowchart for explaining a control method of an air conditioner in a demand reaction system according to an embodiment of the present invention.
7 is a control flowchart for explaining a refrigerator control method in a demand reaction system according to an embodiment of the present invention.
FIG. 8 is a diagram illustrating a configuration of an induction heating cooker in a demand reaction system according to an embodiment of the present invention.
FIG. 9 is a diagram illustrating messages related to DR level operation and electric power reduction shown in the display panel of the induction heating cooker in the demand reaction system according to the embodiment of the present invention.
10 is a view showing an operation panel for setting a manual DR level of a home appliance in a demand reaction system according to an embodiment of the present invention.
11 is a diagram showing another operation panel for setting a manual DR level of a home appliance in a demand reaction system according to an embodiment of the present invention.

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

FIG. 1 shows a configuration of a demand reaction system according to an embodiment of the present invention.

1, a demand reaction system according to an embodiment of the present invention includes a smart meter 10 installed in a house to transmit and receive information from a power company, A demand response controller (DR controller) 20 for receiving relevant information, and each home appliance 30 connected to the DR controller 20 in a network.

Each of the home appliances 30 performs a desired function by using power flowing through the power line.

The household appliance (30) includes all devices that consume power such as an induction heating cooker, an air conditioner, a refrigerator, and a washing machine.

The DR controller 20 receives electric price information provided by the electric power company through the smart meter 10 and sets a plurality of DR levels having different electric power charges per electric power unit using the electric price information received. The DR level information thus set is transmitted to each of the home appliances 30.

Further, the DR controller 20 records electricity price information provided from the smart meter 10 at unit time intervals. For example, if the unit time is set to 1 hour, 24 electricity price information per day is recorded. The DR controller 20 sets a plurality of DR levels having different power rates per power unit based on the highest power rate and the lowest power rate using the electricity price information. At this time, each DR level can be expressed as a power rate per unit of power.

This DR level can be obtained more accurately by accumulating electricity price information by a certain period such as 1 day, 1 week, 1 month, or 1 year through learning and averaging.

FIG. 2 is a block diagram of a home appliance in a demand reaction system according to an embodiment of the present invention.

2, the home appliance 30 includes an input unit 31, a receiving unit 22, a sensing unit 33, a power measuring unit 34, a load driving unit 35, a transmitting unit 36, 37, a storage unit 38, and a control unit 39.

The input unit 21 is an interface means for a user to input a command. Such an interface means may include a keypad, a keyboard, a joystick, a touchpad, a button, and the like. In particular, the input unit 31 may be integrated with the display unit 37 to form a touch screen.

The receiving unit 32 receives the DR level information from the DR controller 20.

The sensing unit 33 senses various states of the household appliances. And a sensor for detecting various states of induction heating cookers such as a temperature sensor and a voltage sensor when the household appliance is an induction heating cooker. In addition, when the household appliance is an air conditioner, it includes sensors for detecting various states of the air conditioner such as an indoor temperature sensor, an outdoor temperature sensor, and an evaporator temperature sensor. In addition, when the household appliance is a refrigerator, it includes sensors for detecting various states of the refrigerator such as an internal temperature sensor, an evaporator temperature sensor, and a discharge temperature sensor.

The power measuring unit 34 measures the amount of power consumed by the household appliances at predetermined time intervals.

The load driving unit 35 drives various loads of the household electric appliances.

The transmitting unit 36 transmits various pieces of information of the household electric appliances to the DR controller 20. For example, the transmitting unit 36 transmits to the DR controller 20 the electric power consumption of the home appliance measured by the electric power measuring unit 34. [

The display unit 37 displays an operation state of the electric appliance 20, or displays a message related to DR level operation and electric power saving.

The storage unit 38 stores information related to the initial output level for each appliance and information related to the changed value of the initial output level for each DR level.

The control unit 39 controls each element constituting the home appliance.

The control unit 39 changes the initial output value set in the home appliance according to the DR level provided from the DR controller 20 to another output value capable of reducing power consumption. At this time, the control unit 39 changes the initial output value to a lower output value so that the power consumption is further reduced as the current DR level is higher.

At this time, if the home appliance is an induction heating cooker, the controller 39 controls the induction heating cooker to set the initial output level value set in the working coil for heating the container to electric power To a different output level value that can reduce consumption. At this time, the control unit 39 changes the initial output level value to a lower output level value so that the power consumption is further reduced as the current DR level is higher.

The control unit 39 changes the initial set temperature value set in the air conditioner to another set temperature value that can reduce the power consumption according to the DR level provided from the DR controller 20 when the household appliance is the air conditioner. At this time, the control unit 39 changes the initial set temperature value to a higher set temperature value so that the power consumption is further reduced as the current DR level is higher.

If the appliance is a refrigerator, the control unit 39 changes the initial refrigeration temperature value set in the refrigerator to another refrigeration temperature value that can reduce power consumption according to the DR level provided from the DR controller 20. [ At this time, the control unit 39 changes the initial freezing temperature value to a higher freezing temperature value so that the power consumption is further reduced as the current DR level is higher. At this time, the initial refrigeration temperature value may be used instead of the initial refrigeration temperature value. Alternatively, the initial defrost timing value or the compressor operating time value may be used instead of the initial refrigeration temperature value.

In addition, the control unit 39 sets the related setting so that the first output according to the DR level can be manually changed according to a user's command, instead of automatically changing the first output. That is, the control unit 39 can change the first output immediately or from the reserved time to the output value inputted by the user by checking the user's command when changing the first output according to the DR level.

In addition, the control unit 39 displays the DR level information currently being operated so that the user can confirm the current DR level. In addition, the control unit 39 displays information related to how much the electric power rate reduction is performed than when the DR level operation is not performed because the user operates the current DR level so that the user can know the electric power saving effect according to the DR level operation .

Hereinafter, the control unit 39 will be described in detail for each appliance.

Hereinafter, the case where the household appliance is an induction heating cooker will be described.

FIG. 3 shows the initial output level according to the DR level in the induction heating cooker of the demand reaction system according to the embodiment of the present invention. 4 is a flowchart illustrating a control method of the induction heating cooker in the demand reaction system according to the embodiment of the present invention.

Referring to FIG. 3, the control unit 39 receives the DR level provided from the DR controller 20 through the receiving unit 32 (100).

After receiving the DR level, the controller 39 determines whether the received DR level is the fourth DR level (102).

If the received DR level is the fourth DR level as a result of the determination in the operation mode 102, the control unit 39 confirms the initial output level of the working coil installed in the induction heating cooker (104).

After confirming the initial output level of the working coil, the controller 39 changes the initial output level to an output level corresponding to the fourth DR level, which is lower than the initial output level (106).

For example, as shown in FIG. 3, when the confirmed initial output level is equal to or higher than the fourth level (PL? 4), the control unit 39 sets the value PL- 3). Further, the control unit 39 changes the new output level NEW to the value PL-2 obtained by subtracting the second level from the initial output level when the verified initial output level is the third level (PL = 3). Further, the control unit 39 changes the new output level NEW to a value (PL-1) obtained by subtracting the first level from the first output level when the confirmed first output level is the second level (PL = 2).

If the received DR level is not the fourth DR level, the controller 39 determines whether the received DR level is the third DR level (step 108).

If the received DR level is the third DR level as a result of the determination in the operation mode 108, the controller 39 confirms the first output level of the working coil installed in the induction heating cooker (110).

After confirming the initial output level of the working coil, the control unit 39 changes the initial output level to an output level corresponding to the third DR level which is lower than the initial output level (112).

For example, as shown in FIG. 3, when the checked initial output level is equal to or higher than the third level (PL? 3), the control unit 39 sets the value PL- 2). Further, the control unit 39 changes the new output level NEW to a value (PL-1) obtained by subtracting the first level from the first output level when the confirmed first output level is the second level (PL = 2).

If it is determined in operation mode 108 that the received DR level is not the third DR level, the controller 39 determines whether the received DR level is the second DR level (114).

If the received DR level is the second DR level as a result of the determination in the operation mode 114, the controller 39 confirms the initial output level of the working coil installed in the induction heating cooker (116).

After confirming the initial output level of the working coil, the controller 39 changes the initial output level to the output level corresponding to the second DR level, which is lower than the initial output level (118).

For example, as shown in FIG. 3, when the checked initial output level is equal to or higher than the second level (PL 占 폚 2), the control unit 39 sets the new output level NEW to a value PL- 1).

If it is determined that the received DR level is not the second DR level, the control unit 39 determines that the received DR level is the first DR level and outputs the first output level of the working coil installed in the induction heating cooker (120).

After confirming the initial output level of the working coil, the control unit 39 maintains this initial output level (122).

As described above, the initial output level is changed to the output level corresponding to the DR level according to the DR level. The output level is determined according to the duty ratio of a pulse width modulation (PWM) signal supplied to the working coil. By decreasing the duty ratio from the first DR level to the fourth DR level, power consumption of the working coil is reduced Thereby reducing peak demand.

And recognizes the received DR level as a valid value when a new DR level is received at the same level for a predetermined time (for example, 5 seconds).

The override function means that the initial output level is kept unchanged regardless of the received DR level. When the user inputs this override function, the control unit 39 keeps the initial output level regardless of the DR level.

The relationship between the DR level and the initial output level is shown in FIG. For example, when the initial user sets the initial output level to "4", the DR level is maintained as "4" when the DR level is applied as "1", but when the DR level is applied as "2" Is changed from "4" to "3 ". When the DR level is applied as "3 ", the initial output level is changed from" 4 "to" 2 ". Also, when the DR level is applied as "4", the initial output level changes from "4" to "1".

By changing the initial output level to a lower output level as the DR level is higher through the above-described method, the power consumption can be reduced in a section where the DR level is high, so that the power charge can be reduced.

Hereinafter, the case where the household appliance is an air conditioner will be described.

5 is a graph illustrating a temperature level according to the DR level in the air conditioner of the demand reaction system according to the embodiment of the present invention. 6 is a flowchart illustrating a control method of an air conditioner in a demand reaction system according to an embodiment of the present invention.

Referring to FIG. 5, the control unit 39 receives the DR level provided from the DR controller 20 through the receiving unit 32 (step 200).

After receiving the DR level, the controller 39 determines whether the received DR level is the fourth DR level (step 202).

If the received DR level is the fourth DR level as a result of the determination in the operation mode 202, the controller 39 confirms the initial set temperature to the air conditioner (204).

After confirming the initial set temperature of the air conditioner, the controller 39 changes the initial set temperature to the set temperature corresponding to the fourth DR level that is lower than the initial set temperature (206).

For example, as shown in FIG. 5, the control unit 39 sets the new set temperature NEW to the value TL + 3 (TL + 3) obtained by adding 3 DEG C from the initial set temperature ° C). Further, the control unit 39 changes the new set temperature NEW to the value (TL + 2 DEG C) obtained by adding 2 DEG C from the initial set temperature when the confirmed initial set temperature is 26 DEG C (TL = 26 DEG C). Further, the control unit 39 changes the new set temperature NEW to a value (TL + 1 DEG C) obtained by adding 1 DEG C from the initial set temperature in the case where the confirmed initial set temperature is 27 DEG C (TL = 27 DEG C).

If the received DR level is not the fourth DR level, the controller 39 determines whether the received DR level is the third DR level (step 208).

If the received DR level is the third DR level as a result of the determination in the operation mode 208, the controller 39 confirms the initial set temperature of the air conditioner (210).

After confirming the initial set temperature of the air conditioner, the controller 39 changes the initial set temperature to the set temperature corresponding to the third DR level which is lower than the initial set temperature (212).

For example, as shown in FIG. 5, the control unit 39 sets the new set temperature NEW to the value TL + 2 (TL + 2) obtained by adding 2 DEG C from the initial set temperature ° C). Further, the control unit 39 changes the new set temperature NEW to a value (TL + 1 DEG C) obtained by adding 1 DEG C from the initial set temperature when the confirmed initial set temperature is 27 DEG C (TL = 27 DEG C).

If it is determined that the received DR level is not the third DR level, the controller 39 determines whether the received DR level is the second DR level (step 214).

If it is determined in operation mode 214 that the received DR level is the second DR level, the controller 39 confirms the initial set temperature of the air conditioner (step 216).

After confirming the initial set temperature of the air conditioner, the controller 39 changes the initial set temperature to the set temperature corresponding to the second DR level which is lower than the initial set temperature (218).

For example, as shown in FIG. 5, the control unit 39 sets the new set temperature NEW to the value TL + 1 (TL + 1) obtained by adding 1 DEG C from the initial set temperature ° C).

On the other hand, if it is determined that the received DR level is not the second DR level, the controller 39 determines that the received DR level is the first DR level and confirms the first set temperature of the air conditioner 220).

After confirming the initial set temperature of the air conditioner, the controller 39 maintains this initial set temperature (222).

As described above, the power level corresponding to each level is controlled by dividing the DR level into a plurality of levels. The power consumption is maximized during operation of the compressor according to the user's desired temperature setting, and the operation time of the air conditioner is reduced by slowly increasing the user-set desired temperature as the DR level is increased to reduce power consumption to reduce peak load .

The DR level is changed when a new DR level is received at the same level for a predetermined time, and the DR level maintains the existing level when receiving a level other than the same level for a set time.

Like the induction heating cooker, the air conditioner has an override function that keeps the initial set temperature regardless of the DR level. When an override function is input by the user, the control unit 39 continuously maintains the initial set temperature regardless of the DR level.

The control unit 39 displays the corresponding DR level when the DR level is changed on the display unit 37, and can display the reduced electricity rate due to the corresponding DR level operation.

If the user does not want to control the operation of the air conditioner according to the DR level, the control unit 39 can cancel the operation control of the air conditioner according to the DR level by the user's command.

The relationship between the DR level and the initial set temperature is shown in Fig. For example, if the user normally sets the initial set temperature to 18 ° C and the DR level changes during use, the initial set temperature is forcibly raised by + 2 ° C. If the DR level is set to "1", the initial user setting is maintained, but the initial set temperature is increased by + 2 ° C as the DR level is increased.

The power consumption can be lowered by forcibly adjusting the compressor operation rate of the air conditioner as the DR level becomes higher instead of changing the initial set temperature described above. That is, it is possible to control the operation time to be gradually decreased as the DR level increases. For example, when the DR level is "1", the compressor is stopped for 50 minutes / 10 minutes, and when the DR level is "2", the compressor is stopped for 40 minutes / When this "3" is applied, the compressor is stopped for 30 minutes / 30 minutes, and when the DR level is "4", the compressor is stopped for 20 minutes / 40 minutes.

By the above-described method, by changing the initial set temperature to a lower set temperature or changing the operation rate of the compressor to a lower operation rate as the DR level is higher, it is possible to reduce the power consumption in a section where the DR level is high, The fee can be saved.

Hereinafter, the case where the household appliance is a refrigerator will be described.

7 is a flowchart illustrating a control method of a refrigerator in a demand reaction system according to an embodiment of the present invention.

7, the control unit 39 receives the DR level provided from the DR controller 20 through the receiving unit 32 (300).

After receiving the DR level, the controller 39 determines whether the received DR level is the fourth DR level (302).

If the received DR level is the fourth DR level as a result of the determination in the operation mode 302, the control unit 39 confirms the first freezing room temperature of the refrigerator (304).

After checking the first freezing room temperature of the refrigerator, the control unit 39 changes the first freezing room temperature to the freezing room temperature corresponding to the fourth DR level, which is lower than the first freezing room temperature (306).

For example, the control unit 39 changes the new freezer room temperature NEW to a value (TL + 6 DEG C) obtained by adding 6 DEG C to the initial freezer room temperature.

Then, the defrost heater for removing the property in the evaporator is turned off and the current DR level (fourth DR level) is displayed (308).

If the received DR level is not the fourth DR level, the controller 39 determines whether the received DR level is the third DR level (operation 310).

If the received DR level is the third DR level as a result of the determination in the operation mode 310, the controller 39 confirms the first freezing room temperature of the refrigerator (312).

After confirming the first freezing room temperature of the refrigerator, the controller 39 changes the first freezing room temperature to the freezing room temperature corresponding to the third DR level, which is lower than the first freezing room temperature (314).

For example, the control unit 39 changes the new freezer room temperature NEW to a value (TL + 4 DEG C) obtained by adding 4 DEG C to the initial freezer room temperature.

Then, the defrost heater is turned off and the current DR level (third DR level) is displayed (316).

If the received DR level is not the third DR level, the controller 39 determines whether the received DR level is the second DR level (318).

If the received DR level is the second DR level as a result of the determination in the operation mode 318, the control unit 39 confirms the first freezing room temperature of the refrigerator (320).

After checking the first freezing room temperature of the refrigerator, the controller 39 changes the first freezing room temperature to the freezing room temperature corresponding to the second DR level, which is lower than the first freezing room temperature (322).

For example, the control unit 39 changes the new freezer room temperature NEW to a value (TL + 2 DEG C) obtained by adding 2 DEG C to the initial freezer room temperature.

If the received DR level is not the second DR level, the controller 39 determines that the received DR level is the first DR level and confirms the first freezing room temperature of the refrigerator (step 326) .

After confirming the first freezing compartment temperature of the refrigerator, the control unit 39 maintains the first freezing compartment temperature (328).

Then, the current DR level (first DR level) is displayed (330).

As described above, as the DR level increases, the first freezer compartment temperature set by the user is gradually increased to reduce the compressor operation time of the refrigerator, thereby reducing the power consumption and reducing the peak load.

The DR level is changed when a new DR level is received at the same level for a certain time, and the DR level maintains the existing level when receiving a level other than the same level for a set time.

Like the induction heating cooker and the air conditioner, the refrigerator has an override function that keeps the first freezer room temperature regardless of the DR level. When an override function is input by the user, the controller 39 continuously maintains the first freezer compartment temperature regardless of the DR level.

The control unit 39 displays the corresponding DR level when the DR level is changed on the display unit 37, and can display the reduced electricity rate due to the corresponding DR level operation.

In addition, when the user does not want to control the operation of the refrigerator according to the DR level, the control unit 39 can release the operation control of the refrigerator according to the DR level by the user's command.

When the DR level is set to "2", the initial freezer temperature is increased by 2 ° C. For example, if the first freezer compartment temperature is set to -20 ° C, the operating time of the compressor is lowered by changing it to -18 ° C. At this time, the defrost heater operates normally.

When the DR level is "3 ", the initial freezing room temperature is raised by 4 캜. For example, if the initial freezer room temperature is set to -20 ° C, the operating time of the compressor is reduced by changing it to -16 ° C. At this time, the defrost heater is not operated.

When the DR level is "4 ", the temperature of the first freezing compartment is raised by 6 캜. For example, if the initial freezer room temperature is set to -20 ° C, the operating time of the compressor is reduced by changing it to -14 ° C. At this time, the defrost heater is not operated.

Through the above-described method, the higher the DR level, the more the first freezer compartment temperature is changed to a higher freezer compartment temperature, thereby reducing the operation time of the compressor, thereby reducing the power consumption in the DR level.

FIG. 8 shows a configuration of an induction heating cooker in a demand reaction system according to an embodiment of the present invention.

As shown in FIG. 8, in the demand reaction system according to the embodiment of the present invention, the induction heating cooker 30 is installed at a lower portion of the cooking plate, Two heating coils L1 and L2 are provided.

A plurality of operation panels 50 for inputting corresponding commands to the control device and a display panel 40 for displaying information are provided on one side of the main body to operate the respective heating coils L1 and L2.

Therefore, the user places the container on the cooking plate, confirms the position of the heating coil L1 (L2) used for heating the container through the display panel 40, and presses the operation panel 50, (L1) and (L2), the high-frequency power is supplied to the heating coils L1 and L2 on which the container is placed to heat the container.

The operation panel 50 is provided with a first button 51 and a second button 52. The first button 51 is the "Start Now" button and the second button 52 is the "Start on DR" button. The "Start Now" button is a button for setting the above-described override function. The "Start on DR" button is a function for automatically executing energy output control according to a DR level ).

It is inefficient to operate the induction cooker with expensive power charges when the DR level is high. Therefore, in such a case, the user can selectively operate the induction heating cooker immediately or in a power saving manner according to his / her preference. For reference, these buttons are applicable not only to induction heating cookers but also to all home appliances such as air conditioners, refrigerators, and washing machines.

9 shows a message related to the DR level operation and the electric power reduction shown in the display panel of the induction heating cooker in the demand reaction system according to the embodiment of the present invention.

As shown in FIG. 9, the control unit 39 displays the current DR level information so that the user can check the current DR level through the display unit 37. In addition, the control unit 39 displays information related to how much the electric power rate reduction is performed than when the DR level operation is not performed because the user operates the current DR level so that the user can know the electric power saving effect according to the DR level operation .

10 illustrates an operation panel for setting a manual DR level of a home appliance in a demand reaction system according to an embodiment of the present invention. 11 is a diagram illustrating another operation panel for setting a manual DR level of a home appliance in a demand reaction system according to an embodiment of the present invention.

It is possible to attach operation panels 60 and 70, which can be arbitrarily changed by a user, to the home appliance so as to be adjustable according to the needs of the user.

For example, by using the On / Off button 62 provided on the operation panel 60 (70) having the time zone setting button 61 and the DR level setting button 62, the energy output control according to the DR level can be enabled or disabled It can be disabled. At this time, the DR level input via the DR level setting button 62 is maintained during the time zone input through the time zone setting button 61. [

When the user inputs the time through the time setting button 71 and inputs the DR level through the DR level setting button 72 using the operation panel 70, The DR level inputted through the DR level setting button 72 is maintained. When the inputted time elapses after performing the timer function, it is possible to terminate the execution of the manual DR level control and to perform the energy output control according to the DR level received from the DR controller 20. [

In this way, it is possible to compensate for the disadvantage of performing the DR control that there may be a case where the 100% performance of the home appliance can not be exhibited, so that the DR level control can be performed more rationally.

10: Smart meter 20: DR controller
30: Home appliances 31: Input unit
32: Receiving unit 33:
34: power measuring unit 35: load driving unit
36: Transmitter 37: Display
38: storage unit 39: control unit

Claims (20)

Home appliances; And
And a DR controller for storing a plurality of DR levels having a higher level as the electric power charges per electric power unit are different and the electric power charges per electric power unit being higher, and for transmitting a current DR level to the electric appliance,
Wherein the household appliance comprises:
A storage unit for storing a change value of an output level corresponding to each of the plurality of DR levels;
An input unit for receiving an output level from a user;
When the input output level is higher than a preset reference output level, controlling the change of the input output level based on the current DR level and the change value of the output level of each DR level stored in the storage unit, The output level of which is lower than the reference output level,
Wherein the change value of the output level for each DR level stored in the storage unit includes a range of different output levels for each DR level,
The range of the output level for each DR level includes a maximum value and a minimum value of the output level for each DR level, and further decreases as the DR level increases,
Wherein the maximum value of the range of the output level for each DR level decreases as the DR level increases or the minimum value of the range of the output level for each DR level increases as the DR level increases. delete The electronic apparatus according to claim 1,
Further comprising: a load driving unit for driving at least one load to output at an output level corresponding to a control signal of the control unit. The method according to claim 1,
Wherein the plurality of DR levels include a reference DR level,
Wherein the minimum value and the maximum value within the range of the output level of the DR level below the reference DR level are equal to the minimum value and the maximum value within the range of the output level that can be output from the household appliance. delete The apparatus of claim 1,
And disabling or enabling the change of the initial output level according to the current DR level according to a user command input to the input unit. The apparatus of claim 1,
And when the time information is input to the input unit, controlling the maintenance of the input output level based on the input time information. The method according to claim 1,
Wherein the household appliance includes a display unit for displaying information,
Wherein the control unit controls the display unit to display at least one of the current DR level and the electric power saving information corresponding to the change of the output level. A working coil for heating the vessel;
A load driving unit for driving the working coil;
A storage unit for storing a plurality of DR levels having a higher level and a change value of an output level corresponding to each of the plurality of DR levels, the power level being different for each power unit, the higher the power rate per unit of power;
An input unit for receiving an output level from a user;
A receiver for receiving a current DR level; And
Controlling the change of the input output level based on the received current DR level and a change value of the output level of each DR level stored in the storage unit when the input output level is higher than a preset reference level, And a controller for maintaining the input output level when the level is below the predetermined reference output level,
Wherein the change value of the output level for each of the plurality of DR levels stored in the storage unit includes a range of different output levels for each DR level,
Wherein the range of the output level for each DR level includes a maximum value and a minimum value of the output level for each DR level, and further decreases as the DR level increases,
Wherein the maximum value of the range of the output level for each DR level is decreased as the DR level is increased. delete 10. The method of claim 9,
Wherein the change value of the output level of each of the stored plurality of DR levels has a value such that the input output level becomes lower as the DR level is higher. compressor;
A load driving unit for driving the compressor;
A storage unit for storing a plurality of DR levels having a high level and a change value of a set temperature corresponding to each of the plurality of DR levels, the power levels of which are different from each other,
An input unit for receiving a set temperature from a user;
A receiver for receiving a current DR level; And
If the input set temperature is lower than a predetermined reference temperature, controlling the change of the input set temperature based on the received current DR level and a change value of the set temperature stored in the storage unit, And a controller for maintaining the input set temperature when the reference temperature is higher than the reference temperature,
Wherein the change values of the plurality of stored set temperature values for the DR level include different set temperature ranges for the respective DR levels,
Wherein the range of the set temperature for each DR level includes a maximum value and a minimum value of the set temperature for each DR level, and further decreases as the DR level increases,
Wherein the minimum value within the range of the set temperature for each DR level is increased as the DR level is increased. delete 13. The method of claim 12,
Wherein the change value of the set temperature according to the DR level stored in the storage unit has a value such that the input set temperature becomes higher as the DR level is higher. compressor;
A load driving unit for driving the compressor;
A storage unit for storing a plurality of DR levels having higher levels as power charges per power unit are different from each other and a power charge per unit of power is higher and a change value of the freezer compartment temperature corresponding to each of the plurality of DR levels;
An input unit for receiving a freezer compartment temperature from a user;
A receiver for receiving a current DR level; And
And controlling the change of the input freezing room temperature based on the received current DR level and a change value of the freezing room temperature stored in the storage unit when the input freezing room temperature is lower than a preset reference temperature, And a controller for maintaining the input set temperature when the reference temperature is higher than the reference temperature,
Wherein the change value of the freezer compartment temperature by the DR level stored in the storage unit includes a range of different freezer compartment temperatures for each DR level,
Wherein the range of the freezer compartment temperature according to the DR level includes a maximum value and a minimum value of the freezer compartment temperature according to the DR levels and further decreases as the DR level increases,
Wherein the minimum value in the range of the freezer compartment temperature by the DR level is increased as the DR level is increased. delete 16. The method of claim 15,
Wherein the change value of the freezer compartment temperature by the DR level stored in the storage unit has a value such that the inputted freezing compartment temperature becomes higher as the DR level is higher. compressor;
A load driving unit for driving the compressor;
A storage unit for storing a plurality of DR levels having a higher level as the electric power charges per electric power unit are different from each other and higher as the electric power charges per electric power unit are higher and a change value of the operation ratio of the compressor corresponding to each of the plurality of DR levels;
An input unit for receiving a freezer compartment temperature from a user;
A receiver for receiving a current DR level; And
Controlling the change of the operation rate of the compressor based on the received current DR level when the inputted freezer compartment temperature is lower than a predetermined reference temperature and controlling the operation rate of the compressor when the input freezer compartment temperature is equal to or higher than the reference temperature, And a control unit for controlling the driving unit,
Wherein the change value of the operation rate of the compressor for each DR level stored in the storage unit includes a range of operation rates different for each DR level,
The range of the operation rate of the compressor according to the DR level includes a maximum value and a minimum value of the operation rate of the compressor for each DR level, and further decreases as the DR level increases,
Wherein the maximum value of the operation rate of the compressor by the DR level decreases as the DR level increases. delete 19. The method of claim 18,
The change value of the operation rate for each DR level stored in the storage unit is set so that the operation rate is further reduced as the DR level is higher
Gt;

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