KR101801097B1 - Demand response method and demand response system - Google Patents

Abstract

By prioritizing the home appliances according to the quality status of a plurality of home appliances and varying the DR level of each appliance based on the priorities of the home appliances, it is possible to guarantee the quality of appliances as much as possible A demand response method and a demand reaction system that reduce power consumption are disclosed.

Description

[0001] DEMAND RESPONSE METHOD AND DEMAND RESPONSE SYSTEM [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a demand reaction method and a demand reaction system, and more particularly, to a demand response method and a demand reaction system that reduce peak electricity in an electricity charge period to reduce electric 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 form of power consumption with changes in electricity rates. In other words, it means adjusting the power consumption according to the electricity rate to reduce the electricity rate. This can play an important role in reducing power consumption during peak hours. This is an example of reducing the electricity consumption of household appliances by taking the inconvenience in the area where electricity charges are high.

In recent years, the demand response level (hereinafter referred to as " DR level ") set in the household appliance is changed in accordance with the electricity rate information so that the function of the household appliance is discriminated in accordance with the level value. That is, a demand response system is being developed that reduces the electricity consumption of household appliances by increasing the DR level of household appliances and further limiting the functions of home appliances. These demand response systems save electricity costs by reducing electricity consumption instead of lowering the quality of appliances.

However, in the existing demand reaction system, if the electricity rate is high without considering the quality state of the household appliance, the DR level of the household appliance is raised and the DR level of the household appliance is lowered when the electricity rate is low. Therefore, there is a fear that the quality of the household appliance may be deteriorated.

According to an aspect of the present invention, priority is given to each of the home appliances in accordance with the quality state of each home appliances so as to reduce power consumption while ensuring the quality of a plurality of home appliances within a guaranteed range, And a demand reaction system for varying the DR level of the demand response system.

To this end, the demand response method according to an embodiment of the present invention checks the demand response level set in each home appliance to limit the function of each home appliance, judges the quality state of each of the home appliances, Setting a priority order of each home appliance according to the quality state of the home appliance and changing the demand response level according to a priority level and a demand reaction level of each appliance when the demand response level set in the appliance is required to be changed Determining a home appliance, and changing a demand reaction level set in the determined home appliance.

The priority setting may include setting the priority order of each of the home appliances based on at least one of an average operation time of the home appliances and a power consumption.

Also, the priority setting includes setting the priority of the home appliances having a longer average operation time or higher power consumption than the home appliances not having the higher average operation time.

In addition, in the priority setting, whether the item to be used for the priority order of each of the home appliances includes an average operation time, a power consumption, an average operation time, and a power consumption may be inputted by the user do.

In addition, the priority setting includes setting the priority to be higher as the quality state is lower.

In addition, the home appliance determination may include: determining a current electricity rate; comparing the determined current electricity rate with a preset electricity rate; if the current electricity rate is higher than the preset electricity rate as a result of the comparison, And determining the home appliance having the lowest priority among the home appliances having the lowest demand response level as the home appliance for changing the demand reaction level.

The demand reaction level change may include increasing the demand reaction level set in the determined home appliance to one level so as to further restrict the function of the determined home appliance.

In addition, the home appliance determination may include: determining a current electricity rate; comparing the determined current electricity rate with a preset electricity rate; if the current electricity rate is lower than the predetermined electricity rate as a result of the comparison, And determining the home appliance having the highest priority among the home appliances having the highest demand response level as the home appliance for changing the demand reaction level.

The demand reaction level change includes lowering the demand reaction level of the determined home appliance by one step such that the limited function of the determined home appliance is partially released.

Determining whether a quality state of each of the household appliances is less than a predetermined level; and if the appliance has a quality state lower than the predetermined level, determining a demand response level of the appliance having a quality state lower than the preset level To a normal operating level.

The quality state determination may include receiving a quality factor indicating performance of the home appliance from the home appliance and determining a quality state of the home appliance in accordance with the received quality factor.

According to another aspect of the present invention, there is provided a demand reaction system including a reception unit receiving a quality factor of a plurality of home appliances, a quality determination unit determining quality of the plurality of home appliances according to a quality factor of the received plurality of home appliances, A priority setting unit configured to set a priority order of the plurality of home appliances based on the determined quality states of the plurality of home appliances; And a control unit for determining the home appliance to which the demand response level is to be changed according to the priorities of the home appliances and the current demand reaction level and changing the demand reaction level set in the determined home appliances.

The priority setting unit may include setting a priority order of each of the home appliances based on at least one of an average operation time of the home appliances and a power consumption.

In addition, the priority setting unit may include setting the priority of the home appliances having the low quality state, the average operation time, or the high power consumption to be higher than that of the home appliances.

The control unit may determine whether the quality status of each of the home appliances is less than a preset level, and if the home appliance has a quality status lower than the preset level, Further comprising changing the reaction level to a normal operating level.

If the current electricity bill is higher than a predetermined electricity bill, the control unit may determine that the household appliance having the lowest priority level among the household appliances having the lowest demand response level is the appliance for changing the demand response level, And increasing the demand response level of the determined home appliance by one step to further restrict the function of the appliance.

If the current electricity bill is lower than a preset electricity bill, the control unit may determine the home appliance having the highest priority among the home appliances having the highest demand response level as the home appliance to change the demand response level, And lowering the demand reaction level of the determined home appliance to one step to partially release the function of the home appliance.

According to another aspect of the present invention, there is provided a demand response method, comprising: setting a demand reaction level for restricting the function of the home appliance in a home appliance; determining a quality state of the home appliance in which the demand response level is set; The demand response level set in the home appliances is determined based on the determined demand reaction level range and the demand reaction level set in the home appliances .

In addition, the changeable demand response level range in the determination of the demand reaction level range includes a preset range in which the changeable demand response level range becomes narrower as the quality state is lower.

According to another aspect of the present invention, there is provided a demand reaction method comprising operating a plurality of home appliances at an initial demand reaction level, determining a quality state of a plurality of home appliances operating at the initial demand reaction level, Sets a priority order of the plurality of home appliances, judges a current electricity bill of the plurality of home appliances, compares the determined current electricity bill with a predetermined electricity bill, When the charge is lower than the predetermined electricity rate, determining the home appliance having the highest priority among the home appliances having the highest demand response level as the home appliance to which the demand reaction level is to be changed, If the electricity demand is higher than the electricity price, the appliances having the lowest priority among the appliances having the lowest demand response level The demand response level is determined to be a home appliance that is to be changed. If the home appliance having the highest demand response level among the home appliances having the highest demand response level determines the function of the determined home appliance, The demand response level of the home appliances determined to be partially released is lowered and if the household appliance whose demand response level is to be changed has the lowest priority order among the household appliances having the lowest demand response level, And increasing the demand response level of the determined home appliance to limit the demand.

According to the embodiment of the present invention described above, the quality state of each home appliance can be grasped, the priorities of the home appliances can be determined according to the determined quality state, and the DR level of each appliance can be varied according to the determined priority, Maximize power consumption while ensuring maximum quality of the device within the guaranteed range.

1 is a configuration diagram of a demand reaction system according to an embodiment of the present invention.
FIG. 2 is a diagram for explaining controlling the DR level according to the quality factor of each home appliance in the DR controller shown in FIG. 1. FIG.
3 is a control block diagram of each household appliance in the demand reaction system according to the embodiment of the present invention.
4 is a diagram for explaining a rule for determining a quality factor in a demand reaction system according to an embodiment of the present invention.
5 is a view for explaining the limitation of the DR level according to the quality factor in the demand reaction system according to the embodiment of the present invention.
FIG. 6 is a diagram for explaining the electricity rate transition in the DR level control according to the electricity billing limit in the demand reaction system according to the embodiment of the present invention.
FIG. 7 is a diagram for explaining the electricity rate transition in the DR level control according to the power consumption limit point in the demand reaction system according to the embodiment of the present invention.
FIG. 8 is a diagram for explaining a priority according to a quality factor for each household appliance in the demand reaction system according to the embodiment of the present invention.
9 is a diagram for explaining how the DR level is lowered according to the priority order of each home appliance in the demand reaction system according to the embodiment of the present invention.
FIG. 10 is a diagram for explaining how to increase the DR level according to the priority of each home appliance in the demand reaction system according to the embodiment of the present invention.
11 is a diagram for explaining a change in quality factor of each home appliance in a demand reaction system according to an exemplary embodiment of the present invention.
12 is a control flowchart for explaining a demand reaction method according to an embodiment of the present invention.
FIG. 13 is a diagram for explaining setting of the priority order of household appliances in the demand reaction system according to the 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 information related to electricity prices, and home appliances 30_1 to 30_n connected to the DR controller 20 in a network.

The home appliances 30_1 to 30_n perform desired functions by using electric power flowing through a power line.

The home appliances 30_1 to 30_n include all appliances that consume power such as a refrigerator, an air conditioner, a washing machine, a cook top, a television, and the like.

The home appliances 30_1 to 30_n transmit quality information such as a quality factor of the home appliances 30_1 to 30_n to the DR controller 20 (see Fig. 2).

The DR controller 20 fetches information such as electric demand or electric charge, and determines the DR level, and transmits this information to each of the home appliances 30_1 to 30_n (see FIG. 2).

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

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

In addition, the DR controller 20 records electric bill information provided by the utility through the smart meter 10 in unit time intervals for a predetermined period of time, calculates an electricity bill pattern . The time interval according to the electricity rate pattern is classified into a high rate charging period and a low charging rate period based on a preset electric charge limit point.

3 shows a control block of each home appliance in a demand reaction system according to an embodiment of the present invention.

3, the DR controller 20 includes an input unit 21, a receiving unit 22, an electricity billing unit 23, an electric bill pattern extracting unit 24, a quality determining unit 25, A transmitter 26, a transmitter 27, a display 28, and a controller 29. [

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 21 may be integrated with the display unit 28 and configured in the form of a touch screen.

The receiving unit 22 receives the electric bill information from the smart meter 10 and receives various kinds of information from the home appliances 30_1 to 30_n installed in the home. In particular, the receiving unit 22 receives the quality factors of the respective home appliances 30_1 to 30_n from the home appliances 30_1 to 30_n. The quality factor is a value that shows the performance of home appliances in 100 parts.

The electricity bill recording unit 23 records the electricity bill provided from the smart meter 10 at unit time intervals. For example, if the unit time is set to 1 hour, 24 electricity rate data per day is recorded.

The electric fare pattern extracting unit 24 extracts the electric fare pattern from the electric charges recorded in the electric bill recording unit 23. [ The electricity demand pattern is expressed as an electricity rate over time in the pattern cycle. The pattern period can be set to 1 day, 1 week, 1 month, 1 year, and so on.

An example of calculating the electricity rate pattern using the electricity rate data recorded for a certain period of time is as follows. First, the unit time is set to one hour, and the pattern period is set to one day. The electricity rate pattern is obtained by averaging all the daily electricity rate data by the unit time of the pattern period.

For example, the electricity rate data is obtained by averaging the electricity rate data until 0-1 of all the days, and the electricity rate data is obtained by averaging the electricity rate data by 1-2 at all the days to obtain the electricity rate at 2:00. Thus, the average electric charge is obtained for each unit time of the pattern cycle.

The quality judging unit 25 judges the quality state of each appliance according to the quality factor of each appliance.

The priority setting unit 26 sets the priority order of each of the home appliances 30_1 to 30_n. The priority setting unit 26 can set the priority order of each of the home appliances 30_1 to 30_n according to the quality state of each of the home appliances 30_1 to 30_n.

The priority setting unit 26 sets the priority order of each of the home appliances 30_1 to 30_n based on the quality state of each of the home appliances 30_1 to 30_n and the priority order of the home appliances inputted by the user Can be set.

In addition, the priority setting unit 26 can set the priority order of each of the home appliances 30_1 to 30_n based on the quality state of each of the home appliances 30_1 to 30_n and the work importance inputted by the user. This work importance is the work importance selected by the user among a plurality of work importance set in advance for setting the priority of each of the home appliances 30_1-30_n. For example, when the operation importance is the average operation time, the priority of the home appliances having a long average operation time can be set higher than the priority of the home appliances not having the average operation time. When the work importance is power consumption, it is possible to set the priority of the home appliances having high power consumption to be higher than the priority of the home appliances that do not. Also, when the importance of the operation is both the power consumption and the average operation time, the priority of the home appliances having a long average operation time and high power consumption can be set to be higher than that of the other home appliances.

The transmitting unit 27 transmits various information to each of the home appliances 30_1 to 30_n.

The display unit 28 visually displays the operation of the DR controller 20, or displays the current DR level or electric charge. Also, the display unit 28 displays a screen for inputting the importance of work for setting the priorities of the respective home appliances 30_1 to 30_n or a screen for receiving the priority order of the home appliances 30_1 to 30_n from the user can do.

The control unit 29 performs overall control of the DR controller 20. For this, the controller 29 controls each element constituting the DR controller 20.

The control unit 29 stores information received through the receiving unit 22, stores data of various components, and stores target values and control programs for various controls.

The control unit 29 receives the electricity bill information of the day from the smart meter 10 and records it in the electricity bill recording unit 23. [

Further, the control unit 29 extracts the electricity tariff pattern by calculating the average of the electricity tariff information for the day, which is recorded in the electricity tariff recording unit 23 through the electricity tariff pattern extracting unit 24, for a certain period of time .

Also, the control unit 29 determines an initial DR level in accordance with the electric bill information, and transmits the determined initial DR level to each of the home appliances 30_1 to 30_n via the transmission unit 27. [ The received home appliances operate according to the initial DR level.

The control unit 29 receives the quality factors from the respective home appliances 30_1 to 30_n through the receiving unit 22 and determines the current quality state of each of the home appliances 30_1 to 30_n through the quality judging unit 25 as .

The control unit 29 limits the range of the DR levels that can be changed by each of the home appliances 30_1 to 30_n according to the quality state of each of the home appliances 30_1 to 30_n determined through the quality determiner 25. [ That is, in the case of a home appliance having a high quality state, the DR level can be varied within a range so that it can be performed not only in normal operation but also in the maximum power saving operation. However, in the case of an appliance having a low quality state, The DR level can be changed only to the normal operation level so that only the operation can be performed. As a result, it is possible to reduce the power consumption while ensuring the quality of the electrical appliance within the guaranteed range.

The control unit 29 sets priorities of the respective home appliances 30_1 to 30_n according to the quality status of each of the home appliances 30_1 to 30_n and determines whether the current electricity bill (or power consumption) Power consumption limit), the DR level of a device having the lowest priority among the low-DR-level household appliances is raised so as to perform the power saving operation of the lowest-priority appliance among the low-DR household appliances. If the current electricity bill (or power consumption) is lower than the electricity billing threshold (or the power consumption limit), the control unit 29 may lower the power saving operation degree of the appliance having the highest priority among the household appliances having a high DR level Decrease the DR level of the device with the highest priority among the DR-level household appliances.

In the demand reaction system according to the embodiment of the present invention, the DR controller 20 receives the quality status of each home appliance and uses it for DR level control. The quality status of each appliance is determined by the method of diagnosis in each appliance. The method of diagnosis differs depending on the kind and tendency of home appliances. Therefore, a common rule for determining the quality factor value by judging the state of the home appliance is needed.

FIG. 4 shows an example of a rule for each home appliance to determine a quality factor in the demand reaction system according to the embodiment of the present invention.

As shown in FIG. 4, a quality factor of 51% or more should be applied in a normal state, a quality factor should be applied in a range of 50% to 26% in a caution state, Dangerous should have a quality factor in the range of 25% to 13%, and Emergency should have a quality factor of less than 12%.

In the above state, the emergency state means a case where an emergency operation is performed due to a defect in various apparatuses such as various sensors and heaters, and a state in which a recovery is impossible can not be performed any more. It is set to 0% in the unrecoverable state.

In the demand reaction system according to the embodiment of the present invention, the DR controller 20 variably controls the DR level of the home appliance according to the quality state of the home appliance. Also, the DR controller 20 variably controls the DR level of the home appliances by comparing the current electricity price with a preset electricity billing threshold or comparing the current consumption power with a predetermined power consumption limit.

Hereinafter, the DR controller 20 variably controls the DR level of the home appliance according to the quality state of the home appliance.

The DR controller 20 determines the initial DR level according to the current electricity bill information. The initial DR level is transmitted to each home appliance, and the received home appliance operates according to the initial DR level.

And receives the quality factor converted from 100% to 0% to receive the quality factor from the appliance. The converted value at this time can be set to a different format or scale depending on the situation.

The DR controller 20 limits the range of the DR level according to the quality state of each home appliance. If there are household appliances with low quality status, operate by lowering the DR level. The lower the DR level is, the closer the quality of the appliance becomes to the original 100% performance.

If the DR level is not changed in a very low quality state, there is a possibility that a trouble occurs in the household appliance. When the power consumption reduction operation is performed in a state where the quality state is extremely low, the quality state can not be recovered because it can not operate at 100% performance. When the defrosting operation of the refrigerator is continuously delayed, for example, the defrosting is too much and the defrosting becomes impossible. This problem can be solved by adjusting the DR level according to the quality state at this time.

FIG. 5 shows an example of applying a DR level restriction according to a quality factor of each home appliance in a demand reaction system according to an embodiment of the present invention.

As shown in FIG. 5, DR levels 1 to 4 are all applicable when the quality state is 100% to 51%, and DR levels 1 to 3 are applicable when the quality state is 50% to 26% In the case of 25% ~ 13% of the state, DR levels 1 ~ 2 are applicable, and when the quality state is 12% or less, only DR level 1 is available.

DR level 1 is a normal operation condition, and DR level 4 is a maximum power saving operation condition.

In the above example, the DR level restriction condition according to the range of the DR level and the quality state can be changed.

Assuming that there is a home appliance that is operating at DR level 3 and a quality level of 30%, if the quality state of this appliance falls to 20%, it is converted to DR level 2 by the DR level restriction condition and the quality status is changed to 10% When it falls, it is converted to DR level 1.

Hereinafter, it is explained that the DR controller 20 variably controls the DR level at the application of the electricity billing threshold or the power consumption limit.

If the DR level is controlled by applying the instantaneous electricity rate threshold or the power consumption threshold value, the DR level of each of the appliances is sequentially changed by prioritizing them according to the quality state of the respective appliances. At this time, it is changed at a constant time interval to prevent the DR level from rapidly changing.

FIG. 6 is a graph showing the electricity billing trend when the DR level is controlled according to the electricity billing threshold in the demand reaction system according to the embodiment of the present invention.

If a real-time electricity bill is introduced, electric charges will be charged in real time according to electricity demand. Therefore, if the DR level control is performed so as not to exceed the limit by setting an electric charge limit point in order to prevent excessive electricity charges, Can be used. The threshold of the electricity billing threshold and its electricity billing threshold can be set by the user.

FIG. 7 is a graph showing the electricity billing trend when the DR level is controlled according to the power consumption limit in the demand reaction system according to the embodiment of the present invention.

If the power consumption limit is set and not exceeded, it is possible to use household appliances with the reduced electricity bill. At this time, the power consumption limit is variable according to the electricity rate and can be set by the user.

In order to control the DR level, the priority of each household appliance should be determined. The priority is set by the quality factor.

FIG. 8 shows an example of application of a priority according to a quality factor for each household appliance in the demand reaction system according to the embodiment of the present invention.

As shown in Fig. 8, the priority is set according to the quality factor of the household appliances. For example, if the quality factor of the refrigerator, washing machine, air conditioner, cooktop, and TV is 10%, 70%, 30%, 80%, and 90%, respectively, , Washing machine, cooktop, and TV.

On the other hand, in general, the priority is determined according to the quality state of the appliance, but it is also possible for the user to forcibly set the priority. If priority is artificially set to 0, the home appliance always operates as DR level 1.

The DR controller 20 generates an alarm so that the user can recognize when the priority is changed by the user and the electric charge is expected to rise.

In addition, if the home appliances need to be operated immediately by the user's operation, the quality factor should be lowered so that the priority is higher when the normal performance can not be obtained in response to the user's request. That is, if the user's operation is recognized but the normal performance can not be achieved, the quality factor should be lowered to prevent the performance inconvenience.

For example, in the case of a washing machine or a microwave oven, operation is performed for a short period of time, so if a user manipulation occurs, the quality factor must be lowered to immediately perform normal performance.

The method of controlling the DR level when applying the electric charge limit point or the power consumption limit point is as follows.

First, when the current electricity bill or power consumption is equal to or higher than the electricity billing threshold or the power consumption limit, the DR level of the lowest priority household appliance among the household appliances having the lowest DR level is increased by one level.

Second, when the present electric charge or power consumption is below the electric charge limit point or the power consumption limit point, the DR level of the home appliance having the highest DR priority level is lowered by one level.

Third, a threshold is set for the electricity billing threshold or the power consumption threshold to prevent sudden changes in the DR level.

Fourth, the number of times of the DR level changing operation can be varied in accordance with the rate of change of electric bill or power consumption or the deviation from the limit point.

Fifth, the home appliance of rank 0 is set by the user, so it always operates at DR level 1.

9 is a diagram illustrating a procedure for lowering the DR level according to the priority order of each home appliance in the demand reaction system according to the embodiment of the present invention.

If the current electricity bill is lower than the electricity billing threshold or the current consumption power is lower than the power consumption limit, the DR controller 20 finds the appliance with the highest priority among the DR appliances with the highest DR level, Lower. Then, the DR controller 20 repeats the same control after a predetermined time delay.

FIG. 10 is a diagram illustrating a procedure for increasing the DR level according to the priority order of each home appliance in the demand reaction system according to the embodiment of the present invention.

If the current electricity bill is higher than the electricity billing threshold or the current consumption power is higher than the power consumption limit, the DR controller 20 finds the lowest priority appliance among the lowest DR appliances and sets the DR level Step up. Then, the DR controller 20 repeats the same control after a predetermined time delay.

If the DR levels of all devices are lowered at the same time, the loads that are delayed when the DR level is high are simultaneously operated. As shown in FIG. 9 and FIG. 10, if the DR level is sequentially changed by giving a time delay according to the priority in accordance with each situation, stable power consumption management becomes possible.

In the demand reaction system according to the embodiment of the present invention, the DR controller 20 controls the DR level of the household appliances in the following two ways.

The first method is a method of variably controlling the DR level of the home appliance according to the quality state of the home appliance. This method limits the range of the DR level according to the quality factor of the appliances when applying the initial DR level or varying the DR level by limiting the electric charge limit or the power consumption limit.

The second method is a method of variably controlling the DR level of the household appliances by comparing the current electricity rate with a preset electric power limit point or comparing the current consumption power with a predetermined power consumption limit point. In this method, the electric power limit point or the power consumption limit point is set, and the priority level of each appliance is determined according to the quality factor and the DR level of each appliance is adjusted.

The first method and the second method are applicable together.

Hereinafter, the DR controller 20 in the demand reaction system according to the embodiment of the present invention sequentially controls the refrigerator, the washing machine, and the air conditioner using the DR level control of the two schemes described above.

The quality status of the refrigerator is affected by whether defrosting is performed or not.

If the quality factor of the refrigerator is high, the priority is low and the defrosting is delayed. As the defrosting is delayed, the quality factor is gradually lowered, and when the delay limit is reached, the quality factor is very low. As the quality factor is lowered, the priority becomes higher, so that the defrost delay is terminated and defrosting can be performed.

After the defrosting operation, the quality factor is increased again, so that the power saving operation is performed again.

If only the second item is applied to the DR level control, even if the priority is increased, the defrosting can be delayed by limiting the electric charge / power consumption limit.

At this time, if the first method is used, defrosting can be performed by the DR level limitation function by the quality factor. That is, when the DR level of the refrigerator is lowered by the DR level limiting function, defrosting is performed, and the electricity rate / power consumption exceeds the limit. Then, the DR level of other home appliances other than the refrigerator is lowered by the second method.

In the case of a washing machine, it is possible to apply a separate button to determine whether to operate immediately or to save money.

In the case of immediate operation, the washing function is performed immediately even when the electric charge is high. In the case of the reduced operation, the quality factor is gradually lowered depending on whether the washing start time is delayed or not.

This is because there is a possibility that the laundry may not be washed even after one day due to the priority.

If a time delay occurs after the user's operation, the quality factor is affected.

If the washing start time is delayed, the quality factor is lowered, the priority is increased, the washing function can be performed, and the overall initial DR level is lowered to perform the washing function.

Like the refrigerator, the DR level can be limited by the quality factor and the DR level can be changed by priority in case of the washing machine.

In the case of an air conditioner, the deviation between the room temperature and the set temperature may affect the quality factor.

As the room temperature becomes higher than the set temperature, the quality factor becomes lower and the priority becomes higher.

At this time, if the deviation from the set temperature is increased by increasing the operation rate, the quality factor is increased and the priority is lowered, so that the operation rate is lowered again to operate in the power saving mode.

In the case of an air conditioner, the DR level is changed by applying two types of DR level control at the same time.

11 is a graph showing changes in quality factors with time in a demand reaction system according to an embodiment of the present invention as an example of a refrigerator, a washing machine, and an air conditioner.

As shown in FIG. 11, it can be confirmed that the quality factor is gradually lowered as the defrost performance is delayed.

The quality factor is lowered and the priority is increased or the defrosting is performed by the DR level range limitation function, and when the defrosting is terminated, the quality factor sharply increases.

11 shows that the defrosting operation is performed according to the priority according to the quality factor. Assuming that the current electricity bill / power consumption is lower than the electricity bill / power consumption limit and the DR level is 1 and the defrosting is performed at DR level 1, the DR is set to DR level 1 first because the refrigerator has the highest priority So that defrosting can be performed.

When the washing machine performs the reduction operation, the quality factor decreases in proportion to the delay time. When the washing machine operation ends, the quality factor rises.

11 shows a case where the DR level adjustment range limitation function according to the quality factor is performed. If the quality factor of the washing machine falls below 25%, the DR level adjustment range will be limited to the DR level 1 to 2 range. Assuming that the operation of the washing machine is performed when the DR level is 2 or less, the washing function is unconditionally performed when the quality factor is 25% or less.

In the case of an air conditioner, the quality factor varies according to the target temperature variation.

The DR controller 20 using the quality factor sets priorities according to the transition of the quality state and determines the DR level change order according to the priority. In addition, quality control and energy saving operation are enabled by downwardly adjusting the DR level of household appliances with low quality status.

The quality factor indicates the quality status of each appliance and the quality status is always variable.

By adjusting the DR level using the quality status, the maximum energy saving effect can be obtained within a range that assures the quality of the appliance.

As described above, if the power saving operation of the household appliances is performed according to the DR level, the power consumption in the state of high power demand can be lowered, and the electricity rate can be reduced when the real-time charge system is applied.

If the power saving operation is excessive, it can affect the product quality. Therefore, if the quality status information of each home appliance is received to determine the priority and the DR level is adjusted, the maximum power consumption Savings can be achieved.

In addition, when the DR level is changed, a time delay is provided according to the priority order, so that a rapid change in power consumption can be prevented, and stable power management becomes possible.

12 is a control flowchart for explaining a demand reaction method according to an embodiment of the present invention.

Referring to FIG. 12, first, the DR controller 20 sets an electricity billing threshold (100).

Then, the DR controller 20 receives the quality factor of each of the home appliances 30_1 to 30_n (102).

After receiving the quality factor of each of the home appliances 30_1 to 30_n, the DR controller 20 sets the priorities of the home appliances 30_1 to 30_n (104). At this time, the DR controller 20 sets the priorities of the respective home appliances 30_1 to 30_n according to the quality state of each of the home appliances 30_1 to 30_n. In addition, the DR controller 20 can set priorities of the respective home appliances 30_1 to 30_n on the basis of not only the quality states of the home appliances 30_1 to 30_n but also the operation importance such as the average operation time and the power consumption . For example, when the operation importance is the average operation time, the priority of the home appliances having a longer average operation time can be set higher than that of the other home appliances. When the work importance is power consumption, it is possible to set the priority of the home appliances having high power consumption to be higher than the priority of the home appliances that do not. Also, when the importance of the operation is both the power consumption and the average operation time, the priority of the home appliances having a long average operation time and high power consumption can be set to be higher than that of the other home appliances.

As shown in FIG. 13, the user selects an eco mode (eco mode) button (eco mode) from the mode selection button 280 on the screen for setting the work importance in order to select the importance of the work 281, the operation time priority mode button 282, or the power consumption priority mode button 283 is selected. In other words, the user selects and reflects the importance of the work in a manner of collectively setting the given criteria instead of individually assigning the values.

When the eco mode button 281 is selected, the importance of work is distributed so as to save energy as much as possible in consideration of power consumption and operation time information of each home appliance. If the importance of work is set high, there is a high probability that the user will be reserved at a desired time regardless of electricity price, and it is not easy to reduce power consumption (or electric charge). Therefore, in the eco mode, a value that minimizes the inconvenience of the user is set while setting the work importance as low as possible.

When the operation time priority mode button 282 is selected, high operation importance is distributed to the appliances having a long average operation time. Devices with long average operating times (eg, always-on appliances) include many appliances directly associated with food and clothing. Therefore, the average operation time is calculated and the importance of the operation is distributed according to the predetermined range.

When the power consumption priority mode button 283 is selected, priority is given to high priority of appliances having high power consumption. It is also possible to add a recommendation mode considering the user's pattern or to allow a plurality of users to store the respective setting values.

Referring again to FIG. 12, after setting the priorities of the respective home appliances 30_1 to 30_n, the DR controller 20 confirms the current electricity rate (106).

After confirming the current electricity bill, the DR controller 20 compares the current electricity bill with the electricity billing threshold set in operation mode 100 to determine if the current electricity bill is higher than the electricity billing threshold (108).

If the current electricity bill is higher than the electricity billing threshold, the DR controller 20 finds the lowest priority appliance among the lowest DR appliances and increases the DR level by one step (110 ). Then, the DR controller 20 returns to the operation mode 102 after a predetermined time delay and repeats the same control.

On the other hand, if it is determined in operation mode 108 that the current electricity charge is lower than the electric charge limit, the DR controller 20 finds the highest priority device among the DR devices having the highest DR level and lowers the DR level by one step ). Then, the DR controller 20 returns to the operation mode 102 after a predetermined time delay and repeats the same control.

10: Smart meter 20: DR controller
30_1: Refrigerator 30_2: Air conditioner
30_3: Washing machine 30_4: Cooktop
21: input unit 22:
23: electricity bill recording unit 24: electric bill pattern extracting unit
25: Quality judging unit 26: Priority setting unit
27: transmitting unit 28:
29:

Claims (20)

Identify the demand response level set for each appliance to limit the function of each appliance;
Judging a quality state of each of the identified home appliances;
Setting a priority order of each of the home appliances according to the determined quality state of the home appliances;
Determining a home appliance to which the demand reaction level is to be changed according to a priority order of the home appliances and a demand response level;
Changing a demand reaction level set in the determined home appliance; However,
The demand response level of the home appliances which can be changed according to the quality state when the demand reaction level is changed,
Applying a matched demand response level range according to a plurality of quality status ranges when limiting the range of the demand reaction levels,
Wherein the demand response level range includes a preset range such that the range of changeable demand response levels is narrower as the quality status is lower. The method according to claim 1,
Wherein the priority order setting includes setting a priority order of each of the home appliances based on at least one of an average operation time of the home appliances and a power consumption, . 3. The method of claim 2,
Wherein the priority setting includes setting the priority of the home appliances having a longer average operating time or higher power consumption than the home appliances not having the higher average operating time. 3. The method of claim 2,
Wherein, in the priority setting, whether the item to be used for the priority order of each of the household appliances together with the quality state of each of the household appliances is an average operation time, power consumption, an average operation time and power consumption, Reaction method. The method according to claim 1,
Wherein the priority setting includes setting the priority to be higher as the quality state is lower. The method according to claim 1,
Wherein the home appliance determination includes: determining a current electricity rate; comparing the determined current electricity rate with a preset electricity rate; if the current electricity rate is higher than the predetermined electricity rate as a result of the comparison, And determining the home appliance having the lowest priority among the home appliances having the lowest reaction level as the home appliance for changing the demand reaction level. The method according to claim 1,
Wherein the demand response level change includes increasing the demand reaction level set in the determined home appliance to one step so as to further restrict the function of the determined home appliance. The method according to claim 1,
Wherein the home appliance determination includes: determining a current electricity rate; comparing the determined current electricity rate with a preset electricity rate; if the current electricity rate is lower than the predetermined electricity rate as a result of the comparison, And determining the home appliance having the highest priority among the home appliances having the highest reaction level as the home appliance for changing the demand reaction level. 9. The method of claim 8,
Wherein the demand response level change includes lowering the demand response level of the determined home appliance by one step such that the limited function of the determined home appliance is partially canceled. The method according to claim 1,
Determining whether a quality state of each of the home appliances is less than a preset level, and if the home appliance has a quality state lower than the preset level, Level of the demand response. The method according to claim 1,
Wherein the quality state determination includes receiving a quality factor indicating performance of the home appliance from the home appliance and determining a quality state of the home appliance in accordance with the received quality factor. A receiving unit for receiving a quality factor of a plurality of home appliances;
A quality judging unit for judging the quality of the plurality of home appliances according to a quality factor of the received plurality of home appliances;
A priority setting unit configured to set a priority order of the plurality of home appliances based on the determined quality states of the plurality of home appliances;
Determining a home appliance to which the demand response level is to be changed according to a priority order of the home appliances and a current demand response level when the demand response level set in each home appliance is required to limit the function of the home appliances; And a controller for changing a demand reaction level set in the determined home appliance,
Wherein the control unit limits the range of the demand reaction level of each of the household appliances that can be changed according to the quality state when changing the demand reaction level, Applying a demand response level range,
Wherein the demand response level range includes a predefined set such that the changeable demand response level range decreases as the quality status decreases. 13. The method of claim 12,
Wherein the priority setting unit includes setting a priority order of each of the home appliances based on at least one of an average operation time of the home appliances and a power consumption. 14. The method of claim 13,
Wherein the priority setting unit includes setting the priority of the home appliance having the low quality state, the average operation time, or the high power consumption to be higher than that of the home appliance having the low quality state, the average operation time, or the high power consumption. 13. The method of claim 12,
Wherein the control unit judges whether the quality status of each of the household appliances is less than a preset level, and when there is an appliance having a quality status lower than the preset level, To a normal operating level. 13. The method of claim 12,
Wherein the control unit determines the home appliance having the lowest priority among the home appliances having the lowest demand response level as the home appliance to change the demand reaction level if the current electricity bill is higher than a predetermined electricity bill, And increasing the demand response level of the determined home appliance to one step to further limit the function. 13. The method of claim 12,
Wherein the control unit determines the home appliance having the highest priority among the home appliances having the highest demand response level as the home appliance to change the demand reaction level if the current electricity bill is lower than a preset electricity bill, And lowering the demand response level of the determined home appliance to one step to partially release the function of the home appliance. Setting a demand reaction level for restricting the function of the home appliance to the home appliance;
Determining a quality state of the home appliance in which the demand response level is set;
Determining a changeable demand response level range of the home appliance according to the determined quality state;
And changing a demand response level set in the home appliance based on the determined demand response level range when it is necessary to change the demand response level set in the home appliance; However,
The demand response level of the household appliance which can be changed according to the quality state when the demand reaction level is changed,
Applying a matched demand response level range according to a quality status range when limiting the range of the demand response level,
Wherein the demand response level range includes a preset range such that the range of changeable demand response levels is narrower as the quality status is lower. delete Operating a plurality of home appliances at an initial demand reaction level;
Determining a quality state of a plurality of appliances operating at the initial demand reaction level;
Setting a priority order of the plurality of home appliances according to the determined quality state;
Determine current electricity rates of the plurality of appliances;
Comparing the determined current electricity charge with a predetermined electricity charge;
If the current electricity bill is lower than the preset electricity bill, the home appliance having the highest demand priority among the home appliances having the highest demand response level is determined as the home appliance that is to change the demand response level, Determines the home appliance having the lowest priority among the home appliances having the lowest demand response level as the home appliance to which the demand reaction level is to be changed;
If the household appliance whose demand response level is to be changed is the home appliance having the highest priority among the home appliances having the highest demand response level, the demand response level of the determined home appliance to partially cancel the determined home appliance And the demand response level of the home appliance is changed so as to further restrict the function of the determined home appliance if the household appliance whose demand response level is to be changed is the home appliance having the lowest priority among the household appliances having the lowest demand response level However,
Limiting the range of the demand reaction level that can be changed according to the quality state when changing the demand reaction level of each of the household appliances,
Applying a matched demand response level range according to a quality status range when limiting the range of the demand response level,
Wherein the demand response level range includes a preset range such that the range of changeable demand response levels is narrower as the quality status is lower.

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