JP6261755B2 - Control device, device control method, and program - Google Patents

Description

  The present invention relates to a control device, a device control method, and a program.

  In recent years, commercialization of demand response (DR) has progressed from the viewpoint of stable power supply. This demand response is an incentive system that encourages consumers to suppress demand or shift demand in order to maintain a power demand balance.

  Demand response can be roughly divided into those based on electricity charges and those based on incentives. Demand response based on electricity charges encourages consumers to shift their peaks through electricity price menus (hourly charges, critical peak charges, real-time charges, etc.). Incentive-based demand response encourages peak shifts and peak cuts by paying the demand for demand suppression to consumers.

  As a prior art related to such demand response, for example, Patent Document 1 discloses a DR countermeasure proposal device intended to perform device control in accordance with consumer preferences. The DR countermeasure proposal device includes a rule database that stores a plurality of device control rules related to a plurality of devices, and a rule order history database that stores information on the order of the device control rules, and includes power consumption from the DR server. When the reduction request is received, the device control rule with the highest priority is preferentially selected, and the operation of the corresponding device is controlled by executing the selected device control rule.

JP2013-031355A

  The DR described above is a reduction in power consumption for each customer (each household) in a specific time zone that is uniformly determined in advance, such as a peak time zone (a time zone in which the power demand is highest during a day). Request. However, there are various power consumption trends in each household, and it can be fully assumed that the time period in which the effect of reducing the electricity bill due to the suppression of power consumption is most prominent is different in each household.

  This invention is made | formed in view of the said situation, and it aims at providing the control apparatus etc. which can suppress the power purchase amount more effectively.

In order to achieve the above object, a control device according to the present invention provides:
A device control unit for controlling a plurality of devices installed in a demand area;
A specific time zone setting unit configured to set, as a specific time zone, a time zone in which the effect of reducing the electricity bill with respect to the suppression of power consumption is highest, based on the power consumption trend in the demand area and the unit price of the electricity bill by time zone; With
Each of the plurality of devices is associated with control content determined in advance according to the size of the suppression level,
The device control unit controls the plurality of devices based on the suppression level individually set for the plurality of devices in advance by the user during the specific time period ,
The control content is determined based on the current power consumption of the device .

  According to the present invention, a time zone having the highest effect of reducing electricity bills for power consumption suppression is identified, and a plurality of devices are controlled based on a suppression level set in advance by the user in the identified time zone. For this reason, it becomes possible to suppress the amount of electric power purchased more effectively, without impairing the comfort of the user who is a resident as much as possible.

It is a figure which shows the whole structure of the apparatus control system which concerns on Embodiment 1 of this invention. FIG. 2 is a block diagram illustrating a configuration of a control device according to the first embodiment. It is a figure for demonstrating a suppression level. It is a figure which shows the function structure of the control part with which the control apparatus of Embodiment 1 is provided. It is a figure which shows an example of the content of suppression control. 4 is a flowchart illustrating a procedure of a specific time zone setting process according to the first embodiment. 3 is a flowchart illustrating a procedure of suppression control processing according to the first embodiment. It is a figure which shows the whole structure of the apparatus control system which concerns on Embodiment 2 of this invention. It is a figure which shows the function structure of the control part with which the control apparatus of Embodiment 2 is provided. It is a figure which shows the function structure of the control part with which the control apparatus of Embodiment 3 of this invention is provided. It is a figure which shows the whole structure of the apparatus control system which concerns on Embodiment 4 of this invention. It is a figure which shows the function structure of the control part with which the control apparatus of Embodiment 4 is provided. It is a figure which shows the function structure of the control part with which the control apparatus of Embodiment 5 of this invention is provided.

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

(Embodiment 1)
FIG. 1 is a diagram showing an overall configuration of a device control system 1 according to Embodiment 1 of the present invention. The device control system 1 is a so-called HEMS (Home Energy Management System) system that manages electric power used in a general home. The device control system 1 includes a control device 2, an operation terminal 3, a power sensor 4, and a plurality of devices 5 (devices 5a, 5b,...).

  The control device 2 is installed at an appropriate location in the house H, monitors the power consumed in this home (demand area), and displays the power consumption status via the operation terminal 3. In addition, the control device 2 performs operation control of each device 5 and monitoring of an operation state. Details of the control device 2 will be described later.

  The operation terminal 3 includes an input device such as a touch panel and a touch pad, a display device such as a liquid crystal display, and a communication interface. The operation terminal 3 performs data communication with the control device 2 in accordance with a well-known wireless LAN standard such as Wi-Fi (registered trademark). The operation terminal 3 functions as an interface (user interface) between the device control system 1 and a user who is a resident of the house H.

  The power sensor 4 measures the amount of power consumed in this home (demand area). The power sensor 4 is communicably connected to the control device 2 via a wireless network (not shown) constructed in the house H. This wireless network is, for example, a network conforming to ECHONET Lite. The power sensor 4 transmits data related to the measured power amount to the control device 2. The power sensor 4 may be of a specification that is connected to this wireless network via an external communication adapter (not shown).

  The device 5 (devices 5a, 5b,...) Is, for example, a house H (including a site) such as an illuminator, an air conditioner (air conditioner), a refrigerator, a television, an IH cooking heater, a rice cooker, a microwave oven, a water heater, and a floor heating system. ) Is an electrical device installed inside. Electric power from the commercial power source 6 is supplied to each device 5 through the power line D1, the distribution board 7, and the power line D2. Each device 5 is communicably connected to the control device 2 via the wireless network (not shown). Each device 5 may have a specification that is connected to the wireless network via an external communication adapter (not shown).

  As illustrated in FIG. 2, the control device 2 includes a communication unit 20 for performing wireless communication, a data storage unit 21 for holding programs and data, and a control unit 22 for controlling these. These components are connected to each other via a bus 23.

  The communication unit 20 includes a wireless communication interface, and performs wireless data communication with the operation terminal 3, the power sensor 4, and each device 5 under the control of the control unit 22.

  The data storage unit 21 is configured by, for example, a readable / writable nonvolatile semiconductor memory such as a flash memory. The data storage unit 21 stores suppression level setting data 210. In addition, although not shown, the data storage unit 21 is used when executing a program for monitoring the power consumed at home, a program for controlling the operation of each device 5, and these programs. Store the data.

  The suppression level setting data 210 is data indicating a suppression level preset by the user. The suppression level suppresses the amount of power supplied from the commercial power source 6, that is, the amount of power purchased from an electric power company (the amount of power purchased) in the time zone in which the effect of reducing the electricity bill for suppressing power consumption is the highest. It is an index indicating strength (suppression strength). As shown in FIG. 3, in the present embodiment, the suppression level is indicated by a numerical value of 0 to 4, and the higher the numerical value, the higher the suppression strength. The user can set the suppression level corresponding to the desired suppression strength in the control device 2 by operating the operation terminal 3.

  The control unit 22 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like (all not shown) and controls the control device 2 in an integrated manner. As illustrated in FIG. 4, the control unit 22 includes a user interface processing unit 220, a specific time zone setting unit 221, and a device control unit 222 as functions unique to the present invention. The functions of these components are realized by a CPU or the like executing a program stored in the data storage unit 21.

  The user interface processing unit 220 performs user interface processing via the operation terminal 3. That is, the user interface processing unit 220 receives an operation from the user via the operation terminal 3 and the communication unit 20, and performs processing according to the content of the received operation. In addition, the user interface processing unit 220 transmits information (for example, monitoring screen data and various operation screen data) to be presented to the user to the operation terminal 3 via the communication unit 20, and sends the information to the operation terminal 3. Process to be displayed.

  The specific time zone setting unit 221 sets, as a specific time zone, a time zone having the highest effect of reducing the electricity bill for suppressing power consumption at a predetermined timing. In the present embodiment, the specific time zone setting unit 221 performs processing for setting a specific time zone at midnight every day. More specifically, the specific time zone setting unit 221 is most effective in reducing the electricity bill for suppressing power consumption based on the tendency of power consumption in the home (demand area) and the unit price of the electricity bill by time zone. A high time zone is specified, and the specified time zone is set as the specific time zone. In addition, the specific time zone setting unit 221 may use the electricity bill for each time zone instead of the unit price for each electricity time zone.

  The control unit 22 stores history data indicating the daily power consumption transition in the home in the data storage unit 21, and the specific time zone setting unit 221 uses the history data to determine the current day in the home. Predict trends in power consumption. For example, the specific time zone setting unit 221 may predict the transition of the power consumption of the previous day as the trend of today's power consumption in this home. Alternatively, the trend of power consumption may be predicted by obtaining the average of the transition of power consumption for the past week, the average of the transition of past power consumption on the same day of the week as the current day, or the like.

  Further, it is assumed that data (unit price data) indicating the unit price of the electricity rate by time zone is set in the control device 2 by the user via the operation terminal 3 and stored in the data storage unit 21. Alternatively, when the control device 2 is connected to a wide area network such as the Internet, the control device 2 acquires unit price data by data communication from a server managed by an electric power company or an organization entrusted to the electric power company. Also good.

  In addition, when using the electricity bill for each time zone instead of the unit price for each electricity time zone, the data indicating the electricity bill for each time zone (electricity bill data) is controlled by the user via the operation terminal 3 in the control device. It is set to 2 and stored in the data storage unit 21. Alternatively, when the control device 2 is connected to a wide area network such as the Internet, the control device 2 obtains electricity bill data by data communication from a server managed by an electric power company or an organization entrusted to the electric power company. May be.

  The device control unit 222 controls the operation of each device 5 via the communication unit 20. The device control unit 222 controls each device 5 based on the suppression level set in the suppression level setting data 210 during the specific time period. In this case, in more detail, the device control unit 222 determines the content (suppression control content) of control (suppression control) for reducing the power consumption of each device 5 based on the suppression level. In the present embodiment, the suppression control content is predetermined for each device 5 according to the value indicated by the suppression level. In FIG. 5, an example of the suppression control content of each apparatus 5 is shown. If the suppression level is 0, the device control unit 222 does not perform suppression control.

  In FIG. 5, “reduction of XX%” means that the power consumption is reduced to the current XX%. “Cooling: + 1 ° C.” means that the set temperature (target temperature) during cooling operation is increased by 1 ° C. Further, “at the time of heating: −1 ° C.” means that the set temperature (target temperature) at the time of heating operation is lowered by 1 ° C.

  The device control unit 222 generates a control command indicating the suppression control content determined for each device 5, and transmits the generated control command to each device 5 via the communication unit 20. The device 5 that has received such a control command performs an operation according to the received control command.

  FIG. 6 is a flowchart showing the procedure of the specific time zone setting process executed by the control unit 22 of the control device 2. This specific time zone setting process starts at midnight every day.

  The specific time zone setting unit 221 uses the history data stored in the data storage unit 21 to predict today's power consumption trend in the home (step S101).

  The specific time zone setting unit 221 reads the unit price data from the data storage unit 21 (step S102), and based on the predicted power consumption trend and the read unit price data, there is an effect of reducing the electricity bill for suppressing power consumption. The highest time zone is specified (step S103). And the specific time slot | zone setting part 221 sets the specified time slot | zone as a specific time slot | zone (step S104).

  FIG. 7 is a flowchart illustrating the procedure of the suppression control process executed by the control unit 22 of the control device 2. This suppression control process is repeatedly executed at a predetermined interval (for example, every 10 minutes) when the specific time zone set by the specific time zone setting unit 221 is entered, and ends when the specific time zone is passed.

  The device control unit 222 reads the suppression level setting data 210 from the data storage unit 21 and acquires the set suppression level (step S201). The device control unit 222 determines the suppression control content of each device 5 based on the acquired suppression level (step S202).

  And the apparatus control part 222 produces | generates the control command which shows the suppression control content discriminate | determined for every apparatus 5 (step S203), and transmits the produced | generated control command to each apparatus 5 via the communication part 20 (step S204). . The device 5 that has received such a control command performs an operation according to the received control command.

  As described above, in the device control system 1 according to the first embodiment of the present invention, the control device 2 predicts the tendency of power consumption in this home regularly (daily predetermined time). Then, based on the predicted power consumption trend and the unit price of electricity charges by time zone (or electricity charges by time zone), the time zone in which the effect of reducing the electricity rate for the suppression of power consumption is the highest is identified. And set as a specific time zone. And the control apparatus 2 performs suppression control with respect to each apparatus 5 based on the suppression level preset by the user in a specific time slot | zone. For this reason, the suppression control which considered the life scene of the user who is a resident of the house H can be performed. Therefore, it is possible to effectively suppress the amount of power purchased without impairing the comfort of the user as much as possible.

(Embodiment 2)
Subsequently, Embodiment 2 of the present invention will be described. In the following description, components and the like that are common to the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  FIG. 8 is a diagram showing an overall configuration of a device control system 1A according to Embodiment 2 of the present invention. In the device control system 1A, a PCS 8 and a storage battery 9 are newly added as compared to the device control system 1 of the first embodiment.

  The PCS 8 is a power conditioning system for a stationary storage battery. The PCS 8 charges and discharges the storage battery 9. The PCS 8 is supplied with power from the commercial power supply 6 via the power line D1, the distribution board 7, and the power line D3. The PCS 8 supplies power from the commercial power source 6 to the storage battery 9 when the storage battery 9 is charged. The PCS 8 supplies power from the storage battery 9 to the distribution board 7 via the power line D4 when the storage battery 9 is discharged. The PCS 8 is communicably connected to the control device 2 via a wireless network (not shown) constructed in the house H. Note that communication between the PCS 8 and the control device 2 may be performed via a LAN cable.

  The data storage unit 21 included in the control device 2 of the present embodiment stores the suppression level setting data 210 as in the first embodiment. Although not shown, the data storage unit 21 is a program for monitoring the power consumed at home, a program for controlling the operation of each device 5, and a program for controlling charging / discharging of the storage battery 9. And the data used at the time of execution of these programs are memorized.

  Further, as shown in FIG. 9, a charge / discharge control unit 223 is added to the control unit 22 included in the control device 2 of the present embodiment, as compared with the control unit 22 of the first embodiment.

  The charge / discharge control unit 223 controls charging and discharging of the storage battery 9 via the communication unit 20 and the PCS 8. When the specific time zone is set by the specific time zone setting unit 221, the charge / discharge control unit 223 determines the remaining amount of the storage battery 9 in a time zone (preparation time zone) before the specific time zone from the present time. The charging of the storage battery 9 is controlled so as to reach the required power amount. In this case, the charge / discharge control unit 223 controls the PCS 8 so that the storage battery 9 is charged in a time zone in which the unit price of electricity is the lowest in the preparation time zone (or in a time zone in which the electricity bill is cheapest). . The required power amount is initially set to 3 kWh, for example. The user can change the setting value of the required power amount by operating the operation terminal 3.

  Moreover, the charging / discharging control part 223 makes the storage battery 9 start discharge, if it enters into a specific time slot | zone.

  As described above, in the device control system 1A according to the second embodiment of the present invention, the control device 2 charges in advance in the preparation time zone so that the storage battery 9 can store the required amount of power before the start of the specific time zone. In advance, the storage battery 9 is discharged when entering a specific time zone. For this reason, it is possible to further reduce the amount of power purchased in the specific time zone. Further, the control device 2 controls the PCS 8 so that the storage battery 9 is charged in a time zone in which the unit price of electricity is the cheapest in the preparation time zone (or in a time zone in which the electricity bill is the cheapest). The charge for charging 9 can be reduced.

(Embodiment 3)
Subsequently, Embodiment 3 of the present invention will be described. In the following description, components and the like that are common to the second embodiment are denoted by the same reference numerals, and description thereof is omitted.

  As illustrated in FIG. 10, the control unit 22 included in the control device 2 according to the present embodiment includes a power consumption amount prediction unit 224 and a required power amount determination unit 225 as compared with the control unit 22 according to the second embodiment. Has been.

  The power consumption amount prediction unit 224 predicts the power consumption amount when each device 5 is controlled according to the suppression level during the specific time period. More specifically, the power consumption prediction unit 224 performs suppression control according to the currently set suppression level before the process of controlling the charging of the storage battery 9 by the charge / discharge control unit 223 is started in the preparation time period. Predict the amount of power consumed when you do so. At that time, the power consumption amount prediction unit 224 saves the history data of the power consumption amount at the time of the suppression control executed in the past, the data indicating the performance of each device 5, the current operation state, etc. To make a prediction.

  The required power amount determination unit 225 determines the required power amount based on the power consumption amount predicted by the power consumption amount prediction unit 224. For example, the required power amount may be determined by multiplying the predicted power consumption amount by a predetermined coefficient (for example, 1.2). Alternatively, the required power amount is determined by adding a correction value (positive or negative) obtained by comparing the predicted power consumption and a predetermined threshold to a reference power amount (for example, 2 kWh). Also good. For example, when the predicted power consumption exceeds the upper limit threshold, +1 kWh is added as a correction value, and when the predicted power consumption is less than the lower limit threshold, −1 kWh is added as a correction value. .

  As described above, according to the device control system 1A of the present embodiment, the control device 2 determines the power consumption that the storage battery 9 should store before the start of the specific time zone, and the power consumption in the predicted specific time zone. Determine based on quantity. For this reason, it becomes possible to efficiently store an appropriate amount of power required in the specific time zone in the storage battery 9.

  The power consumption amount prediction unit 224 may predict the power consumption amount in a specific time period in consideration of user registration contents (calendar registration contents) using a calendar registration function provided in the control device 2. The calendar registration function is a function that can control the operation of the corresponding device 5 based on the event registered in advance by the user and the start time of the event.

  Here, the event includes, for example, “going out”, “returning home”, and the like. When any event is registered in a time zone included in the specific time zone, the corresponding device 5 performs an operation (including a stop) according to the content of the event in the specific time zone. Thus, the prediction accuracy of the power consumption amount in a specific time zone can be improved by taking into account the contents of calendar registration.

(Embodiment 4)
Subsequently, Embodiment 4 of the present invention will be described. In the following description, components and the like that are common to the third embodiment are denoted by the same reference numerals and description thereof is omitted.

  FIG. 11 is a diagram showing an overall configuration of a device control system 1B according to Embodiment 4 of the present invention. In the device control system 1B, compared with the device control system 1A of the third embodiment, a power generation system 10 and a solar radiation amount sensor 11 are newly added.

  Although not shown, the power generation system 10 includes a photovoltaic power generation panel (PV panel) and a power conditioner. The power generation system 10 converts the electricity generated by the PV panel from DC power to AC power using a power conditioner and supplies the electricity to the distribution board 7 via the power line D5.

  The solar radiation amount sensor 11 is installed at an appropriate location in the house H, for example, in the vicinity of a window, near a roof, etc., measures the amount of solar radiation, and stores data obtained by the measurement (irradiation amount data) at a predetermined timing. And transmitted to the control device 2 by wireless communication. The solar radiation amount sensor 11 and the control device 2 may be connected by a communication line.

  The control unit 22 included in the control device 2 of the present embodiment functionally includes a user interface processing unit 220, a specific time zone setting unit 221, a device control unit 222, and charge / discharge control as shown in FIG. A unit 223, a power consumption amount prediction unit 224, a required power amount determination unit 225A, a solar radiation amount acquisition unit 226, and a power generation amount prediction unit 227.

  The solar radiation amount acquisition unit 226 acquires the solar radiation amount measured by the solar radiation amount sensor 11. The solar radiation amount acquisition unit 226 transmits data (a solar radiation amount request data) for requesting the solar radiation amount to the solar radiation amount sensor 11 via the communication unit 20 at a predetermined timing. When receiving the solar radiation amount request data, the solar radiation amount sensor 11 wirelessly transmits response data storing the measured solar radiation amount to the control device 2. When the solar radiation amount acquisition unit 226 receives response data from the solar radiation amount sensor 11 via the communication unit 20, the solar radiation amount acquisition unit 226 extracts the solar radiation amount from the response data. The solar radiation amount acquisition unit 226 stores the solar radiation amount acquired in this manner in a RAM or the like.

  The power generation amount prediction unit 227 predicts the power generation amount by the power generation system 10 in the specific time zone based on the solar radiation amount acquired by the solar radiation amount acquisition unit 226. The required power amount determination unit 225 </ b> A determines the required power amount based on the power consumption amount predicted by the power consumption amount prediction unit 224 and the power generation amount predicted by the power generation amount prediction unit 227.

  Specifically, when the predicted power consumption is equal to or greater than the predicted power generation amount, the required power amount determination unit 225A subtracts the predicted power generation amount from the predicted power consumption amount, so that only the power purchase is performed. Predict power consumption. Then, the required power amount determination unit 225A determines the required power amount from the predicted power consumption amount only for power purchase. For example, the required power amount may be determined by multiplying the predicted power consumption amount only for the purchased power by a predetermined coefficient, or the predicted power consumption amount is calculated based on the reference power amount (for example, 2 kWh). The required power amount may be determined by adding a correction value (positive or negative) obtained by comparing the power amount with a predetermined threshold value.

  Further, when the predicted power consumption is smaller than the predicted power generation, the required power amount determination unit 225A determines the predetermined minimum power amount as the required power amount.

  As described above, according to the device control system 1B of the present embodiment, the control device 2 uses the power consumption in the predicted specific time zone to calculate the required power amount that the storage battery 9 should store before the start of the specific time zone. It is determined based on the amount and the power generation amount in the predicted specific time zone. For this reason, it becomes possible to charge / discharge the storage battery 9 more efficiently.

  Note that the control device 2 may acquire information on the amount of solar radiation from the power generation system 10. Or when the control apparatus 2 is connected to wide area networks, such as the internet, the control apparatus 2 may acquire the information regarding solar radiation amount by communication with an external apparatus via a wide area network.

(Embodiment 5)
Next, Embodiment 5 of the present invention will be described. In the following description, components and the like that are common to the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  As shown in FIG. 13, a pre-control determining unit 228 is added to the control unit 22 included in the control device 2 of the present embodiment as compared with the control 22 of the first embodiment. The prior control determination unit 228 determines the prior control content for causing the specific device 5 to perform the specified operation in the time zone before the specific time zone based on the suppression level set in the suppression level setting data 210.

  The pre-control content includes information for identifying a specific device 5, operation content, and operation time. Examples of the specific device 5 include an air conditioner, a floor heating system, and a water heater.

  The device control unit 222 controls (pre-controls) the specific device 5 based on the pre-control content determined by the pre-control determination unit 228. For example, if the suppression control of the air conditioner is performed in a specific time zone, the air temperature rises or falls, leading to a decrease in user comfort. Therefore, the pre-control causes the air conditioner to perform a specified operation during the preparation time period to pre-cool or pre-warm the room. Accordingly, it is possible to suppress a decrease in user comfort due to the suppression control of the air conditioner. In this case, if the air conditioner is stopped at the current time (preparation time zone), the operation is started at the normal set temperature (target temperature). On the other hand, if the air conditioner is already operating, the current air conditioning strength is increased. Control. Specifically, control is performed to lower the set temperature by 1 to 2 ° C. during cooling operation, and to raise the set temperature by 1 to 2 ° C. during heating operation. Alternatively, the air volume may be set to “strong”.

  The floor heating system can also be precooled or preheated by performing the same pre-control as described above. Moreover, about a hot water supply machine, it can prevent the hot water runout of a specific time slot | zone by completing boiling in advance in a preparation time slot | zone by prior control.

  As described above, according to the device control system 1 of the present embodiment, the control device 2 pre-cools the room by performing pre-control that causes the specific device 5 such as an air conditioner to perform an operation designated during the preparation time period. Alternatively, preheating can be performed or boiling can be completed in advance. For this reason, even when control (suppression control) for reducing power consumption is performed on the specific device 5 in a specific time zone, it is possible to suppress a decrease in user comfort.

  Needless to say, the control device 2 according to the second to fourth embodiments may be configured to include the above-described functions related to the prior control.

  The present invention is not limited to the above embodiments, and various modifications can be made without departing from the scope of the present invention.

  For example, the storage battery that is the subject of the present invention is not limited to a stationary type. A storage battery mounted on an EV (electric vehicle) is also an object of the present invention.

  Further, the suppression level may be set individually for each device 5.

  Further, the user can set in advance whether or not to permit execution of the specific time zone setting process and the suppression control process described above by operating the operation terminal 3.

  Moreover, the control apparatus 2 is based on the unit price according to the time zone (or the electricity bill according to time zone) of the electricity rate in this home (demand area) without using the tendency of power consumption by the user's prior setting. A specific time zone may be set. In this case, the control device 2 may set a time zone in which the electricity bill unit price is the highest (or a time zone in which the electricity bill is the highest) as the specific time zone.

  The configuration of the control device 2 may include an input device such as a keyboard, a mouse, a keypad, a touch pad, and a touch panel, and a display device such as a CRT display, a liquid crystal display, an organic EL display, and a plasma display. Good. In this way, the user can directly input an operation related to the suppression control to the control device 2.

  In each of the above embodiments, the program executed by the control device 2 is a CD-ROM (Compact Disc Read Only Memory), DVD (Digital Versatile Disc), MO (Magneto-Optical Disk), USB memory, memory card, or the like. It is also possible to store and distribute in a computer-readable recording medium. Then, by installing such a program on a specific or general-purpose computer, it is possible to cause the computer to function as the control device 2 in each of the above embodiments.

  Further, the above program may be stored in a disk device or the like included in a server device on a communication network such as the Internet, and may be downloaded onto a computer, for example, superimposed on a carrier wave. The above-described processing can also be achieved by starting and executing a program while transferring it via a communication network. Furthermore, the above-described processing can also be achieved by executing all or part of the program on the server device and executing the program while the computer transmits and receives information regarding the processing via the communication network.

  Note that when the above functions are realized by sharing an OS (Operating System) or when the functions are realized by cooperation between the OS and an application, only the parts other than the OS are stored in the recording medium and distributed. It may also be downloaded to a computer.

  Various embodiments and modifications can be made to the present invention without departing from the broad spirit and scope. Further, the above-described embodiment is for explaining the present invention, and does not limit the scope of the present invention. That is, the scope of the present invention is shown not by the embodiments but by the claims. Various modifications within the scope of the claims and within the scope of the equivalent invention are considered to be within the scope of the present invention.

  The present invention can be suitably employed in a system for managing power used in the home.

  1, 1A, 1B equipment control system, 2 control device, 3 operation terminal, 4 power sensor, 5a, 5b equipment, 6 commercial power supply, 7 distribution board, 8 PCS, 9 storage battery, 10 power generation system, 11 solar radiation sensor, 20 communication unit, 21 data storage unit, 22 control unit, 23 bus, 210 suppression level setting data, 220 user interface processing unit, 221 specific time zone setting unit, 222 device control unit, 223 charge / discharge control unit, 224 power consumption Prediction unit, 225, 225A required power amount determination unit, 226 solar radiation amount acquisition unit, 227 power generation amount prediction unit, 228 pre-control determination unit

Claims (11)

A device control unit for controlling a plurality of devices installed in a demand area;
A specific time zone setting unit configured to set, as a specific time zone, a time zone in which the effect of reducing the electricity bill with respect to the suppression of power consumption is highest, based on the power consumption trend in the demand area and the unit price of the electricity bill by time zone; With
Each of the plurality of devices is associated with control content determined in advance according to the size of the suppression level,
The device control unit controls the plurality of devices based on the suppression level individually set for the plurality of devices in advance by the user during the specific time period ,
The control content is determined based on the current power consumption of the device. A charge / discharge control unit for controlling charge / discharge of the storage battery;
The charge / discharge control unit controls charging of the storage battery so that the remaining amount of the storage battery reaches a predetermined required power amount in a time zone before the specific time zone,
The control device according to claim 1, wherein the storage battery starts discharging when the specific time period is entered. A power consumption prediction unit that predicts power consumption when the plurality of devices are controlled according to the suppression level during the specific time period;
The control apparatus according to claim 2, further comprising: a required power amount determination unit that determines the required power amount based on the predicted power consumption amount.   The control device according to claim 3, wherein the power consumption amount prediction unit predicts the power consumption amount in consideration of registration contents regarding going out or going home by a user using a calendar registration function. A solar radiation amount acquisition unit for acquiring the solar radiation amount;
A power generation amount prediction unit that predicts a power generation amount by solar power generation in the specific time zone based on the acquired amount of solar radiation,
The control device according to claim 3 or 4, wherein the required power amount determination unit determines the required power amount in consideration of the predicted power generation amount. A pre-control determination unit that determines pre-control content for causing a specific device to perform a specified operation in a time zone before the specific time zone based on the suppression level;
The control device according to claim 1, wherein the device control unit controls the specific device based on the prior control content. The specific device is an air conditioner;
The control device according to claim 6, wherein the advance control determination unit determines the advance control content so as to increase the air conditioning strength as the suppression level is higher.   The charge / discharge control unit according to any one of claims 2 to 5, wherein the charge / discharge control unit controls the storage battery to be charged in a time zone in which a power unit price is the cheapest in a time zone before the specific time zone. The control device described. The specific time zone setting unit sets, as the specific time zone, the time zone that has the highest effect of reducing the electricity bill for suppressing power consumption, based on the power consumption trend in the demand area and the unit price of the electricity bill by hour. ,
Each of the plurality of devices installed in the demand area is associated with the control content determined in advance according to the size of the suppression level,
The device control unit controls the plurality of devices based on the suppression level individually set for the plurality of devices by the user in advance during the specific time period ,
The device control method, wherein the control content is determined based on current power consumption of the device. The specific time zone setting unit sets, as the specific time zone, the time zone where the effect of reducing the electricity bill for the suppression of power consumption is the highest, based on the electricity bill for each time zone in the demand area.
Each of the plurality of devices installed in the demand area is associated with the control content determined in advance according to the size of the suppression level,
The device control unit controls the plurality of devices based on the suppression level individually set for the plurality of devices by the user in advance during the specific time period ,
The device control method, wherein the control content is determined based on current power consumption of the device. Computer
A device control unit for controlling a plurality of devices installed in demand areas,
A specific time zone setting unit that sets a time zone having the highest effect of reducing the electricity bill for the suppression of power consumption as the specific time zone based on the power consumption trend in the demand area and the unit price of the electricity bill by time zone, Function as
Each of the plurality of devices is associated with control content determined in advance according to the size of the suppression level,
The device control unit controls the plurality of devices based on the suppression level individually set for the plurality of devices in advance by the user during the specific time period ,
The control content is determined based on the current power consumption of the device .

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