JPWO2018047269A1 - Control device, control method, and program - Google Patents

Abstract

  The control device (100) can transmit data to the electric devices (300a to 300d) by unidirectional communication. The control device (100) transmits a reduction request for requesting reduction of power consumption of the electric devices (300a to 300d) to the electric devices (300a to 300d). And a control apparatus (100) acquires the power consumption of the electric equipment (300a-300d) which controls power consumption according to a reduction request from a power measuring device (200). And a control apparatus (100) determines the control state showing the control state of the power consumption of an electric equipment (300a-300d) based on the power consumption acquired from the electric power measurement apparatus (200). And a control apparatus (100) alert | reports a control state to a terminal device (400).

Description

  The present invention relates to a control device, a control method, and a program for controlling an electric device.

  Conventionally, as a method for controlling the power consumption of electrical equipment installed in the homes of power consumers, the electrical equipment is controlled so that the average power consumption during the predetermined time does not exceed the target value at every predetermined time. The method is known. For example, Patent Document 1 discloses that when the predicted amount of power consumption in the current month exceeds the target amount, the amount of power that can be reduced by shutting off the supply of power to a specific power load. A system for issuing an alarm is disclosed.

JP 2001-327076 A

  In the system disclosed in Patent Document 1, it is assumed that the system knows in advance the amount of power that can be reduced by cutting off the supply of power to a specific power load. In addition, when the electrical device and the control device that controls the electrical device can transmit and receive data to and from each other by bidirectional communication, the control device transmits a control signal to the electrical device and receives a control state from the electrical device. By doing so, it is possible to know the power consumption of the electric device controlled in accordance with the control signal. On the other hand, if the control device can transmit data to the electric device by unidirectional communication and cannot receive data from the electric device, the control device cannot receive the control state from the electric device and responds to the control signal. It is impossible to know the power consumption of controlled electrical equipment. Therefore, even if the control device transmits a reduction request for reducing power consumption to an electrical device, the control device controls the operation so that the electrical device actually reduces the power consumption in response to the reduction request. It is difficult to know if there is. In addition, it is difficult for the user to grasp the control state of the power consumption of the electric device via the control device.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a control device, a control method, and a program that can notify a control state of power consumption of an electric device.

In order to achieve the above object, a control device according to the present invention provides:
A control device capable of transmitting data to an electrical device by unidirectional communication,
Transmitting means for transmitting a reduction request for requesting reduction of power consumption of the electric device to the electric device;
Obtaining means for obtaining power consumption of the electrical device that controls power consumption according to the reduction request transmitted by the transmission means;
Determination means for determining a control state representing a state of control of power consumption of the electrical device based on the power consumption acquired by the acquisition means;
Notification means for notifying the control state determined by the determination means;
Is provided.

  In the present invention, the control device transmits a reduction request to the electrical device by unidirectional communication. Then, the control device acquires the power consumption of the electric device that controls the power consumption according to the reduction request, and determines the control state that represents the control state of the power consumption of the electric device based on the acquired power consumption To do. Therefore, according to this invention, the control apparatus can alert | report the control state of the power consumption of an electric equipment.

The figure which shows the structure of the control system which concerns on embodiment The figure which shows the hardware constitutions of the control apparatus which concerns on embodiment The figure which shows the function structure of the control part of the control apparatus which concerns on embodiment. The figure which shows an example of the display screen of the terminal device with which the control state at the time of the start of execution of electric power reduction control was alert | reported The figure which shows an example of the display screen of the terminal device by which the control state was alert | reported during execution of electric power reduction control The figure which shows an example of the display screen of the terminal device by which the control state at the time of success of power reduction control was alert | reported The figure which shows an example of the display screen of the terminal device by which the control state at the time of failure of power reduction control was notified The figure which shows the hardware constitutions of the electric equipment which concerns on embodiment The figure which shows the function structure of the control part of the electric equipment which concerns on embodiment. The figure which shows an example of the data contained in priority information Diagram for explaining the target power consumption calculation method The flowchart which shows the electric equipment control process which the control apparatus which concerns on embodiment performs The flowchart which shows the electric power reduction process which the electric equipment which concerns on embodiment performs

  First, a control system 1 including a control device 100 according to Embodiment 1 of the present invention will be described with reference to FIG. The control system 1 is an example of a so-called HEMS (Home Energy Management System) that manages power consumed in the house 2. As shown in FIG. 1, the control system 1 includes a control device 100 that comprehensively manages the control system 1, a power measurement device 200 that measures power consumed in the house 2, and electricity installed in the house 2. The apparatus 300a-300d and the terminal device 400 used by the user are provided. Hereinafter, the electric devices 300a to 300d are collectively referred to as the electric device 300.

  The control device 100 controls the electric device 300 based on the power measured by the power measuring device 200. The control apparatus 100 is a HEMS controller in HEMS as an example.

  In addition, the control device 100 is connected to the electric device 300 so that data can be transmitted to the electric device 300 by one-way communication. That is, the control device 100 can transmit data to the electrical device 300 but cannot receive data from the electrical device 300.

  The power measuring device 200 measures the power supplied from the system power supply 3 to the power line P arranged in the house 2, that is, the power consumed by the electric device 300. Specifically, the power measuring apparatus 200 is connected to a current transformer CT (Current Transformer) that measures an alternating current flowing through the power line P via a communication line. The power measuring device 200 measures the power consumed by the electric device 300 based on the value of the alternating current measured by the current transformer CT. In addition, the power measuring apparatus 200 calculates the amount of power in a predetermined period (for example, 1 minute or 30 minutes) or the cumulative amount of power from the reference time based on the measured power value. The power measuring apparatus 200 stores power information representing a power value acquired by measurement or calculation.

  The power measurement apparatus 200 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), a communication interface, and a readable / writable nonvolatile semiconductor memory (not shown). In addition, the power measuring device 200 is connected to the control device 100 in a communicable manner by wire or wirelessly. The power measurement device 200 transmits power information to the control device 100 in response to a request from the control device 100 or periodically.

  The electric device 300 is a device that operates by consuming electric energy supplied from the power line P. The electric device 300 is connected to the control device 100 so that unidirectional communication is possible by wire or wireless. The electric device 300 controls its own operation in response to a reduction request, which will be described later, transmitted from the control device 100.

  Specifically, the electric device 300 includes an air conditioner, a lighting device, an electric cooker, a TV, a refrigerator, a ventilation facility, a hot water supply facility, and a floor heating facility. However, the electric device 300 is not limited to these examples, and may be any device that operates with the power supplied from the power line P and can be controlled by the control device 100. Further, in FIG. 1, four electric devices 300 are shown, but the electric devices 300 constituting the control system 1 are not limited to this. Any number of electrical devices 300 can be applied to the control system 1.

  The terminal device 400 is a device that functions as a user interface of the control device 100. The terminal device 400 is communicably connected to the control device 100 by wire or wireless. The terminal device 400 is, for example, a personal computer, a smartphone, a mobile phone, or a tablet terminal.

  Hereinafter, the hardware configuration of the control device 100 will be described with reference to FIG. As shown in FIG. 2, the control device 100 includes a control unit 101, a storage unit 102, a time measuring unit 103, and a communication unit 104. The components included in the control device 100 are connected to each other via a bus 105.

  The control unit 101 includes a CPU, a ROM, and a RAM (not shown). The CPU is also called a central processing unit, a central processing unit, a processor, a microprocessor, a microcomputer, or a DSP (Digital Signal Processor). In the control unit 101, the CPU reads a program and data stored in the ROM, and controls the control device 100 in an integrated manner using the RAM as a work area.

  The storage unit 102 is a non-volatile semiconductor memory such as a flash memory, an EPROM (Erasable Programmable ROM), or an EEPROM (Electrically Erasable Programmable ROM), and plays a role as a so-called secondary storage device (auxiliary storage device). The storage unit 102 stores various programs and data used by the control unit 101 to perform various processes, and various data generated or acquired by the control unit 101 performing various processes.

  The clock unit 103 is a clock device such as an RTC (Real Time Clock) that clocks the current time. The timer 103 has a built-in battery and keeps counting even when the power of the control device 100 is turned off.

  The communication unit 104 is a communication interface for communicating with the power measurement device 200, the electric device 300, and the terminal device 400 by wire or wireless.

  Next, the functional configuration of the control unit 101 of the control device 100 will be described with reference to FIG. The control unit 101 functions as a power information acquisition unit 110, a target value calculation unit 120, a reduction value calculation unit 130, a reduction request transmission unit 140, a state determination unit 150, and a notification unit 160.

  The power information acquisition unit 110 acquires the power consumed by the electric device 300. Specifically, the power information acquisition unit 110 acquires power information representing the power value measured by the power measurement device 200 from the power measurement device 200.

  The target value calculation unit 120 calculates a target value of power consumed by the entire electric device 300 based on the upper limit value of the total power consumption in the house 2. Specifically, the target value calculation unit 120 calculates a target value by subtracting a margin from the upper limit value. The margin includes electric power consumed even when the electric device 300 is turned off, such as electric power consumed by an electric device (not shown) other than the electric device 300 controlled in the control system 1 and standby power of the electric device 300. Since the control device 100 does not have a means for grasping the type and number of electrical devices 300 in the control system 1, the margin is set in advance as a power value that cannot be reduced by the control of the control device 100.

  The upper limit value is a threshold value for requesting the electric device 300 to reduce power consumption. The upper limit value is determined in advance based on the contract power of the house 2, the setting by the user, and the past power consumption of the electric device 300, and is stored in the storage unit 102. When the upper limit value is set by the user, the upper limit value may be set via an input unit (not shown) of the control device 100 or via the terminal device 400. In addition, the upper limit value may be a fixed value or a value that can be changed according to the power that can be supplied to the electrical device 300. For example, when a solar panel is installed in the house 2 and electric power generated by the solar panel can be supplied to the electric device 300, the upper limit value may be changed according to the generated power.

  Based on the upper limit value and the power value represented by the power information acquired by the power information acquisition unit 110, the reduction value calculation unit 130 calculates a reduction value that represents the power to be reduced in the entire electric device 300. Specifically, the reduction value calculation unit 130 calculates the reduction value by subtracting the upper limit value from the power value.

  The reduction request transmission unit 140 transmits a reduction request for requesting reduction of power consumption of the electric device 300 to the entire electric device 300. Specifically, the reduction request transmission unit 140 requests the electric device 300 to reduce the power consumption so that the power consumption of the entire electric device 300 is equal to or less than a target value in the first transmission of the reduction request. Send. The reduction request for the first transmission count includes data representing the target value calculated by the target value calculation unit 120 and the first transmission count. Further, the reduction request transmission unit 140 transmits a reduction request for requesting the electric device 300 to reduce the power consumption of the entire electric device 300 by the reduction value in the second and subsequent reduction request transmissions. The reduction request after the second transmission count includes data indicating the reduction value calculated by the reduction value calculation unit 130 and the transmission count. The reduction request transmission unit 140 broadcasts the reduction request to all the electric devices 300 simultaneously.

  Based on the power value represented by the power information acquired by the power information acquisition unit 110, the state determination unit 150 determines a control state that represents a control state of power consumption of the electric device 300. Specifically, the control state determined by the state determination unit 150 is, for example, control execution information, difference information, and control result information. The control execution information represents an execution state of control for power consumption reduction (hereinafter referred to as power reduction control) executed by the electric device 300 in response to the reduction request. Specifically, the control execution information includes “control start” indicating that execution of power reduction control has started, “controlling” indicating that power reduction control is being executed, and information indicating that power reduction control has been completed. Data indicating any one of “control completion” shown. The difference information represents a difference between the measured power value and the upper limit value or the target value. The control result information represents the result of the power reduction control when the power reduction control is completed. Specifically, the control result information includes data indicating either “success” indicating success of power reduction control or “failure” indicating failure of power reduction control.

  When determining that the control limit has been reached in the power reduction control, the state determination unit 150 determines that the power reduction control has failed. The control limit represents a state where the power consumption value cannot be reduced from the current power consumption value. Specifically, the state determination unit 150 determines that the control limit has been reached when the power value acquired after transmitting the reduction request to the electrical device 300 by the predetermined upper limit number of transmissions is still greater than the upper limit value. To do. The upper limit number of transmissions is based on the time (hereinafter referred to as reflection time) required for the execution of power reduction control after the electrical device 300 acquires the reduction request and the execution is reflected in the power consumption of the electrical device 300. Is set. Since the reflection time differs for each electric device 300, the upper limit transmission count may be set based on the time constant of the electric device 300 having the longest reflection time among the electric devices 300.

  The notification unit 160 notifies the control state determined by the state determination unit 150. Specifically, the notification unit 160 transmits to the terminal device 400 an instruction to display the control state determined by the state determination unit 150 on the display screen of the terminal device 400.

  FIGS. 4A to 4D show display examples on the display screen 401 of the terminal device 400 in the control state notified by the notification unit 160.

  FIG. 4A is a diagram illustrating an example of a display screen of a terminal device that is notified of a control state at the start of execution of power reduction control. The notification unit 160 transmits control execution information indicating “control start” to the terminal device 400 as a control state. Then, when receiving the control execution information indicating “control start”, the terminal device 400 displays a message M1 “Power consumption has exceeded the upper limit. Power reduction control will start” on the display screen 401. .

  FIG. 4B is a diagram illustrating an example of a display screen of the terminal device in which the control state during the execution of the power reduction control is notified after the message M1 illustrated in FIG. 4A is displayed. The notification unit 160 transmits control execution information indicating “in control” to the terminal device 400 as a control state. Upon receiving the control execution information indicating “in control”, the terminal device 400 displays a message M2 “power reduction control is being executed” on the display unit 401 in addition to the message M1.

  FIG. 4C is a diagram illustrating an example of a display screen of the terminal device that is notified of the control state when the power reduction control is successful after displaying the messages M1 and M2 illustrated in FIG. 4B. The notification unit 160 transmits control execution information indicating “control completed” and control result information indicating “success” to the terminal device 400 as the control state. When receiving the control execution information indicating “control completed” and the control result information indicating “success”, the terminal device 400 receives, in addition to the messages M1 and M2, a message “M3 succeeded in power reduction control”. Is displayed on the display screen 401.

  FIG. 4D is a diagram illustrating an example of a display screen of the terminal device that is notified of the control state when the power reduction control fails after displaying the messages M1 and M2 illustrated in FIG. 4B. The notification unit 160 transmits control execution information indicating “control completion” and control result information indicating “failure” to the terminal device 400 as the control state. When receiving the control execution information indicating “control completed” and the control result information indicating “failure”, the terminal device 400 receives, in addition to the messages M1 and M2, a message M4 “Power reduction control has failed.” , And a message M5 indicating advice to the user, “Please stop the operation of the electric devices that can be stopped among the electric devices that are operating for further power consumption reduction” on the display screen 401. indicate.

  In FIGS. 4A to 4D, an example in which messages displayed in the past are displayed at the same time as the latest message has been described. However, only the latest message may be displayed on the display screen 401.

  Next, the hardware configuration of the electric device 300 will be described.

  As illustrated in FIG. 5, the electric device 300 includes a control unit 301, a storage unit 302, a drive unit 303, and a communication unit 304. Each component included in the electric device 300 is connected to each other via a bus 305.

  The control unit 301 includes a CPU, a ROM, and a RAM (not shown). The CPU is also called a central processing unit, a central processing unit, a processor, a microprocessor, a microcomputer, or a DSP. In the control unit 301, the CPU reads out the program and data stored in the ROM, and controls the electric device 300 in an integrated manner using the RAM as a work area.

  The storage unit 302 is a non-volatile semiconductor memory such as a flash memory or EPROM (or EEPROM), for example, and plays a role as a so-called secondary storage device (auxiliary storage device). The storage unit 302 stores various programs and data used by the control unit 301 to perform various processes, and various data generated or acquired by the control unit 301 performing various processes.

  In the present embodiment, the storage unit 302 stores a minimum power consumption value and priority information. The minimum power consumption value is a value of power consumption that is minimum required for the operation of the power device 300. The priority information represents the degree of power that can be consumed or should be reduced during power reduction control according to the number of transmissions of the reduction request.

  FIG. 7A shows an example of data included in the priority information. FIG. 7A collectively shows priority information stored in the storage unit 302 of the electric devices 300a to 300d. As shown in FIG. 7A, the priority information includes a first priority, a second priority,... Corresponding to the number of transmissions of the reduction request. The first priority represents the degree of power that can be consumed during power reduction control when the number of transmissions of the reduction request is the first. The electric device 300 having the higher first priority has a lower power that can be consumed during the power reduction control. The second priority represents the degree of power to be reduced during the power reduction control when the number of transmissions of the reduction request is the second time. The electric device 300 having the higher second priority requires less power to be reduced during the power reduction control. Although not illustrated in FIG. 7A, the priority after the third priority also represents the degree of power to be reduced during the power reduction control according to the number of transmissions of the reduction request.

  The drive unit 303 is a part that is driven by the power supplied from the power line P. The operation of the drive unit 303 is controlled by the control unit 301.

  The communication unit 304 is a communication interface for unidirectional communication with the control device 100 by wire or wireless.

  Next, a functional configuration of the control unit 301 of the electric device 300 will be described with reference to FIG. The control unit 301 functions as a reduction request acquisition unit 310, a target power consumption calculation unit 320, and an operation control unit 330.

  The reduction request acquisition unit 310 acquires a reduction request from the control device 100.

  The target power consumption calculation unit 320 calculates target power consumption based on the reduction request acquired by the reduction request acquisition unit 310. The target power consumption represents a target value of power consumption when the electric device 300 executes power reduction control in response to the reduction request.

  An example of a target power consumption calculation method performed by the target power consumption calculation unit 320 will be described with reference to FIG. 7B. In FIG. 7B, the target power consumption of each electrical device 300 is calculated using the priority information shown in FIG. 7A.

  First, it is assumed that the reduction request acquired by the reduction request acquisition unit 310 represents the target value “12000 kW” and the number of transmissions “1”. In this case, the target power consumption calculation unit 320 calculates the target power consumption based on the first priority included in the priority information as the first trial count. For example, the target power consumption calculation unit 320 of the electric device 300a calculates the target power consumption “6000 kW” for the first trial by dividing the target value “12000 kW” by the first priority “2”. Similarly, the target power consumption calculation unit 320 of the electric devices 300b to 300d calculates target power consumptions “4000 kW”, “3000 kW”, and “2000 kW” for the first trial.

  Thereafter, as a result of the operation of the electric devices 300a to 300d, it is assumed that target power consumptions “6000 kW”, “4000 kW”, “3000 kW”, and “2000 kW” for the first trial are consumed. In this case, the control device 100 acquires the total power consumption “15000 kw” of the electric devices 300 a to 300 d as the measured power value from the power measurement device 200. Since the measured power value “15000 kw” is larger than the target value “12000 kw”, the control device 100 calculates the difference “3000 kw” between the power value and the target value as the reduction value, and the reduction value “3000 kw”, the number of transmissions A reduction request representing the second time is transmitted to the electric devices 300a to 300d.

  Then, when the reduction request acquisition unit 310 acquires a reduction value “3000 kW” and a reduction request indicating the second transmission count from the control device 100, the target power consumption calculation unit 320 is included in the priority information as the second trial count. The target power consumption is calculated based on the second priority. For example, the target power consumption calculation unit 320 of the electrical device 300a subtracts the value obtained by dividing the difference “3000 kW” by the second priority “6” from the target power consumption “6000 kW” of the first trial number of times. The second target power consumption “5500 kw” is calculated. Similarly, the target power consumption calculation unit 320 of each of the electrical devices 300b to 300d calculates target power consumptions “3333 kW”, “2000 kW”, and “1000 kW” for the second trial.

  Thereafter, as a result of the operation of the electric devices 300a to 300d, it is assumed that the target power consumptions “5500 kW”, “3333 kW”, “2000 kW”, and “1000 kW” for the second trial are consumed. In this case, the control device 100 acquires the total power consumption “11833 kW” of the electric devices 300 a to 300 d as the measured power value from the power measurement device 200. The control device 100 determines that the power reduction control is successful because the measured power value “11833 kW” is smaller than the target value “12000 kW”. Accordingly, the electric devices 300a to 300d operate with “5500 kW”, “3333 kW”, “2000 kW”, and “1000 kW” as target power consumption, respectively.

  Note that the target power consumption calculation unit 320 sets the minimum power consumption value as the target power consumption when the calculated target power consumption is smaller than the minimum power consumption value. Specifically, when the minimum power consumption value of the electric device 300a is “5700 kw”, the target power consumption “5500 kw” calculated in the second trial count shown in FIG. 7B is lower than the minimum power consumption value “5700 kw”. Is also small. In this case, the target power consumption calculation unit 320 of the electric device 300a determines the minimum power consumption value “5700 kw” as the target power consumption for the second trial.

  The operation control unit 330 performs power reduction control by controlling the operation of the drive unit 303 based on the target power consumption calculated by the target power consumption calculation unit 320. Specifically, the operation control unit 330 reduces the power consumption set in advance according to the target power consumption so that the power consumption of the electric device 300 is equal to or less than the target power consumption calculated by the target power consumption calculation unit 320. Execute control. For example, when the electric device 300 is an air conditioner, the operation control unit 330 controls the drive unit 303 so as to be equal to or less than the target power consumption by reducing the air volume or changing the set temperature. When the electric device 300 is a lighting device, the operation control unit 330 controls the driving unit 303 so as to be equal to or lower than the target power consumption by reducing the illuminance. Further, when the electric device 300 is a television, the operation control unit 330 controls the driving unit 303 so as to be equal to or lower than the target power consumption by dimming the backlight of the television. Further, when the electric device 300 is a hot water supply facility, the operation control unit 330 controls the drive unit 303 so as to be equal to or lower than the target power consumption by reducing the boiling capacity.

  When the operation control unit 330 acquires an end instruction to end the execution of the power reduction control from the control device 100 during the execution of the power reduction control, the operation control unit 330 ends the execution of the power reduction control. Specifically, for example, the control device 100 detects an abnormality of the control system 1 and restarts the control system 1, or an instruction to end the execution of the power reduction control from the user via the terminal device 400. Is transmitted to the electric device 300. Further, the operation control unit 330 may end the execution of the power reduction control when receiving an instruction to end the execution of the power reduction control from the user via an input unit (not illustrated) of the electric device 300.

  Next, with reference to the flowchart shown in FIG. 8, the electric equipment control process which the control part 101 of the control apparatus 100 performs is demonstrated. For example, the electric device control process is started when the power of the control device 100 is turned on. It is assumed that the counter n for counting the number of transmissions of the reduction request to the electrical device 300 is set to 1 that is an initial value at the start of this processing.

  First, the control unit 101 acquires power information representing a power value measured by the power measuring device 200 from the power measuring device 200 (step S101).

  Next, the control unit 101 determines whether or not the power value represented by the power information acquired in step S101 is larger than the upper limit value stored in the storage unit 102 (step S102).

  When the power value is less than or equal to the upper limit value (step S102; No), the control unit 101 sets the counter n to 1 (step S113), and the process proceeds to step S114.

  When the power value is larger than the upper limit value (step S102; Yes), the control unit 101 determines whether or not the counter n is 1 (step S103).

  When the counter n is 1 (step S103; Yes), the control unit 101 calculates a target value (step S104).

  And the control part 101 broadcasts the reduction request | requirement showing the target value calculated in step S104, and the value 1 of the counter n to all the electric devices 300 simultaneously (step S105).

  Then, the control unit 101 sets the counter n to 2 (step S106). And the control part 101 advances a process to step S114.

  When the counter n is not 1 (step S103; No), the control unit 101 determines whether the counter n is equal to or smaller than the transmission upper limit number n_max (step S107).

  When the counter n is equal to or less than the transmission upper limit number n_max (step S107; Yes), the control unit 101 subtracts the upper limit value stored in the storage unit 102 from the power value represented by the power information acquired in step S101. A reduction value is calculated (step S108).

  Then, the control unit 101 broadcasts a reduction request representing the reduction value calculated in step S108 and the value of the counter n to all the electric devices 300 (step S109). Then, the control unit 101 increments the counter n (Step S110). And the control part 101 advances a process to step S114.

  When the counter n is larger than the transmission upper limit number n_max (step S107; No), the control unit 101 determines that the control limit has been reached (step S111). Then, the control unit 101 starts measuring the elapsed time from the time when the control limit is reached.

  The control unit 101 determines whether or not a predetermined time T has elapsed since the time when the control limit was reached in step S111 (step S112). When the time T has not elapsed (step S112; No), the control unit 101 advances the process to step S114.

  When the predetermined time T has elapsed from the time when the control limit is reached in step S111 (step S112; Yes), the control unit 101 sets the counter n to 1 (step S113). And the control part 101 advances a process to step S114.

  The control unit 101 determines the control state of the electric device 300 (step S114). Specifically, after step S <b> 106, the control unit 101 acquires control execution information indicating “control start” as a determination result of the control state of the electric device 300. In addition, after step S110 or when the time T has not elapsed in step S112, the control unit 101 acquires control execution information indicating “being executed” as a determination result of the control state of the electric device 300. In addition, after the time T has elapsed in step S112, the control unit 101 acquires control execution information indicating “control completion” and control result information indicating “failure” as the determination result of the control state of the electric device 300. To do. Further, when the power value is equal to or lower than the upper limit value in step S102 and the counter n is changed from n> 1 to n = 1 in step S113, that is, as a result of the control device 100 transmitting a reduction request to the electric device 300, When the power value becomes equal to or lower than the upper limit value in step S102, the control execution information indicating “control completed” and the control result information indicating “failure” are acquired as the determination result of the control state of the electric device 300.

  The control unit 101 notifies the terminal device 400 of the control state determined in step S114 (step S115).

  After that, the control unit 101 returns to step S101 and repeatedly executes the processes after step S102 described above every time the power information is acquired from the power measuring apparatus 200.

  Next, with reference to the flowchart shown in FIG. 9, the power reduction process which the control part 301 of the electric equipment 300 performs is demonstrated. The power reduction process starts, for example, when the electrical device 300 receives a reduction request from the control device 100.

  First, the control unit 301 calculates target power consumption based on the received reduction request and priority information (step S201).

  Next, the control unit 301 determines whether or not the target power consumption calculated in step S201 is smaller than the minimum power consumption value stored in the storage unit 302 (step S202). When the target power consumption is equal to or greater than the minimum power consumption value (step S202; No), the control unit 301 advances the process to step S204.

  When the target power consumption is smaller than the minimum power consumption value (step S202; Yes), the control unit 301 determines the minimum power consumption value as the target power consumption (step S203).

  The control unit 301 executes power reduction control by controlling the operation of the drive unit 303 based on the target power consumption calculated in step S201 or determined in step S203 (step S204). Then, the control unit 301 ends this process.

  As described above, in the present embodiment, the control device 100 determines the control state of the electrical device 300 based on the power consumption of the electrical device 300 after transmitting a reduction request to the electrical device 300. Therefore, the control apparatus 100 can alert | report the control state of the electric equipment 300 which can transmit data by one-way communication.

  As mentioned above, although embodiment of this invention was described, when implementing this invention, a deformation | transformation and application with a various form are possible.

The state determination unit 150 uses the number of transmissions of the reduction request when determining the control limit. However, the state determination unit 150 may determine the control limit based on an elapsed time after first transmitting the reduction request. In particular,
If the power value measured by the power measuring device 200 exceeds the upper limit value even after the longest reflection time of the electrical device 300 has elapsed since the state determination unit 150 first transmitted the reduction request, It may be determined that the control limit has been reached.

  Moreover, the timing which the alerting | reporting part 160 alert | reports to the terminal device 400 is not restricted to said embodiment. Specifically, the notification unit 160 has a change in the power value within a certain range for a certain period of time when the change in the power value measured by the power measuring device 200 is larger than the threshold or after the power value has changed. The control state may be notified according to a change in the power value, such as a case.

  Moreover, the control state which the alerting | reporting part 160 alert | reports is not restricted to said embodiment. For example, when the state determination unit 150 acquires control execution information indicating “control completed” and control result information indicating “failure” as the control state, the notification unit 160 has an inappropriate setting of the upper limit value. There is a possibility that the user may be notified to prompt the user to reset the upper limit value.

  The state determination unit 150 acquires control execution information indicating “control completion” and control result information indicating “success” as the control state, and within a certain period of time after acquiring the control state. When an increase in the power value measured by the power measuring apparatus 200 is detected, the operation of the electric device 300 is suppressed by the power reduction control, so that the user feels uncomfortable and the operation of the electric device 300 increases in power consumption. It may have been set to. Therefore, in such a case, the notification unit 160 may have an inappropriate setting of the upper limit value, and may notify the user to prompt the user to reset the upper limit value.

  Moreover, the state determination part 150 determines with execution of electric power reduction control as a control state, when the electric power value measured by the electric power measurement apparatus 200 exceeds an upper limit. And the alerting | reporting part 160 may alert | report to the terminal device 400 the control state to the effect that execution of electric power reduction control is required. Then, the reduction request transmission unit 140 transmits a reduction request to the electric device 300 when an instruction indicating the start of execution of the power reduction control is received from the terminal device 400 or via an input unit (not illustrated) of the control device 100. May be.

  In addition, when the state where the power value measured by the power measuring device 200 does not exceed the upper limit value continues for a certain period, the state determination unit 150 may determine that the energy saving activity is being performed as the control state. . In addition, when the increase in the power value measured by the power measurement apparatus 200 frequently occurs after the power reduction control, the state determination unit 150 determines that the control state is a state where comfort is important (comfort priority state). May be. And the alerting | reporting part 160 may alert | report the control state to the terminal device 400. FIG.

  Further, the method of notifying the user to the notification unit 160 is not limited to the example of displaying the control state on the terminal device 400. For example, when the control device 100 includes a display unit, the notification unit 160 may display the control state on the display unit of the control device 100. Moreover, when the control apparatus 100 is provided with LED (Light Emitting Diode), the alerting | reporting part 160 may alert | report a control state with lighting / extinguishing of LED, the presence or absence of blinking, the frequency | count of blinking, a lighting pattern, and a color. Moreover, when the control apparatus 100 is provided with a speaker, the alerting | reporting part 160 may alert | report a control state with an audio | voice output, a timbre, or a sound volume.

  Moreover, the alerting | reporting part 160 may notify the terminal device 400 by converting the power consumption of the electric equipment 300 into an electricity bill as a control state.

  In the above embodiment, the upper limit value of the total power consumption in the house 2 is stored in the storage unit 102 as a threshold value for requesting the electric device 300 to reduce the power consumption. However, instead of the upper limit value of the total power consumption, the electricity cost per month may be stored in the storage unit 102 as the upper limit value. Then, the upper limit value of power consumption may be set from the relationship between the upper limit value of the electricity bill and the actual value of the daily electricity bill. Moreover, the alerting | reporting part 160 may alert | report that a user is prompted to change an upper limit based on the difference of the upper limit of electricity bill, and a track record value.

  In the above embodiment, the target value calculation unit 120 calculates the target value based on the upper limit value and the margin. However, when the target value is a fixed value, the target value is stored in the storage unit 102 in advance. May be.

  In the above embodiment, the case where the control device 100 is installed in the house 2 has been described. However, in the present invention, a device having a function equivalent to that of the control device 100 may be installed outside the house 2. Specifically, a router may be installed in the house 2 instead of the control device 100. A router is a device that communicates with a server via a wide area network, and is, for example, a broadband router. In this case, the router and the server can function as the control device 100 in cooperation.

  In addition, by applying an operation program that defines the operation of the control device 100 according to the present invention to an existing personal computer or information terminal device, the personal computer or information terminal device can function as the control device 100 according to the present invention. Is also possible.

  Further, such a program distribution method is arbitrary. For example, the program is stored and distributed in a computer-readable recording medium such as a CD-ROM (Compact Disk Read-Only Memory), a DVD (Digital Versatile Disk), or a memory card. Alternatively, it may be distributed via a communication network such as the Internet.

  Various embodiments and modifications can be made to the present invention without departing from the broad spirit and scope of the present invention. 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 applied to a control system for controlling an electric device.

DESCRIPTION OF SYMBOLS 1 Control system, 2 houses, 3 system | strain power supply, 100 Control apparatus, 101 Control part, 102 Memory | storage part, 103 Time measuring part, 104 Communication part, 105 Bus, 110 Power information acquisition part, 120 Target value calculation part, 130 Reduction value calculation Unit, 140 reduction request transmission unit, 150 state determination unit, 160 notification unit, 200 power measurement device, 300 (300a to 300d) electrical equipment, 301 control unit, 302 storage unit, 303 drive unit, 304 communication unit, 305 bus, 310 reduction request acquisition unit, 320 target power consumption calculation unit, 330 operation control unit, 400 terminal device, 401 display screen

Claims (12)

A control device capable of transmitting data to an electrical device by unidirectional communication,
Transmitting means for transmitting a reduction request for requesting reduction of power consumption of the electric device to the electric device;
Obtaining means for obtaining power consumption of the electrical device that controls power consumption according to the reduction request transmitted by the transmission means;
Determination means for determining a control state representing a state of control of power consumption of the electrical device based on the power consumption acquired by the acquisition means;
Notification means for notifying the control state determined by the determination means;
A control device comprising: The transmission unit transmits the reduction request to the electrical device when the power consumption acquired by the acquisition unit exceeds a predetermined upper limit value.
The control device according to claim 1. The determination unit determines that it is necessary to execute control of power consumption of the electric device as the control state when the power consumption acquired by the acquisition unit exceeds the upper limit value.
The control device according to claim 2. The determination unit determines that execution of control of power consumption of the electric device is started as the control state when the transmission unit transmits the reduction request to the electric device.
The control device according to claim 2 or 3. The determination unit, when the power consumption acquired by the acquisition unit exceeds the upper limit value after the transmission unit transmits the reduction request to the electric device, It is determined that power consumption control is being executed.
The control device according to any one of claims 2 to 4. The determination means, when the power consumption acquired by the acquisition means is less than or equal to the upper limit value after the transmission means transmits the reduction request to the electrical equipment, It is determined that the power consumption control is successful.
The control device according to any one of claims 2 to 5. The determination unit, when the power consumption acquired by the acquisition unit exceeds the upper limit value after the transmission unit transmits the reduction request to the electrical device a predetermined number of times, the control state Determining that the control of the power consumption of the electrical device has failed,
The control device according to any one of claims 2 to 6. The determination unit is configured such that the power consumption acquired by the acquisition unit exceeds the upper limit value after a predetermined time has elapsed since the transmission unit started transmitting the reduction request to the electrical device. When exceeded, it is determined that the control of power consumption of the electrical device has failed as the control state.
The control device according to any one of claims 2 to 6. The determination unit determines a difference between the power consumption acquired by the acquisition unit and the upper limit value as the control state.
The control device according to any one of claims 2 to 8. The acquisition unit acquires the power consumption of the electrical device from the power measurement unit that measures the power consumption of the electrical device.
The control device according to any one of claims 1 to 9. A control method executed by a control device capable of transmitting data to an electrical device by unidirectional communication,
Sending a reduction request to the electric device to request a reduction in power consumption of the electric device;
Obtaining power consumption of the electrical device that controls power consumption according to the reduction request;
Based on the power consumption, determine a control state representing a state of control of power consumption of the electrical device,
Informing the control state,
Control method. A computer that can send data to electrical equipment by unidirectional communication
Transmitting means for transmitting a reduction request for requesting reduction of power consumption of the electric device to the electric device;
Obtaining means for obtaining power consumption of the electrical device for controlling power consumption according to the reduction request transmitted by the transmission means;
Determination means for determining a control state representing a state of control of power consumption of the electrical device based on the power consumption acquired by the acquisition means;
Informing means for informing the control state determined by the determining means,
Program to function as.

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