JP2014143823A - Power control device, power control system and power control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To increase the degree of freedom in the use of load apparatuses in a situation where power supply to the load apparatuses is limited.SOLUTION: A power control device 17 can selectively power up or down a plurality of load apparatuses 15. The power control device 17 includes a storage section 20, a detection section 19 and a control section 21. The storage section 20 stores a priority level of every load apparatus 15. The detection section 19 detects an input to the load apparatus 15. When the detection section 19 detects an input to a load apparatus 15 powered down in a limited mode, the control section 21 changes the priority levels of at least some of the plurality of load apparatuses 15 such that the load apparatus 15 is powered up. In the limited mode, some of the load apparatuses 15 are powered down according to the priority levels to suppress power consumption below a predetermined value.

Description

  The present invention relates to a power control apparatus, a power control system, and a power control method for controlling power supplied to a load device when the total power consumption is limited.

  In recent years, storage batteries have been introduced into power control systems installed in homes and the like. In a power control system having a storage battery, it has been proposed to supply power stored in the storage battery to a load device when a power failure occurs (see Patent Document 1).

JP 2005-261031 A

  In Patent Document 1, priority is given to a load device, and power is supplied to a load device with a high priority. However, in such a power control method, power is not supplied when a power failure occurs, that is, a load device with low priority cannot be used.

  Therefore, an object of the present invention made in view of such circumstances is to provide a power control device and power control capable of giving more flexibility to use of a load device in a situation where power supply to the load device is limited. A system and a power control method are provided.

In order to solve the above-described problems, the power control apparatus according to the first aspect is
A power control device capable of switching supply and stop of power supply to a plurality of load devices,
A storage unit for storing a priority for each load device;
A detection unit for detecting an input to the load device;
The detection unit detects an input to a load device for which power supply has been stopped in a limited mode in which the power supply of some load devices is stopped based on the priority to reduce power consumption to less than a predetermined value. And a control unit that changes the priority of at least some of the plurality of load devices so as to supply power to the load device.

In addition, the control unit returns the priorities of the plurality of load devices before the change when the detection unit detects a power-off input with respect to the load device to which power is supplied by detection of the detection unit. It is preferable to supply and stop supplying power to the plurality of load devices based on the returned priority.

Further, the storage unit stores, for each load device, power consumption used for determining a load device that supplies power in the limited mode,
The control unit may acquire power consumption of a load device that does not store power consumption in the storage unit when the detection unit detects an input to the load device and store the power consumption in the storage unit. preferable.

The control unit may obtain power consumption of a load device that does not store power consumption in the storage unit by supplying power to the load device and detecting power supplied to the load device. preferable.

The control unit preferably creates a list of load devices to which power is supplied in the limited mode.

Further, it is preferable that the power control device is capable of switching power supply and supply stop to a plurality of powers from the power charged in the storage battery.

Also,
A power control device capable of switching between supply and stop of power supply to a plurality of load devices and a plurality of load devices, a storage unit for storing a priority for each load device, and detecting an input to the load device An input to the load device whose power supply has been stopped in a limited mode in which power is supplied to only a part of the load devices based on the priority and the power consumption is reduced below a predetermined value. A power control device having a control unit that changes the priority of at least some of the plurality of load devices so as to supply power to the load device when the detection unit detects. It is.

  As described above, the solution of the present invention has been described as an apparatus. However, the present invention can be realized as a method, a program, and a storage medium storing the program, which are substantially equivalent thereto, and the scope of the present invention. It should be understood that these are also included.

For example, the power control method realized as the second aspect of the present invention is:
In a limited mode in which power is kept below a predetermined value by supplying power only to some load devices based on the priority set for each of multiple load devices, A detection step for detecting an input;
A changing step of changing the priority of at least some of the plurality of load devices so as to supply power to the load devices;
And a supply step of supplying power to a part of the plurality of load devices based on the changed priority.

  According to the power control device, the power control system, and the power control method according to the present invention configured as described above, in a situation where the power supply to the load device is limited, the degree of freedom in using the load device is further increased. It is possible to have it.

1 is a functional block diagram showing a schematic configuration of a power control system including a power control device according to a first embodiment of the present invention. It is a table | surface of the priority and power consumption which are provided for every load apparatus memorize | stored in a memory | storage part. In the limited mode, the control unit creates a list of load devices that can be used based on the priorities before the change. It is a list | wrist of the usable load apparatus which a control part produces based on the priority after a change in limited mode. It is a flowchart which shows the electric power supply process in the limited mode which a control part performs. It is a state diagram which shows the supply state of the electric power to each load apparatus before the switch to limited mode. It is a state diagram which shows the supply state of the electric power to each load apparatus in limited mode. It is a state figure which shows the state which the resident input into the load apparatus in limited mode. In limited mode, it is a state figure showing the state where supply of electric power changed by input to load equipment. It is a state diagram which shows the state which changes a priority by the input in the operation panel of an electric power control part. In limited mode, it is a state diagram which shows the state which changed supply of electric power according to the input with respect to a some load apparatus.

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

  First, a current control device according to an embodiment of the present invention will be described. FIG. 1 is a functional block diagram illustrating a schematic configuration of a power control system including a power control apparatus according to the first embodiment.

  The power control system 10 includes a power conditioner 11, a storage battery 12, a distribution board 13, a switch 14, a load device 15, a load control unit 16, and a power control device 17.

  In FIG. 1, a solid line connecting each functional block represents a flow of electric power. Moreover, in FIG. 1, the broken line which connects each functional block represents the flow of the control signal or the information communicated. Various transmission media can be applied to the physical layer of communication indicated by the broken line. For example, wireless communication via a wireless router can be applied to the physical layer of communication between the power control device 17, the power conditioner 11, the load device 15, and the load control unit 16. The wireless router may be built in the power control device 17 or may be provided separately from the power control device 17. Also, wireless communication via a wireless router can be applied to the physical layer of communication between the load control unit 16 and the switch 14. In addition, wired communication such as power line communication (PLC) can be applied as a physical layer for communication between the switch 14 and the load device 15. For example, ECHONET Lite (registered trademark) is applied to communication between the power control device 17, the power conditioner 11, the load device 15, and the load control unit 16. For example, Sig 2.0 of ZigBee (registered trademark) is applied to communication between the load control unit 16 and the switch 14.

  The power control system 10 can supply, to the load device 15, the discharged power among the power charged in the storage battery 12 in addition to the power supplied from the commercial system 18.

  The power conditioner 11 converts AC power supplied from the commercial system 18 via the distribution board 13 into DC power and charges the storage battery 12. Further, the power conditioner 11 converts the DC power output from the storage battery 12 into AC power and supplies it to the distribution board 13. The power conditioner 11 charges and discharges the storage battery 12 based on the control of the power control device 17.

  The storage battery 12 is a secondary battery such as a lithium ion battery or a lead storage battery, and can discharge charged power. The electric power discharged from the storage battery 12 can be supplied to the load device 15 via the power conditioner 11 and the distribution board 13.

  The distribution board 13 distributes the AC power supplied from the commercial system 18 and the power conditioner 11 to each load device 15 by branching the AC power to a plurality of branches.

  Based on the control of the load control unit 16, the switch 14 switches between supply and stop of supply of power supplied from the distribution board 13 to each load device 15. Further, the switch 14 can detect the power supplied to the load device 15. The switch 14 communicates with the load control unit 16 and notifies the load control unit 16 of the detected supply power. The switch 14 may be a smart tap, for example.

  The number of load devices 15 connected to the power control system 10 can be any number. These load devices 15 are various electric appliances, such as a television, an air-conditioner, and a refrigerator, and illumination, a server, etc., for example. These load devices 15 are connected to the commercial system 18 and the power conditioner 11 via the distribution board 13 and supplied with electric power. The load device 15 can detect various inputs such as power ON / OFF to the load device 15 by the load device 15 itself or a remote controller. The load device 15 communicates with the power control device 17 and notifies the power control device 17 of the detected input. The load device 15 can notify the power control device 17 of information such as the power consumption of the load device 15 as necessary.

  The load control unit 16 controls switching of the switch 14 based on an instruction from the power control device 17. In addition, the load control unit 16 communicates with the switch 14 and acquires supply power to be supplied to the load device 15. The load control unit 16 communicates with the power control device 17 and notifies the acquired power supply to the power control device 17.

  The power control device 17 includes a detection unit 19, a storage unit 20, and a control unit 21.

  The detection unit 19 detects an input to the load device 15 that is notified. The storage unit 20 stores the priority and power consumption for each load device 15 to which power is supplied from the distribution board 13. Moreover, the memory | storage part 20 memorize | stores the dischargeable amount of the storage battery 12 as a predetermined value used in the limited mode mentioned later. The control unit 21 controls the operation of each part of the power control device 17 and each part of the power control system 10. For example, the control unit 21 performs power supply in the limited mode, creation of a list of usable load devices 15 in the limited mode, and acquisition of power consumption of the new load device 15.

  Next, power supply in the limited mode under the control of the control unit 21 will be described. The power control device 17 has a plurality of operation modes including a limited mode. The control unit 21 switches the operation mode to the limited mode when a power failure occurs. The control unit 21 determines the occurrence of a power outage based on, for example, fluctuations in power detected from a power meter that detects power supplied from the commercial system 18, and based on, for example, power outage information notified from an external network. .

  After switching to the limited mode, the control unit 21 reads a predetermined value (dischargeable amount), the priority and power consumption of each load device 15 from the storage unit 20. The control unit 21 determines the load device 15 that supplies power in descending order of priority within a range where the total power consumption is less than a predetermined value. However, it is possible to predetermine the load device 15 in which the total power consumption is less than a predetermined value before changing the priority, which will be described later. Therefore, the load device 15 that supplies power in the limited mode may be determined in advance, stored in the storage unit 20, and read by the control unit 21.

  The control unit 21 instructs the load control unit 16 to supply power to some of the load devices 15 that have decided to supply power. In addition, the control unit 21 instructs the load control unit 16 to stop supplying power to the load devices 15 other than the some load devices 15. Therefore, the control unit 21 suppresses the power consumption to less than a predetermined value by stopping the power supply of some of the load devices 15 based on the priority in the limited mode.

  When the detection unit 19 detects an input, for example, an ON input, to the load device 15 from which power supply has been stopped during execution of the limited mode, the control unit 21 changes the priority of the load device 15. However, the control unit 21 does not update the priority stored in the storage unit 20 but stores the priority before the change and the priority after the change in the storage unit 20. The control unit 21 changes the priority of the load device 15 so as to supply power to the load device 15 that has detected the input while keeping the power consumption below a predetermined value.

  For example, as shown in FIG. 2, before the change, the first floor server, the first floor refrigerator, the first floor lighting, the first floor water heater, the first floor television, the second floor lighting, the second floor television, 1, 2, 3, 4, 5, 6, 7, 8, and 9 are assigned as priorities to the second-floor air conditioner and the second-floor PC, respectively. In the priorities before the change, the total power consumption (p1 + p2 + p3 + p4) of the first-floor server, first-floor refrigerator, first-floor lighting, and first-floor water heater is less than a predetermined value. When the power consumption p5 of the TV is added and exceeds a predetermined value, the control unit 21 determines to supply power to the first floor server, the first floor refrigerator, the first floor lighting, and the first floor water heater. Then, the supply of power to the other load devices 15 is stopped.

  In such a state, when the lighting detects an input to the second-floor lighting, the control unit 21 detects the generation of the input via the detection unit 19 and raises the priority of the second-floor lighting. The For example, when the priority of the lighting on the second floor is increased from 6 to 5, the sum of the power consumption of the load device 15 given priority from 1 to 4 and the power consumption of the lighting on the second floor is a predetermined value. If it is less than this, the control part 21 will set the priority of the lighting of the second floor to 5. On the other hand, when the sum of the power consumption of the load device 15 assigned with the priorities 1 to 4 and the power consumption of the second-floor lighting exceeds a predetermined value, the control unit 21 further increases the priority of the second-floor lighting. Carry forward. Thereafter, the control unit 21 increases the priority of the lighting on the second floor until the total power consumption including the lighting on the second floor becomes less than a predetermined value. When the priority is determined, the control unit 21 determines the load device 15 that supplies power based on the changed priority, and executes supply and stop of power supply.

  When the load device 15 to which power is supplied by raising the priority detects an input to turn off the power, the control unit 21 returns the priority of each load device 15 to the priority before the change. The control unit 21 determines the load device 15 that supplies power based on the priorities before the change, and executes supply and stop of power supply.

  Next, creation of a list of usable load devices 15 in the limited mode under the control of the control unit 21 will be described. The control unit 21 creates a list indicating the presence / absence of power supply, priority, priority increase, and whether or not switching is possible for each load device 15 in the power failure mode. For example, when the power control system 10 includes, for example, the load device 15 as illustrated in FIG. 2, the control unit 21 creates the list illustrated in FIG. 3 before the priority is changed. Moreover, the control part 21 produces the list | wrist shown in FIG. 4 after a priority change. The created list can be displayed on, for example, the display of the power control device 17 and the display of the portable terminal that communicates with the power control device 17.

  Next, automatic acquisition of the power consumption of the new load device 15 under the control of the control unit 21 will be described. In the limited mode described above, the power consumption of each load device 15 is used to change the priority of the load device 15. When a new load device 15 is incorporated in the power control system 10, it is necessary to store the power consumption of the load device 15 in the storage unit 20. When the new load device 15 is connected to the switch 14, the control unit 21 recognizes that the new load device 15 has been added through communication with the switch 14 via the load control unit 16. When the detection unit 19 detects an ON input of the power supply of the load device 15, the control unit 21 causes the switch 14 connected to the load device 15 to detect supply power and notify the control unit 21. The control unit 21 stores the acquired supply power in the storage unit 20 as the power consumption of the load device 15.

  Next, the power supply process in the limited mode executed by the control unit 21 will be described with reference to the flowchart of FIG. The control unit 21 starts the power supply process in the limited mode when detecting a power failure.

  In step S <b> 100, the control unit 21 reads the power consumption of each load device 15 and the priority before change from the storage unit 20. After reading, the process proceeds to step S101.

  In step S101, the control unit 21 determines the load device 15 that supplies power and the load device 15 that stops supply. In addition, the control unit 21 creates a list of load devices 15 that can be used in the limited mode. Once the list is created, the process proceeds to step S102.

  In step S102, based on the determination in step S101, the control unit 21 outputs a control command so that some switches 14 are supplied with power and other switches 14 are stopped from supplying power. When the control command is output, the process proceeds to step S103.

  In step S <b> 103, the control unit 21 determines whether or not the detection unit 19 has detected an input to any of the load devices 15. When detecting an input to the load device 15, the process proceeds to step S104. When the input to the load device 15 is not detected, the process proceeds to step S115.

  In step S104, the control unit 21 determines whether or not the input detected by the detection unit 19 is a power OFF input. If the input is not OFF, the process proceeds to step S105. If the input is OFF, the process proceeds to step S116.

  In step S105, the control unit 21 determines whether or not the load device 15 that has detected the input is the load device 15 for which the supply of power has been stopped. When the load device 15 is stopped, the process proceeds to step S106. When the load device 15 is supplied with power, the process proceeds to step S115.

  In step S <b> 106, the control unit 21 determines whether or not the load device 15 that has detected the input is stored in the storage unit 20. If not, the process proceeds to step S107. If so, the process proceeds to step S111.

  In step S107, the control unit 21 causes the switch 14 to supply power to the load device 15 that has detected the input via the load control unit 16. Once power is supplied, the process proceeds to step S108.

  In step S108, the control unit 21 causes the switch 14 to which power is supplied in step S107 to detect the supplied power. When the supplied power is detected, the process proceeds to step S109.

  In step S109, the control unit 21 causes the switch 14 to which power has been supplied in step S107 to stop supplying power. When the supply of power is stopped, the process proceeds to step S110.

  In step S110, the control unit 21 causes the storage unit 20 to store the supply power detected in step S108 as the power consumption of the load device 15. After storing, the process proceeds to step S111.

  In step S <b> 111, the control unit 21 reads the power consumption of the load device 15 and the current priority from the storage unit 20. After reading from the storage unit 20, the process proceeds to step S112.

  In step S112, the control unit 21 changes the priority of the load device 15 so that power is supplied to the load device 15 that has detected the input in step S103. After changing the priority, the process proceeds to step S113.

  In step S113, the control unit 21 determines the load device 15 that supplies power and the load device 15 that stops supply. Further, the control unit 21 creates a list of usable load devices 15. Once the list is created, the process proceeds to step S114.

  In step S114, based on the determination in step S113, the control unit 21 outputs a control command so that some switches 14 are supplied with power and other switches 14 are stopped from supplying power. When the control command is output, the process proceeds to step S115.

  In step S115, the control unit 21 determines whether or not a power failure is ongoing. If the power failure is ongoing, the process returns to step S103. When recovering from the power failure, the power supply process in the limited mode is terminated.

  As described above, when the input detected by the detecting unit 19 is OFF input in step S104, the process proceeds to step S116. In step S116, the control unit 21 determines whether or not the load device 15 from which the input has been detected is the load device 15 whose priority has been increased in the limited mode. If the load device 15 has a higher priority, the process proceeds to step S117. If it is not the load device 15 whose priority has been increased, the process proceeds to step S115 described above.

  In step S117, the control unit 21 returns the priority to the pre-change priority for the load device 15 whose input is detected in step S103. When the priority is returned, the process proceeds to step S113 described above.

  According to the power control apparatus of the present embodiment configured as described above, the priority of the load device 15 for which power supply has been stopped in the limited mode is changed by the input to the load device 15. Therefore, the load device 15 input by the user can be used within a range where the total power consumption is less than a predetermined value.

  Further, according to the power control apparatus of this embodiment, the priority can be changed by inputting to each load device 15 without inputting to the power control apparatus 17. The effect of such a configuration will be described below.

  FIG. 6 shows an example in which the power control system 10 is introduced into a two-story house. In such a specification mode, when no power failure occurs, the full load device 15 in the house can be used (see “◯” in each load device).

  When a power failure occurs and the operation mode of the power control device 17 is switched to the limited mode, the power control device 17 disconnects the distribution board 13 from the commercial system 18, as shown in FIG. Stop the supply of power to the low-load equipment 15, the first-floor TV, the second-floor lighting, the second-floor TV, the second-floor air conditioner, and the second-floor personal computer (see “x” in each load equipment 15) .

  In such a situation, when a resident on the second floor performs an operation to turn on the power to the lighting on the second floor, which is a part of the load device 15, using a remote controller, for example (see FIG. 8), the power control device 17 Detects an input corresponding to the operation, changes priority, and controls power supply. As a result, power is supplied to the lighting on the second floor, and power supply to the water heater on the first floor is stopped in order to keep the overall power consumption below a predetermined value (see FIG. 9). Therefore, the second floor occupant himself / herself can be supplied with electric power by input to the load device 15 desired to be used without moving. For example, a configuration in which the priority can be changed by an input to the operation panel of the power control device 17 is conceivable. However, when the operation panel is installed on the first floor, for example, a resident needs to move ( (See FIG. 10). Compared to such a configuration, in the power control apparatus of this embodiment, there is no need to move from the installation location of the load device 15 desired to be used, and the convenience for the user can be improved.

  Further, according to the power control apparatus of the present embodiment, when an input for turning off the power of the load device 15 to which power is supplied by increasing the priority is detected, the priority is restored. Therefore, after the load device 15 is used, another load device 15 that originally has a high priority can be used.

  Further, according to the power control apparatus of the present embodiment, the power consumption of the load device 15 that is not stored in the storage unit 20 is automatically detected and stored, so that setting by the user is unnecessary.

  Although the present invention has been described based on the drawings and embodiments, it should be noted that those skilled in the art can easily make various changes and modifications based on the present disclosure. Therefore, it should be noted that these variations and modifications are included in the scope of the present invention.

  For example, in the present embodiment, the detection unit 19 of the power control device 17 detects the input to the load device 15 through wireless communication between the power control device 17 and the load device 15. The detection method of the input to 15 may be another method. For example, even if the load device 15 does not have a communication function, the load device 15 that has stopped supplying power is instantaneously supplied and stopped to supply power to the limited mode. It is also possible to detect an input to the load device 15 based on a comparison with the supplied power before switching. That is, it is considered that the supply power fluctuates from before the limited mode switching when the load device 15 detects the input. Therefore, the input to the load device 15 can be detected by periodically performing the above-described comparison.

  Further, in the present embodiment, the priority increase by input to the load device 15 is not limited to a single load device 15. For example, it is possible to change the priority so that power is supplied to a plurality of load devices 15 whose power supply has been stopped in the limited mode. For example, as shown in FIG. 11, when the detection unit 19 detects the input to the second-floor lighting and the second-floor air conditioner, the first-floor water heater having a higher priority before the change, and the first-floor refrigerator It is possible to stop the supply of electric power to the second floor and supply power to the second-floor lighting and the second-floor air conditioner.

DESCRIPTION OF SYMBOLS 10 Power control system 11 Power conditioner 12 Storage battery 13 Distribution board 14 Switch 15 Load apparatus 16 Load control part 17 Power control apparatus 18 Commercial system 19 Detection part 20 Storage part 21 Control part

Claims (8)

A power control device capable of switching supply and stop of power supply to a plurality of load devices,
A storage unit for storing a priority for each load device;
A detection unit for detecting an input to the load device;
The detection unit detects an input to a load device for which power supply has been stopped in a limited mode in which the power supply of some load devices is stopped based on the priority to reduce power consumption to less than a predetermined value. And a control unit that changes the priority of at least some of the plurality of load devices so as to supply power to the load device.   2. The power control apparatus according to claim 1, wherein when the detection unit detects an input of power OFF for a load device to which power is supplied by detection of the detection unit, the control unit The power control apparatus is characterized in that the priority of the load devices is returned to before the change, and the supply and stop of power supply to the plurality of load devices are performed based on the returned priority. The power control device according to claim 1 or 2,
The storage unit stores, for each load device, power consumption used to determine a load device that supplies power in the limited mode,
The control unit acquires power consumption of a load device that does not store power consumption in the storage unit when the detection unit detects an input to the load device, and stores the power consumption in the storage unit. A power control device.   The power control apparatus according to claim 3, wherein the control unit supplies power to the load device using power consumption of a load device that does not store power consumption in the storage unit, and supplies the power to the load device. A power control apparatus that acquires power supply power by detecting power supply.   5. The power control apparatus according to claim 1, wherein the control unit creates a list of load devices to which power is supplied in the limited mode. apparatus.   The power control device according to any one of claims 1 to 5, wherein the power control device is capable of switching between supply and stop of power supply to a plurality of load devices from power charged in a storage battery. A power control apparatus characterized by the above.   A power control system comprising a plurality of load devices and the power control device according to any one of claims 1 to 6. In a limited mode in which power is kept below a predetermined value by supplying power only to some load devices based on the priority set for each of multiple load devices, A detection step for detecting an input;
A changing step of changing the priority of at least some of the plurality of load devices so as to supply power to the load devices;
A power control method comprising: supplying power to a part of the plurality of load devices based on the changed priority.

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