JPWO2014155561A1 - Power monitoring system, power control device, power control method, and program - Google Patents

Abstract

In the power control device, the current information acquisition unit (351) acquires the current value measured by the current measurement device installed corresponding to the branch breaker. An operation information acquisition part (352) acquires the operation information showing that the power supply was turned on from an electric equipment. When the operation information is acquired by the operation information acquisition unit (352), the identification unit (353) acquires, by the operation information acquisition unit (352), the branch breaker corresponding to the current measuring device whose measured current value has increased. It is specified as a branch breaker to which the electrical device that has transmitted the operation information is connected.

Description

  The present invention relates to a power monitoring system, a power control apparatus, a power control method, and a program.

  As a technique for monitoring the power consumption of branch breakers installed for each room in a house, Patent Document 1 discloses a power management system that attaches a monitoring device to each branch breaker and monitors the power consumption of the branch breakers. ing. In this power management system, when the amount of power used by a branch breaker is likely to exceed the upper limit at which the branch breaker falls, the electrical equipment connected to the branch breaker has its power used according to a predetermined priority order. Controlled to go down.

JP 2009-130974 A

  However, in the power management system disclosed in Patent Document 1, it is necessary to set in advance the electrical equipment connected to each branch breaker. That is, since the branch breaker is normally assigned to each room, it is necessary to set information on the electrical equipment installed in the room in the controller that monitors the amount of electricity used. For this reason, it is not necessary to change the setting of electrical equipment that is not moved much after it has been installed once, such as an air conditioner or refrigerator, but it is temporarily connected to the outlet of the room like a vacuum cleaner. Electrical equipment must be updated each time. However, it is not realistic to frequently update the settings in this way.

  The present invention has been made in view of the above circumstances, and provides a power monitoring system, a power control device, a power control method, and a program that can easily identify an electrical device connected to a branch breaker. For the purpose.

In order to achieve the above object, a power monitoring system according to the present invention includes:
A plurality of current measuring devices installed so as to correspond to each of the plurality of branch breakers, an electric device to which power is supplied from any of the plurality of branch breakers, the plurality of current measuring devices, and the electric device A power control system that is communicably connected to the power control system,
The current measuring device includes:
A current measurement unit for measuring a current value flowing through a corresponding branch breaker;
A measuring device side communication unit that transmits current information representing the measured current value to the power control device, and
The electrical equipment is
A device-side communication unit that transmits operation information representing its own operation state to the power control device,
The power control device
A current information acquisition unit that acquires current information from each of the plurality of current measurement devices;
An operation information acquisition unit for acquiring operation information from the electrical device;
Based on the current information acquired by the current information acquisition unit and the operation information acquired by the operation information acquisition unit, an electrical device that has transmitted the operation information acquired by the operation information acquisition unit is connected. A specific unit that identifies the branch breaker that is provided,
It is characterized by that.

  ADVANTAGE OF THE INVENTION According to this invention, the electric equipment connected to the branch breaker can be specified easily.

It is a figure which shows the whole structure of the electric power monitoring system which concerns on Embodiment 1 of this invention. 1 is a block diagram illustrating an example of a configuration of a current measuring device according to Embodiment 1. FIG. 1 is a block diagram illustrating an example of a configuration of an electrical device according to a first embodiment. 2 is a block diagram illustrating an example of a hardware configuration of the power control apparatus according to the first embodiment. FIG. It is a figure which shows an example of the data stored in the breaker and apparatus information DB which concerns on Embodiment 1. FIG. 3 is a block diagram illustrating an example of a functional configuration of a control unit of the power control apparatus according to the first embodiment. FIG. It is an example of the flowchart of the breaker and apparatus setting process which concerns on Embodiment 1. FIG. It is a figure which shows an example of the time transition of the electric current value measured by the electric current measuring apparatus. It is an example of the flowchart of an operation control process. It is an example of the flowchart of the breaker and apparatus setting process which concerns on Embodiment 2. FIG. It is a figure which shows an example of the time transition of the electric current value measured by the electric current measuring apparatus. It is a block diagram which shows an example of the hardware constitutions of the power control apparatus which concerns on Embodiment 3. It is a figure which shows an example of the data stored in the priority information DB which concerns on Embodiment 3. It is a block diagram which shows an example of a function structure of the control part of the electric power control apparatus which concerns on Embodiment 3. FIG. It is an example of the flowchart of the operation control process which concerns on Embodiment 3. FIG.

  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 power monitoring system 1 according to Embodiment 1 of the present invention. As shown in FIG. 1, the power monitoring system 1 includes a plurality of current measuring devices 100 (100a, 100b, 100c), a plurality of electric devices 200 (200a, 200b, 200c), and a power control device 300. Is done. The power control device 300 is connected to each current measuring device 100 and each electric device 200 so that they can communicate with each other by wire or wirelessly.

  The current measuring device 100 is installed so as to correspond to each of a plurality of branch breakers 500 (500a, 500b, 500c) respectively installed on an electric circuit branched from the secondary side of the main breaker 400. The branch breaker 500 is provided for each branch circuit (not shown). And when the electric current more than a predetermined value flows into a branch circuit, the branch breaker 500 will interrupt | block supply of the electric power to the electric equipment 200 connected to wiring terminals, such as an outlet corresponding to the said branch circuit.

  In this embodiment, as shown in FIG. 1, the branch breaker 500a corresponds to the outlet 600a, the branch breaker 500b corresponds to the outlet 600b, and the branch breaker 500c corresponds to the outlet 600c. The number of branch breakers 500 and outlets 600 (600a, 600b, 600c) illustrated in FIG. 1 is an example, and is not limited thereto.

  FIG. 2 shows an example of the configuration of the current measuring device 100 according to this embodiment. As shown in FIG. 2, the current measurement device 100 includes a current measurement unit 110, a storage unit 120, and a communication unit 130. The current measuring unit 110 measures the value of the current flowing through the corresponding branch breaker wiring. The storage unit 120 includes a recording medium such as a nonvolatile semiconductor memory, and is a breaker that is an identifier assigned in advance to uniquely identify the branch breaker 500 corresponding to the current measuring device 100 from the branch breaker 500. Store the ID. The communication unit 130 generates current value information including the current value measured by the measurement unit 110 and the breaker ID stored in the storage unit 120 at a predetermined time interval, and transmits the current value information to the power control apparatus 300.

  The electric device 200 is a device that is driven using electric power supplied from any one of the plurality of branch breakers 500. Specifically, as shown in FIG. 1, the electric device 200a is connected to an outlet 600a and is supplied with electric power from the branch breaker 500a via the outlet 600a. The electric device 200b is connected to the outlet 600b, and is supplied with power from the branch breaker 500b via the outlet 600b. The electric device 200c is connected to the outlet 600c, and is supplied with power from the branch breaker 500c via the outlet 600c.

  The electric device 200 according to the present embodiment is frequently changed by an electric device such as an air conditioner, a refrigerator, and an IH cooker that is not frequently moved after being installed in a building, that is, a branch breaker 500 that is a power supply source. Such as an electric device that can be changed frequently by the branch breaker 500 that is a power supply source. For example, one of the electric devices 200a is connected to the outlet 600a in FIG. 1, but is connected to the outlet 600b at one time and connected to the outlet 600c at another time. The electrical outlet 600 may be an electrical device that is frequently changed. In addition, the number of the electric devices 200 shown in FIG. 1 is an example, and is not limited to this.

  FIG. 3 shows an example of the configuration of the electric device 200 according to the present embodiment. As shown in FIG. 3, the electric device 200 includes an operation control unit 210, a drive unit 220, a storage unit 230, and a communication unit 240. The operation control unit 210 controls the operation of the drive unit 220 based on the control information received by the communication unit 230. Further, the operation control unit 210 may control the operation of the drive unit 220 based on operation information received from the user via an input unit (not shown). The drive unit 220 drives the power supplied from the branch breaker 500 to which the electric device 200 is connected as a power source. The storage unit 230 includes a recording medium such as a nonvolatile semiconductor memory, and stores a device ID that is an identifier assigned in advance to uniquely identify the plurality of electric devices 200. When the operation state of the electric device 200 satisfies a predetermined condition, the communication unit 240 generates operation information including the operation state and the device ID stored in the storage unit 230 and transmits the operation information to the power control device 300. In the present embodiment, on the condition that the power of the electric device 200 has changed from off to on, the communication unit 240 can provide data indicating that the power of the electric device 200 has changed from off to on, and the device of the electric device 200 Operation information including the ID is transmitted to the power control apparatus 300.

  Based on the current value acquired from the current measurement device 100 and the operation information received from the electric device 200, the power control device 300 identifies the branch breaker 500 connected to the electric device 200 that transmitted the operation information. To do. In addition, the power control apparatus 300 monitors the power used through each branch breaker 500 and transmits control information for controlling the electric device 200 to the electric device 200 so that the used power does not exceed a predetermined threshold. .

  Next, the configuration of the power control apparatus 300 in the present embodiment will be described in detail.

  FIG. 4 shows an example of a hardware configuration of the power control apparatus 300 according to the present embodiment. As shown in FIG. 4, the power control apparatus 300 includes a communication unit 310, an input unit 320, a display unit 330, a storage unit 340, and a control unit 350, and each unit is connected by a bus 360.

  The communication unit 310 includes an interface for performing wireless or wired communication with each power measuring device 100 and each electric device 200.

  The input unit 320 includes input devices such as buttons, a touch panel, and a keyboard. The input unit 320 receives an operation input from the user and outputs an operation input signal corresponding to the received operation input to the control unit 350.

  The display unit 330 includes a display device such as a CRT (Cathode Ray Tube) or a liquid crystal display, and displays data such as characters and images supplied from the control unit 350.

  The storage unit 340 includes a writable storage device such as a hard disk drive, flash memory, or SSD (Solid State Drive). The storage unit 340 stores a breaker / device information DB 341.

  FIG. 5 shows an example of data stored in the breaker / device information DB 341. As shown in FIG. 5, the breaker / device information DB 341 stores a breaker ID and a device ID of an electric device connected to the branch breaker 500 identified by the breaker ID in association with each other. For example, when the breaker ID “BRK_a” is assigned to the branch breaker 500a and the two electric devices 200 having the device IDs “DEV_1” and “DEV_2” are connected to the branch breaker 500a, the breaker / device information DB 341 The breaker ID “BRK_a” is stored in association with the device IDs “DEV_1” and “DEV_2”.

  Returning to FIG. 4, the control unit 350 includes, for example, a CPU (Central Processing Unit), a ROM (Read Only Memory) that stores a program executed by the CPU, and a RAM (Random Access) that temporarily stores data generated by the CPU. Memory) and a timer that measures the current time, and controls the entire power control apparatus 300.

  FIG. 6 is a block diagram illustrating an example of a functional configuration of the control unit 350. As illustrated in FIG. 6, the control unit 350 functions as a current information acquisition unit 351, an operation information acquisition unit 352, a specification unit 353, a power determination unit 354, and an operation control unit 355.

  The current information acquisition unit 351 acquires current information from each current measurement device 100 via the communication unit 310. The current information acquired by the current information acquisition unit 351 is stored in, for example, a RAM.

  The operation information acquisition unit 352 acquires operation information from the electric device 200 via the communication unit 310.

  The identification unit 353 transmits the driving information acquired by the driving information acquisition unit 352 based on the current information acquired by the current information acquisition unit 351 and the driving information acquired by the driving information acquisition unit 352. The branch breaker 500 to which the electric device 200 is connected is specified.

  Specifically, when the operation information acquisition unit 352 acquires the operation information indicating that the power source of the electric device 200 has been turned on among the current information acquired by the current information acquisition unit 351. The branch breaker 500 associated with the current measuring device 100 that has transmitted the current information whose current value increase amount exceeds a predetermined threshold is defined as the branch breaker 500 to which the electrical device 200 that has transmitted the operation information is connected. Identify. Then, the specifying unit 353 associates the device ID of the electric device 200 that transmitted the operation information with the specified breaker ID of the branch breaker 500, and stores them in the breaker / device information DB 341.

  Based on the current information acquired by the current acquisition unit 351, the power determination unit 354 calculates the power usage for each of the plurality of branch breakers 500, and determines whether the calculated power usage satisfies a predetermined condition. judge.

Here, the predetermined condition is determined in advance so that the power consumption P of the branch breaker 500 does not exceed a predetermined threshold P _L when the branch breaker 500 cuts off the supply of power to the electric device 200. It is a condition. For example, the predetermined condition is that the calculated power consumption P of the branch breaker exceeds a predetermined reference value P ₀ (where P ₀ <P _L ). That is, the power determination unit 354 determines the power usage P calculated branch breaker, when it exceeds a predetermined reference value P _0, the calculated electric power consumption is a predetermined condition is satisfied.

  The operation control unit 355 corresponds to the branch breaker 500 related to the used power amount that is determined to satisfy the predetermined condition when the power determining unit 354 determines that the calculated used power amount satisfies the predetermined condition. The control information for specifying the electric device 200 from the breaker / device information DB 341 and controlling the electric power used by the specified electric device 200 is stored in the electric device 200 specified via the communication unit 310. Output.

  Next, the operation of the power control apparatus 300 according to this embodiment will be described.

  First, the breaker / equipment setting process executed by the control unit 350 of the power control apparatus 300 will be described. The breaker / equipment setting process is a process of identifying the electric device 200 connected to each branch breaker 500 and recording it in the breaker / equipment information DB 341. This process is executed, for example, when the CPU of the control unit 350 reads a program stored in the ROM.

  FIG. 7 is an example of a flowchart of a breaker / device setting process executed by the control unit 350 of the power control apparatus 300. The breaker / equipment setting process starts, for example, when the user inputs an operation input indicating the start of execution of the breaker / equipment setting process via the input unit 320.

  The operation information acquisition unit 352 determines whether or not operation information has been received from the electric device 200 via the communication unit 310 (step S101). When it is determined that the operation information is not received from the electric device 200 (step S101; No), the operation information acquisition unit 352 is in a waiting state until the operation information is received.

  When it is determined that the operation information is received from the electric device 200 (step S101; Yes), the operation information acquisition unit 352 determines whether the power of the electric device 200 has changed from off to on based on the acquired operation information. Is determined (step S102). If the operation information acquisition unit 352 determines that the power source of the electric device 200 has not changed from off to on (step S102; No), the process returns to step S101.

  Next, the specifying unit 353 determines whether or not the current value measured by the current measuring device 100a has increased based on the current information from the current measuring device 100a acquired by the current information acquiring unit 351 ( Step S103).

Hereinafter, an example of a method for determining whether or not the current value measured by the current measuring device 100a by the specifying unit 353 has increased will be described. FIG. 8 shows the time transition of the current value measured by the current measuring device 100a. In the following description, at time _{t 1,} the electrical equipment 200a connected to the outlet 600a (e.g., air conditioners) power is turned on, at time _{t 3,} another electrical device 200a connected to the outlet 600a It is assumed that the power source (for example, a vacuum cleaner) is turned on.

First, at time t _1, when the power of the air conditioner is turned on, the air-conditioning device transmits operation information indicating that the power is turned on the power control unit 300. The current value measured by the current measuring device 100a corresponding to the branch breakers 500a connected to the air conditioning equipment, starts rising from time t _1, the stops rising at time t _2.

When operating the air conditioning device as described above, at time t _1, the operation information acquiring unit 352 acquires the operation information indicating that the power of the air conditioner is turned on from the air-conditioning equipment. Then, the specification unit 353 calculates the increment of the current value measured by the current measuring device 100a in a predetermined time from the time t _1, determines whether the increase exceeds a predetermined threshold. If the calculated increase exceeds a predetermined threshold, the specifying unit 353 determines that the current value measured by the current measuring device 100a has increased.

At time t ₃ , when the cleaner is turned on, the cleaner transmits operation information indicating that the power is turned on to the power control apparatus 300. The current value measured by the current measuring device 100a corresponding to the connected branch breakers 500a to cleaner starts to rise at time t _3, increase stops at time t _4.

When operating the vacuum cleaner as described above, at time t _3, the operation information acquiring unit 352 acquires the operation information indicating that the power of the vacuum cleaner from the cleaner is turned on. Then, the specification unit 353 calculates the increment of the current value measured by the current measuring device 100a in a predetermined time from time t _3, determines whether the increase exceeds a predetermined threshold. If the calculated increase exceeds a predetermined threshold, the specifying unit 353 determines that the current value measured by the current measuring device 100a has increased.

  When determining that the current value measured by the current measuring device 100a has increased (step S103; Yes), the specifying unit 353 determines the breaker ID of the branch breaker 500a connected to the current measuring device 100a that measured the current value. And the device ID included in the operation information acquired in step S101 are stored in the breaker / device information DB 341 (step S104). Then, the process returns to step S101.

  When determining that the current value measured by the current measuring device 100a has not increased (step S103; No), the specifying unit 353 is based on the current information from the current measuring device 100b acquired by the current information acquiring unit 351. Then, similarly to step S103, it is determined whether or not the current value measured by the current measuring device 100b has increased (step S105).

  When determining that the current value measured by the current measurement device 100b has increased (step S105; Yes), the specifying unit 353 determines the breaker ID of the branch breaker 500b connected to the current measurement device 100b that has measured the current value. And the device ID included in the operation information acquired in step S101 are stored in the breaker / device information DB 341 (step S106). Then, the process returns to step S101.

  When determining that the current value measured by the current measuring device 100b has not increased (step S105; No), the specifying unit 353 is based on the current information from the current measuring device 100c acquired by the current information acquiring unit 351. Then, similarly to step S103, it is determined whether or not the current value measured by the current measuring device 100c has increased (step S107).

  When determining that the current value measured by the current measuring device 100c has increased (step S107; Yes), the specifying unit 353 determines the breaker ID of the branch breaker 500c connected to the current measuring device 100c that measured the current value. And the device ID included in the operation information acquired in step S101 are stored in the breaker / device information DB 341 (step S108). Then, the process returns to step S101.

  If the identifying unit 353 determines that the current value measured by the current measuring device 100c has not risen (step S107; No), the process returns to step S101. Then, the control unit 350 repeats the processes of steps S101 to S108 until, for example, an operation for ending the breaker / device setting process is received via the input unit 320 by the user.

  Of the current information acquired by the current information acquisition unit 351 by the above breaker / device setting process, the operation information indicating that the electric device 200 is turned on is acquired by the operation information acquisition unit 352. The branch breaker 500 associated with the current measuring device 100 that has transmitted the current information in which the amount of increase in the current value exceeds a predetermined threshold is identified as the branch breaker 500 connected to the electrical device 200 that has transmitted the operation information. Is done. The breaker / equipment information DB 341 stores a correspondence relationship between the branch breaker 500 and the electric device 200 connected to the branch breaker.

  Next, an operation control process executed by the control unit 350 of the power control apparatus 300 will be described. The operation control process is a process for controlling the operation of the electric device 200 connected to the branch breaker 500 corresponding to the current measuring device 100 according to the current value measured by the current measuring device 100. This process is executed, for example, when the CPU of the control unit 350 reads a program stored in the ROM.

  FIG. 9 is an example of a flowchart of an operation control process executed by the control unit 350 of the power control apparatus 300. The driving control process is started, for example, when the input unit 320 receives an operation input for starting the execution of the driving control process from the user.

  First, the power determination unit 354 calculates the power consumption for each of the plurality of branch breakers 500 based on the current information acquired by the current information acquisition unit 351, and all the calculated power consumptions are determined according to a predetermined reference. It is determined whether or not the value has been exceeded (step S201). When it is determined that all the calculated power consumption amounts do not exceed the predetermined reference value (step S201; No), the power determination unit 354 waits until it is determined that the predetermined reference value is exceeded.

  When the power determination unit 354 determines that there is a used power amount that exceeds a predetermined reference value among all the calculated used power amounts (step S201; Yes), the operation control unit 355 determines that the used power amount is The electric device 200 corresponding to the breaker ID of the branch breaker 500 exceeding the predetermined reference value is specified with reference to the breaker / device information DB 341 (step S202).

  Next, the operation control part 355 produces | generates the control information for suppressing the electric power used of the electric equipment 200 specified by step S202, and outputs it to the electric equipment 200 via the communication part 310 (step S203). Further, when there are a plurality of specified electrical devices 200, control information for each electrical device 200 is generated and output to each electrical device 200. Then, the process returns to step S201.

  The control unit 350 repeatedly executes the above process until, for example, an operation input instructing the end of the operation control process is received from the user.

  As described above, the power control apparatus 300 according to the present embodiment is connected to the current measurement apparatus 100 whose current value has increased when the operation information indicating that the power supply is turned on is acquired from the electric device 200. The branch breaker 500 is specified as the branch breaker 500 to which the electric device 200 that has transmitted the operation information is connected. Therefore, the electric device 200 connected to the branch breaker 500 can be easily identified. Then, the power control device 300 associates the electric device 200 that has transmitted the operation information with the identified branch breaker 500 and records the information in the breaker / device information DB 341. Therefore, even if the electric device 200 connected to the branch breaker 500 changes frequently, the branch breaker 500 to which the electric device is connected is specified, and the operation of the electric device is performed based on the power consumption of the branch breaker 500. Can be controlled.

(Embodiment 2)
In the power monitoring system 1 according to the first embodiment of the present invention, when the power control device 300 acquires operation information indicating that the power source is turned on from the electrical device 200, the power breaker 500 and the electrical The device 200 was recorded in association with it. However, the operation state of the electric device 200 that causes the power control device 300 to associate the branch breaker 500 with the electric device 200 is not limited to this. In the second embodiment, when the power control apparatus 300 acquires operation information indicating that the power source has been turned off from the electric device 200, the branch breaker 500 in which the current value has decreased and the electric device 200 are recorded in association with each other. An example will be described. In addition, about the structure similar to Embodiment 1, the same code | symbol is used and the detailed description is abbreviate | omitted.

  The communication unit 240 of the electric device 200 according to the second embodiment has a predetermined condition that the power of the electric device 200 is changed from on to off, and the operation state of the electric device 200 satisfies the predetermined condition. Operation information including data indicating that the power source of the electric device 200 has changed from on to off and the device ID of the electric device 200 is transmitted to the power control apparatus 300.

  In addition, in the current information acquired by the current information acquisition unit 351, the specifying unit 353 of the power control device 300 according to the second embodiment acquires the operation information indicating that the electric device 200 has been turned off. The branch breaker 500 associated with the current measurement device 100 that has transmitted the current information whose current value decrease amount when acquired by the unit 352 exceeds a predetermined threshold is connected to the electric device 200 that has transmitted the operation information. The branch breaker 500 is identified. Then, the specifying unit 353 associates the device ID of the electric device 200 that transmitted the operation information with the specified breaker ID of the branch breaker 500, and stores them in the breaker / device information DB 341.

  Next, the operation of the power control apparatus 300 according to the second embodiment will be described.

  First, the breaker / equipment setting process executed by the control unit 350 of the power control apparatus 300 will be described. The breaker / equipment setting process is a process of identifying the electric device 200 connected to each branch breaker 500 and recording it in the breaker / equipment information DB 341. This process is executed, for example, when the CPU of the control unit 350 reads a program stored in the ROM.

  FIG. 10 is an example of a flowchart of a breaker / device setting process executed by the control unit 350 of the power control apparatus 300. The breaker / equipment setting process starts, for example, when the user inputs an operation input indicating the start of execution of the breaker / equipment setting process via the input unit 320.

  The operation information acquisition unit 352 determines whether or not operation information has been received from the electric device 200 via the communication unit 310 (step S301). When it is determined that the operation information is not received from the electric device 200 (step S301; No), the operation information acquisition unit 352 is in a waiting state until the operation information is received.

  If it is determined that the operation information is received from the electric device 200 (step S301; Yes), the operation information acquisition unit 352 determines whether the power of the electric device 200 has changed from on to off based on the acquired operation information. Is determined (step S302). If the operation information acquisition unit 352 determines that the power of the electric device 200 has not changed from on to off (step S302; No), the process returns to step S301.

  Next, the specifying unit 353 determines whether or not the current value measured by the current measuring device 100a has dropped based on the current information from the current measuring device 100a acquired by the current information acquiring unit 351 ( Step S303).

Hereinafter, an example of a method for determining whether or not the current value measured by the current measuring device 100a by the specifying unit 353 has decreased will be described. FIG. 11 shows a time transition of the current value measured by the current measuring device 100a. In the following description, at time _{t 1,} the electrical equipment 200a connected to the outlet 600a (e.g., air conditioners) power is turned off at time _{t 3,} another electrical device 200a connected to the outlet 600a It is assumed that the power source of (for example, a vacuum cleaner) is turned off.

First, at time t ₁ , when the power of the air conditioner is turned off, the air conditioner transmits operation information indicating that the power is turned off to the power control apparatus 300. The current value measured by the current measuring device 100a corresponding to the branch breakers 500a connected to the air conditioning equipment starts falling from a time t _1, the descent is stopped at time t _2.

When operating the air conditioning device as described above, at time t _1, the operation information acquiring unit 352, the power of the air conditioning apparatus to acquire operation information indicating that off from the air-conditioning equipment. Then, the specification unit 353 calculates the decrease in the current value measured by the current measuring device 100a in a predetermined time from the time t _1, determines whether the decrease exceeds a predetermined threshold. When the calculated decrease exceeds the predetermined threshold, the specifying unit 353 determines that the current value measured by the current measuring device 100a has decreased.

At time t ₃ , when the power of the cleaner is turned off, the cleaner transmits operation information indicating that the power is turned off to the power control apparatus 300. The current value measured by the current measuring device 100a corresponding to the connected branch breakers 500a to cleaner starts lowering from the time t _3, descent stops at the time t _4.

When operating the vacuum cleaner as described above, at time t _3, the operation information acquisition unit 352, the power of the vacuum cleaner to obtain the operation information indicating that off from the vacuum cleaner. Then, the specification unit 353 calculates the decrease in the current value measured by the current measuring device 100a in a predetermined time from time t _3, determines whether the decrease exceeds a predetermined threshold. When the calculated decrease exceeds the predetermined threshold, the specifying unit 353 determines that the current value measured by the current measuring device 100a has decreased.

  If the specifying unit 353 determines that the current value measured by the current measuring device 100a has decreased (step S303; Yes), the breaker ID of the branch breaker 500a connected to the current measuring device 100a that measured the current value is determined. And the device ID included in the operation information acquired in step S301 are stored in the breaker / device information DB 341 (step S304). Then, the process returns to step S301.

  If the specifying unit 353 determines that the current value measured by the current measuring device 100a is not decreasing (step S303; No), the specifying unit 353 is based on the current information from the current measuring device 100b acquired by the current information acquiring unit 351. Then, similarly to step S303, it is determined whether or not the current value measured by the current measuring device 100b has dropped (step S305).

  If the specifying unit 353 determines that the current value measured by the current measurement device 100b has decreased (step S305; Yes), the breaker ID of the branch breaker 500b connected to the current measurement device 100b that measured the current value. And the device ID included in the operation information acquired in step S301 are stored in the breaker / device information DB 341 (step S306). Then, the process returns to step S301.

  If the specifying unit 353 determines that the current value measured by the current measuring device 100b has not decreased (step S305; No), the specifying unit 353 is based on the current information from the current measuring device 100c acquired by the current information acquiring unit 351. Then, similarly to step S303, it is determined whether or not the current value measured by the current measuring device 100c has decreased (step S307).

  If the specifying unit 353 determines that the current value measured by the current measuring device 100c has decreased (step S307; Yes), the breaker ID of the branch breaker 500c connected to the current measuring device 100c that has measured the current value. And the device ID included in the operation information acquired in step S301 are stored in the breaker / device information DB 341 (step S308). Then, the process returns to step S301.

  When the identifying unit 353 determines that the current value measured by the current measuring device 100c has not decreased (step S307; No), the process returns to step S301. Then, the control unit 350 repeats the processes in steps S301 to S308 until, for example, an operation for ending the breaker / device setting process is received via the input unit 320 by the user.

  Of the current information acquired by the current information acquisition unit 351 by the above breaker / device setting process, the operation information indicating that the power source of the electric device 200 is turned off is acquired by the operation information acquisition unit 352. The branch breaker 500 associated with the current measuring device 100 that has transmitted the current information whose current value decrease amount exceeds the predetermined threshold is identified as the branch breaker 500 connected to the electrical device 200 that has transmitted the operation information. Is done. The breaker / equipment information DB 341 stores a correspondence relationship between the branch breaker 500 and the electric device 200 connected to the branch breaker.

  As described above, the power control apparatus 300 according to the second embodiment is connected to the current measurement apparatus 100 in which the current value has decreased when the operation information indicating that the power supply is turned off is acquired from the electric device 200. The branch breaker 500 is identified as the branch breaker 500 to which the electric device 200 that transmitted the operation information is connected. Therefore, as in the first embodiment, the electric device 200 connected to the branch breaker 500 can be easily identified. Even if the electric device 200 connected to the branch breaker 500 changes frequently, the branch breaker 500 to which the electric device is connected is specified, and the operation of the electric device is performed based on the power consumption of the branch breaker 500. Can be controlled.

(Embodiment 3)
In Embodiment 3 of the present invention, an example will be described in which the power control apparatus 300 controls a plurality of electrical devices 200 connected to the branch breaker 500 in accordance with a preset priority order. In addition, about the structure similar to Embodiment 1, the same code | symbol is used and the detailed description is abbreviate | omitted.

  FIG. 12 is a diagram illustrating a hardware configuration of the power control apparatus 300 according to the third embodiment. As illustrated in FIG. 12, the power control apparatus 300 according to the third embodiment further includes a priority order information DB 342 in the storage unit 340 in addition to the configuration of the power control apparatus 300 according to the first embodiment illustrated in FIG. 4.

  The priority order information DB 342 stores priority order information indicating the order of the electrical equipment 200 that preferentially performs the control when performing control for reducing the power consumption of the electrical equipment 200. FIG. 13 shows an example of data stored in the priority order information DB 342 according to the third embodiment. As illustrated in FIG. 13, the priority order information DB 342 stores a device ID and a priority order of the device ID in association with each other. The priority order information stored in the priority order information DB 342 is set in advance by the user via the input unit 320, for example.

  FIG. 14 is a block diagram illustrating an example of a functional configuration of the control unit 350 of the power control apparatus 300 according to the third embodiment.

  The operation control unit 355 according to the second embodiment branches when the power determination unit 354 determines that the calculated power consumption satisfies the predetermined condition, and the branch related to the power consumption determined to satisfy the predetermined condition. The electric device 200 corresponding to the breaker 500 is specified from the breaker / device information DB 341. In addition, the operation control unit 355 specifies the priority order corresponding to the specified electrical device 200 from the priority order information DB 342. And the operation control part 355 produces | generates the control information for controlling the electric equipment 200 so that the degree which suppresses the electric power which the electric equipment 200 uses becomes high in order with the identified priority high, and makes the communication part 310 Output to the electric device 200.

  Next, an operation control process executed by the control unit 350 of the power control apparatus 300 according to the third embodiment will be described. FIG. 9 is an example of a flowchart of an operation control process executed by the control unit 350 of the power control apparatus 300. The driving control process is started, for example, when the input unit 320 receives an operation input for starting the execution of the driving control process from the user.

  First, the electric power determination part 354 and the operation control part 355 perform the process similar to step S201-S202 of the operation control process which concerns on Embodiment 1 (step S401-S402).

  Next, the operation control unit 355 identifies the priority order corresponding to the electrical device 200 identified in Step S402 from the priority order information DB 342 (Step S403).

  Next, the operation control unit 355 generates control information for controlling the electric device 200 so that the degree of suppressing the electric power used by the electric device 200 is increased in the order of the priority specified in step S403, It outputs to the electric equipment 200 via the communication part 310 (step S404).

  For example, in step S402, it is assumed that two electric devices 200a having device IDs “DEV_1” and “DEV_2” are identified as the electric devices 200a connected to the branch breaker 500a. At this time, in step S403, the operation control unit 355 refers to the priority order information DB 342 illustrated in FIG. 13, the priority order “3” corresponding to the device ID “DEV_1”, and the priority order “corresponding to the device ID“ DEV_2 ”. 1 ”is specified. Then, the operation control unit 355 determines that the priority order corresponding to the device ID “DEV_2” is higher than the priority order corresponding to the device ID “DEV_1”, and the electric device 200a having the device ID “DEV_2” uses it. Control information for controlling each electric device 200a is generated so that the power reduction amount is larger than the power reduction amount used by the electric device 200a having the device ID “DEV_1”, and each electric device 200a is generated. Output to. Then, the process returns to step S401.

  The control unit 350 repeatedly executes the above process until, for example, an operation input instructing the end of the operation control process is received from the user.

  As described above, when the electric power control apparatus 300 according to the third embodiment controls the electric device 200 so that the amount of electric power used by the electric device 200 decreases, the electric device 200 according to the preset priority order. The degree of suppressing the power used by 200 is determined, and electric device 200 is controlled. Therefore, the user sets the priority of the electric device 200 that does not want to suppress the power to be used, or sets the priority of the electric device 200 that desires to preferentially suppress the power to be used. Thus, the electric device 200 can be controlled so as to be in the operation state of the electric device 200 desired by the user.

  As mentioned above, although embodiment of this invention was described, this invention is not limited by this embodiment.

  For example, in the first embodiment, the specifying unit 353 of the power control apparatus 300 has the current value when the operation information indicating that the power source of the electric device 200 is turned on is acquired by the operation information acquisition unit 352. The branch breaker 500 associated with the increased current measurement value 100 is identified as the branch breaker 500 to which the electric device 200 that transmitted the operation information is connected. Then, the specifying unit 353 associates the device ID of the electric device 200 that has transmitted the operation information with the specified breaker ID of the branch breaker 500 and records it in the breaker / device ID 341.

  In this case, the specifying unit 353 is further associated with the current measurement value 100 in which the current value has decreased when the operation information indicating that the power source of the electric device 200 has been turned off is acquired by the operation information acquisition unit 352. The branch breaker 500 may be specified as the branch breaker 500 to which the electric device 200 that has transmitted the operation information is connected. Then, the specifying unit 353 may delete the device ID of the electric device 200 that transmitted the operation information and the specified breaker ID of the branch breaker 500 from the breaker / device information DB 341.

  As a result, the breaker / device information DB 341 stores the electric device 200 that is turned on and the branch breaker 500 to which the electric device 200 is connected in association with each other.

  Further, when the specifying unit 353 associates the device ID of the electric device 200 that has transmitted the operation information with the breaker ID of the specified branch breaker 500 and records the same in the breaker / device ID 341, the same device ID is already assigned to the breaker. When the stored breaker ID stored in the device ID 341 and corresponding to the device ID is different, the device ID 341 may be updated with the newly specified breaker ID. As a result, the latest correspondence between the electric device 200 and the branch breaker 500 can be recorded in the breaker / device ID 341.

  In the above embodiment, the program executed by the power control apparatus 300 is a computer such as a flexible disk, a CD-ROM (Compact Disk Read-Only Memory), a DVD (Digital Versatile Disk), or an MO (Magneto-Optical Disk). It may be stored and distributed in a readable recording medium. And each apparatus which performs the above-mentioned process may be comprised by installing the program in information processing apparatus, such as a personal computer.

  The program may be stored in a disk device or the like included in a predetermined server device on a communication network such as the Internet. The program may be downloaded, for example, superimposed on a carrier wave.

  Further, when the above functions are realized by sharing an OS (Operating System) or when the OS and the application cooperate, only the program other than the part realizing the OS functions is stored in the recording medium. It may be distributed or downloaded.

  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. In other words, 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 is suitable for a power monitoring system that monitors power used by an electrical device.

DESCRIPTION OF SYMBOLS 1 Electric power monitoring system, 100 (100a, 100b, 100c) Current measuring apparatus, 110 Current measuring part, 120 Storage part, 130 Communication part, 200 (200a, 200b, 200c) Electric equipment, 210 Operation control part, 220 Drive part, 230 storage unit, 240 communication unit, 300 power control device, 310 communication unit, 320 input unit, 330 display unit, 340 storage unit, 341 breaker / equipment information DB, 342 priority information DB, 350 control unit, 351 current information acquisition unit , 352 Operation information acquisition unit, 353 identification unit, 354 power determination unit, 355 operation control unit, 360 bus, 400 main breaker, 500 (500a, 500b, 500c) branch breaker, 600 (600a, 600b, 600c) outlet

The present invention has been made in view of the above circumstances, branch breaker is possible power monitoring system to the amount of electric power used to easily suppress the power control apparatus, the power control method, and to provide a program Objective.

In order to achieve the above object, a power monitoring system according to the present invention includes:
It can communicate with a plurality of current measuring devices installed to correspond to each of the plurality of branch breakers, in the electric device and said plurality of current measuring equipment to which power is supplied from one of the branch breakers of the plurality of A power control system connected to the power monitoring device,
The current measuring device includes:
A current measurement unit for measuring a current value flowing through a corresponding branch breaker;
The current information indicating the measured current value and a communication unit that sends to the power controller,
Before Symbol power control device,
A current information acquisition unit that acquires current information from each of the plurality of current measurement devices;
An operation information acquisition unit that acquires operation information representing an operation state of the electric device from the electric device ;
And current information obtained by the current information obtaining unit, a driving information acquired by the driving information acquiring unit, based on, power usage of the branch breakers before Symbol electrical equipment is connected to a predetermined If condition is satisfied is determined with a driving control unit that outputs control information for controlling so as to suppress the electric power the electrical equipment used in the electric device, Ru comprising a.

In the present invention, based on the current information indicating the current value flowing through the branch breaker and the operation information indicating the operation state of the electric device, the power consumption of the branch breaker to which the electric device is connected satisfies a predetermined condition. If it is determined, control information for controlling the electric power used by the electric device to be suppressed is output to the electric device. Therefore, according to the present invention, it is possible to easily suppress the electric power consumption of branch breaker.

The present invention has been made in view of the above circumstances, and provides a power monitoring system, a power control device, a power control method, and a program capable of easily specifying a branch breaker to which an electrical device is connected. For the purpose.

In order to achieve the above object, a power monitoring system according to the present invention includes:
A plurality of current measuring devices installed to correspond to each of a plurality of branch breakers, an electric device to which power is supplied from any of the plurality of branch breakers, and the plurality of current measuring devices can communicate with each other A power monitoring system having a power control device to be connected,
The current measuring device includes:
A current measurement unit for measuring a current value flowing through a corresponding branch breaker;
A communication unit that transmits current information representing the measured current value to the power control device, and
The power control device
A current information acquisition unit that acquires current information from each of the plurality of current measurement devices;
An operation information acquisition unit that acquires operation information representing an operation state of the electric device from the electric device;
A specifying unit that specifies a branch breaker to which the electrical device is connected based on the current information acquired by the current information acquisition unit and the operation information acquired by the operation information acquisition unit.

In the present invention, the branch breaker to which the electric device is connected is specified based on the current information indicating the current value flowing through the branch breaker and the operation information indicating the operation state of the electric device. Therefore, according to the present invention, it is possible to easily identify the branch breaker to which the electrical device is connected .

Claims (8)

A plurality of current measuring devices installed so as to correspond to each of the plurality of branch breakers, an electric device to which power is supplied from any of the plurality of branch breakers, the plurality of current measuring devices, and the electric device A power control system that is communicably connected to the power control system,
The current measuring device includes:
A current measurement unit for measuring a current value flowing through a corresponding branch breaker;
A measuring device side communication unit that transmits current information representing the measured current value to the power control device, and
The electrical equipment is
A device-side communication unit that transmits operation information representing its own operation state to the power control device,
The power control device
A current information acquisition unit that acquires current information from each of the plurality of current measurement devices;
An operation information acquisition unit for acquiring operation information from the electrical device;
Based on the current information acquired by the current information acquisition unit and the operation information acquired by the operation information acquisition unit, an electrical device that has transmitted the operation information acquired by the operation information acquisition unit is connected. A specific unit that identifies the branch breaker that is provided,
Power monitoring system. The specifying unit is an increase amount of a current value when the driving information acquisition unit acquires driving information indicating that a power source of an electrical device is turned on among the current information acquired by the current information acquisition unit. Identifying the branch breaker associated with the current measuring device that has transmitted the current information that exceeds the predetermined threshold as the branch breaker to which the electrical device that transmitted the operation information is connected,
The power monitoring system according to claim 1. The specific unit is a current value acquired by the current information acquisition unit, and a current value decrease amount when the operation information acquisition unit acquires the operation information indicating that the power of the electric device is turned off. Identifying the branch breaker associated with the current measuring device that has transmitted the current information that exceeds the predetermined threshold as the branch breaker to which the electrical device that transmitted the operation information is connected,
The power monitoring system according to claim 1. The power control device
Breaker / equipment information storage unit that stores the electric device that transmitted the operation information acquired by the operation information acquisition unit and the branch breaker specified by the specifying unit in association with each other;
Based on the current information acquired by the current information acquisition unit, a power determination unit that calculates a power consumption for each of the plurality of branch breakers and determines whether the calculated power consumption satisfies a predetermined condition. When,
When it is determined by the power determination unit that the calculated used power amount satisfies a predetermined condition, an electric device corresponding to the branch breaker related to the used power amount determined to satisfy the predetermined condition is An operation control unit that outputs control information to the specified electrical device, which is specified from the device information storage unit and is controlled to suppress power used by the identified electrical device, is further provided.
The power monitoring system according to any one of claims 1 to 3. The power control device
A priority information storage unit for storing the order of electrical devices that preferentially perform control for suppressing the power used by the electrical devices;
The operation control unit identifies the rank of the identified electrical device from the priority information storage unit, and the degree of suppressing the power used by the identified electrical device is increased in descending order of the identified rank. Generating control information for controlling the specified electrical device and outputting the control information to the specified electrical device.
The power monitoring system according to claim 4. A power control device communicably connected to a plurality of current measuring devices installed to correspond to each of a plurality of branch breakers and an electric device supplied with power from any one of the plurality of branch breakers There,
From each of the plurality of current measuring devices, a current information acquisition unit that acquires current information representing a current value flowing through a corresponding branch breaker;
An operation information acquisition unit that acquires operation information representing an operation state of the electric device from the electric device;
Based on the current information acquired by the current information acquisition unit and the operation information acquired by the operation information acquisition unit, an electrical device that has transmitted the operation information acquired by the operation information acquisition unit is connected. A specific part for identifying a branch breaker that is
A power control apparatus comprising: A power control device communicably connected to a plurality of current measuring devices installed to correspond to each of the plurality of branch breakers and an electrical device to which power is supplied from any of the plurality of branch breakers; A power control method for controlling,
From each of the plurality of current measuring devices, a current information acquisition step for acquiring current information representing a current value flowing through a corresponding branch breaker;
An operation information acquisition step for acquiring operation information representing an operation state of the electric device from the electric device;
Based on the current information acquired in the current information acquisition step and the operation information acquired in the operation information acquisition step, an electrical device that has transmitted the operation information acquired in the operation information acquisition step is connected. Specific steps to identify the branch breakers that are
A power control method. A power control device communicably connected to a plurality of current measuring devices installed to correspond to each of a plurality of branch breakers and an electric device supplied with power from any one of the plurality of branch breakers ,
From each of the plurality of current measuring devices, a current information acquisition step for acquiring current information representing a current value flowing through a corresponding branch breaker;
An operation information acquisition step for acquiring operation information representing an operation state of the electric device from the electric device;
Based on the current information acquired in the current information acquisition step and the operation information acquired in the operation information acquisition step, an electrical device that has transmitted the operation information acquired in the operation information acquisition step is connected. Specific steps to identify the branch breakers that are
A program for running

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