JP6145878B2 - Power supply control system - Google Patents

Description

  The present invention relates to a power supply control system that controls power supply to a device.

  Generally, a distribution board in a home has a plurality of systems each connected to a breaker. For example, if a device with high power consumption, such as a microwave oven or air conditioner, is connected to one system and the plug of another device is inserted into the same system outlet, the current value of the upper limit of the breaker will be exceeded. There is a risk that the power supply of the system will be cut off. If power supply is suddenly interrupted, some devices may have unexpected effects. In order to avoid this, it is necessary to determine what kind of home appliances are connected to each distribution board system and calculate the current consumption to determine whether there is enough power. It is difficult to grasp the equipment and power consumption.

  On the other hand, the amount of power supplied to home appliances is individually controlled using a network, and a warning message is output when the power consumption is likely to exceed a predetermined value, or power supply is stopped according to priority. A power management system has been proposed (see Patent Document 1).

JP-A-9-84146

However, in the technique of Patent Document 1, the power consumption must be calculated after turning on the power of the home appliance. At that moment, the total value of the power consumption exceeds a predetermined value, and the breaker operates. There is a risk. Further, even if the power consumption of each outlet is stored and it is determined whether or not the power can be supplied at the moment when the power of the device is turned on, for example, if the device is changed for the convenience of the user, the system Can not cope with.
In view of the above problems, an object of the present invention is to provide a power supply control system and a power supply control method that can easily reduce the operation of an inadvertent breaker.

In order to achieve the above object, a first aspect of the present invention is a power supply control system in which when a current value flowing through a wiring connected to a power source exceeds a rated current value, the wiring is interrupted by a breaker, is connected to the wiring, a power supply control device for controlling the power supply to the equipment from the line, connected to the device to obtain a rated current value of the device, the information communication apparatus for communicating with previous Symbol feed control device, is connected to the wiring, obtains the consumption current flowing in the rated current value and the breaker of the breaker, before Symbol power supply control device and an information aggregate device that communicates, the power supply control apparatus, said information communication apparatus When connected, as a temporary power supply, the power supply is converted to a voltage equal to or lower than the power supply voltage to supply power to the information communication device, the rated current value of the device is obtained from the information communication device, and the information aggregation The rated current value of the breaker and the current consumption value of the breaker are obtained from the device, and the sum of the rated current value of the device and the current consumption value of the breaker must exceed a predetermined value less than or equal to the rated current value of the breaker. For example, as the main power supply, power is supplied from the power source to the device via the information communication device, and the voltage at the time of the main power supply is larger than the voltage at the time of the temporary power supply .

  The power supply control system according to the second aspect of the present invention is characterized in that, in the power supply control system according to the first aspect, the power supply control device supplies direct current to the information communication device as temporary power supply.

  The power supply control system according to the third aspect of the present invention is the power supply control system according to the first aspect. In the power supply control system according to the first aspect, the power supply control device converts the frequency to a frequency different from the frequency of the power supply as a temporary power supply to the information communication device. It is characterized by supplying power.

  The power supply control system according to the fourth aspect of the present invention is the power supply control system according to any one of the first to third aspects. A permission signal for permitting power supply is transmitted, and the information communication apparatus supplies power from the power source to the device in accordance with the permission signal.

  ADVANTAGE OF THE INVENTION According to this invention, the electric power feeding control system and electric power feeding control method which can reduce the operation | movement of an inadvertent breaker simply can be provided.

It is a typical block diagram explaining the basic composition of the electric supply control system concerning a 1st embodiment of the present invention. It is a block diagram explaining the electric power feeding control apparatus with which the electric power feeding control system which concerns on 1st Embodiment of this invention is provided. It is a block diagram explaining the information communication apparatus with which the electric power feeding control system which concerns on 1st Embodiment of this invention is provided. It is a block diagram explaining the information aggregation apparatus with which the electric power feeding control system which concerns on 1st Embodiment of this invention is provided. It is a flowchart explaining operation | movement of the electric power feeding control apparatus with which the electric power feeding control system which concerns on 1st Embodiment of this invention is provided. It is a flowchart explaining operation | movement of the information communication apparatus with which the electric power feeding control system which concerns on 1st Embodiment of this invention is provided. It is a flowchart explaining operation | movement of the information aggregation apparatus with which the electric power feeding control system which concerns on 1st Embodiment of this invention is provided. It is a typical block diagram explaining the basic composition of the electric supply control system concerning a 2nd embodiment of the present invention. It is a block diagram explaining the electric power feeding switching apparatus with which the electric power feeding control system which concerns on 2nd Embodiment of this invention is provided. It is a flowchart explaining operation | movement of the electric power supply switching apparatus with which the electric power feeding control system which concerns on 2nd Embodiment of this invention is provided. It is a flowchart explaining operation | movement of the electric power feeding control apparatus with which the electric power feeding control system which concerns on 2nd Embodiment of this invention is provided.

  Next, first and second embodiments of the present invention will be described with reference to the drawings. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals, and redundant description is omitted. In addition, the embodiments described below exemplify apparatuses and methods for embodying the technical idea of the present invention, and do not specify the configurations of the apparatuses and methods illustrated in the following embodiments. The technical idea of the present invention can be variously modified within the technical scope described in the claims.

(First embodiment)
As shown in FIG. 1, the power supply control system according to the first embodiment of the present invention includes a power supply control device 1, information communication devices 2 a and 2 b, an information aggregation device 3, a distribution board 5, and devices 8 a to 8-. 8c.

  The distribution board 5 includes a main breaker 51 whose primary side is connected to a power source such as a commercial power source, and a plurality of branch breakers 52 a to 52 c whose primary side is connected to the secondary side of the main breaker 51. The main breaker 51 is connected in series to a wiring Q (not shown) connected to a power source. The wiring Q branches into a plurality of wirings Qa to Qc between the main breaker 51 and the branch breakers 52a to 52c. Branch breakers 52a-52c are connected in series to wirings Qa-Qc, respectively.

  The main breaker 51 operates when the flowing current exceeds the rated current of the main breaker 51, and cuts off the wiring Q between the primary side and the secondary side. Each of the branch breakers 52a to 52c operates when the current value of the flowing current exceeds each rated current value of the branch breakers 52a to 52c, and interrupts the wirings Qa to Qc between the primary side and the secondary side. To do. Hereinafter, in the first embodiment, a configuration related to the wiring Qa to which one outlet 6 is connected will be exemplarily described.

  The outlet 6 is connected to the wiring Qa connected to the secondary side of the branch breaker 52a, for example, and is supplied with power from the wiring Qa. The devices 8a to 8c (hereinafter simply referred to as “device 8” when collectively referred to) are, for example, a microwave oven, a heater, a washing machine, and the like. The device 8 can be driven by supplying power to the outlet 6.

  As shown in FIG. 2, the power supply control device 1 includes a power line communication unit 11, a control unit 12, a device information transmission / reception unit 13, a current information transmission / reception unit 14, a power supply control unit 15, a voltage measurement unit 16, A current measurement unit 17 and a conversion unit 18 are provided. The power supply control device 1 is installed in, for example, an outlet 6 and is connected to the wiring Qa and the plug receptacle of the outlet 6.

  The power line communication unit 11 communicates with the outside through power line communication. The control unit 12 controls driving of the power line communication unit 11, device information transmission / reception unit 13, current information transmission / reception unit 14, power supply control unit 15, voltage measurement unit 16, current measurement unit 17, and conversion unit 18. In addition, the control unit 12 calculates processing necessary for the operation of the power supply control device 1.

  The device information transmission / reception unit 13 communicates with each of the information communication devices 2 a and 2 b and the information aggregation device 3 via the power line communication unit 11. The current information transmission / reception unit 14 communicates with each of the information communication devices 2 a and 2 b and the information aggregation device 3 via the power line communication unit 11.

  The power supply control unit 15 controls power supply from the wiring Qa to the device 8. The voltage measuring unit 16 measures the voltage supplied to the wiring Qa. The current measuring unit 17 measures the current flowing through the wiring Qa. The conversion unit 18 converts the power supply voltage input from the wiring Qa into a voltage equal to or lower than the power supply voltage.

  As shown in FIG. 3, the information communication devices 2 a and 2 b (hereinafter simply referred to as “information communication device 2” when collectively referred to) include a power line communication unit 21, a control unit 22, and a device information transmission unit 23, respectively. And an input control unit 24. The information communication device 2 is connected to the power input terminal of the device 8. The information communication device 2 has a power plug, and is connected to the power supply control device 1 when the power plug is inserted into the plug receptacle of the outlet 6, and is supplied with power from the power supply control device 1.

  In the example shown in FIG. 1, the information communication device 2a connected to the power input terminal of the device 8a is attached to the inside of the device 8a and is formed integrally with the device 8a. In the case of the device 8 that does not include the information communication device 2, it may be connected to the power plug of the device 8b and attached to the outside of the device 8b like the device 8b. In the power supply control system according to the first embodiment, the device 8 c to which the information communication device 2 is not attached cannot be supplied with power from the outlet 6.

  The power line communication unit 21 communicates with the outside through power line communication. The control unit 22 controls driving of the power line communication unit 21, the control unit 22, the device information transmission unit 23, and the input control unit 24. The input control unit 24 controls power supply from the power supply control device 1 to the device 8 in accordance with a signal transmitted from the power supply control device 1.

  The device information transmission unit 23 transmits device information to the power supply control device 1 via the power line communication unit 21 in response to a request from the power supply control device 1. The device information transmission unit 23 includes device information including the type, rated current value, identifier, and the like of the device 8 to which the information communication device 2 is attached. The device information transmission unit 23 may be configured so that the information communication device 2 includes a storage device that stores device information in advance and acquires device information from the storage device, or acquires device information from the device 8. Also good. In addition, the device information transmission unit 23 may include an input device for inputting the device information by the information communication device 2 and acquire the device information from the input device.

  As shown in FIG. 4, the information aggregating apparatus 3 includes a power line communication unit 31, a control unit 32, a device information transmission / reception unit 33, a main current monitoring unit 34, a current information transmission / reception unit 35, and an information storage unit 36. Is provided. The information aggregation device 3 is connected to the wiring Q of the distribution board 5, for example.

  The power line communication unit 31 communicates with the outside through power line communication. The control unit 32 controls driving of the power line communication unit 31, the control unit 32, the device information transmission / reception unit 33, the main current monitoring unit 34, the current information transmission / reception unit 35, and the information storage unit 36. The device information transmission / reception unit 33 communicates with the power supply control device 1 via the power line communication unit 31.

  The main current monitoring unit 34 monitors the current flowing through the wiring Q of the main breaker 51 by calculating the current consumption value flowing through the main breaker 51 from the current consumption information transmitted from the power supply control device 1.

  The current information transmission / reception unit 35 communicates with the power supply control device 1 via the power line communication unit 31. The current information transmission / reception unit 35 includes the rated current value of the main breaker 51 and the rated current values of the branch breakers 52a to 52c as part of the current information. The current information transmitting / receiving unit 35 may have the rated current values of the main breaker 51 and the branch breakers 52a to 52c in advance, or may be acquired from the main breaker 51 and the branch breakers 52a to 52c.

  Further, the current information transmitting / receiving unit 35 includes the current consumption value of the main breaker 51 and the current consumption values of the branch breakers 52a to 52c as part of the current information. The current information transmitting / receiving unit 35 acquires the current consumption values of the main breaker 51 and the branch breakers 52a to 52c, for example, by measuring the current flowing through the wiring Q and the wirings Qa to Qc. In addition, the current information transmitting / receiving unit 35 may include an input device for inputting the current information by the information aggregation device 3, and may acquire the current information from the input device.

  The information storage unit 36 stores the device information and current information received by the device information transmission / reception unit 33 and the current information transmission / reception unit 35. In addition, the information storage unit 36 uses the current consumption information to obtain the sum of the rated current value of the device 8 and the current consumption value of the main breaker 51 and the sum of the current rating value of the device 8 and the current consumption values of the branch breakers 52a to 52c. Accumulate as

-Operation of power supply control device-
An example of the operation of the power supply control device 1 will be described using the flowchart of FIG.

  First, in step S101, the power supply control unit 15 performs wiring as temporary power supply in response to the power plug of the information communication apparatus 2 being inserted into the outlet 6 and being electrically connected to the information communication apparatus 2 and the device 8. A voltage equal to or lower than the power supply voltage of Qa is supplied to the information communication apparatus 2.

  In the provisional power supply, the voltage supplied to the information communication device 2 is converted by the conversion unit 18 and supplied to the information communication device 2. The converter 18 may convert the alternating current power source into a direct current and supply it to the information communication device 2 as temporary power supply. Moreover, you may make it the conversion part 18 convert into the frequency of alternating current power supply, and supply to the information communication apparatus 2 as temporary electric power feeding. In addition, the device information transmission / reception unit 13 transmits a request signal P <b> 1 for requesting device information to the information communication device 2 via the power line communication unit 11.

  In step S102, the device information transmitting / receiving unit 13 receives the device information P2 transmitted by the information communication device 2 in response to the request signal P1. The power supply control unit 15 acquires the device information received by the device information transmitting / receiving unit 13 and acquires the type of the device 8 and the rated current value of the device 8 included in the device information.

  In step S <b> 103, the current information transmission / reception unit 14 receives the rated current value and the current consumption value of the main breaker 51 and the branch breakers 52 a to 52 c from the information aggregation device 3 as current information. The power supply control unit 15 acquires the current information received by the current information transmission / reception unit 14.

  In step S104, the power feeding control unit 15 determines that the sum of the acquired rated current value of the device 8 and the consumed current value of the main breaker 51 does not exceed a predetermined value P equal to or lower than the rated current value of the main breaker 51, step S105. Proceed with the process. When the sum of the rated current value of the device 8 and the current consumption value of the main breaker 51 exceeds the predetermined value P, the power supply control unit 15 advances the process to step S112.

  In step S105, the power supply control unit 15 determines that the sum of the acquired rated current value of the device 8 and the consumed current value of the branch breaker 52a does not exceed a predetermined value R equal to or less than the rated current value of the branch breaker 52a. Proceed with the process. When the sum of the rated current value of the device 8 and the current consumption value of the branch breaker 52a exceeds the predetermined value R, the power supply control unit 15 advances the process to step S112.

  In step S106, the current information transmitting / receiving unit 14 uses the power line communication unit 11 as information on the sum of the rated current value of the device 8 and the consumption current values of the main breaker 51 and the branch breaker 52a as consumption current information P3. It transmits to the aggregation device 3. In step S <b> 107, the power supply control unit 15 transmits a supply permission signal indicating that the power supply control device 1 permits power supply to the information communication device 2 to the information communication device 2 via the power line communication unit 11.

  In step S <b> 108, the power supply control unit 15 supplies power to the device 8 from the power supply and the wirings Q and Qa via the information communication device 2 as the main power supply. In this power supply, the device 8 is electrically connected to the power supply and the wirings Q and Qa, and is directly supplied with power from the power supply and the wirings Q and Qa.

  In step S109, the power supply control unit 15 determines whether or not the load current, which is the current consumption of the information communication device 2 and the device 8 that are supplying power, exceeds 0A. When the load current exceeds 0 A, the power supply control unit 15 determines that the information communication device 2 and the device 8 are connected, and repeats the process of step S109. When the load current is 0 A or less, the power supply control unit 15 determines that the driving of the device 8 has been completed or the connection with the information communication device 2 has been released, and the process proceeds to step S110.

  In step S <b> 110, the current information transmitting / receiving unit 14 transmits a deletion signal for requesting deletion of the current consumption information transmitted in step S <b> 106 to the information aggregating apparatus 3 via the power line communication unit 11.

  In step S111, the power supply control unit 15 supplies the information communication device 2 with power by supplying a voltage equal to or lower than the power supply voltage of the wiring Qa to the outlet 6 as temporary power supply, and ends the process.

  When it is determined in step S104 or S105 that the process proceeds to step S112, the power supply control unit 15 sends a supply non-permission signal indicating that the power supply control device 1 does not permit power supply to the information communication device 2 via the power line communication unit 11. Is transmitted to the information communication apparatus 2 and the process is terminated.

-Operation of information communication equipment-
An example of the operation of the information communication apparatus 2 will be described using the flowchart of FIG.

  First, in step S <b> 201, the input control unit 24 determines the type of power supply from the power supply control device 1. In step S202, when it determines with the electric power feeding from the electric power feeding control apparatus 1 being temporary electric power feeding, a process is advanced to step S203. When the power supply from the power supply control device 1 is the main power supply, the process proceeds to step S208.

  In step S <b> 203, the device information transmission unit 23 acquires device information of the device 8. In step S <b> 204, the device information transmission unit 23 transmits the acquired device information to the power supply control device 1 via the power line communication unit 21. The device information transmitted in step S204 is received by the power supply control device 1 in step S102.

  In step S <b> 205, the input control unit 24 receives the supply permission signal in step S <b> 107 or the supply non-permission signal in step S <b> 112 from the power supply control device 1 via the power line communication unit 21.

  In step S206, when the supply permission signal is received in step S205, the input control unit 24 returns to step S201, and determines in step S202 that the main power supply is performed. If a supply non-permission signal is received in step S205, the process proceeds to step S207.

  In step S207, the input control unit 24 outputs an energization impossibility notification indicating that power cannot be supplied to the device 8, and ends the processing. The energization impossibility notification is output, for example, by lighting the device 8 or the information communication apparatus 2 with an energization impossibility lamp formed of an LED installed so as to be visible from the outside. Alternatively, the energization impossibility notification may output a sound such as “power is insufficient”.

  In step S <b> 208, the input control unit 24 starts main power supply to the connected device 8. The input control unit 24 directly supplies the power supply voltage supplied by the power supply control device 1 to the device 8 and ends the process.

-Operation of information communication equipment-
An example of the operation of the information aggregating apparatus 3 will be described using the flowchart of FIG.

  First, in step S <b> 301, the current information transmission / reception unit 35 acquires the rated current value of the main breaker 51 and stores it in the information storage unit 36. In step S <b> 302, the current information transmission / reception unit 35 acquires the rated current values of the branch breakers 52 a to 52 c and accumulates them in the information accumulation unit 36.

  In step S303, the control unit 32 determines whether to end the process. If it is determined in step S303 that the process is to be terminated, the process is terminated. If it is determined that the process is not to be terminated, the process proceeds to step S304.

  In step S <b> 304, the power line communication unit 31 receives a signal from the power supply control device 1 or the information communication device 2. In step S <b> 305, the device information transmission / reception unit 33 determines whether the power line communication unit 31 has received device information from the information communication device 2. If it is determined that it has been received, the process proceeds to step S306. If it is determined that it has not been received, the process proceeds to step S307.

  In step S306, the current information transmitting / receiving unit 35 acquires the current consumption values of the main breaker 51 branch breakers 52a to 52c and the rated current values of the main breaker 51 branch breakers 52a to 52c from the information storage unit 36, and as current information. It transmits to the power supply control device 1. After transmitting the current information, the current information transmitting / receiving unit 35 returns to step S303 and repeats the process. The current information transmitted by the current information transmitting / receiving unit 35 in step S306 is received by the power supply control device 1 in step S104.

  In step S307, the current information transmitting / receiving unit 35 determines whether or not the signal received in step S304 is the consumption current information transmitted from the power supply control device 1 in step S106. If the current consumption information is determined, the process proceeds to step S308. If the current consumption information is not determined, the process proceeds to step S310.

  In step S308, the current information transmission / reception unit 35 acquires the sum of the consumption current values of the main breaker 51 and the branch breaker 52a as consumption current information. In step S309, the current information transmission / reception unit 35 accumulates the acquired current consumption information in the information accumulation unit 36, and then returns to step S303 to repeat the processing.

In step S310, the current information transmission / reception unit 35 determines whether the signal received in step S304 is a deletion signal transmitted from the power supply control device 1 in step S110. If it is determined that the signal is a deletion signal, the process proceeds to step S311. If it is determined that the signal is not a deletion signal, the process returns to step S303 and the process is repeated.
In step S311, the information storage unit 36 deletes the current consumption information to be stored in response to the deletion signal, and then returns to step S303 to end the process.

  According to the power supply control system according to the first embodiment of the present invention, even if the device 8 is connected to the outlet 6 during the main power supply, power is not supplied unless the power supply control device 1 permits it. The operation of a simple breaker can be reduced easily.

  In addition, according to the power supply control system according to the first embodiment, power supply to the device 8 can be easily performed by supplying a direct current equal to or lower than the power supply voltage to the information communication device 2 attached to the device 8 as temporary power supply. Can be controlled with a simple structure.

(Second Embodiment)
As shown in FIG. 8, the power supply control system according to the second embodiment of the present invention includes a power supply control device 1 </ b> A that is installed not on the outlet 6 but on the distribution board 5, and includes a power supply switching device 4 installed on the outlet 6. This is different from the first embodiment. Other configurations, operations, and effects that are not described in the second embodiment are substantially the same as those in the first embodiment, and thus redundant description is omitted.

  The power feeding control device 1A is installed so as to be connected in series to each of the branch breakers 52a to 52c. The power supply control device 1A supplies the power supply voltage supplied to the wiring Q to the wirings Qa to Qc as they are. The voltage measurement unit 16 of the power supply control device 1A measures the voltage supplied to each of the wirings Qa to Qc. The current measurement unit 17 of the power supply control device 1A measures the current flowing through each of the wirings Qa and Qa.

  The power supply switching device 4 is connected to a plurality of plug receptacles of the wiring Qa and the outlet 6. The information communication device 2 a attached to the device 8 a is connected to one of a plurality of plug receptacles of the outlet 6 and is connected to the power supply switching device 4 through the outlet 6. The power feeding switching device 4 functions as a part of the power feeding control device 1 in the first embodiment.

  As shown in FIG. 9, the power supply switching device 4 includes a power line communication unit 41, a control unit 42, a device information transmission unit 43, and a conversion unit 44. The power line communication unit 41 communicates with the outside through power line communication. The control unit 42 controls driving of the power line communication unit 41, the control unit 42, the device information transmission unit 43, and the conversion unit 44. The control unit 42 calculates other processes necessary for the operation of the power supply switching device 4.

  The device information transmission unit 43 transmits device information to the power supply control device 1 via the power line communication unit 41 in response to a request from the power supply control device 1A. The device information transmission unit 43 includes device information including the type of device 8, a rated current value, an identifier, and the like. The device information transmission unit 23 may be configured so that the power supply switching device 4 includes a storage device that stores device information in advance and acquires device information from the storage device, or acquires device information from the device 8. Also good. In addition, the device information transmission unit 43 may include an input device through which the power supply switching device 4 inputs device information, and acquire the device information from the input device.

  The conversion unit 44 controls power feeding from the wiring Qa to the device 8. Under the control of the control unit 42, the conversion unit 44 converts the power supply voltage input from the wiring Qa into a voltage equal to or lower than the power supply voltage, and supplies the power to the device 8.

-Operation of the power supply switching device-
An example of the operation of the power supply switching device 4 will be described using the flowchart of FIG.

  First, in step S401, the conversion unit 44 uses the power supply plug of the information communication device 2 to be inserted into the outlet 6 and is electrically connected to the device 8, and as a temporary power supply, the conversion unit 44 is equal to or lower than the power supply voltage of the wiring Qa. The voltage is supplied to the information communication device 2.

  The conversion unit 44 may convert the AC power supply into a DC current and supply the information communication apparatus 2 as temporary power feeding. Moreover, you may make it the conversion part 44 convert into the frequency of alternating current power supply, and supply to the information communication apparatus 2 as temporary electric power feeding. The device information transmitting unit 43 receives a request signal P1 for requesting device information from the information communication device 2 from the power supply control device 1A via the power line communication unit 41, and transmits the request signal P1 to the information communication device 2.

  In step S402, the device information transmission unit 43 acquires the device information P2 transmitted by the information communication device 2 in response to the request signal P1, and transmits it to the power supply control device 1A in step S403.

  In step S404, the control unit 42 receives a supply permission signal or a supply non-permission signal from the power supply control device 1A via the power line communication unit 21. When the supply permission signal is received in step S404, it is determined in step S405 that the power supply is the main power supply, and the process proceeds to step S406. If a supply non-permission signal is received in step S404, the process ends with temporary power supply remaining.

  In step S406, the conversion unit 44 supplies power to the device 8 from the power source, that is, the wirings Q and Qa, via the information communication device 2 as the main power supply. In this power supply, the device 8 is electrically connected to the wirings Q and Qa, and is directly supplied with power from the power supply and the wirings Q and Qa.

In step S407, the conversion unit 44 determines whether or not the load current, which is the current consumption of the information communication device 2 and the device 8 that are feeding, exceeds 0A. When the load current exceeds 0 A, the converter 44 determines that the information communication device 2 and the device 8 are connected, and repeats the process of step S407. If the load current is 0 A or less, the conversion unit 44 determines that the driving of the device 8 has been completed or the connection with the information communication device 2 has been released, and the process proceeds to step S408.
In step S <b> 408, the conversion unit 44 supplies power to the information communication apparatus 2 by supplying a voltage equal to or lower than the power supply voltage of the wiring Qa to the outlet 6 as temporary power supply.

  In step S409, the current information transmission / reception unit 14 transmits a deletion signal for requesting deletion of the current consumption information transmitted by the power supply control device 1A to the information aggregation device 3 via the power line communication unit 11, and performs processing. finish.

-Operation of power supply control device-
An example of the operation of the power supply control device 1A will be described using the flowchart of FIG.

  First, in step S501, the device information transmitting / receiving unit 13 receives the device information P2 transmitted by the information communication device 2 in response to the request signal P1 via the power supply switching device 4. In step S502, the power supply control unit 15 acquires the device information received by the device information transmitting / receiving unit 13, and acquires the type of the device 8, the rated current value of the device 8, and the like included in the device information.

  In step S <b> 502, the current information transmission / reception unit 14 receives the rated current value and the consumption current value of the main breaker 51 and the branch breakers 52 a to 52 c from the information aggregation device 3 as current information. The power supply control unit 15 acquires the current information received by the current information transmission / reception unit 14.

  In step S503, the power supply control unit 15 determines that the sum of the acquired rated current value of the device 8 and the consumed current value of the main breaker 51 does not exceed a predetermined value P that is equal to or lower than the rated current value of the main breaker 51, step S504. Proceed with the process. When the sum of the rated current value of the device 8 and the current consumption value of the main breaker 51 exceeds the predetermined value P, the power supply control unit 15 advances the process to step S506.

  In step S504, the power feeding control unit 15 determines that the sum of the acquired rated current value of the device 8 and the consumed current value of the branch breaker 52a does not exceed a predetermined value R equal to or less than the rated current value of the branch breaker 52a. Proceed with the process. When the sum of the rated current value of the device 8 and the current consumption value of the branch breaker 52a exceeds the predetermined value R, the power supply control unit 15 advances the process to step S506.

  In step S <b> 505, the power supply control unit 15 transmits a supply permission signal indicating that the power supply control device 1 permits power supply to the information communication device 2 to the information communication device 2 via the power line communication unit 11. In step S505, the current information transmitting / receiving unit 14 uses the total of the rated current value of the device 8 and the current consumption values of the main breaker 51 and the branch breaker 52a as current consumption information P3 via the power line communication unit 11. To the information aggregating apparatus 3.

  If it is determined in step S503 or S504 that the process proceeds to step S507, the power supply control unit 15 sends a supply non-permission signal indicating that the power supply control device 1A does not permit power supply to the information communication device 2 via the power line communication unit 11. Is transmitted to the power supply switching device 4 and the process is terminated.

  According to the power supply control system according to the second embodiment of the present invention, even when the device 8 is connected to the outlet 6 during the main power supply, the device 8 is not supplied with power without permission of the power supply control device 1A. Inadvertent breaker operation can be easily reduced.

  In addition, according to the power supply control system according to the second embodiment, as a temporary power supply, the information communication device 2 attached to the device 8 is supplied with a direct current equal to or lower than the power supply voltage, thereby easily supplying power to the device 8. Can be controlled with a simple structure.

(Other embodiments)
As mentioned above, although this invention was described by embodiment, it should not be understood that the statement and drawing which form a part of this indication limit this invention. From this disclosure, various alternative embodiments, examples and operational techniques will be apparent to those skilled in the art.

  As described above, it is a matter of course that the present invention includes various embodiments and the like that are not described herein, such as configurations in which the embodiments and modifications of the present invention are mutually applied. Therefore, the technical scope of the present invention is defined only by the invention specifying matters according to the scope of claims reasonable from the above description.

DESCRIPTION OF SYMBOLS 1,1A Power supply control apparatus 2a, 2b Information communication apparatus 3 Information aggregation apparatus 8a-8c Equipment 51 Master breaker (breaker)
52a-52c Branch breaker (breaker)

Claims (4)

When the current value flowing in the wiring connected to the power supply exceeds the rated current value, the power supply control system shuts off the wiring with a breaker,
A power feeding control device connected to the wiring and controlling power feeding from the wiring to the device;
Connected to the device to obtain a rated current value of the device, the information communication apparatus for communicating with previous Symbol feed control device,
Which is connected to the wiring, obtains the consumption current flowing in the rated current value and the breaker of the breaker, before Symbol power supply control device and an information aggregate device that communicates,
When the power supply control device is connected to the information communication device, as a temporary power supply, the power supply control device converts the voltage from the power source to a voltage equal to or lower than the voltage of the power source,
Obtaining the rated current value of the device from the information communication device, obtaining the rated current value of the breaker and the current consumption value of the breaker from the information aggregation device,
If the sum of the rated current value of the device and the current consumption value of the breaker does not exceed a predetermined value that is equal to or less than the rated current value of the breaker, the power is supplied from the power source to the device via the information communication device. the power supply and,
The voltage during the main power supply is larger than the voltage during the temporary power supply.
A power supply control system characterized by that.   The power supply control system according to claim 1, wherein the power supply control device supplies direct current to the information communication device as the temporary power supply.   The power supply control system according to claim 1, wherein the power supply control device converts the frequency to a frequency different from the frequency of the power supply and supplies power to the information communication device as the temporary power supply. The power supply control device transmits a permission signal permitting power supply to the device to the information communication device during the main power supply,
The power supply control system according to any one of claims 1 to 3, wherein the information communication device supplies power to the device from the power source in response to the permission signal.

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