JP2010246291A - Power supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To stably supply power from an electric pole and to properly charge an electric power rate. <P>SOLUTION: A receiving part 601 receives ID of a power supply device 102 and demand amount information from respective power supply devices (electric poles) 102. An area information extracting part 602 extracts area information about the area of the power supply device 102 corresponding to the ID of the received power supply device 102. A calculation part 604 calculates a margin of power supply at the point where the power supply device 102 is provided, based on the extracted area information. A supply possibility determination part 606 and an electric power rate determination part 607 determine possibility of power supply to a demand medium at the power supply device 102 as well as an electric power rate for the power supply, based on the margin degree of power supply that has been calculated and the received demand amount information. A transmission part 610 transmits the possibility of power supply having been determined as well as the information about electric power rate to the power supply device 102. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a power supply system that supplies power from a predetermined power supply device such as a utility pole.

  Conventionally, as long as there are utility poles in the field, power is supplied at the necessary locations. However, if the power company does not install a lead-in line for supplying power in response to a customer's application for electricity use, electricity will be supplied. In general, it cannot be used. And it is disclosed that an outlet is installed in the utility pole used in order to supply electric power in the area which should supply electric power (for example, refer the following patent documents 1-4).

JP 2007-20253 A JP 2007-299086 A Japanese Patent Laid-Open No. 11-205975 JP-A-6-6914

  However, in the conventional technology described above, when power is supplied from a connection device provided for each predetermined power pole for the convenience of the user, depending on the equipment load capacity used in each power pole, power to the neighborhood There was a problem of affecting the supply. Similarly, when the use of a predetermined power pole is concentrated, there is a problem in that the power supply to the neighborhood is affected.

  Further, in the above-described conventional technology, depending on the installation position of the utility pole, it may be assumed that many users are concentrated and the power supply is frequently used because of its convenience. In that case, it is indispensable to confirm whether or not the equipment capacity needs to be increased based on a preliminary study so as not to affect the power supply to the neighborhood.

  At that time, for example, in order to maintain a stable voltage, it takes a transportation cost to carry power far away. In addition, if it is far from the substation, the cost of transportation increases due to the installation of a voltage regulator to maintain the voltage, and if the amount of electricity used at the end increases, the equipment for maintaining the voltage will naturally be forced to increase.

  In this way, the above-mentioned conventional technology does not clarify the facility capacity confirmation and usage fee billing system, so it can be solved from the viewpoint of reliable fee collection while implementing stable utilization according to the facility needs. There are challenges that must be met.

  An object of the present invention is to obtain a power supply system capable of realizing stable power supply and charge setting / recovery corresponding to the cost in order to solve the above-described problems caused by the prior art.

  In order to solve the above-described problems and achieve the object, a power supply system according to the present invention is configured such that a server and a power supply device provided at a predetermined point are connected via a network, and power is supplied from each of the predetermined power supply devices. Supply amount acquiring means for acquiring demand amount information relating to the demand amount of a demand medium that receives the supply of power from the power supply device, and the power supply device And transmission means for transmitting the demand amount information acquired by the demand amount acquisition means to a server via a network, wherein the server supplies the ID of the power supply device and the demand from each of the power supply devices. Receiving means for receiving quantity information, and a location relating to the area of the power supply apparatus corresponding to the ID of the power supply apparatus received by the receiving means An extraction means for extracting information, a calculation means for calculating a margin of power supply at a point where the power supply device is provided, based on the area information extracted by the extraction means, and calculated by the calculation means Based on the margin of power supply and the demand amount information received by the receiving means, the determining means for determining whether or not the power supply device can supply power to the demand medium, and the determination means Transmission means for transmitting information on whether or not power supply is possible to the power supply apparatus.

  The power supply system according to the present invention is the power supply system according to the present invention, wherein the server uses the power supply margin calculated by the calculation means and the demand information received by the reception means based on the power supply margin. A determining unit configured to determine a power rate for power supply to the demand medium in the supply device, wherein the transmission unit of the server transmits information related to the power rate determined by the determining unit to the power supply device; And

  According to the power supply system of the present invention, it is possible to prevent power supply when the power supply to the neighborhood is affected. In addition, by setting a fee corresponding to capital investment for stable power supply, etc., even when power supply at a predetermined location is concentrated, it is possible to appropriately share the cost and There is an effect that the use position of the supply can be dispersed.

It is explanatory drawing which shows the system configuration | structure of the electric power supply system concerning embodiment of this invention. It is explanatory drawing which shows the external appearance of the electric power supply apparatus (electric pole) of the electric power supply system concerning embodiment of this invention. It is explanatory drawing which shows the functional structure of the electric power supply apparatus (electric pole) of the electric power supply system concerning embodiment of this invention. It is a flowchart which shows the procedure of the process of the electric power supply apparatus (electric pole) of the electric power supply system concerning embodiment of this invention. It is explanatory drawing which shows the hardware constitutions of the server of the electric power supply system concerning embodiment of this invention. It is explanatory drawing which shows the functional structure of the server of the electric power supply system concerning embodiment of this invention. It is explanatory drawing which shows an example of a data structure of a regional information database (DB). It is explanatory drawing which shows an example of a structure of a calculation table. It is explanatory drawing which shows an example of a structure of a determination table. It is a flowchart which shows the procedure of the process of the server of the electric power supply system concerning embodiment of this invention.

  Exemplary embodiments of a power supply system according to the present invention will be described below in detail with reference to the accompanying drawings.

(System configuration of power supply system)
FIG. 1 is an explanatory diagram showing a system configuration of a power supply system according to an embodiment of the present invention. In FIG. 1, a server 101 and a utility pole (power supply device) 102 (102a, 102b, 102c,...) Provided with a display screen 103 and a power supply outlet 104 are connected by a network (existing communication network) 100. It is connected.

(Configuration of power supply device (electric pole))
FIG. 2 is an explanatory diagram showing an appearance of the power supply device (electric pole) of the power supply system according to the embodiment of the present invention. In FIG. 2, a display screen 103 is provided on the utility pole 102. The display screen 103 is supplied with power through a power line (not shown) and is connected to the network (existing communication network) 100 via a communication line (not shown). The power supply apparatus 102 can transmit / receive information to / from the server 101 and display various received information on the display screen 103.

  The display screen 103 has a touch panel function and can also be used as an input unit. For example, an input such as a release key for power supply can be performed from the display screen 103. After acquiring the device load capacity (demand amount) data, the availability determination is displayed on the display screen 103, and energization (power supply) is started after the server 101 recognizes that the release key has been authenticated.

  In addition, the display screen 103 can display a usable location on the nearby power pole 102 with a map, a power pole number, or the like when power cannot be supplied from the power supply apparatus (electric pole) 102. The display screen 103 can display the amount of power used and the usage fee. Note that the power consumption and usage fee may be transferred by e-mail to the user's mobile phone or the like.

  In addition, the display screen 103 may display information regarding a method for applying for a utility pole outlet of the power supply apparatus 102, a usage manual, and the like. The user can easily receive power supply according to the guidance displayed on the display screen 103.

  Further, the power pole 102 is provided with an outlet 104 to which a power cord is connected for supplying power to a demand medium (specifically, for example, an electric vehicle or a portable electric device equipped with a battery). Yes. The outlet 104 includes a rail portion 105. The rail portion 105 is configured to be able to move freely around the outer periphery of the utility pole 102. A plurality of outlets 104 can be attached to one rail portion 105.

  Thus, the outlet 104 is configured to be plugged in from any direction (360 degrees). Further, by providing a plurality of rail portions 105 in a state of being stacked in several layers in a hierarchical structure, when the demand medium is light load, simultaneous supply of electric power to the plurality of demand media is possible according to the transformer capacity. It becomes possible.

  Further, the outlet 104 may be housed in a protect molding that is slidable up and down, not shown. The outlet 104 itself is always hidden inside the protect molding, and when the outlet 104 is used, the outlet 104 is exposed by sliding a part of the protect molding upward or downward. Let it be used. Thereby, in the utility pole 102 installed outdoors, the outlet 104 can be prevented from rain.

  In using the outlet 104, a card reader for various cards such as a prepaid card and a credit card may be provided inside the protect mall.

  FIG. 3 is an explanatory diagram showing a functional configuration of the power supply device (electric pole) of the power supply system according to the embodiment of the present invention. In FIG. 3, the power supply device (electric pole) 102 includes a display screen 103, a demand amount acquisition unit 301, a transmission unit 302, a reception unit 303, and a display control unit 304.

  The demand amount acquisition unit 301 acquires demand amount information regarding the demand amount of a demand medium that receives the supply of power from the power supply apparatus 102. The demand amount acquisition unit 301 inserts the demand medium into the outlet 104, thereby acquiring information on the load capacity of the device stored in the device as the demand medium through the outlet 104 or using a wireless device (not shown). To do.

  Further, the function may be realized by a card reader that reads a credit card or a prepaid card. Further, the demand amount information may be acquired by inputting various keys such as a numeric keypad (not shown) operated by the operator or a predetermined key displayed on the display screen 103 equipped with a touch panel function.

  The prepaid card is purchased in advance at a convenience store before receiving power. At that time, the protection release key at the time of use is simultaneously acquired. Without a release key, it cannot be used locally. This is to prevent unauthorized power supply. The credit card may use the personal identification number as a release key as it is.

  Also, the QR code or the like given to the outlet 104 of the utility pole 102 to be used is photographed with the camera of the mobile phone, and the application site is accessed via the network 100 based on the video, and the existing electricity bill is deducted. A release key may be issued in cooperation with an account.

  The transmission unit 302 transmits supply availability determination request information including the ID of the power supply apparatus 102 and the demand amount information acquired by the demand amount acquisition unit 301 to the server 101 via the network 100. The receiving unit 303 receives the determination result / power charge information from the server 101. Specifically, the transmission unit 302 and the reception unit 303 realize their functions by, for example, an interface (not shown).

  The display control unit 304 controls the display screen 103 to display the determination result / power charge information received by the reception unit 303 on the display screen 103. The display control unit 304 also displays various information other than the determination result / power charge information. Specifically, the display control unit 304 realizes its function by, for example, a CPU (not shown) executing a program stored in the memory. The CPU also controls the entire power supply device (electric pole) 102.

  FIG. 4 is a flowchart showing a processing procedure of the power supply device (electric pole) of the power supply system according to the embodiment of the present invention. In the flowchart of FIG. 4, the power supply device (electric pole) 102 first determines whether or not the demand amount information has been acquired (step S401). Here, waiting for acquiring the demand amount information, if acquired (step S401: Yes), the supply availability determination request information including the acquired demand amount information and the utility pole ID of the utility pole is transmitted to the server 101. (Step S402).

  Thereafter, it is determined whether determination result information is received from the server 101 (step S403). Here, when the determination result information is received and received (step S403: Yes), the determination result (and the power charge) is displayed on the display screen 103 (step S404).

  In the determination of whether or not power can be supplied (step S405), if power can be supplied (step S405: Yes), power supply processing is performed (step S406), and a series of processes Exit. On the other hand, when power supply is not possible (step S405: No), the information (address, guide map, etc.) about the transmitted alternative telephone pole is displayed on the display screen 103 (step S407).

(Server configuration)
FIG. 5 is an explanatory diagram showing the hardware configuration of the server of the power supply system according to the embodiment of the present invention. 5, the server 101 includes a CPU 501, a RAM 502, a ROM 503, an HD 504, a display 505, an I / F (interface) 506, a keyboard 507, a pointing device 508, a printer 509, a scanner 510, It has. The components are connected by a bus 500.

  The CPU 501 governs overall control of the server 101. The RAM 502 is used as a work area for the CPU 501. The ROM 503 stores programs such as a boot program. The HD 504 stores various types of information (data, programs, etc.). A display 505 displays data such as documents, images, and function information. For example, in addition to a TFT liquid crystal display, a CRT, a plasma display, an organic EL display, or the like may be used.

  An I / F (interface) 506 is connected to the network 100 through a communication line, and is connected to other information processing apparatuses including the power supply apparatus 102 and various databases via the network 100. The I / F 506 controls an interface between the network 100 and the inside of the apparatus, and controls input / output of data from other information processing apparatuses and various databases. The I / F 506 is, for example, a modem or a LAN adapter. The I / F 506 may have a function of controlling input / output to / from an external storage unit such as a USB or an external hard disk.

  FIG. 6 is an explanatory diagram showing a functional configuration of the server of the power supply system according to the embodiment of the present invention. In FIG. 6, the server 101 includes a reception unit 601, a region information extraction unit 602, a region information database (DB) 603, a calculation unit 604, a calculation table 605, a supply availability determination unit 606, and a power rate determination unit. 607, a determination table 608, a replacement utility pole search unit 609, and a transmission unit 610.

  The receiving unit 601 receives from each power supply device (electric pole) 102 supply availability determination request information including the ID of each power supply device 102 and demand amount information of the power supply device 102. More specifically, the receiving unit 601 can realize its function by, for example, the I / F 506 shown in FIG.

  The area information extraction unit 602 extracts area information regarding the area of the power supply apparatus 102 corresponding to the ID of the power supply apparatus 102 received by the reception unit 601 from the area information DB 603. Specifically, the function of the area information extraction unit 602 can be realized by the CPU 501 executing a program stored in a storage unit such as the RAM 502, the ROM 503, and the HD 504 illustrated in FIG.

  The area information DB 603 stores area information regarding the area of the power supply apparatus 102. Specifically, the function of the regional information DB 603 can be realized by, for example, the HD 504 shown in FIG. Further, the regional information DB 603 may be provided so as to be accessible via the network 100 in another information processing apparatus (not shown).

  FIG. 7 is an explanatory diagram showing an example of the data configuration of the regional information DB. In FIG. 7, for each power supply apparatus 102, a power pole ID (electric pole number) uniquely set in the power supply apparatus (electric pole) 102 and the power supply apparatus (electric pole) 102 are installed in the area information DB 603. Information such as the current location (address, latitude / longitude information, etc.) and the distance of the power supply device (electric pole) 102 from the substation are stored. The information stored in the area information DB 603 is not limited to the above contents, and may include other information related to the area (installation position) of the power supply device (electric pole) 102.

  The calculation unit 604 calculates the power supply margin at the point where the power supply apparatus 102 is provided, based on the region information extracted from the region information DB 603 by the region information extraction unit 602. The calculation unit 604 can calculate the power supply margin using, for example, the calculation table 605. Specifically, the calculation unit 604 can realize its function when the CPU 501 executes a program stored in a storage unit such as the RAM 502, the ROM 503, and the HD 504 shown in FIG.

  Specifically, the calculation table 605 can realize its function by, for example, the HD 504 shown in FIG. FIG. 8 is an explanatory diagram showing an example of the configuration of the calculation table. In FIG. 8, the calculation table 605 stores information related to the margin of power supply corresponding to the distance from the substation. In FIG. 8, as an example, the margin is set in five stages “1” to “5”.

  Here, the margin “5” is the stage with the most margin, and the margin “1” is the stage with the least margin. The information stored in the calculation table 605 is not limited to the above contents, and may include other information regarding the margin of each power supply device (electric pole) 102.

  The calculation unit 604 refers to the calculation table 605 from the distance from the substation of the power supply apparatus 102 received from the area information extraction unit 602, and calculates the margin of the power supply apparatus 102. When calculating the margin, the calculation unit 604 may consider conditions other than the distance from the substation.

  Based on the power supply margin of the power supply device 102 calculated by the calculation unit 604 and the demand amount information of the power supply device 102 received by the reception unit 601, the supply availability determination unit 606 It is determined whether or not power can be supplied to the demand medium in the device 102. In addition, the power charge determination unit 607 is based on the power supply margin of the power supply device 102 calculated by the calculation unit 604 and the demand amount information of the power supply device 102 received by the reception unit 601. A power charge for power supply to the demand medium in the power supply apparatus 102 is determined.

  The supply availability determination unit 606 and the power rate determination unit 607 can determine whether to supply power to the demand medium and determine the power rate for power supply to the demand medium using, for example, the determination table 608. Specifically, the availability determination unit 606 and the power rate determination unit 607 realize their functions by causing the CPU 501 to execute a program stored in a storage unit such as the RAM 502, the ROM 503, and the HD 504 illustrated in FIG. be able to.

  Specifically, for example, the function of the determination table 608 can be realized by the HD 504 shown in FIG. FIG. 9 is an explanatory diagram illustrating an example of the configuration of the determination table. In FIG. 9, the determination table 608 stores information regarding the correspondence relationship between the power supply margin and the demand amount of the demand medium. In FIG. 9, as an example, the demand amount is set in five stages “A” to “D”. Here, the demand amount “A” is the level where the demand amount of the demand medium is the smallest, and the demand amount “D” is the level where the demand amount of the demand medium is the largest.

  The supply availability determination unit 606 and the power charge determination unit 607 determine whether or not the power supply apparatus 102 can supply power to the demand medium with reference to the determination table 608 based on the margin calculated by the calculation unit 604. At the same time, when the power supply is “possible”, the power charge for the supply is determined.

  Specifically, for example, when the margin of the power supply apparatus 102 is “1” (when the margin is the smallest), when the demand amount is “D” level and “C” level, the power supply is It is determined as “impossible”. Further, when the margin of the power supply apparatus 102 is “1”, when the demand amount is “B” level, an amount obtained by multiplying the unit price of the basic charge of the power charge by 1.2 (× 1.2) Determined as the electricity charge. Similarly, when the demand amount is “A” level, an amount obtained by multiplying the unit price of the basic charge of the power charge by 1.1 times (× 1.1) is determined as the power charge.

  Further, when the margin of the power supply apparatus 102 is “5” (when the margin is the largest), when the demand amount is “D” level, the unit price of the basic rate of the power rate is 1.2 times ( × 1.2) The amount of money is determined as the electricity charge. On the other hand, when the demand amount is in the “A” to “C” level, the unit price of the basic charge of the power charge is determined as it is (1 times (× 1)) as the power charge. Further, the fee system is not limited to the above-described content, and for example, the charge system may be charged based on the distance from the substation of the power supply device (electric pole) 102 to be used and the metered system.

  In this way, the power charge is reduced when it is close to the substation, and the power charge is increased when it is far from the substation. For example, in order to maintain stable voltage, the transportation cost is necessary to carry power far away. It takes. In addition, if it is far from the substation, the cost of transportation increases due to the installation of a voltage regulator to maintain the voltage, and if the amount of electricity used at the end increases, the equipment for maintaining the voltage will naturally be forced to increase. This is to distribute the costs more appropriately and to make the user bear.

  Further, when calculating the margin, it is preferable to consider a load peak according to the season of power generation or power transmission equipment. Specifically, the load peak is a time when the amount of electricity used is expected to be the largest in summer / winter, for example. For example, in the factory zone in summer, the load peak may be expected from 13:00 to 16:00 in the month to September. At such a load peak, the load peak can be reduced as much as possible by disabling the supply of power from the utility pole 102 or by increasing the power charge.

  Further, the power charge determination unit 607 may determine the power charge in consideration of the following conditions. Specifically, for example, the electricity rate may be determined based on the utilization rate (tolerance) for each distribution line (feeder) developed from the substation in each direction. In addition, the electricity rate may be determined based on at least one of seasonal variation (summer / winter: high, spring / autumn: cheap) and hourly variation (day to evening: high, night to morning: cheap). .

  Further, the power charge may be determined so that quick charge is expensive (normal charge or slow charge is cheap). Moreover, you may determine an electric power charge based on whether a charge location is directly under a transformer, or a low voltage line end (it is cheap immediately below). Moreover, you may determine an electric power charge so that it may be cheap in the location where the utilization factor of a transformer is low, and a location where a utilization factor is high will be expensive. Specifically, county areas are cheaper and urban areas are higher.

  Further, the power rate may be determined based on whether the distribution line is a trunk line or a branch line (the trunk line is cheaper). Furthermore, the power charge may be determined based on the presence / absence of sponsor advertisement display on the display screen 103 (the presence of advertisement is cheap).

  When the power supply becomes “impossible” as a result of the determination by the supply availability determination unit 606, the replacement power pole search unit 609 searches for a replacement power supply device (electric pole) 102. Specifically, the replacement utility pole search unit 609 can realize its function by the CPU 501 executing a program stored in a storage unit such as the RAM 502, the ROM 503, and the HD 504 shown in FIG.

  The alternative power pole search unit 609 searches the area information DB 603 and is installed at a location at a predetermined distance (near) where the power supply device (electric pole) 102 where power supply becomes “impossible” is installed. Another power supply device (electric pole) 102 is extracted, and the same calculation and determination as described above are performed. As a result, it is possible to search for a power supply device (electric pole) 102 that is not “impossible” to supply power.

  The transmission unit 610 includes information on the availability of power determined by the supply availability determination unit 606, information on the power rate determined by the power rate determination unit 607, and a replacement utility pole (power) searched by the replacement utility pole search unit 609 Information on the supply device 102 is transmitted to the power supply device (electric pole) 102. Specifically, the transmission unit 610 can realize its function by, for example, the I / F 506 shown in FIG.

  FIG. 10 is a flowchart showing a processing procedure of the server of the power supply system according to the embodiment of the present invention. In the flowchart of FIG. 10, the receiving unit 601 determines whether or not supply availability determination request information has been received from the power supply apparatus (electric pole) 102 (step S1001). Here, when the supply availability determination request information is received and received (step S1001: Yes), the region information extraction unit 602 extracts the region information from the region information DB 603 (step S1002).

  Next, the calculation unit 604 refers to the calculation table 605 and calculates the power supply margin of the power supply apparatus 102 (step S1003). Then, the supply availability determination unit 606 and the power charge determination unit 607 refer to the determination table 608 to determine whether or not the power supply apparatus 102 can supply power to the demand medium, and the power for the power supply to the demand medium A fee is determined (step S1004).

  Here, it is determined whether or not power supply is possible (step S1005). If power supply is not possible (step S1005: No), a search for a substitute power pole is executed (step S1006). When power supply is possible (step S1005: Yes), the determination result, the determined power rate information, and further the replacement power pole information are transmitted to the power supply apparatus 102 (step S1007), and a series of processing ends. .

  Moreover, in this embodiment, the following application examples are given. For example, when the demand medium is an electric vehicle, the navigation device mounted on the vehicle can be used to guide to the nearby electric pole 102 for charging and provide guidance for a low price. When the remaining battery level is detected and charging is required, the navigation device may guide the utility pole 102.

  In this case, the power pole number can be displayed on the navigation device, and the nearest rechargeable power pole 102 can be displayed by cooperating with the power map system owned by the power company. In addition, it is possible to make a charging reservation for each utility pole from the navigation device, and thus, charging can be started immediately after arrival without waiting for the turn. In addition, by making a reservation from the navigation, the display screen 103 of the utility pole 102 is displayed as “reserved”, and the display screen 103 is blinked. Can be.

  In addition, the electric vehicle information is transmitted to the server 101 during charging. Thereby, the server 101 can grasp information on the current stop position of the electric vehicle, the charging end time, the amount of charge, and the like. The required charging time of the electric vehicle is backed up by the server 101, the required charging time and load capacity (demand amount) in the vehicle model are stocked as a list, and the charging completion scheduled time is displayed in real time when charging in the same vehicle model 103 can be displayed.

  Furthermore, by repeating vehicle type registration, a predicted load data list can be created, and a charge reservation list can be made public on the WEB, so that calculation of charge completion time for each vehicle type and discrimination accuracy of usable utility poles can be improved.

  Further, based on the registration list data, the travelable range after full charge can be displayed on the display screen 103 as a map. Further, it may be possible to calculate how far the vehicle can travel even if charging halfway from the stock data and display it on the display screen 103 or transmit the data to the user's mobile phone. In addition, the accumulated data can be displayed on the display screen 103 of the utility pole 102 or transmitted to the user's mobile phone, including where the estimated travel distance, the arrival area, the priority location of the next charging prediction area, etc. are cheap.

  In addition, it is possible to input a current position from a mobile phone or a navigation device or search an area to be charged and display a chargeable power pole list on the mobile phone or the navigation device. Also, by entering the model of the electric vehicle, you can select a rechargeable power pole, answer the expected completion time by entering the current remaining capacity, and wait for the arrival schedule in the state where the transformer capacity is secured It can also be made.

  Further, the power supply apparatus 102 is not limited to a utility pole, and may be configured such that, for example, a parking lot (parking meter) and a charging stand are combined. Thereby, it can also charge while parking. At that time, you can charge the electricity fee and parking fee together. Further, a means for detecting whether charging is complete or whether charging is completed may be provided so that the parking fee is not charged during charging.

  In addition, charging time and usage charge restrictions can be set in advance, and if it is rapid, the time until full charge can be calculated and displayed. If the charge is set, the cheapest charging completion time can be displayed. Then, an input means for receiving the input of the charging completion request time is provided, and when it is determined that the time is sufficient, a power pole (parking) having a sufficient load capacity is selected, and the power rate is provided at the lowest price. In the case of the fastest charging, a power pole is selected based on the load capacity, and the charging is set so that the nearest power pole is charged.

  Also, depending on the sum of the parking fee, the system can be configured to reduce the charging fee with a discount voucher issued by the store, or it has a system for discounting the advertisement display fee of the sponsor provided by the reservation usage rate on the sponsor pole. May be. Further, by providing a charge discount service for reservation customers on a power pole with a low transformer usage rate, concentration of use on a predetermined power pole 102 can be avoided.

  As described above, according to the power supply system of this embodiment, the demand amount related to the demand amount of the demand medium in which the demand amount acquisition unit 301 of each power supply device 102 receives the supply of power from the power supply device 102. The information is acquired, the transmission unit 302 transmits the ID of the power supply apparatus 102 and the demand amount information acquired by the demand amount acquisition unit 301 to the server 101 via the network 100, and the reception unit 601 of the server 101 The region relating to the region of the power supply device 102 that receives the ID and demand information of the power supply device 102 from the power supply device 102 and the region information extraction unit 602 corresponds to the ID of the power supply device 102 received by the reception unit 601 The information is extracted, and the calculation unit 604 is based on the area information extracted by the area information extraction unit 602. Is calculated based on the power supply margin calculated by the calculation unit 604 and the demand amount information received by the receiving unit 601. Then, the power supply device 102 determines whether or not power supply to the demand medium is possible, and the transmission unit 610 transmits to the power supply device 102 information related to the power supply availability determined by the supply availability determination unit 606.

  Therefore, when the power supply to the neighborhood is affected, the power supply can be prevented from being performed. Therefore, it is possible to prevent the power supply to the neighborhood from being affected.

  Further, according to the power supply system of this embodiment, the power charge determination unit 607 of the server 101 uses the power supply margin calculated by the calculation unit 604 and the demand amount information received by the reception unit 601. Based on this, the power charge for the power supply to the demand medium in the power supply apparatus 102 is determined, and the transmission unit 610 transmits information on the power charge determined by the power charge determination unit 607 to the power supply apparatus 102.

  Therefore, it is possible to set a fee corresponding to capital investment for stable power supply. As a result, even if the power supply at a predetermined location is concentrated, the cost can be appropriately shared, and by allowing the user to select a cheaper use location, the use location of the power supply Can be dispersed appropriately.

  As described above, the power supply system according to the present invention is useful for supplying power to a demand medium using a power pole, and particularly for a device such as an electric vehicle that is moved or carried. Suitable for supplying power.

DESCRIPTION OF SYMBOLS 100 Network 101 Server 102 (102a, 102b, 102c) Telephone pole 103 Display screen 104 Outlet 301 Demand amount acquisition part 302 Transmission part 303 Reception part 304 Display control part 601 Reception part 602 Area information extraction part 603 Area database (DB)
604 calculation unit 605 calculation table 606 supply availability determination unit 607 power charge determination unit 608 determination table 609 alternative power pole search unit 610 transmission unit

Claims (2)

A power supply system in which a server and a power supply device provided at a predetermined point are connected by a network and supplies power from each of the predetermined power supply devices,
Each of the power supply devices
Demand amount acquisition means for acquiring demand amount information related to the demand amount of a demand medium that receives power supply from the power supply device;
Transmitting means for transmitting the ID of the power supply apparatus and the demand amount information acquired by the demand amount acquiring means to the server via the network;
With
The server is
Receiving means for receiving the ID of the power supply device and the demand amount information from each of the power supply devices;
Extraction means for extracting area information relating to the area of the power supply apparatus corresponding to the ID of the power supply apparatus received by the reception means;
Based on the area information extracted by the extraction means, calculation means for calculating a margin of power supply at the point where the power supply device is provided;
Determination means for determining whether or not power supply to the demand medium in the power supply device is possible based on the margin of power supply calculated by the calculation means and the demand amount information received by the reception means;
Transmitting means for transmitting to the power supply apparatus information relating to the availability of power determined by the determination means;
A power supply system comprising: The server determines a power charge for power supply to the demand medium in the power supply device based on a margin of power supply calculated by the calculation means and demand amount information received by the reception means. Determining means to
The power supply system according to claim 1, wherein the transmission unit of the server transmits information related to the power rate determined by the determination unit to the power supply apparatus.

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