JP3910540B2 - Power charge system selection support method, power consumption improvement support method, power charge system selection support device, and power consumption improvement support device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technology for assisting selection of a power charge system suitable for a power consumer's power consumption situation from a plurality of power charge systems. In addition, the present invention relates to a technology that supports improvement of power consumption of power consumers.
[0002]
[Prior art]
From the spring of 2000, as part of the liberalization of power retailing, it has become possible to sell power generated by companies (power generation companies) other than power companies to power consumers. Currently, the target of sales is limited to large electricity consumers. However, power retailing is moving toward full liberalization, and in the future, it is expected that the target of sales will be extended to ordinary households.
[0003]
[Patent Document 1]
JP 2002-107389 A
[0004]
[Problems to be solved by the invention]
When electric power retailing is liberalized, electric power companies and power generation companies will adopt unique colors for setting basic charges and usage charges (electricity charges) to differentiate themselves from competitors' electricity tariff systems. I think that the. For this reason, a power consumer needs to select a power charge system (power charge system that results in a lower power charge) that suits his / her power consumption situation from various power charge systems. In addition, it is necessary to pay attention so as not to incur a penalty such as exceeding the contract capacity even after the power supply contract.
[0005]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a power consumer with various power charge systems. , Without exceeding contract capacity Fit for your own power consumption And cheapest The purpose is to support the selection of the electricity tariff system. Another object is to support the power consumer so that the power can be consumed within the contracted power rate system.
[0006]
[Means for Solving the Problems]
In order to solve the above-described problem, the first aspect of the present invention supports the selection of a power rate system that matches a power consumer's power consumption situation from a plurality of power rate systems using a computer system. To do.
[0007]
First, in the storage device of the computer system, for each of the plurality of power charge systems, contract capacity information indicating contract capacity, basic charge information indicating basic charge determined by the contract capacity, and usage charge per unit power amount Electric power charge system information including usage charge information to be shown is stored. Further, the scheduled maximum power consumption information indicating the scheduled maximum power consumption of the power consumer and the power consumption pattern information including the scheduled power consumption information indicating the scheduled power consumption of the power consumer are also stored.
[0008]
The contracted capacity indicated by the contracted capacity information is stored in the storage device out of all the power charge system information stored in the storage device in the computing device of the computer system. For each of the power rate structure information detected in the power rate structure information search step for searching for a pattern information greater than the planned maximum power consumption indicated by the planned maximum power consumption information, and the power rate structure information detected in the power rate structure information search step, the power rate In accordance with the basic charge information included in the system information, the basic charge indicated by the usage charge information, and the usage charge, the planned power consumption indicated by the planned power consumption information of the power consumption pattern information stored in the storage device A power charge calculation step for calculating a power charge for the power charge, and a power charge calculated in the power charge calculation step The cheapest power charge is identified from among the power charges, and the power charge structure information corresponding to the identified power charges is stored in the storage device as power charge structure information of a power charge structure that matches the power consumption situation of the power consumer. And a power rate system selection step to be performed.
[0009]
Moreover, the 2nd aspect of this invention supports improvement of the power consumption of an electric power consumer using the computer system connected to the electric power meter which measures the electric power consumer's electric power consumption via a network.
[0010]
First, contract capacity information indicating the contract capacity of the power consumer is stored in the storage device of the computer system.
[0011]
Then, it is necessary for the power consumer to adjust the power consumption by comparing the measured value of the power meter with the contracted capacity indicated by the contracted capacity information stored in the storage device in the computing device of the computer system A consumption adjustment necessity judgment step for judging whether or not there is, a message output step for outputting a message indicating that when it is judged that the power consumption needs to be adjusted by the consumption adjustment necessity judgment step, To do.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
[0013]
FIG. 1 is a schematic diagram of a power charge system selection / power consumption improvement support system to which an embodiment of the present invention is applied.
[0014]
As shown in the figure, the power charge system selection / power consumption improvement support system of this embodiment includes a power charge system selection / power consumption improvement support device 1 and a home network system 2 of a power consumer. The power charge system selection / power consumption improvement support device 1 and the home network system 2 are interconnected via a network 3 such as a WAN.
[0015]
In addition, the home network system 2 includes a customer terminal 4 that communicates with the power charge system selection / power consumption improvement support apparatus 1 via the network 3, a power meter 5 that measures the power consumption of the power consumer, And an electric product 6. The customer terminal 4, the wattmeter 5 and the electrical product 6 are interconnected via a network 7 such as a LAN.
[0016]
FIG. 2 is a schematic configuration diagram of the wattmeter 5.
[0017]
As shown in the figure, a power meter 5 according to this embodiment includes a network interface (NI) unit 51 for communicating with a consumer terminal 4 via a network 7, a meter body 52 that is a power meter body, a meter A measured value transmission unit 53 that transmits the power consumption value measured by the main body 52 to the consumer terminal 4 via the NI unit 51.
[0018]
The meter main body 52 measures the power consumption by detecting the current value of the current flowing through the power line drawn into the power consumer's home, for example.
[0019]
The NI unit 51 and the measurement value transmission unit 53 may be realized in hardware by an integrated logic IC such as an application specific integrated circuit (ASIC) or a field programmable gate array (FPGA), or may be a digital signal processor (DSP). ) Or the like may be realized by software. Furthermore, in a computer system including a CPU and a memory, the CPU may be realized by executing a predetermined program on the memory.
[0020]
FIG. 3 is a schematic configuration diagram of the electrical product 6.
[0021]
As shown in the figure, the electrical product 6 of the present embodiment is an NI unit 61 for communicating with the customer terminal 4 via the network 7 and the body of the electrical product such as an air conditioner, a refrigerator, lighting, a television receiver, and the like. A certain apparatus main body 62 and a control unit 63 that controls the apparatus main body are included.
[0022]
The apparatus main body 62 transmits information indicating the operation state to the control unit 63. The control unit 63 stores the identification information of the electrical product 6 in a memory or the like. When the operation state information is received from the apparatus main body 62, the control unit 63 gives the identification information of the electrical product 6 to the demand via the NI unit 61. To the user terminal 4. Further, when receiving a control command from the customer terminal 4 via the NI unit 61, the control unit 63 controls the apparatus main body 62 according to the control command. Thereby, the operation state of the apparatus main body 62 is changed.
[0023]
The NI unit 61 and the control unit 63 may be implemented in hardware by an integrated logic IC such as an ASIC or FPGA, similarly to the NI unit 51 and the measurement value transmission unit 53 of the wattmeter 5, or may be a DSP or the like. It may be realized in software by a computer. Furthermore, in a computer system including a CPU and a memory, the CPU may be realized by executing a predetermined program on the memory.
[0024]
FIG. 4 is a schematic configuration diagram of the consumer terminal 4.
[0025]
As shown in the figure, the consumer terminal 4 of the present embodiment includes an NI unit 41 for communicating with the power meter 5 and the electrical product 6 via the network 7, and a power charge system selection / power consumption via the network 3. NI unit 42 for communicating with improvement support apparatus 1, power consumption management unit 43, electrical product information management unit 44, control command generation unit 45, power consumption information storage unit 46, and electrical product information storage unit 47, a command information storage unit 48, and an instruction receiving unit 49.
[0026]
The power consumption management unit 43 monitors the power consumption value received from the wattmeter 5 via the NI unit 41. Then, for each predetermined time (for example, one hour), the date, the time zone, and the maximum power consumption and power consumption (cumulative power consumption value) in the time zone are stored in the power consumption information storage unit 46. .
[0027]
FIG. 5 is a diagram illustrating an example of registered contents in the power consumption information storage unit 46.
[0028]
As shown in the figure, a field 461 for registering a date, a field 462 for registering a time zone, a field 463 for registering the maximum power consumption in that time zone, and the power consumption in that time zone are shown. One record is formed with a field 464 for registration.
[0029]
In addition, when the power consumption management unit 43 adds a record to the power consumption information storage unit 46, the power consumption management unit 43 reads the record from the power consumption information storage unit 46, and via the NI unit 42, selects a power charge system / power consumption improvement support device 1 to send.
[0030]
The electrical product information management unit 44 monitors each electrical product 6 based on the operation state information received from each electrical product 6 via the NI unit 41. And the electrical product information of each electrical appliance 6 memorize | stored in the electrical product information storage part 47 is updated.
[0031]
FIG. 6 is a diagram illustrating an example of registered contents in the electrical product information storage unit 47.
[0032]
As illustrated, a record is registered in the electrical product information storage unit 47 for each electrical product 6. The record includes a field 471 for registering identification information of the electrical product 6, a field 472 for registering the type of the electrical product 6, and a field 473 for registering unique information such as the name and specifications of the electrical product 6. And a field 474 for registering the priority rank of the electrical product 6 and a field 475 for registering the operation state of the electrical product 6 (on / off setting, strength setting when on, etc.). Have. The priority rank is a rank used when the power charge system selection / power consumption improvement support apparatus 1 selects the electric product 6 to be saved.
[0033]
Here, information is previously registered in the fields 471 to 474 of each record. When the electrical product information management unit 44 receives the operation state information from the NI unit 41, the identification information given to the operation state information from the records stored in the electrical product information storage unit 47 is registered in the field 471. Identify the records that are being recorded. Then, the operation information registered in the field 475 of the specified record is updated based on the operation state information.
[0034]
In addition, when the electrical product information management unit 44 updates the operation information in the field 475 of the record stored in the electrical product information storage unit 47, the electrical product information management unit 44 reads the record from the electrical product information storage unit 47 and passes through the NI unit 42. Then, it is transmitted to the power charge system selection / power consumption improvement support device 1.
[0035]
In the command information storage unit 48, for each electrical product 6, identification information of the electrical product 6 and control command generation information for each operation change instruction (power-off instruction, power strength change instruction, etc.) are registered. When the control command generation unit 45 receives the consumption adjustment message of the electrical product 6 from the power rate system selection / power consumption improvement support apparatus 1 via the NI unit 42, the identification information and operation change of the electrical product 6 included in the message are received. The control command generation information associated with the instruction is read from the command information storage unit 48. Then, a control command is generated according to the control command generation information, and transmitted to the electrical product 6 having the identification information via the NI unit 41.
[0036]
The instruction receiving unit 49 receives various requests from the operator via an input device such as a keyboard and a mouse, and transmits these requests to the power rate system selection / power consumption improvement support device 1 via the NI unit 42. In addition, various messages received from the power charge system selection / power consumption improvement support device 1 via the NI unit 42 are output to an output device such as a display.
[0037]
The consumer terminal 4 configured as described above includes, for example, a CPU 901, a memory 902, an external storage device 903 such as an HDD, and a portable storage medium 904 such as a CD-ROM or DVD-ROM as shown in FIG. A reading device 905 for reading information; an input device 906 such as a keyboard and a mouse; an output device 907 such as a display; and communication devices 908 and 909 for communicating with a partner device via the networks 3 and 7; In a general computer system provided with a bus 910 for connecting each device, it can be realized by the CPU 901 executing a predetermined program loaded on the memory 902.
[0038]
The predetermined program is downloaded from the storage medium 904 via the reading device 905 or from the networks 3 and 7 via the communication devices 908 and 909 to the external storage device 903 and then loaded onto the memory 902. It may be executed by the CPU 901. Alternatively, the program may be directly loaded on the memory 902 from the storage medium 904 via the reading device 905 or from the networks 3 and 7 via the communication devices 908 and 909 and executed by the CPU 901. In this case, a memory 902 or an external storage device 903 is used for the storage units 46 to 48.
[0039]
FIG. 8 is a schematic configuration diagram of the power rate system selection / power consumption improvement support device 1.
[0040]
The power charge system selection / power consumption improvement support apparatus 1 is configured to receive a plurality of charge system selection requests input from an operator via an input device such as a keyboard or received from a customer terminal 4 via a network 3. A power rate system that matches the power consumption situation of the power consumer is selected from the power rate systems. Then, the information on the selected power rate system is notified to the consumer terminal 4. Further, based on the power consumption information and the electrical product information sent from the consumer terminal 4 via the network 3, a consumption adjustment message that prompts the improvement of the power consumption is created as necessary and notified to the consumer terminal 4. .
[0041]
As illustrated, the power rate system selection / power consumption improvement support apparatus 1 of the present embodiment includes a calculation unit 100, a storage unit 120, and an input / output unit 140.
[0042]
The input / output unit 140 includes an input unit 141, an output unit 142, and an NI unit 143. The input unit 141 receives input of information from an input device such as a keyboard and a mouse and a storage medium reading device such as a CD-ROM and a DVD-ROM connected to the apparatus 1 and transmits the information to the arithmetic unit 100. . The output unit 142 receives information from the calculation unit 100 and outputs the information to an output device such as a monitor or a printer connected to the apparatus 1. The NI unit 143 communicates with the customer terminal 4 via the network 3.
[0043]
The storage unit 120 includes a power rate system information storage unit 121, a power consumption information storage unit 122, an electrical product information storage unit 123, a power consumption pattern information storage unit 124, a recommended power rate system information storage unit 125, and a contract. An information storage unit 126 and a consumption adjustment message storage unit 127 are included.
[0044]
As shown in FIG. 9, the power charge system information storage unit 121 includes, for each power charge system, identification information 1211 of the power charge system, company information 1212 of the power company (power generation company) that provides power, and a contract. Name information 1213 of a power charge system such as a plan name, contract capacity information 1214 indicating contract capacity, basic charge information 1215 indicating basic charge determined by the contract capacity, and daytime (for example, AM5: 00 to PM23: 00) Usage fee information 1216 indicating the usage fee per unit electric energy, usage fee information 1217 indicating the usage fee per unit electric energy at night (for example, PM23: 00 to AM5: 00), and details of the long-term contract discount (discount In the case of presence / absence and discount “Yes”, a long-term contract discount 1218 indicating a contract period and a discount rate is stored in advance.
[0045]
Similar to the power consumption information storage unit 46 shown in FIG. 5, the power consumption information storage unit 122 stores a record having a date, a time zone, and the maximum power consumption and power consumption of the power consumer in that time zone. Is done.
[0046]
Similar to the electrical product information storage unit 47 shown in FIG. 6, the electrical product information storage unit 123 has identification information, type, unique information, priority rank, and operating state for each electrical product 6. Records are stored.
[0047]
As shown in FIG. 10, the power consumption pattern information storage unit 124 stores the planned maximum power consumption 1242 and the planned power consumption 1243 of the power consumer in each time slot 1241 in a predetermined unit period (for example, 30 days). Is done.
[0048]
In the recommended power charge system information storage unit 125, a record of power charge system information proposed (recommended) to the power consumer is stored together with the power charge (expected value) of the consumer when the power charge system is followed. .
[0049]
The contract information storage unit 126 stores a record of power charge system information with which a power consumer has a contract.
[0050]
The consumption adjustment message storage unit 127 stores a consumption adjustment message that is a message for changing the operating state of the electric consumer 6 of the power consumer.
[0051]
Next, the calculation unit 100 includes a power consumption information acquisition unit 101, an electrical product information acquisition unit 102, a power consumption pattern setting unit 103, a power rate system information search unit 104, a power rate calculation unit 105, and a power rate. A system information selection unit 106, a consumption adjustment determination unit 107, and a consumption adjustment message generation unit 108 are included.
[0052]
The power consumption information acquisition unit 101 receives power consumption information (information of the record shown in FIG. 5) from the consumer terminal 4 via the NI unit 143 and stores it in the power consumption information storage unit 122.
[0053]
When the electrical product information acquisition unit 102 receives information about the operation state of the electrical product 6 from the consumer terminal 4 via the NI unit 143 (record information shown in FIG. 6), the identification information included in the received record Is specified from the electrical product information storage unit 123. Then, the operating state registered in the identified record is updated to the operating state included in the reception information. In addition, when the record which has the identification information contained in the reception record is not memorize | stored in the electrical product information storage part 123, this reception record is added to the electrical product information storage part 123.
[0054]
The power consumption pattern setting unit 103 classifies the records of power consumption information stored in the power consumption information storage unit 122 for each predetermined time zone. Then, the scheduled maximum power consumption and the planned power consumption are set for each predetermined time period using the classified records. Specifically, for each predetermined time zone, the maximum power consumption having the largest value among the records classified in the time zone is set as the planned maximum power consumption in the time zone. Further, for each date, the sum of the power consumption of each record classified in the time zone is obtained, and further, the average of the sum obtained for each date is obtained. And what multiplied the average of this sum total for a predetermined number of days (for example, 30 days) is set as the power consumption scheduled amount. Then, the scheduled maximum power consumption and the scheduled power consumption set for each predetermined time period are stored in the power consumption pattern information storage unit 124.
[0055]
The electricity bill system information search unit 104 stores the contract capacity registered in the field 1214 in the power consumption pattern information storage unit 124 from the record of the power bill system information stored in the power bill system information storage unit 121. A record larger than the scheduled maximum power consumption having the largest value is searched from the stored power consumption pattern information records. Then, a record of the detected power rate system information is stored in the storage unit 120.
[0056]
For each record of the power rate system information detected by the electricity rate system information search unit 104 stored in the storage unit 120, the power rate calculation unit 105, according to the power rate system indicated by the record, the power consumption pattern information storage unit 124. A power charge (predicted value) when power is consumed according to the power consumption pattern information stored in is calculated. Then, in association with the identification information of the record of the power charge system information, the power charge calculated according to the power charge system is stored in the storage unit 120.
[0057]
Specifically, for each power consumption pattern information record, the power consumption charge for the planned power consumption amount registered in the field 1243 of the power consumption pattern information record is stored in the fields 1216 and 1217 of the power charge system information record. Of the registered usage charges, the calculation is made using the usage charges corresponding to the time zone registered in the field 1241 of the record of the power consumption pattern information (power charge = scheduled power consumption × usage charge). Then, the power charge is calculated by adding the basic charge registered in the field 1215 of the record of the power charge system information to the sum of the power charge calculated for each record of the power consumption pattern information. Here, if a long-term contract discount is registered in the field 1218 of the record of the power charge system information, the power charge is discounted according to the discount rate. Then, the discounted power charge is stored as a long-term contracted power charge in the storage unit 120 in association with the identification information of the record of the power charge system information together with a message indicating that.
[0058]
The power rate system information selection unit 106 detects the power rate system information search unit 104 stored in the storage unit 120 based on each power rate calculated by the power rate calculation unit 105 stored in the storage unit 120. At least one record of power charge system information of a power charge system recommended to a power consumer is selected from the records of power charge system information.
[0059]
Specifically, the cheapest power charge is searched from the power charges calculated by the power charge calculation unit 105. Then, the identification information of the record of the power rate system information associated with the power rate and stored in the storage unit 120 is specified as the identification information of the record of the power rate system information recommended to the power consumer. Then, a record of power rate system information having the identified identification information is stored in the recommended power rate system information storage unit 126 together with the power rate. At this time, if the power rate is a power rate with a long-term contract, a message indicating that is also stored in the recommended power rate system information storage unit 126.
[0060]
In the present embodiment, when the cheapest power charge is a power charge with a long-term contract, the record of the power charge system information corresponding to the cheapest power charge among the power charges without a long-term contract is also sent to the power consumer. The recommended power charge system information is stored in the recommended power charge system information storage unit 126 together with the power charge as a record of recommended power charge system information.
[0061]
Each time a power consumption information record is newly added to the power consumption information storage unit 122, the consumption adjustment determination unit 107 stores the maximum power consumption registered in the record and the contract information storage unit 126. It is compared with the contract capacity of the record of the power charge system information to determine whether or not the power consumer needs to adjust the power consumption. In the present embodiment, when the maximum power consumption becomes larger than a value obtained by subtracting a predetermined margin (for example, 20% of the contracted capacity) from the contracted capacity, it is determined that the power consumption needs to be adjusted.
[0062]
When the consumption adjustment determination unit 107 determines that there is a need to adjust the power consumption for the power consumer, the consumption adjustment message generation unit 108 records each piece of electric product information stored in the electric product information storage unit 123. Based on the above, at least one electric product 6 whose operation state is changed from off to strong to weak is selected.
[0063]
Specifically, among electrical product information records stored in the electrical product information storage unit 123, a predetermined number (for example, one) of records having the lowest priority rank is selected from among records in which the operation state is on. . Then, a consumption adjustment message including the identification information of the selected record and the operation state change instruction is created and stored in the consumption adjustment message storage unit 127. Here, the change instruction of the operation state is an instruction to change the power supply to off when the operation state of the selected record is power on without strong / weak setting or power on with weak setting. In addition, when the power of the strong setting is turned on, an instruction is given to change the strength setting to weak.
[0064]
Then, the consumption adjustment message generation unit 108 transmits the consumption adjustment message stored in the consumption adjustment message storage unit 127 to the consumer terminal 4 via the NI unit 143.
[0065]
Similarly to the consumer terminal 4, the power rate system selection / power consumption improvement support device 1 having the above-described configuration also does not require a computer system as shown in FIG. 7 (however, a communication device 909 for communicating with the network 7 is not required). ), The CPU 901 executes a predetermined program loaded on the memory 902. The predetermined program is downloaded from the storage medium 904 via the reading device 905 or from the network 3 via the communication device 908 to the external storage device 903, and then loaded onto the memory 902 and executed by the CPU 901. You may make it do. Alternatively, the program may be directly loaded onto the memory 902 from the storage medium 904 via the reading device 905 or from the network 3 via the communication device 908 and executed by the CPU 901. In this case, a memory 902 or an external storage device 903 is used for the storage unit 120.
[0066]
Next, the operation of the power charge system selection / power consumption improvement support apparatus 1 will be described.
[0067]
First, the operation of collecting power consumption information / electric product information will be described.
[0068]
FIG. 11 is a flowchart for explaining the operation of collecting power consumption information / electric product information in the power charge system selection / power consumption improvement support apparatus 1.
[0069]
First, when the power consumption information acquisition unit 101 receives power consumption information from the consumer terminal 4 via the NI unit 143 (Yes in S1001), the power consumption information acquisition unit 101 stores the power consumption information in the power consumption information storage unit 122 (S1002).
[0070]
Next, the power consumption pattern setting unit 103 determines whether it is a power consumption pattern update timing (S1003). For example, it is checked whether or not the current time indicated by the built-in timer has reached a predetermined time. When the predetermined time is reached, it is determined that it is the power consumption pattern update timing. Alternatively, it is checked whether the count value indicated by the built-in counter that is incremented each time a record is added to the power consumption information storage unit 122 has reached a predetermined value. When the predetermined value is reached, it is determined that it is the power consumption pattern update timing, and the count value of the counter is reset.
[0071]
If the power consumption pattern setting unit 103 determines that it is the power consumption pattern update timing (Yes in S1003), the power consumption information record stored in the power consumption information storage unit 122 is stored in a predetermined time zone. Sort by each. Then, the scheduled maximum power consumption and the planned power consumption are set for each predetermined time period using the classified records. Specifically, for each predetermined time zone, the maximum power consumption having the largest value among the records classified in the time zone is set as the planned maximum power consumption in the time zone. Further, for each date, the sum of the power consumption of each record classified in the time zone is obtained, and further, the average of the sum obtained for each date is obtained. And what multiplied the average of this sum total for a predetermined number of days (for example, 30 days) is set as the power consumption scheduled amount. Then, the planned maximum power consumption and the planned power consumption set for each predetermined time period are stored in the power consumption pattern information storage unit 124. Alternatively, the planned maximum power consumption and the planned power consumption for each predetermined time period stored in the power consumption pattern information storage unit 124 are set to the newly set planned maximum power consumption and the planned power consumption for each predetermined time period. (S1004).
[0072]
On the other hand, when the electrical product information acquisition unit 102 receives the electrical product information record from the consumer terminal 4 via the NI unit 143 (Yes in S1005), the electrical product information acquisition unit 102 outputs the record having the identification information included in the received record. It is specified from the product information storage unit 123. Then, the operating state registered in the identified record is updated to the operating state included in the reception information (S1006). In addition, when the record which has the identification information contained in this reception record is not memorize | stored in the electrical product information storage part 123, this reception record is added to the electrical product information storage part 123. FIG.
[0073]
Next, the operation for selecting a power rate system will be described.
[0074]
FIG. 12 is a flowchart for explaining the operation of selecting the power rate system in the power rate system selection / power consumption improvement support apparatus 1.
[0075]
In this flow, the information on each of the power charge systems as shown in FIG. 9 is stored in the power charge system information storage unit 121, and each time as shown in FIG. 10 is stored in the power consumption pattern information storage unit 124. It is assumed that the planned maximum power consumption and the planned power consumption in the band are stored.
[0076]
When the electricity fee structure information search unit 104 receives a fee structure selection request from the operator via the input unit 141 or from the customer terminal 4 via the NI unit 143 (Yes in S2001), the electricity fee structure information From the record of the power charge system information stored in the storage unit 121, the contract capacity registered in the field 1214 is the field of the record of all the power consumption patterns stored in the power consumption pattern information storage unit 124. A record larger than the scheduled maximum power consumption registered in 1242 is searched. Then, each of the detected records of the power charge system information is stored in the storage unit 120 as a candidate record of the power charge system information of the power charge system recommended to the power consumer (S2002).
[0077]
The power rate calculation unit 105 extracts one record from the candidate records of the power rate system information stored in the storage unit 120 (S2003).
[0078]
Next, the power charge calculating unit 105 identifies the daytime charge (for example, AM5: 00 to PM23: 00) registered in the field 1216 of the extracted record. In addition, among records stored in the power consumption pattern information storage unit 124, a record in which the time zone of the field 1241 corresponds to the daytime (for example, AM5: 00 to PM23: 00) in the power rate system is detected. Then, the total amount of planned power consumption registered in the field 1243 of each detected record is calculated. Then, the total amount of the calculated estimated power consumption amount is multiplied by the specified daytime usage fee, thereby calculating a daytime power amount fee (predicted value) (S2004).
[0079]
In addition, the power charge calculation unit 105 identifies the night use charge (for example, PM23: 00 to AM5: 00) registered in the field 1217 of the extracted record. In addition, among records stored in the power consumption pattern information storage unit 124, a record corresponding to the night (for example, PM23: 00 to AM5: 00) where the time zone of the field 1241 is referred to in the power rate system is detected. The total amount of planned power consumption registered in the field 1243 of each detected record is calculated. Then, the nighttime power consumption fee (predicted value) is calculated by multiplying the calculated total amount of power consumption planned by the specified nighttime usage fee (S2005).
[0080]
Then, the power charge calculation unit 105 calculates the basic charge registered in the field 1215 of the extracted record, the daytime power charge (predicted value) calculated in S2004, and the night power charge (calculated in S2005). (Estimated value) is added to calculate the electricity rate (expected value) (S2006). Then, the calculated power rate (predicted value) is stored in the storage unit 120 in association with the identification information of the power rate system registered in the field 1211 of the extracted record (S2007).
[0081]
Next, the power rate calculation unit 105 determines whether or not the long-term contract discount information registered in the field 1218 of the extracted record indicates “with discount” (S2008). If “discounted” is not indicated, the process proceeds to S2011. On the other hand, if “discounted” is indicated, the discount amount of the power charge calculated in S2006 is calculated according to the discount rate indicated by the long-term contract discount information (= electricity charge × discount rate). Then, by subtracting the discount amount from the power charge calculated in S2006, a power charge considering the long-term contract discount (discounted power charge) is calculated (S2009). Then, the calculated discounted electricity charge (predicted value) is stored in the storage unit 120 in association with the identification information of the electricity charge system registered in the field 1211 of the extracted record and the message that the long-term contract discount is applied. Store (S2010).
[0082]
In S2011, the power rate calculation unit 105 determines whether all candidate records for the power rate system information stored in the storage unit 120 have been extracted in S2003. If not extracted (No in S2011), the process returns to S2003. On the other hand, if it is extracted (Yes in S2011), the process proceeds to S2012.
[0083]
In S2012, the power charge system information selection unit 106 searches for the cheapest power charge from the power charges (including the discounted power charge) stored in the storage unit 120 in S2007 and S2010.
[0084]
Next, the power charge system information selection unit 106 recommends to the power consumer the power charge system identification information stored in the storage unit 120 in association with the power charge detected in S2012 (recommended). It is specified as the identification information of the electricity charge system) information. Then, a record of the power charge system information in which the identified identification information is registered in the field 1211 is read from the power charge system information storage unit 121, and this is associated with the power charge detected in S2012 to store the recommended power charge system information. The information is stored in the unit 126 (S2013). At this time, if the power charge detected in S2012 is a discounted power charge, a message indicating that is stored in the recommended power charge system information storage unit 126 in association with this power charge.
[0085]
Next, the power charge system information selection unit 106 determines whether or not the power charge detected in S2012 is a discounted power charge (S2014). If it is not a discounted electricity charge (No in S2014), the process proceeds to S20017. On the other hand, if it is a discounted power charge (Yes in S2014), the process proceeds to S2015.
[0086]
In S2015, the power charge system information selection unit 106 searches for the cheapest power charge from the power charges (excluding discounted power charges) stored in the storage unit 120 in S2007 and S2010.
[0087]
Next, the power charge system information selection unit 106 recommends to the power consumer the power charge system identification information stored in the storage unit 120 in association with the power charge detected in S2015 (recommended). It is specified as the identification information of the electricity charge system) information. Then, a record of the power charge system information in which the identified identification information is registered in the field 1211 is read from the power charge system information storage unit 121, and this is associated with the power charge detected in S2012 to store the recommended power charge system information. The information is stored in the unit 126 (S2016). Then, the process proceeds to S2017.
[0088]
In S2017, the power charge system information selection unit 106 reads the recommended power charge system information from the recommended power charge system information storage unit 126 and outputs the information to the outside via the input / output unit 140. For example, when a charge system selection request is received from the operator via the input unit 141 in S2001, the recommended power charge system information is output to the output device via the output unit 142. In response to this, the operator notifies the power consumer of the output information on the recommended power charge system. In S2001, when a charge system selection request is received from the consumer terminal 4 via the NI unit 143, the recommended power charge system information is output to the consumer terminal 4 via the NI unit 143.
[0089]
Next, the power consumption improvement support operation will be described.
[0090]
FIG. 13 is a flowchart for explaining the power consumption improvement support operation in the power charge system selection / power consumption improvement support apparatus 1.
[0091]
This flow is based on the premise that the contract information storage unit 126 stores a record of power charge system information contracted by the power consumer.
[0092]
First, when a power consumption information record is newly added to the power consumption information storage unit 122 (Yes in S3001), the consumption adjustment determination unit 107 determines that the maximum power consumption registered in the record is the contract information storage unit. It is determined whether or not the value is larger than a value obtained by subtracting a predetermined margin (for example, 20% of the contracted capacity) from the contracted capacity of the record of the power charge system information stored in 126 (S3002). If it is determined that the value is large, it notifies the consumption adjustment message generator 108 to that effect.
[0093]
In response to this, the consumption adjustment message generation unit 108 searches the records of the electrical product information stored in the electrical product information storage unit 123 for the records in which the operation state registered in the field 465 is ON. . Further, at least one record having the lowest priority rank registered in the field 464 is selected as a candidate record of the electrical product 6 whose operation state is changed to off or weak from among the records in which the detected operation state is on. (S3003).
[0094]
Next, the consumption adjustment message generation unit 108 generates a consumption adjustment message including the identification information of the electrical product 6 registered in the field 461 of the selected candidate record and the operation state change instruction, and the consumption adjustment message It memorize | stores in the memory | storage part 127 (S3004). Here, the operation state change instruction is an instruction to change the power supply to OFF when the operation state registered in the field 465 of the candidate record is a power-on without strong / weak setting or a power-on with weak setting. To do. In addition, when the power of the strong setting is turned on, an instruction is given to change the strength setting to weak.
[0095]
Then, the consumption adjustment message generation unit 108 transmits the consumption adjustment message stored in the consumption adjustment message storage unit 127 to the consumer terminal 4 via the NI unit 143 (S3005).
[0096]
Next, the power charge system selection support service and the power consumption improvement support service performed using the power charge system selection / power consumption improvement support system having the above-described configuration will be described.
[0097]
FIG. 14 is a diagram for explaining the processing flow of the power charge system selection support service and the power consumption improvement support service performed using the power charge system selection / power consumption improvement support system to which the present embodiment is applied. It is.
[0098]
Here, the service provider is an entity that provides a power charge system selection support service and a power consumption improvement support service to a power consumer, and is an owner of the power charge system selection / power consumption improvement support apparatus 1.
[0099]
First, the service provider obtains power rate system information from each power company that has a contract for introduction to the power consumer (S4001). Then, it is stored in the power rate system information storage unit 121 of the power rate system selection / power consumption improvement support apparatus 1 (S4002).
[0100]
When a contract is made between the service provider and the power consumer regarding the selection support service for the power charge system and the power consumption improvement support service (S4003), the consumer terminal 4 of the home network system 2 The transmission of the power consumption information indicating the power value measured by the total 1 to the power charge system selection / power consumption improvement support apparatus 1 is started (S4004). On the other hand, the power charge system selection / power consumption improvement support apparatus 1 starts the power consumption information collection operation according to the flow shown in FIG. 11 (S4005). As a result, the power consumption pattern is stored in the power consumption pattern information storage unit 124.
[0101]
Next, the power charge system selection / power consumption improvement support device 1 selects the charge system from the power consumer via the consumer terminal 4 or from the service provider via the input device connected to the device 1. When the request is received (S4006), the selection operation of the power charge system is started according to the flow shown in FIG. 12 (S4007). As a result, a record of power charge system information recommended to the power consumer is stored in the recommended power charge system information storage unit 125. Then, this information is transmitted to the consumer terminal 4 (S4008). The power consumer can know the power charge system (charge system that makes the power charge cheaper) suitable for his / her power consumption situation by looking at the power charge system information output from the consumer terminal 4.
[0102]
When a power sales contract is concluded between the power consumer and the power company (S4009), the power consumer notifies the service provider of the contracted power rate system information (contract information) (S4010). . The service provider stores the contract information obtained from the power consumer in the contract information storage unit 126 of the power rate system selection / power consumption improvement support apparatus 1 (S4011).
[0103]
Then, in addition to the start of transmission of power consumption information indicating the power value measured by the wattmeter 1, the consumer terminal 4 of the home network system 2 includes the power charge of the electrical product information indicating the operating state of each electrical product 6 Transmission to the system selection / power consumption improvement support apparatus 1 is started (S4012). On the other hand, the power charge system selection / power consumption improvement support apparatus 1 starts the operation of collecting electrical product information according to the flow shown in FIG. 11 (S4013). Thereby, the electrical product information of each electrical appliance 6 is stored in the electrical product information storage unit 123.
[0104]
Further, the power charge system selection / power consumption improvement support apparatus 1 starts a power consumption improvement support operation according to the flow shown in FIG. 13 (S4014). Thereby, it is monitored whether or not the power consumer consumes power within the contracted capacity of the contracted power rate system. If the power consumption is likely to exceed the contracted capacity, the consumption of changing the operating state of one of the electrical products 6 in use (the electrical product 6 having a low priority rank) from on to off or from strong to weak An adjustment message is created and transmitted to the consumer terminal 4 (S4015). Upon receipt of the consumption adjustment message, the consumer terminal 4 generates a control command for changing the operating state of any one of the electrical products 6 from on to off or from strong to weak according to the message. It transmits to the electrical product 6 (S4016). Thereby, it is possible to save power of the electrical product 6 so that the power consumption does not exceed the contracted capacity.
[0105]
The embodiment of the present invention has been described above.
[0106]
In the present embodiment, the power charge system selection / power consumption improvement support apparatus 1 uses the above-described configuration to charge a power charge when power is consumed according to the power consumption pattern of a power consumer from a plurality of power charge system information records. Select and output the record of the electricity rate system information that makes the cheapest. Therefore, it is possible to assist the power consumer in selecting a power rate system that suits their power consumption circumstances.
[0107]
In the present embodiment, the power rate system selection / power consumption improvement support device 1 monitors the power consumption of the power consumer with the above-described configuration. When the power consumption is likely to exceed the contracted capacity of the power consumer, a consumption adjustment message for changing the operating state of the electrical product 6 in use to off or weak is created and transmitted to the consumer terminal 4 To do. In response to this, the consumer terminal 4 changes the operating state of the electrical product 6 specified by the message. Therefore, it is possible to assist the power consumer so that the power can be consumed within the contracted power rate system.
[0108]
In addition, this invention is not limited to said embodiment, Many deformation | transformation are possible within the range of the summary.
[0109]
For example, in the above embodiment, the power charge system information that can be recommended to the power consumer on the assumption that the power charge system selection / power consumption improvement support apparatus 1 has improved the power consumption according to the power consumption improvement points. (Power rate system information for improvement proposal) may be selected.
[0110]
FIG. 15 is a flowchart for explaining an operation for selecting a power charge system for improvement proposal in the power charge system selection / power consumption improvement support apparatus 1.
[0111]
In this flow as well, as in the selection operation flow of the power charge system shown in FIG. 12, information on each power charge system as shown in FIG. 9 is stored, and the power consumption pattern information storage unit 124 shows the information shown in FIG. It is assumed that the planned maximum power consumption and the planned power consumption in each time zone are stored.
[0112]
When the power charge system information search unit 104 receives a request for selecting a charge system for improvement proposal from the operator through the input unit 141 or from the customer terminal 4 through the NI unit 143 (Yes in S5001). ) Of the scheduled maximum power consumption registered in the field 1242 of the power consumption pattern record stored in the power consumption pattern information storage unit 124, the power value is the second largest (for example, second) except the first Specify the planned maximum power consumption. Then, the specified planned maximum power consumption is set to the planned maximum power consumption for improvement proposal, and the planned maximum power consumption for improvement proposal is set to a planned maximum power consumption larger than this power value (if the predetermined number is second) In association with the time zone registered in the field 1241 of the record of the power consumption pattern having the largest planned maximum power consumption), it is stored in the recommended power rate system information storage unit 125 as an improvement point of power consumption (S5002). ).
[0113]
Next, the power rate system information search unit 104 determines that the contract capacity registered in the field 1214 from the power rate system information record stored in the power rate system information storage unit 121 is set in S5002. Search for records that are larger than the proposed maximum planned power consumption. Then, each detected record of power rate system information is stored in the storage unit 120 as a candidate record of the power rate system information of the power rate system for improvement proposal recommended to the power consumer (S5003).
[0114]
Thereafter, the power rate calculation unit 105 and the power rate system information selection unit 106 perform the same processing as S2003 to S2016 shown in FIG. 12 to select the power rate system information for improvement proposal recommended to the power consumer, This is stored in the recommended power charge system information storage unit 126 in association with the power charge calculated according to the power charge system. Then, the power rate system information selection unit 106 reads out the recommended power rate system information for improvement proposal and the improvement points of power consumption from the recommended power rate system information storage unit 126 and outputs them to the outside via the input / output unit 140. . For example, when an improvement proposal charge system selection request is received from the operator via the input unit 141 in S5001, the recommended power charge system information for improvement proposal and improvement points of power consumption are output to the output device via the output unit 142. Is output. In response to this, the operator notifies the power consumer of the output recommended power charge system information for improvement proposal and the improvement point of power consumption. In S5001, when a request for selecting a charge system for improvement proposal is received from the customer terminal 4 through the NI unit 143, the recommended power charge system information for improvement proposal to the customer terminal 4 through the NI unit 143 and Output points for improving power consumption. By doing in this way, the electric power consumer can know whether it can reduce an electric power charge in what time slot | zone to save electricity.
[0115]
Further, in the above embodiment, the power charge system selection / power consumption improvement support apparatus 1 applies the application of the long-term discount contract to the recommended power charge system information selected first by the power charge system selection operation flow shown in FIG. When it is assumed (Yes in S2014), recommended power charge system information without a long-term discount contract is also selected (S2015, S2016). However, the power consumption pattern may fluctuate (decrease) during the long-term contract period due to a change in family structure (for example, child independence). In such a case, that is, in consideration of fluctuations in the power consumption pattern, in the flow shown in FIG. 12, when receiving a long-term discount contract and when updating (changing) the power rate structure information for each period, It can be difficult to determine which is advantageous.
[0116]
Therefore, the power consumption pattern setting unit 103 may perform the following processing. That is, the power consumption information record stored in the power consumption information storage unit 123 is classified for each time zone of the power consumption pattern information record stored in the power consumption pattern information storage unit 124. Then, using the maximum power consumption and the power consumption of the power consumption information record classified for each time zone, the maximum power consumption and the amount of power consumption fluctuation (average value) with the transition of the date for each time zone Is calculated and stored in the power consumption pattern information storage unit 124. For example, for each time period, the difference between the maximum power consumption and power consumption of the record with the oldest date and the maximum power consumption and power consumption of the record with the newest date is calculated, and this difference is calculated as the oldest. It can be calculated by dividing by the number of days from the date to the most recent date.
[0117]
Then, in the flow shown in FIG. 12, the flow shown in FIG. 16 may be inserted between S2016 and S2017, and the power charge system selection / power consumption improvement support apparatus 1 may be made to execute.
[0118]
First, the power charge system time search unit 104 detects in S2012 using the maximum power consumption and the amount of power consumption variation associated with date transition in each time zone stored in the power consumption pattern information storage unit 124. The power consumption pattern (scheduled maximum power consumption and scheduled power consumption amount in each time zone) of each discounted electricity charge in each period after the second period of the long-term contract period is calculated (S6001).
[0119]
For example, m is the number of days from the start of the long-term contract period to the n-th period of the period, W is the planned maximum power consumption in a certain time zone stored in the power consumption pattern information storage unit 124, and the date of the time period is ΔW is the amount of change in maximum power consumption that accompanies the transition _max , Planned maximum power consumption W in the time period in the nth period _n Is Wn = W + m · ΔW _max Can be calculated. Moreover, the power consumption scheduled amount in the said time slot | zone in the nth period can be calculated similarly.
[0120]
Next, the power charge system time search unit 104 checks whether or not the planned maximum power consumption may exceed the contracted capacity in the power consumption patterns in the second and subsequent periods calculated in S6001 (S6002).
[0121]
In the power consumption pattern of each period after the second period, when the planned maximum power consumption may exceed the contracted capacity (Yes in S6002), the power rate calculation unit 105 receives the application of the long-term contract discount, Create a message to the effect that there may be a need to review the contract capacity during the long-term contract period. Then, this is stored in the recommended power rate system information storage unit 126 in association with the discounted power rate stored in the recommended power rate system information storage unit 126 (S6007).
[0122]
On the other hand, if the planned maximum power consumption does not exceed the contracted capacity in the power consumption patterns of each period after the second period (No in S6002), the power rate calculation unit 105 stores the recommended power rate system information storage unit 126. In accordance with the record of the power charge system information registered in association with the discounted power charge, the discounted power charge for the power consumption pattern in each period after the second period is calculated. Then, the sum of the discounted power charge stored in the recommended power charge system information storage unit 126 and the calculated discounted power charge in each period after the second period is calculated (S6003).
[0123]
Next, the power charge calculation unit 105 performs S2002 to S2007, S2011, and S2012 shown in FIG. 12 for each power consumption pattern in each period after the second period (S6004). Thereby, the cheapest undiscounted power charge is detected for each power consumption pattern in each period after the second period.
[0124]
Then, the power charge calculation unit 105 calculates the sum of the undiscounted power charge stored in the recommended power charge system information storage unit 126 and the non-discounted power charge in each period after the detected second period (S6005). ).
[0125]
Next, the power charge calculation unit 105 compares the total discounted power charge calculated in S6003 with the total discounted power charge calculated in S6005 (S6006). If the total of the discounted power charges is higher than the total of the non-discounted power charges, the power charge calculation unit 105 updates (changes) the power charge system information for each period rather than receiving the long-term discount contract. ) Create a message to the effect that the total payment fee may be lower. Then, this is stored in the recommended power rate system information storage unit 126 in association with the discounted power rate stored in the recommended power rate system information storage unit 126 (S6007).
[0126]
In this way, when the message created in S6007 is stored in the recommended power charge system information storage unit 126 in S2017 in FIG. 12, the power charge system information selection unit 106 displays this message as the recommended power charge system. Are read from the recommended power charge system information storage unit 126 and output. As a result, the power consumer can easily determine which is advantageous when receiving the application of the long-term discount contract or when updating (changing) the power charge system information for each period.
[0127]
Further, in the above embodiment, the power consumption pattern setting unit 103 of the power rate system selection / power consumption improvement support apparatus 1 performs the power consumption information / electric product information collection operation flow shown in FIG. Based on the collected power consumption information, a power consumption pattern (planned maximum power consumption and planned power consumption in each time zone) is set and stored in the power consumption pattern information storage unit 124. However, the present invention is not limited to this.
[0128]
For example, a power consumption pattern search table in which a power consumption pattern (see FIG. 10) estimated from the combination is registered in advance in the storage unit 120 for each combination of family structure, life pattern, and living environment. It may be. Then, the power consumption pattern setting unit 103 receives information on the family structure, life pattern, and living environment of the power consumer from the operator via the input unit 141 or from the consumer terminal 4 via the NI unit 143. The power consumption pattern corresponding to the accepted combination of family structure, life pattern, and living environment may be read from the power consumption pattern search table and stored in the power consumption pattern information storage unit 124.
[0129]
In the above embodiment, the consumer terminal 4 generates a control command according to the consumption adjustment message received from the power rate system selection / power consumption improvement support device 1 and transmits it to the electrical product 6. The present invention is not limited to this. Instead of generating the control command, the content of the consumption adjustment message may be output to an output device such as a display so as to notify the power consumer of the necessity for power saving.
[0130]
In the above embodiment, the usage charges included in the power charge system information are classified into two types, daytime and nighttime. However, the present invention is not limited to this. There may be one type of usage fee, or three or more types (for example, four types of early morning, daytime, nighttime, and midnight).
[0131]
Further, in the above embodiment, the power consumption pattern is configured to indicate the planned maximum power consumption and the planned power consumption amount in each time zone, but the planned maximum power consumption and the planned power consumption amount in each time zone. As long as it shows. For example, the maximum scheduled power consumption and the planned power consumption for each day of the week may be indicated. However, in this case, it is preferable that the types of usage charges are classified in units of days of the week such as weekdays and weekends.
[0132]
Furthermore, the above-described power charge system selection / power consumption improvement support device 1 may be configured by a plurality of devices. For example, the apparatus may be divided into an apparatus that performs an operation for selecting a power charge system and an apparatus that performs an operation for supporting an improvement in power consumption.
[0133]
【The invention's effect】
As described above, according to the present invention, a power consumer can select from various power charge systems. , Without exceeding contract capacity Fit for your own power consumption And cheapest Helps to select the electricity rate system. In addition, it is possible to support the electric power consumer so that the electric power can be consumed within the contracted electric power charge system.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of a power charge system selection / power consumption improvement support system to which an embodiment of the present invention is applied.
2 is a schematic configuration diagram of a wattmeter 5 shown in FIG.
3 is a schematic configuration diagram of the electrical product 6 shown in FIG. 1. FIG.
4 is a schematic configuration diagram of a consumer terminal 4 shown in FIG.
5 is a diagram showing an example of registered contents in a power consumption information storage unit 46 shown in FIG.
6 is a diagram showing an example of registered contents in the electrical product information storage unit 47 shown in FIG. 4. FIG.
7 is a diagram illustrating a hardware configuration example of the consumer terminal 4 illustrated in FIG. 1;
FIG. 8 is a schematic configuration diagram of the power charge system selection / power consumption improvement support apparatus 1 shown in FIG. 1;
9 is a diagram showing an example of registered contents in a power rate system information storage unit 121 shown in FIG.
10 is a diagram showing an example of registered contents in a power consumption pattern information storage unit 124 shown in FIG. 8. FIG.
FIG. 11 is a flowchart for explaining an operation of collecting power consumption information / electric product information in the power charge system selection / power consumption improvement support apparatus 1;
FIG. 12 is a flowchart for explaining an operation for selecting a power charge system in the power charge system selection / power consumption improvement support apparatus 1;
FIG. 13 is a flowchart for explaining the power consumption improvement support operation in the power charge system selection / power consumption improvement support apparatus 1;
FIG. 14 is a diagram for explaining a processing flow of a power charge system selection support service and a power consumption improvement support service performed using the power charge system selection / power consumption improvement support system shown in FIG. 1;
FIG. 15 is a flowchart for explaining an operation for selecting a power charge system for improvement proposal in the power charge system selection / power consumption improvement support apparatus 1;
FIG. 16 is a flowchart for explaining a modification example of the operation for selecting a power charge system in the power charge system selection / power consumption improvement support apparatus 1;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Electric power rate system selection / power consumption improvement support apparatus, 2 ... Home network system, 3 ... Network, 4 ... Consumer terminal, 5 ... Electricity meter, 6 ... Electrical product, 7 ... Network, 41 ... NI part, 42 ... NI unit, 43 ... electric power consumption management unit, 44 ... electric product information management unit, 45 ... control command generation unit, 46 ... electric power consumption information storage unit, 47 ... electric product information storage unit, 48 ... command information storage unit, 49 ... Instruction accepting unit 51 ... NI unit 52 ... Instrument main body 53 ... Measured value transmitting unit 61 ... NI unit 62 ... Device main unit 63 ... Control unit 100 ... Calculating unit 101 ... Power consumption information acquiring unit 102 DESCRIPTION OF SYMBOLS ... Electric product information acquisition part 103 ... Electricity consumption pattern setting part 104 ... Electricity charge system information search part 105 ... Electricity charge system calculation part 106 ... Electricity charge system information selection part 107 ... Consumption adjustment judgment part 10 ... Consumption adjustment message generation unit, 121 ... Power rate system information storage unit, 122 ... Power consumption information storage unit, 123 ... Electrical product information storage unit, 124 ... Power consumption pattern information storage unit, 125 ... Recommended power rate system information storage unit 126 ... Contract information storage unit 127 ... Consumption adjustment message storage unit 141 ... Input unit 142 ... Output unit 143 ... NI unit

Claims (5)

A power rate system selection support method that supports selecting a power rate system that matches a power consumer's power consumption situation from a plurality of power rate systems using a computer system,
In the storage device of the computer system,
For each of the plurality of power charge systems, includes contract capacity information indicating contract capacity, basic charge information indicating basic charge determined by the contract capacity, and use charge information indicating use charge in each period band per unit power amount It is stored electricity pricing information, and shows scheduled maximum power consumption information indicating an expected maximum power consumption in each period zone of the power consumer, and, the power consumption will amount in each period zone of the power consumer Power consumption pattern information including power consumption scheduled amount information is stored,
The computing device of the computer system includes:
The contracted capacity indicated by the contracted capacity information is the planned maximum power consumption information of the power consumption pattern information stored in the storage apparatus among all the power charge system information stored in the storage apparatus. A power rate system information search step for searching for a value larger than the planned maximum power consumption in each period ,
Said predetermined maximum power consumption information of the scheduled maximum power consumption in each period slot indicated, predetermined th power value larger expected maximum consumption (excluding first) of the power consumption pattern information stored in the storage device Specifying the power as the maximum power consumption for improvement proposal and specifying the maximum power consumption for improvement proposal for specifying the period band of the planned maximum power consumption larger than the maximum power consumption for improvement proposal as the period band to be improved; ,
The contract capacity indicated by the contract power information out of all the power rate system information stored in the storage device is greater than the maximum power consumption for improvement proposal specified in the maximum power consumption specification step for improvement proposal. Electricity rate system information search step for improvement proposal to search for large ones,
For each of the power rate system information detected in the power rate system information search step, according to the basic rate information included in the power rate system information, the basic rate indicated by the usage rate information, and the usage rate for each period , the storage Calculating a power charge for the scheduled power consumption in each period indicated by the scheduled power consumption information of the power consumption pattern information stored in a device ;
A power charge calculating step of calculating a power charge by adding a basic charge specified by the basic charge information to a total amount of power charge for the calculated power consumption planned amount of each period period ;
For each of the power rate system information detected in the power rate system information search step for improvement proposal, the consumption of each period indicated by the power consumption schedule information using the usage fee of each period indicated by the usage charge information. Calculate the power charge for the planned power consumption, add the basic charge specified by the basic charge information to the calculated total power charge for the planned power consumption for each period, Power charge calculation step for improvement proposal to calculate the charge;
The cheapest power charge is identified from the power charges calculated in the power charge calculation step, and the power charge structure information corresponding to the specified power charge is stored in the power charge structure conforming to the power consumption situation of the power consumer. As a power charge system information, a power charge system selection step stored in the storage device;
The cheapest improvement proposal power charge is identified from the improvement proposal power charges calculated in the improvement proposal power charge calculation step, and the power charge system information corresponding to the identified power charge is determined as the improvement proposal. A power charge system selection support characterized by performing an improvement proposal power charge system selection step stored in the storage device together with the improvement target period band specified in the maximum power consumption specifying step Method. A method for supporting selection of a power rate system according to claim 1,
The computer system is connected via a network to a power meter that measures the power consumption of the power consumer,
The computing device of the computer system includes:
A measurement value monitoring step for monitoring the measurement value of the power meter;
Based on the monitoring result in the measurement value monitoring step, the scheduled maximum power consumption and the planned power consumption of the power consumer are determined, and the planned maximum power consumption information and consumption indicating the determined planned maximum power consumption and planned power consumption A method for supporting selection of a power charge system, further comprising: generating power consumption pattern information including scheduled power amount information and storing the power consumption pattern information in the storage device. A method for supporting selection of a power rate system according to claim 1,
In the storage device of the computer system,
For each combination of family structure, life pattern and residential environment, a power consumption pattern search table indicating the planned maximum power consumption and the planned power consumption is stored.
The computing device of the computer system includes:
A consumer information reception step for receiving information on the family structure, life pattern and residential environment of the power consumer;
The planned maximum power consumption and the planned power consumption corresponding to the combination of the family structure, life pattern and residential environment received in the consumer information reception step are searched from the power consumption pattern search table, and the detected planned maximum power consumption and Generating the power consumption pattern information including the scheduled maximum power consumption information indicating the planned power consumption amount and the planned power consumption amount information, and storing the power consumption pattern information in the storage device. Selection support method for electricity rate system. A power rate system selection support device that supports selecting a power rate system that suits the power consumption situation of a power consumer from a plurality of power rate systems,
A storage device, an arithmetic device, and an output device;
In the storage device,
For each of the plurality of power charge systems, includes contract capacity information indicating contract capacity, basic charge information indicating basic charge determined by the contract capacity, and use charge information indicating use charge in each period band per unit power amount It is stored electricity pricing information, and shows scheduled maximum power consumption information indicating an expected maximum power consumption in each period zone of the power consumer, and, the power consumption will amount in each period zone of the power consumer Power consumption pattern information including power consumption scheduled amount information is stored,
The arithmetic unit is
The contracted capacity indicated by the contracted capacity information is the planned maximum power consumption information of the power consumption pattern information stored in the storage apparatus among all the power charge system information stored in the storage apparatus. Power rate system information search processing for searching for a value larger than the planned maximum power consumption in each period shown,
Said predetermined maximum power consumption information of the scheduled maximum power consumption in each period slot indicated, predetermined th power value larger expected maximum consumption (excluding first) of the power consumption pattern information stored in the storage device A maximum power consumption specifying process for improvement proposal for specifying power as a maximum power consumption for improvement proposal and specifying a period band of planned maximum power consumption larger than the maximum power consumption for improvement proposal as a period band for improvement; ,
The contract capacity indicated by the contract power information among all the power charge system information stored in the storage device is more than the maximum power consumption for improvement proposal specified by the maximum power consumption specification process for improvement proposal. Power rate system information search processing for improvement proposals to search for large ones,
For each of the power rate system information detected in the power rate system information search process, the basic rate information included in the power rate system information, the basic rate indicated by the usage rate information, and the usage rate for each period are stored in the memory. and processing for calculating a power rate for the power consumption will amount for each period slot indicated the consumption schedule amount information of the power consumption pattern information stored in the device,
A power charge calculation process for calculating a power charge by adding a basic charge specified by the basic charge information to a total power charge for the calculated power consumption for each period of time ,
For each of the power rate system information detected by the power rate system information search process for improvement proposal, the usage fee of each period indicated by the usage fee information is used, and the consumption of each period indicated by the power consumption schedule information. Calculate the power charge for the planned power consumption, add the basic charge specified by the basic charge information to the calculated total power charge for the planned power consumption for each period, Power charge calculation process for improvement proposal to calculate charge,
The cheapest power charge is identified from the power charges calculated in the power charge calculation process, and the power charge structure information corresponding to the specified power charge is stored in the power charge structure conforming to the power consumption situation of the power consumer. As a power charge system information, a power charge system selection process stored in the storage device,
The cheapest improvement proposal power charge calculated from the improvement proposal power charge calculation processing in the improvement proposal power charge calculation process is specified, and the power charge system information corresponding to the specified power charge is determined as the improvement proposal. A power charge system selection support device for performing improvement proposal power charge system selection processing stored in the storage device together with the improvement target period band specified in the maximum power consumption specification processing for use . A computer-readable program,
In the storage device of the computer system,
For each of the plurality of power charge systems, includes contract capacity information indicating contract capacity, basic charge information indicating basic charge determined by the contract capacity, and use charge information indicating use charge in each period band per unit power amount It is stored electricity pricing information, and shows scheduled maximum power consumption information indicating an expected maximum power consumption in each period zone of the power consumer, and, the power consumption will amount in each period zone of the power consumer Power consumption pattern information including power consumption scheduled amount information is stored,
The program is stored in a computing device of the computer system.
The contracted capacity indicated by the contracted capacity information is the planned maximum power consumption information of the power consumption pattern information stored in the storage apparatus among all the power charge system information stored in the storage apparatus. A power rate system information search step for searching for a value larger than the planned maximum power consumption in each period ,
Said predetermined maximum power consumption information of the scheduled maximum power consumption in each period slot indicated, predetermined th power value larger expected maximum consumption (excluding first) of the power consumption pattern information stored in the storage device Specifying the power as the maximum power consumption for improvement proposal and specifying the maximum power consumption for improvement proposal for specifying the period band of the planned maximum power consumption larger than the maximum power consumption for improvement proposal as the period band to be improved; ,
The contract capacity indicated by the contract power information out of all the power rate system information stored in the storage device is greater than the maximum power consumption for improvement proposal specified in the maximum power consumption specification step for improvement proposal. Electricity rate system information search step for improvement proposal to search for large ones,
For each of the power rate system information detected in the power rate system information search step, according to the basic rate information included in the power rate system information, the basic rate indicated by the usage rate information, and the usage rate for each period , the storage Calculating a power charge for the scheduled power consumption in each period indicated by the scheduled power consumption information of the power consumption pattern information stored in a device ;
A power charge calculating step of calculating a power charge by adding a basic charge specified by the basic charge information to a total amount of power charge for the calculated power consumption planned amount of each period period ;
For each of the power rate system information detected in the power rate system information search step for improvement proposal, the consumption of each period indicated by the power consumption schedule information using the usage fee of each period indicated by the usage charge information. Calculate the power charge for the planned power consumption, add the basic charge specified by the basic charge information to the calculated total power charge for the planned power consumption for each period , Power charge calculation step for improvement proposal to calculate the charge;
The cheapest power charge is identified from the power charges calculated in the power charge calculation step, and the power charge structure information corresponding to the specified power charge is stored in the power charge structure conforming to the power consumption situation of the power consumer. As a power charge system information, a power charge system selection step for outputting to the output device of the computer system,
The cheapest improvement proposal power charge is identified from the improvement proposal power charges calculated in the improvement proposal power charge calculation step, and the power charge system information corresponding to the identified power charge is determined as the improvement proposal. An improvement proposal power charge system selection step stored in the storage device, together with the improvement target period band specified in the maximum power consumption specification step for use .

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