JP2004362326A - Energy service management device and energy consumption management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system for managing power, consumption of energy such as fuel gas and its rate, by an individual unit of a user instead of the unit of housing, building and facilities. <P>SOLUTION: A power consumption measuring device has an input unit for the user to input instructions, an ID card reading part for reading an ID card of the user, an electric energy measuring part for measuring an electric energy consumption, and a communication part for communicating data with a power consumption management computer via a communication line. The measuring device transmits personal identification information registered in the ID card, which is read by the ID card reading part, and the power consumption to the power consumption management computer through the communication line. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a system for managing the amount of energy used such as electric power and fuel gas by a computer.
[0002]
[Prior art]
The amount of electric power and fuel gas used is measured by an integrator provided at a use site such as a house, a building, or a facility. An integrated value detected by the integrator is periodically measured by a meter reading person or a remote meter reading device, and an increase in the integrated value is calculated as a usage amount.
[0003]
The electricity and fuel gas charges are calculated by a computer according to a specific charge menu contracted by the licensee and billed to the licensee on a monthly basis. The electricity tariff system generally employs a pay-as-you-go system, which increases in proportion to the usage.
[0004]
Japanese Patent Application Laid-Open No. 9-304439 describes an automatic power measurement and management system including a power reading device installed on a power consumer side and an information processing device installed on a power supply side. In this system, power consumption is measured by a power reading device, and a power fee is collected by a magnetic card, a credit card, a prepaid card, or the like.
[0005]
[Patent Document 1]
JP-A-9-304439
[0006]
[Problems to be solved by the invention]
Conventionally, power and fuel gas are managed in units of houses, buildings, facilities, and the like in which an integrator is installed, and are not managed for each individual who uses them. Therefore, the amount of power and fuel gas used in a house, building, facility, and the like can be grasped, but the amount of power and fuel gas used by an individual user cannot be grasped. Even in the system described in Japanese Patent Application Laid-Open No. 9-304439, the power consumption and the power usage fee are not managed for each individual user.
[0007]
In recent years, global-scale environmental pollution has become a problem, and as one of the causes, attention has been paid to carbon dioxide emissions. However, at present, it is possible to calculate the carbon dioxide emissions in units of power plants, factories, plant facilities, and the like, but there is no means for grasping the carbon dioxide emissions at the individual level.
[0008]
An object of the present invention is to provide a system capable of managing the amount of use of energy, such as electric power and fuel gas, and the charge in units of individual users, not in units of houses, buildings, or facilities.
Still another object of the present invention is to provide a system capable of grasping and managing carbon dioxide emissions on an individual basis.
[0009]
[Means for Solving the Problems]
According to the present invention, the energy use management device includes a personal identification information input unit for inputting personal identification information of a user, an energy use measurement unit for measuring energy use, and an energy use amount via a communication line. A communication unit for exchanging data with a management computer, wherein the communication unit is connected to the personal identification information of the user input from the personal identification information input unit and the energy usage measured by the energy usage measurement unit. To the energy usage management computer.
The personal identification information input unit may include an ID card reading unit that reads the user's personal identification information from the user's ID card.
[0010]
The energy usage management computer has a database for each subscriber, and registers the energy usage data transmitted from the energy usage management device installed at the energy usage site in the database of the subscriber.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
An example of a power consumption management system according to the present invention will be described with reference to FIG. The power consumption management system of this example includes a power consumption measuring device 1 having personal identification information or a contractor ID input function installed at each site and a power consumption management computer 3, both of which are connected via a communication line 4. Connected. The power consumption management computer 3 is managed by a power company or a power service management company. The power service management company undertakes a part of its business from one or more power companies, in particular, the business related to the collection of power charges. In the example of FIG. 1, the power service management company has concluded a business outsourcing contract with the A power company that supplies power to the area A and the B power company that supplies power to the area B.
[0012]
The power consumption measuring device 1 has a function of communicating data with the power consumption management computer 3, a function of inputting personal identification information or a contractor ID, a function of measuring power consumption, and supplying and shutting off power from a distribution line. It has a function to do. An example of the configuration of the power usage measuring device 1 will be described later with reference to FIG.
[0013]
Here, as a function for inputting personal identification information or a contractor ID, an ID card reader / writer that reads the ID card 2 will be described as an example. That is, the power consumption measuring device 1 has a function of an ID card reader / writer. The ID card 2 may be an IC (integrated circuit) card. As a function for inputting personal identification information, various functions other than the ID card are possible. A magnetic card storing only ID information that can be associated with the customer information of the power user may be used, and an input device capable of inputting an ID number for inquiring the subscriber database is provided in the power consumption measuring device 1. You may.
[0014]
When a user signs a power use contract with a power company or a power service management company, an ID card 2 is given as a means for identifying a power use qualification. The ID card 2 stores information such as a contractor name, a contractor number, a contracted power company name, a contract start time, and a contract period.
[0015]
First, the user causes the power consumption measuring device 1 to read the contractor ID registered in the ID card 2 at a place where power is used. The power usage measuring device 1 transmits the read contractor ID to the power usage management computer 3 together with the identification number of the power usage measuring device 1. The power usage management computer 3 determines whether the user has the power usage qualification based on the contractor ID. If the power usage management computer 3 determines that there is a power usage qualification, the power usage management computer 3 transmits a power supply start command to the power usage measurement device 1. The power usage measuring device 1 starts power supply, transmits the power usage start date and time to the power usage management computer 3, and starts measuring the power usage. Thereafter, the user can use the electric power as needed.
[0016]
When ending the use of the electric power, the user performs a predetermined operation. The power usage measuring device 1 transmits the power usage data to the power usage management computer 3 via the communication line 4 together with the contractor ID and the identification number of the power usage measuring device 1. The power usage data includes a measurement date and time, a power usage start date and time, a power usage end date and time, and a power usage amount.
[0017]
The power usage management computer 3 calculates the power usage, the power fee, and the carbon dioxide emission based on the data transmitted from the power usage measuring device 1. The electric power consumption, the electric charge, and the carbon dioxide emission amount are calculated for each contractor and stored in the database of each contractor. The function of the power consumption management computer 3 will be described later in detail.
[0018]
The power usage management computer 3 transmits the power usage, the power rate, and the carbon dioxide emission to the power usage measuring device 1. The power consumption measuring device 1 displays the power consumption, the power fee, and the carbon dioxide emission amount on the display unit, and records the power consumption measurement device 1 on the ID card 2 together with the identification number of the power consumption measurement device 1. At any time, the user can read the power usage, the power fee and the carbon dioxide emission written on the ID card 2.
[0019]
According to this example, if the user has the ID card given by the electric power company or the electric power service management company, the user can, at any time, in any different place, building, or facility within the jurisdiction of the contracted electric power company. Power can be used when needed and power can be terminated at any time. The power usage is transmitted to the power usage management computer and integrated. Even if the user uses power in a plurality of different places, the power company charges the user, that is, the individual owner of the ID card, for a charge for the accumulated power usage.
[0020]
If the power service management company has contracted for the collection of power usage charges of a plurality of power companies, the user can make a contract to use the power of the plurality of power companies. The power service management company gives the user an ID card that can use the power of a plurality of power companies. The user uses the power of the A power company in the area A, and uses the power of the B power company in the area B. The electric power service management company collects a charge for the accumulated electric power consumption for each user.
[0021]
With the liberalization of the electric power business, the electric power company will carry out the power generation business, and the distribution and electricity division, which has been separated, will carry out the distribution power business. In such a case, the power service management company undertakes not the business of the power company but the business of the distribution power department.
[0022]
According to this example, since the electric power rate is imposed on the individual user, in the case of equipment that is frequently replaced by the user, the procedure and work for changing the contract can be reduced.
Furthermore, since the power consumption of small users can be managed collectively, not only can the fee payment procedure be reduced, but there is no need to duplicate the basic fee, so the amount of the electricity fee paid can be substantially reduced. Can be reduced. For example, by installing the power management system according to the present invention in a temporary inn, a hotel, a short-term rental room, or the like, only a fee corresponding to the power consumption is charged to the power user.
[0023]
Further, the electric power company prepares various fee menus, so that the user can select an optimal fee menu according to a use mode. Thereby, there is an advantage that the facility operation rate can be improved.
[0024]
For example, a charge system may be set up in which a user who uses a plurality of houses at the same time does not have to pay a fixed amount such as a basic charge for each house facility.
[0025]
Furthermore, if an electric power distribution line and an electric energy integrating device are installed in an outdoor facility, the amount of use on an individual basis can be easily grasped, and the inconvenience of installing a portable generator for each user is eliminated. .
[0026]
An example of the energy usage management system according to the present invention will be described with reference to FIG. The energy usage management system of this example is different from the power usage management system of FIG. 1 in that not only power but also energy usage including fuel gas is managed for each individual. The energy consumption management system of this example includes a power consumption measurement device 1 and a gas consumption measurement device 5 having a function of inputting personal identification information and a contractor ID installed at each site, and an energy consumption management computer 6. Both are connected via a communication line 4. The energy usage management computer 3 is managed by a power company, a gas company or an energy service management company. The energy service management company undertakes some of its operations from one or more utilities and gas companies, in particular operations relating to the collection of tolls.
[0027]
The power usage measuring device 1 may have the same function as the power usage measuring device 1 shown in FIG. The gas usage measuring device 5 has a function of communicating data with the energy usage management computer 3, a function of reading data of an ID card, a function of writing data on an ID card, a function of measuring fuel gas usage, and a city gas supply pipe. Alternatively, it has a function of supplying and shutting off fuel gas from the liquefied gas temporary storage device.
[0028]
The user makes a power use contract and a gas use contract with a power company, a gas company or an energy service management company, and is given the ID card 2 as a means for identifying the power use qualification and the gas use qualification. When a user uses electric power, it is the same as the example of FIG. Here, a case where the user uses gas will be described. When the user uses gas, it is basically the same as when using electric power. First, the user causes the gas usage measuring device 5 to read the ID card 2 at a place where gas is used. The gas usage measuring device 5 determines whether or not the user has a gas usage qualification based on the read data. If it is determined that the user is qualified to use gas, the supply of gas is started, and the measurement of gas usage is started. Thereafter, the user can use the gas as needed.
[0029]
When ending use of gas, the user performs the same operation as when ending use of gas. The gas usage measuring device 5 transmits the gas usage data together with the contractor ID and the identification number of the gas usage measuring device 5 to the energy usage management computer 6 via the communication line 4. The gas use data includes a measurement date and time, a gas use start date and time, a gas use end date and time, and a gas use amount.
[0030]
The energy usage management computer 6 will be described. The energy usage management computer 6 of the present example includes an individual data file for managing the power usage, the power usage fee, the gas usage amount, and the gas usage fee for each individual. The individual data file stores personal information of the energy user and usage information of power and gas. The personal information of the energy user may be the same as the personal information of the power user in FIG. The power usage information may be the same as the power usage information of FIG. The gas usage information includes the gas usage transmitted from the gas usage measurement device, the date and time of start and end of use (time information), the identification number of the gas usage measurement device, the installation position of the gas usage measurement device, etc. including.
[0031]
The energy usage management computer 3 has a function of calculating a power rate and a gas rate. The energy usage management computer 3 further has a function of calculating the total energy usage from the power usage and the gas usage, and further calculating the carbon dioxide emission. Carbon dioxide emissions are determined by multiplying the total energy by a coefficient.
[0032]
The energy usage management computer 6 measures the power usage currently used by the user via the communication line 4 based on the power usage and the power rate, the gas usage and the gas rate, the total energy usage and the carbon dioxide emission. The information is transmitted to the device 1 or the gas usage measuring device 5. The user can write these data transmitted from the energy usage management computer 6 into the ID card 2. The user can read the data written on the ID card 2 at any time.
[0033]
The energy usage management computer 6 may further have a function of performing various analyzes using the power usage and the gas usage. For example, a time-dependent change in individual energy use is obtained, and the energy use state is analyzed. An integrated value of the energy usage in a predetermined period is obtained, and the calculated value is compared with a specific reference value to determine whether the energy usage is higher or lower than the reference value. By transmitting the analysis result to the user in this way, the user can be provided with an awareness of the use of energy or an opportunity to reflect on the use of the energy, and can provide reference data for future policies, plans, and the like.
[0034]
According to this example, the energy use of each user can be centrally managed by an energy service management company or an energy service provider instead of being separately managed by a power company and a fuel gas company. Therefore, since each user can grasp the total amount of energy used by himself / herself, it is possible not only to reduce the form of inefficient use of energy and to reduce energy charges, but also as a measure against global warming. Greenhouse gas emissions can be managed.
[0035]
FIG. 3 is an explanatory diagram of a data flow from the power consumption measuring device 1. The user performs an operation to start using the power consumption measuring device 1 at the time of starting the power use. The power consumption measuring device 1 reads the ID card 2 and transmits the personal information of the contractor registered in the ID card 2 or the contractor ID to the power consumption management computer 3 via the communication line 4. The power usage management computer 3 confirms the power usage qualification of the contractor based on the contractor's personal information or the contractor ID, and transmits a power supply command to the power usage measuring device 1.
[0036]
The power consumption measuring device 1 transmits measurement data to the power consumption management computer 3 together with the contractor ID at the start of power use, at the end of each month, and at the end of power use. The measurement data includes the measurement date and time, the power use start date and time, the power use end date and time, the power consumption, the identification number of the power consumption measurement device, and the power use location.
[0037]
The user performs a use end operation on the power consumption measuring device 1 at the end of the power use. The power consumption measuring device 1 reads the ID card 2 and transmits the contractor's personal information registered in the ID card 2 to the power consumption management computer 3 via the communication line 4. The power consumption management computer 3 refers to the contractor's database file based on the contractor ID, confirms the contractor's power use eligibility, and transmits a power supply cutoff command to the power consumption measurement device 1.
[0038]
The power consumption measuring device 1 may have a function of writing the ID card 2 as well as a function of reading the ID card 2. All or some of the information transmitted from the power usage measuring device 1 to the power usage management computer 3 may be written to the ID card 2.
[0039]
The operation of reading and writing the ID card 2 by the power consumption measuring device 1 differs depending on the structure of the ID card reader / writer provided in the power consumption measuring device 1. For example, when the ID card 2 is inserted into the power usage measuring device 1 when power is used, and when the power is being used, the ID card 2 is kept inserted in the power usage measuring device 1 and the power usage ends. Alternatively, the ID card 2 may be taken out of the power consumption measuring device 1. Alternatively, the ID card 2 is read by the power usage measuring device 1 when using the electric power, and the electric power user holds the ID card 2 while using the electric power and ends the use of the electric power. May be read by the power consumption measuring device 1.
[0040]
With reference to FIG. 4, a configuration example of a power consumption measuring device having a function of inputting personal identification information and a contractor ID will be described. The power consumption measuring device of the present example includes a current control switch (breaker) 8, a power consumption measuring device 9, and a power consumption management device 16 as a user interface. The current control switch (breaker) 8 is a switch that supplies or cuts off electric power from the distribution line 18, and may be a commercially available breaker. When a switching signal is received from the power usage management device 16 via the control signal communication line 13, the switch opens and closes. When the switch is closed, power is supplied, and when the switch is opened, power supply is stopped. The electric energy measuring device 9 generates a pulse proportional to the electric energy and outputs the pulse via the control signal communication line 15. A wireless LAN may be used instead of the communication lines 13 and 15. The electric energy measuring device 9 may be a device which is commercially available as an ordinary integrator.
[0041]
The power usage management device 16 includes a display unit 101, an operation switch 102, an ID card reader / writer unit 103, a power service pulse processing unit 104, a data processing unit 105, and a communication unit 106. The display unit 101 displays an operation menu, transmission or reception data, various input or selection items, and the like. The operation switch 102 includes a power use start switch, a power use end switch, a transmission button, a numeric key, and the like. The ID card reader / writer 103 reads or writes the ID card 2. Here, when the ID card is an IC card, the ID card reader / writer 103 is configured by a contact type or non-contact type IC card reader / writer.
[0042]
The electric energy service pulse processing unit 104 counts the pulse signals transmitted from the electric energy measuring device 9 and obtains the electric energy. The data processing unit 105 converts signals from the ID card reader / writer unit 103 and the electric energy service pulse processing unit 104 into transmittable signals. Further, the data processing unit 105 converts the signal transmitted from the power consumption management computer 3 and transmits the signal to the current control switch 8, the display unit, or the ID card reader / writer unit 103. The communication unit 106 exchanges data with the power consumption management computer 3 via the communication line 4.
[0043]
FIG. 5 is an explanatory diagram of a method of installing a power consumption measuring device having a function of inputting personal identification information or a contractor ID according to the present embodiment on site. The power usage management device 16 is disposed indoors, and the power usage measurement device 9 having the power usage measurement function and the current control switch (breaker) 8 having the power supply control function are disposed outside the room. The power consumption measuring device 9 and the current control switch (breaker) 8 are connected via a control signal communication line 15.
[0044]
The power consumption measuring device 9 is installed on the outside wall of the facility at a site where the distribution line 18 can be easily pulled in at the site. From there, the power line 14 penetrates the outer wall and enters the room, becomes the indoor power line 14, and is connected to the outlet 17.
[0045]
On the other hand, the power usage management device 16 may be configured as a wall-mounted type so that the power user can conveniently use the ID card 2. When the current control switch (breaker) 8 and the electric energy measuring device 9 are already installed, the electric power consumption measuring device of the present invention can be realized by additionally installing only the electric power use managing device 16. Thereby, the facility provided with the existing current control switch (breaker) 8 and the electric energy measuring device 9 can be converted to a facility using the electric power consumption measuring device according to the present invention.
[0046]
FIG. 6 is an explanatory diagram showing a flow of measurement by the power consumption measuring device. In step S1, the user causes the ID card reader / writer 103 of the power usage management device to read the ID card. The read data is transmitted to the power consumption management computer 3 via the data processing unit 105 and the communication line 4.
[0047]
In step S2, when the power usage management computer 3 confirms that the user is a person who has power usage qualification, the power usage management computer 3 sends a signal indicating permission of power usage to the power usage management device 16 via the communication line 4. Send “Use OK” is displayed on the display unit 101.
[0048]
In step S3, the user presses a use start switch.
In step S4, the power usage management device generates a close signal of the current control switch 8.
[0049]
In step S5, power line circuit 14 is closed, and power is supplied to outlet 17. In step S6, power is supplied to the load connected to the outlet 17. In step S7, when power is supplied, the power measuring device 9 generates a power service pulse. The electric energy service pulse processing unit 104 counts the electric energy service pulses and calculates an integrated electric energy. The display unit 101 displays the power consumption. The display unit 101 may display the integrated value of the use start time and the current power consumption, or may display the net power consumption from the use start time to the present.
[0050]
In step S8, the user ends the use of the electric power and operates the stop switch. In step S9, the power usage management device generates an open signal for the current control switch 8.
[0051]
In step S10, the power line circuit 14 is opened, and the supply of power to the outlet 17 is stopped. In step S11, power supply to the load connected to the outlet 17 is stopped. At this point, the final power consumption is determined.
[0052]
In step S12, the determined power consumption is transmitted from the data processing unit 105 to the power consumption management computer 3 via the communication line 4 together with the user ID information. When confirming that the use of power has been completed, the power usage management computer 3 returns a confirmation signal to the power usage management device. When the data processing unit 105 of the power usage management device receives the confirmation signal returned from the power usage management computer 3, the data processing unit 105 displays on the display unit 101 that the power usage has been registered in the database.
In step S13, the user causes the ID card reader / writer 103 of the power usage management device to write power usage data to the ID card.
[0053]
FIG. 7 is an explanatory diagram of the flow of data processing in the power consumption management computer. The power usage management computer converts the power usage data 19 transmitted from the power usage measurement device 1 with the personal identification information input function installed at the power usage site into a contractor ID and an identification number of the power usage measurement device 1. Along with receiving. The power usage data 19 includes a measurement date and time, a power usage start date and time, a power usage end date and time, and a power usage amount.
[0054]
The power usage management computer first executes the individual power usage information processing 20. Based on the contractor ID transmitted from the power consumption measuring device 1, the power consumption management contractor information data 24 is searched and a data file of the contractor is extracted. Details of the contractor's data file are shown in FIG. Next, in the power consumption recording process 21, the transmitted power usage data 19 is recorded in the contractor's data file.
[0055]
In a power rate calculation process 22, the power rate is calculated from the power usage. The power rate is calculated by referring to the rate system of the contractor and the discount contract accompanying the contract from the power contract rate menu data 25 for each power company.
[0056]
Next, in a carbon dioxide emission calculation process 23, the carbon dioxide emission is calculated from the electric power consumption. The carbon dioxide emission coefficient is referred to from the carbon dioxide emission data 26 for each power company, and is multiplied by the power consumption.
[0057]
The thus obtained electric power consumption, electric power charge, and carbon dioxide emission are stored in the data file of the contractor. The contractor data file 27 is stored in the master file of the power consumption management data 28.
[0058]
FIG. 8 is an explanatory diagram of the flow of data processing in the energy usage management computer. The energy usage management computer converts the power usage data 19 transmitted from the power usage measurement device 1 with the personal identification information input function installed at the power usage site into a contractor ID and an identification number of the power usage measurement device 1. Along with receiving. The power usage data 19 includes a measurement date and time, a power usage start date and time, a power usage end date and time, and a power usage amount. The energy usage management computer converts the gas usage data 29 transmitted from the gas usage measurement device 5 having a personal identification information input function installed at the gas usage site into a contractor ID and an identification number of the gas usage measurement device 5. Along with receiving. The gas use data 29 includes a measurement date and time, a gas use start date and time, a gas use end date and time, and a gas use amount.
[0059]
The energy usage management computer first executes the individual gas use information processing 30 and the individual power use information processing 20. Based on the contractor ID transmitted from the gas consumption measuring device 5 and the power consumption measuring device 1, the energy consumption management contractor information data 34 is searched, and a data file of the contractor is extracted. Details of the contractor's data file are shown in FIG. Next, in the energy usage recording process 31, the transmitted gas usage data 29 and power usage data 19 are recorded in the data file of the contractor.
[0060]
In an energy charge calculation process 32, an energy charge is calculated from the gas usage and the power usage. From the contract fee menu data 35 for each gas company and electric power company, the energy fee is calculated with reference to the contractor's fee system and the discount contract accompanying the contract.
[0061]
Next, in the individual carbon dioxide emission calculation process 33, the carbon dioxide emission is calculated from the energy consumption. The carbon dioxide emission coefficient is referred to from the carbon dioxide emission data 36 for each gas company and each electric power company, and is multiplied by the gas usage amount and the power usage amount, respectively, to obtain the sum.
[0062]
The energy usage data 37 including the energy usage, the energy fee, and the carbon dioxide emission thus obtained is stored in the data file of the contractor. The contractor's data file is stored in the master file of the energy usage management data 38.
[0063]
FIG. 9 is a diagram illustrating a configuration example of a database stored in the power consumption management computer. Here, a method of storing monthly data will be described. The data recorded in the database includes personal information data and power usage data concerning the contractor, period and monthly power consumption, period and monthly power charges, period and monthly carbon dioxide emission, and the like.
(1) At the time of the first contract, a contractor database file is created, and a contractor ID is assigned to each contractor.
(2) A contractor name, a contractor address, and a charge menu are recorded as personal information data. In addition, the date of birth, work place, contact telephone, etc. may be recorded.
(3) The power usage data includes the measurement date and time, the power usage start date and time, the power usage end date and time, the power usage, the identification number of the power usage measurement device, and the power usage transmitted from the power usage measurement device at the power usage site. Including location.
The measurement date and time may be the power use start date and time, the power use end date and time, and the last day of every month. The power consumption is a value obtained by subtracting the previous measurement value from the current measurement value of the integrated value of the power consumption measurement device. The period power fee is the amount of power used during the period from the start of power use to the end of use, and the period carbon dioxide emission is the amount of carbon dioxide emissions during that period.
(4) The monthly power consumption is an integrated value of the monthly power consumption.
(5) The monthly power rate is calculated based on the contracted rate menu.
(6) Monthly carbon dioxide emission is obtained by multiplying monthly power consumption by a carbon dioxide emission coefficient.
When obtaining annual data in the power consumption management by contractor, monthly data is totaled and recorded as annual data.
[0064]
According to the present invention, a user can accurately grasp his / her own energy consumption, and can consider an environmental problem based on his / her own energy consumption.
Energy supply companies such as electric power companies and gas companies can provide fee menus and value-added services for each user. For example, an advantageous service fee structure is applied to a user who uses an appropriate amount of energy, and a mode and use of energy is applied to a user who uses a large amount of energy so that the amount of energy used can be appropriately suppressed. It is possible to provide consultant information on equipment and the like.
[0065]
Energy supply companies such as electric power companies and gas companies can reduce the number of procedures and operations for changing contracts by introducing this system to equipment that is frequently replaced by users. In addition, since the power consumption of retail users can be managed collectively, it is possible to integrate the retail electricity billing procedure and add a personalized fee menu according to the usage, thereby improving the facility operation rate. .
[0066]
Further, there is an effect that an operator who needs to use a plurality of houses, buildings, facilities and the like at the same time is released from an improper charge burden of accumulating and paying a fixed amount portion. Furthermore, in an outdoor facility where a power distribution line and a power amount integrating device are installed, by providing the power usage measuring device according to the present invention, it is possible to grasp the power consumption on an individual basis, and for each user, This has the effect of eliminating the inconvenience of installing the portable power generator.
[0067]
As described above, the example of the present invention has been described. However, the present invention is not limited to the above-described example, and it is obvious to those skilled in the art that various modifications can be made within the scope of the invention described in the claims. Will be understood.
[0068]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, there exists an effect which can manage the electric power or fuel gas consumption and charge for every individual.
ADVANTAGE OF THE INVENTION According to this invention, there exists an effect which can manage the carbon dioxide emission amount for every individual.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a power consumption management computer system according to the present invention.
FIG. 2 is an explanatory diagram of an energy usage management computer system according to the present invention.
FIG. 3 is an explanatory diagram showing a flow of data from a power consumption measuring device.
FIG. 4 is an explanatory diagram of components of a power usage measuring device.
FIG. 5 is an explanatory diagram of a method of installing a power consumption measuring device on site.
FIG. 6 is an explanatory diagram of a measurement flow of the power consumption measuring device.
FIG. 7 is an explanatory diagram of a flow of data processing in the power consumption management computer.
FIG. 8 is an explanatory diagram of a flow of data processing in the energy usage management computer.
FIG. 9 is an explanatory diagram of a data configuration of a power consumption management computer.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Power consumption measurement device, 2 ... ID card, 3 ... Power consumption management computer, 4 ... Communication line, 5 ... Gas consumption measurement device, 6 ... Energy consumption management computer, 7 ... ID card, 8 ... Electric current Control switch (breaker), 9: electric energy measuring device, 13: control signal communication line, 14: power line, 15: control signal communication line, 16: power use management device, 17: outlet, 18: distribution line, 19 ... Power use information, 20 power use information processing, 101 display unit, 102 operation keys, 103 ID card reader / writer unit, 104 power amount service pulse processing unit, 105 data processing unit, 106 communication unit

Claims (11)

A personal identification information input unit for inputting personal identification information of a user, an energy consumption measuring unit for measuring energy consumption, and a communication unit for communicating data with the energy consumption management computer via a communication line. The communication unit transmits the personal identification information of the user input from the personal identification information input unit and the energy usage measured by the energy usage measurement unit to the energy usage management computer. An energy use management device characterized by the above-mentioned. 2. The energy use management device according to claim 1, wherein the personal identification information input unit includes an ID card reading unit that reads the user's personal identification information from the user's ID card. 2. The energy use management device according to claim 1, wherein an energy supply signal is generated based on a permission signal transmitted from the energy use amount management computer when the user starts using energy, and the energy supply signal is supplied to the energy supply device. An energy use management device, which is transmitted to the device. 2. The energy use management device according to claim 1, wherein when the user finishes using the energy, an energy cutoff signal is generated based on the permission signal transmitted from the energy use management computer, and the energy cutoff signal is supplied. An energy use management device, which is transmitted to the device. 2. The energy use management device according to claim 1, wherein the energy use amount measurement unit counts a pulse signal transmitted from the integrator and measures the energy use amount from a cumulative value of the pulse signal. Usage management device. 2. The energy use management device according to claim 1, further comprising a display device for displaying the energy use amount and the energy fee transmitted from the energy use amount management computer. 7. The energy use management device according to claim 6, wherein the display device displays the carbon dioxide emission transmitted from the energy use management computer. 2. The energy use management device according to claim 1, wherein the ID card reading unit has a function of writing energy use data including the energy use amount transmitted from the energy use amount management computer to the ID card. Energy use management device. An input processing unit for inputting energy usage data including the energy usage transmitted from the energy usage management device installed at the energy usage site; an energy fee calculation processing unit for calculating an energy fee based on the energy usage; It has a carbon dioxide emission calculation processing unit that calculates carbon dioxide emissions based on the energy usage, and a database for each contractor that registers data for each contractor. An energy consumption management system configured to register the carbon dioxide emission amount in the database for each contractor. 10. The energy use management system according to claim 9, wherein when the energy use start request is received from the energy use management device, the energy use of the user is based on the personal identification information of the user transmitted from the energy use management device. A qualification is determined, and when it is determined that the user has the energy use qualification, an energy use permission signal is transmitted to the above-mentioned energy use management device. An energy use management system, wherein an energy use non-permission signal is transmitted to the system. An energy use qualification determining step of determining whether or not the user has an energy use qualification based on the personal identification information of the user transmitted from the energy use management device installed at the energy use site; An energy use permission step of transmitting an energy use permission signal to the energy use management device when it is determined that the user has the energy use qualification; and calculating an energy fee based on the energy use amount transmitted from the energy use management device. An energy charge calculating step, a carbon dioxide emission calculating step of calculating carbon dioxide emission based on the energy usage, and registering the energy usage, the energy fee and the carbon dioxide emission in a database for each subscriber. A registration step, and a program for causing a computer to execute the registration step.

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