JP2002359925A - Transaction system for power data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power data transacting system for collecting power information using an information system and the Internet and power measuring instruments, and to provide data of power statistics easily and efficiently. SOLUTION: A system, which simplifies data acquisition concerning electrical energy by integrating the power measuring instruments and the information system and maintenance service, enables relative evaluation by integrating data by the information system, and realizes multilateral evaluation of electrical energy and appropriate maintenance service, is formed. Consequently, it is possible to keep measured data connecting the system to a network, unify gathering of statistics and evaluation of the data, reprocessing and providing of results, and provide data required by a facility user and a facility provider effectively and easily, on the basis of instructions by a server.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power data transaction system. More specifically, the present invention relates to a value-added data transaction system using a computer network, a company that is interested in power consumption by efficiently collecting power information using an information system, the Internet, and a power meter, or Power statistics data as high value-added information for individuals
The present invention relates to a value-added data transaction system capable of providing data easily and efficiently, such as an auxiliary power generation device typified by a solar cell using the Internet, and a power saving circuit device such as an inverter. The present invention relates to statistics, analysis, diagnosis and data transaction for performing statistics, analysis, and diagnosis of device performance states based on power measurement data in power saving devices and devices, and trading result data.

[0002]

2. Description of the Related Art Conventionally, it is simple and effective for a power-saving device installed by a company or an individual who does not have specialized knowledge and technology regarding electric power to reduce power consumption.
No objective and immediate means of power measurement were provided.

[0003] In the case of using power, whether the power used by itself is appropriate compared to other power uses, and the effect of power cost savings by using power saving equipment is reduced by using power saving equipment. No means were provided for assessing the adequacy of others as compared to others who are conducting power saving activities.

[0004] In the case of a building in which a solar cell power generation device is installed, a surplus of a power meter for measuring the amount of power when purchasing power and the power generated by the solar cell power generation device is sold to a power company. There are two types of power meter, a power meter that measures the amount of power used when the power is measured.

When a solar cell power generation device is installed, there is a method of comparing the record of the amount of power purchase before installing the device with the record of the amount of power purchase after installation of the device and independently evaluating and examining it.

[0006] There is a method of requesting a manufacturer who manufactures equipment using a power generation device represented by a solar cell power generation device or a power saving device, or a company that installs or sells the equipment, to perform a specialized investigation.

[0007] Manufacturers who manufacture equipment using power generation equipment represented by solar cell power generation equipment or power saving equipment, and those who install or sell such equipment, are subject to the performance of equipment and equipment due to aging and equipment conditions. For the purpose of knowing the change in performance due to changes in weather or weather conditions, construct a facility to artificially set the conditions, actually install equipment as a research facility, or purchase equipment And collecting data by asking the customer to do so.

[0008]

As described above, it is very difficult to monitor and evaluate the performance state of equipment installed for the purpose of saving power, such as solar cell power generation.
In particular, simple and effective, objective, and instantaneous installations of solar power generation equipment installed by companies or individuals who do not have the expertise and technology related to power Since power measurement means were not provided, the person installing the power saving device visually checked the power meter installed by the power company, recorded the value of the power meter, and independently collected statistics. It was not possible to ascertain the state of the device other than to perform.

In such a method, whether the power generation output is reduced due to weather conditions, or even if a supply of a device that causes a negligence of a manufacturer or a deliberate lack of output is supplied, this is scientifically and objectively performed. The reality is that you cannot give guidance or request improvement.

[0010] In addition, there is no means for investigating the effects of local conditions and weather conditions over a wide area in a solar cell power generator maker. It cannot be determined whether it is or is subjective to the customer or whether the customer's claim is correct. Also, when the solar cell power generation device manufacturer intends to use the device under various conditions and conducts R & D for the purpose of improving the performance of the device, an effective method including the weather condition is considered. In order to perform sampling, there is no other method than actually installing the apparatus, and an enormous cost is required.

In order to accurately judge the necessity of maintenance for a solar cell power generation device, even with specialized knowledge of electric power, a power circuit, and solar cells, knowledge and techniques, complicated effects such as the effects of weather and daylight hours are required. It is difficult to determine the performance state of the device under the conditions.

In particular, even if a solar cell power generation device is installed and a manufacturer attempts to take measures such as a pick-up inspection at a facility such as a well-equipped test site, the solar cell power generation device is generally fixed to a building. Above, it is large enough to cover most of the building's roof, making such actions impossible.

As described above, in order to grasp the performance state of a power saving device represented by a solar cell, a professional engineer, a company,
Regardless of the general individual, it required a lot of human effort. Furthermore, even if such a great effort is required, the clarified events are limited to a part of the target facilities, and are the data and numerical values obtained as a result of the investigation appropriate compared to others? There is no established way to know.

The present invention has been made in view of the above circumstances, and an object of the present invention is to obtain a proper statistical value by collecting a large amount of power of a power facility in which a power saving device is installed. It is an object of the present invention to notify the performance state of the power saving device based on the obtained statistical data and to correctly notify the necessity of maintenance. It is another object of the present invention to provide the obtained statistical data to a developer of a power saving device.

[0015]

In order to solve the above-mentioned problems, a value-added data power trading system according to the present invention uses an information system, the Internet, and a power meter to convert power data. This is an electric power data transaction system that can easily collect and easily compare the effect of facility use with others.

Conventionally, when a user of a power saving or power generation facility tries to evaluate the effect of the facility, the meter value of a wattmeter installed by a power company must be recorded independently and tabulated by himself / herself. Did not. In addition, when making comparisons with others, submission of data had to be requested in consultation with the comparison subject. However, information systems, measuring instruments and interfaces were required.
By using a system that integrates via a network, equipment users can use data that has never been obtained without effort.
This is a power data transaction system that allows easy acquisition of data.

The transaction system according to the present invention integrates an information system, the Internet, and a power meter to realize a transaction system for effectively collecting power data, and manufactures and sells power saving and power generation equipment. This realizes a system that can easily acquire statistical data without requiring a facility provider to perform independent surveys.

According to the present invention, in order to grasp the performance state of the installed power saving device, the amount of power generated by an auxiliary power generation device such as a solar battery or the amount of power whose output is controlled via a power saving circuit is recorded. A system for transferring data to a server on the Internet and providing the data. The system provides a simple means for collecting power data and transmits the data to a server on the Internet. -Characterized in that the data is stored in a bar, the stored data is statistically processed, and comparison with other equipment can be realized.

In the electric power data transaction system according to the present invention as described above, since the data is easily acquired, the labor for collecting the data can be greatly reduced. Further, by transferring the acquired data to a server on the Internet, the data is held and the user does not need to store a huge amount of data. Further, the user does not need any knowledge because the data processing is performed on the server, does not need to operate a special computer program, and can perform more appropriate operations by general Internet operation. Data for equipment evaluation can be obtained. Researchers of companies that develop these power-saving devices and equipment can obtain a statistically sufficient amount of measurement data without any special data collection effort. In addition to this, comparison data with a device developed by another person can be obtained.

[0020]

Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a power meter used in the power trading system of the present invention, and FIG. 2 is a block diagram for explaining the configuration of the power trading system of the present invention. As shown in FIG. 2, the present invention is a system for storing, processing, and trading power data between a user of a power saving facility and a facility provider who manufactures, sells and provides the facility. As a specific power saving device, the content of the invention will be specifically described using a solar cell power generation device as an example.

As described above, FIG. 1 is a block diagram showing an embodiment of an electric power meter used in the transaction system of the present invention. This electric power measuring device stores measured electric power data in a memory medium. A memory-medium that has a function of storing and records measurement data is detachable, and especially a solar cell power generator installer or a solar cell power generator manager who does not have knowledge or skills of electric power and electronic circuits, Alternatively, it is assumed that a person equivalent to the above operates.

In FIG. 1, a power meter 1 is connected to a power distribution circuit 2 and sends a measurement result to a recording control circuit 4. The recording control circuit 4 transfers the measurement data including the date and time to the device in the memory 6 at regular time intervals by the built-in clock 5, and records the measurement data. The device of the memory 6 is detachable, and plays a role of sending data to a computer system owned by the user. 3 is an inverter.

An overall image of a specific example in the case where a solar cell power generation device and a company that manufactures and sells the solar cell power generation device use the present invention has a configuration shown in [0024] to [0027].

FIG. 11 shows the configuration of a device for a user who installs and uses a solar cell power generation device. The power 1 supplied by the solar cell power generator J is distributed to the power distribution circuit 2 that distributes the power 11 supplied from the power company and the power 12 supplied from the solar cell power generator J and controls the flow of power.
The power measuring device 1 is connected to the input or output portion of an inverter circuit F that receives the data 2 and the power measuring data stored in the memory medium G is transferred to the server via the Internet. The memory medium G is connected to and read from the computer H having the function of performing the above operations.

The transferred power measurement data is organized and stored in equipment units, date units, and time units in a power measurement data storage server installed on the Internet.

The data stored in the power measurement data storage server is statistical data similarly installed on the Internet.
Data storage servers include manufacturers, locations, weather conditions, seasons,
Average output applied to power equipment performance evaluation taking into account various conditions represented by climate, date, time, sunshine conditions, installation period, solar power generation module surface contamination / deterioration conditions, and model characteristic conditions Various types of statistical data required for equipment evaluation using statistical methods such as power, maximum output, output deviation, etc. Weather condition unit, installation condition unit, seasonal unit, climate unit, sunshine condition unit, installation condition unit, solar
It is accumulated according to various conditions according to the statistical meaning, such as the unit of the surface contamination / deterioration condition of the power generation module and the unit of the condition of the model characteristics.

The data thus stored is a data request page for inputting setting conditions set on the Internet.
In accordance with the contents of the request, the data is transferred to the data requester via the Internet.

Next, an overall configuration of a system according to the present invention and an outline of a service system will be described. In FIG. 2 showing the configuration of the transaction system of the present invention, an Internet data server is connected to a network by a transaction server, holds measurement data, and receives measurement data. It provides functions, provides statistical data, and issues transmission instructions for inspection recommendations based on statistical data.

The user of the power-saving and power-saving equipment inserts the memory device attached to the measuring instrument into the computer system used by himself / herself, and connects to the transaction server. The transaction server issues a program function for transferring the data in the memory to the user, records the data in the memory device on the user's computer system, and provides the transaction server.
Transfer data into the bar.

The transaction server merges the acquired electric power data with other electric power data already stored, and the transferred data is statistically different from the other electric data. Is returned to the user together with the statistical data.

The transaction server calculates the payment amount related to the use of the data transferred from the user and the returned data, and prepares the payment data in the payment system.

The transaction server processes and stores statistical data of electric power data accumulated by the transaction server as product development data required by the power saving and power generation equipment provider. Transaction server
Transfers the data in a timely manner as required by the power-saving and power generation equipment provider.

The transaction server calculates the amount of payment related to the use of the equipment provider's request and the returned data, notifies the payment system of the payment, and prepares the payment data.

Next, a detailed configuration and processing of the system will be described. FIG. 3 shows a configuration of a management system for power data transaction in solar cell power generation. This system includes a user terminal A, a provider terminal B, a viewer server C, and a data server connected to the Internet E.
D. This system provides a viewer service on the Internet E via a home page E1.
Power data is accumulated and processed against the background of the bar C and the data server D, and the results are browsed to grasp the performance state of the solar cell power generation device, determine the necessity of maintenance, and determine the necessity of the solar cell. A homepage E1 installed on the Internet E, which is used for the purpose of research and development of a power generation device.
Of power data, provision of statistical data, and comparison data of equipment between multiple terminals for user terminal A and provider terminal B via
In addition to providing data, it provides services such as transmission of maintenance execution. As shown, a user terminal A, a provider terminal B, a viewer server C, and a data server are connected to the Internet E.
D is connected.

The user terminal A is connected to the Internet, collects power data of the power generated by the solar cell power generator from the power meter F via the memory medium G, and stores the data on the home page E1. Statistics for accumulating data in the power measurement database D1 of the data server D via the CPU, and accumulating the results obtained by processing the data server D. Date
A terminal computer for browsing necessary information, collecting data and browsing results, and acquiring statistical data from the base D2.
It is a tar. The data transfer means is an Internet mail.
Attachment transfer or HT with attached file using file
Data transfer tag of ML document (Internet common format that can be processed by Internet browsing program) (Instruction to indicate display format in HTML)
Is used to transfer data.

The provider terminal B is connected to the Internet, acquires power statistical data provided by the data server D, and obtains the data for research and development purposes. This is a terminal computer for the purpose of obtaining data and obtaining data for determining whether to perform maintenance of the solar cell power generation device.

The viewer server C has a user database C1 and a provider database C2, and the user of the solar cell power generation apparatus accesses for the purpose of using this system. And approve the use of the system to equipment providers that manufacture or sell solar cell power generation equipment,
This is a server that issues access permission to the server D. With the approval of the viewer server C, the user terminal A and the provider terminal B can access the data server D. In addition, the viewer server C accumulates basic information of a solar cell power generation user who accesses the system for the purpose of using this system and a facility provider that manufactures or sells the solar cell power generation, and uses the system. It stores and accumulates information on system use such as

The data server D is a power measurement data base.
Server D1 and a statistical database D2.
With the approval of C, power measurement data from the user terminal A to be accessed is accepted, the data is stored in the power measurement database D1, and the statistical data is stored in the statistical database D2. −
Create and store data. In addition, the data server D obtains a browsing request or data provision of a user terminal or a provider terminal B which is accessed via a browsing home page with the approval of the browsing server C. In response to the request, if necessary, the request data is subjected to the browsing process in the form of an HTML document on the browsing home page if the browsing request is made. Suitable for data processing such as CSV (comma-separated text format data format data-JIS standard data) or Excel (data format used by Microsoft spreadsheet program) A data file is created and transferred in an appropriate data format. Date
The transfer means of the data may perform the HTML transfer by setting a download tag on the HTML browsing page, or may perform the attached transfer as an attached file to the Internet mail.

The home page E1 performs necessary operations when a user of the solar cell power generation device as a user of the present system or a facility provider who manufactures or sells a solar cell power generation device uses the system. It has the function of an interface to perform. When the terminal side wants to browse or download data, it has a function of branching each function and guiding to a home page program functioning as a dedicated operation panel, It has a place to display the processing result returned by each server.

The home page E1 is, together with the HTML document, a program in an Internet programming language such as a CGI (Common Gateway Interface) program or Java (a programming language operating on a network server). This program group realizes each switching function by operation branch, HTML generation function to realize display and transfer of data, and data transfer function by FTP (File Transfer Protocol). Meet the operation requirements of

The user of the photovoltaic power generation apparatus, which is a user of the present system, can easily collect data on the apparatus manufactured or sold by himself / herself via the home page E1. Further, it is possible to obtain statistical data necessary for comparison with a device provided by another company.

The basic processing flow in the present system will be described in order as follows.

(1) From here to [0045] (3), the application phase will be described with reference to FIG. FIG. 4 shows the configuration of the application phase. The user of the photovoltaic power generation device is required to provide the device specification information (the manufacturer / installer of the photovoltaic power generation device,
Information required for statistics such as installation angle / regulated power generation capacity, inverter specifications, etc.) and basic information for specifying the applicant are registered using the application form installed on the home page E1.

(2) The application data of the user of the photovoltaic power generation device is passed to the viewer server C, and is provisionally registered, and becomes the delivery information of the power meter 1 and the memory medium G. The operation procedure of the viewer server C is shown in FIG.

(3) The user of the photovoltaic power generator receives the power meter 1, the memory medium G, and the access ID, and installs the meter on the switchboard of the photovoltaic power generator.

(4) The process from [0050] to [9] is a power data storage phase, which will be described with reference to FIG.
FIG. 6 illustrates the configuration of the power data storage phase.
The user of the photovoltaic power generation device can use the data measured by the
Data into the user terminal A using the memory medium G,
Access to home page E.

(5) The home page E checks the access ID against the browsing server C to confirm the presence or absence of authentication.

(6) Upon receiving the authentication, the user of the solar cell power generation device accesses the data transfer page E13.

(7) From the data transfer page to the user terminal A
The transferred power data is transferred to

(8) The data server D receives the data, records the data in the power measurement database D1, and accumulates the data. Subsequently, the data server D is a power measurement data base.
Upon completion of the storage in the data D1, statistical data is created and stored in the statistical database D2.

(9) The data server D is a statistical database.
In response to the completion of the storage in the storage D2, a reception completion notice is issued to the home page E1.

(10) The process from here to [0059] (17) is defined as a user phase and will be described with reference to FIG. FIG.
Shows the configuration of the user browsing phase. The user of the photovoltaic power generator accesses the home page E in order to view or acquire the stored power transition data and the statistical data necessary for evaluating the performance of the apparatus. .

(11) The home page E is an access ID
Is checked against the viewer server C to confirm the presence or absence of authentication.

(12) Upon receiving the authentication, the user of the solar cell power generation device accesses the data viewing page. The user of the photovoltaic power generation device needs to fill in the browsing data request form installed on the data browsing page (necessity of accumulated transition data / statistical evaluation data required). (Type, type of requested other person comparison data, etc.).

(13) When the input is completed, the user presses the execution button for browsing display or data transfer.

(14) In response to the depression of the execution button for browsing display or data transfer, the home page E sends input data to the data server D as data request information.

(15) Upon receiving the request, the data server D
The corresponding data is extracted or extracted from the statistical database D2, converted into browsing data or transfer data as required, and the data browsing page of the home page E is obtained. -Transfer the result to the page.

(16) According to the initial request, the data browsing page that has received the transfer forms a link as HTML if the data is browsing data, and issues an HTML transfer tag if the data is transferred. And display the page.

(17) Upon receiving the completion notification, the user of the solar cell power generation device clicks the displayed link sign to browse or download the target data.

(18) From here to [0063] (21), a maintenance request phase will be described with reference to FIG.
FIG. 8 shows the structure of the maintenance request phase. When the user of the photovoltaic power generation facility estimates that maintenance is necessary based on the data obtained in the user viewing phase, the user accesses the home page E for the purpose of requesting maintenance.

(19) The home page E is an access ID
Is checked against the viewer server C to confirm the presence or absence of authentication.

(20) Upon receiving the authentication, the user of the solar cell power generation device accesses the maintenance request page. The user of the photovoltaic power generation device needs to fill out the maintenance request form installed on the maintenance request page (the data on which the necessity of maintenance is based).
Information about the data). At this time, the information input by the user may be data extraction conditions.

(21) The data input to the maintenance request form is transferred to a facility provider that manufactures or sells a solar cell power generation device in which the device is installed as maintenance request data. The facility provider that manufactures or sells the solar cell power generation device that has received the maintenance request data performs maintenance based on the maintenance request data.

(22) The steps from here to [0071] (29) are referred to as the provider browsing phase, which will be described with reference to FIG.
FIG. 9 shows the structure of the provider browsing phase. The facility provider that manufactures or sells solar cell power generation equipment, with regard to its own manufactured or installed solar cell power generation equipment, is a direct customer's power transition data and total power transition data and equipment. The homepage E is accessed for the purpose of browsing or acquiring the statistical data necessary for the performance evaluation of the system.

(23) The home page E is an access ID
Is checked against the viewer server C to confirm the presence or absence of authentication.

(24) The facility provider that manufactures or sells the photovoltaic power generation device that has been authenticated accesses the data browsing page. The equipment provider that manufactures or sells the photovoltaic power generator is installed on the data viewing page. Necessary items (necessity of accumulated transition data, type of required statistical evaluation data, type of required comparison data of others, etc.) are entered in the browse data request form.

(25) When the input is completed, the user presses the execution button for browsing display or data transfer.

(26) In response to the depression of the execution button for browsing display or data transfer, the home page E sends the input data to the data server D as data request information.

(27) The requested data server D is:
The corresponding data is extracted or extracted from the statistical database D2, converted into browsing data or transfer data as required, and the data browsing page of the home page E is obtained. -Transfer the result to the page.

(28) The data browsing page that receives the transfer creates a link as HTML according to the initial request if it is browsing data, and issues an HTML transfer tag if it is data transfer. Page is displayed.

(29) Upon receiving the completion notification, the facility provider that manufactures or sells the solar cell power generation device clicks the displayed link sign to browse or download the target data.
Do

A diagram showing the correlation between the user of the solar cell power generation device, the equipment provider that manufactures or sells the solar cell power generation device, and each server that provides the service, by integrating the above procedures. FIG. 10 is illustrated.

[0073]

According to the electric power trading system of the present invention, it is connected to a network, holds measurement data, and unifies statistics and evaluation of data, reprocessing, and provision of a result. The data required by equipment users and equipment providers can be provided effectively and easily based on the instructions given in-. Thus, simple collection of implementation evaluation data for equipment is realized, and the operational effects of equipment can be accurately measured. It has excellent effects that can be grasped and used.

The facility user can obtain difficult and accurate measurement values and perform regular measurement, storage of measurement data, and statistical comparison with other users without any effort. . In addition, the equipment provider can implement statistical performance comparison with other equipment and collection of actual measurement values of its own products as accurate values without any effort. In this way, simple collection of practical evaluation data for equipment, which has been difficult in the past, is realized, and the operational effects of the equipment can be accurately grasped and utilized.

A facility provider who is in the position of manufacturing or installing a solar cell power generation device has had to collect the solar cell power generation data which had to be collected on its own by a large amount of cost and labor.
Data can be obtained easily and inexpensively, and further data accumulation can be expected for development. Also,
Mutual evaluation of a solar cell power generation device manufactured by a plurality of manufacturers can be performed at all times, and it is possible to detect and report a fault of the manufacturer or an abnormal output intentionally at an early stage.

It is possible to function as a real-time data collection mechanism for photovoltaic power generation, which is expected to contribute to the environment, which can be useful for making a diffusion plan based on real-world data.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a power meter used in a transaction system of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a transaction system according to the present invention.

FIG. 3 is a configuration diagram of a management system for power data transaction in solar cell power generation.

FIG. 4 is a configuration diagram of an application phase.

FIG. 5 is an explanatory diagram showing an operation procedure of a viewer server.

FIG. 6 is a configuration diagram of a power data storage phase.

FIG. 7 is a configuration diagram of a user browsing phase.

FIG. 8 is a configuration diagram of a maintenance request phase.

FIG. 9 is a configuration diagram of a provider browsing phase.

FIG. 10 is a configuration diagram showing a correlation between an apparatus user and a manufacturing or sales facility provider and each server that provides services.

FIG. 11 is a configuration diagram of an apparatus for a user who has installed a solar cell.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Power measuring device 2 Power distribution circuit 3 Inverter 4 Recording control circuit 5 Clock 6 Memory 7 Internet data server 8 Power saving equipment user 9 Power saving equipment provider 10 Server system 11 Electric power 12 Power 13 Power meter 14 Power meter A User terminal B Provider terminal C Viewer server C1 Provider database C2 Provider database D Data server D1 Power measurement database D2 Statistical database E Internet E1 Home page F Inverter circuit G Memory medium H Computer ID access J Solar cell power generator

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[Procedure amendment]

[Submission date] June 11, 2002 (2002.6.1
1)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Electric power data transaction system

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power data transaction system. More specifically, the present invention relates to a value-added data transaction system using a computer network, a company that is interested in power consumption by efficiently collecting power information using an information system, the Internet, and a power meter, or Power statistics data as high value-added information for individuals
The present invention relates to a value-added data transaction system capable of providing data easily and efficiently, such as an auxiliary power generation device typified by a solar cell using the Internet, and a power saving circuit device such as an inverter. The present invention relates to statistics, analysis, diagnosis and data transaction for performing statistics, analysis, and diagnosis of device performance states based on power measurement data in power saving devices and devices, and trading result data.

[0002]

2. Description of the Related Art Conventionally, it is simple and effective for a power-saving device installed by a company or an individual who does not have specialized knowledge and technology regarding electric power to reduce power consumption.
No objective and immediate means of power measurement were provided.

[0003] In the case of using power, whether the power used by itself is appropriate compared to other power uses, and the effect of power cost savings through power saving actions using power saving equipment is not enough. No means were provided for assessing the adequacy of others as compared to others who are conducting power saving activities.

[0004] In the case of a building in which a solar cell power generation device is installed, a surplus of a power meter for measuring the amount of power when purchasing power and the power generated by the solar cell power generation device is sold to a power company. There are two types of power meter, a power meter that measures the amount of power used when the power is measured.

When a solar cell power generation device is installed, there is a method of comparing the record of the amount of power purchase before installing the device with the record of the amount of power purchase after installation of the device and independently evaluating and examining it.

[0006] There is a method of requesting a manufacturer who manufactures equipment using a power generation device represented by a solar cell power generation device or a power saving device, or a company that installs or sells the equipment, to perform a specialized investigation.

[0007] Manufacturers who manufacture equipment using power generation equipment represented by solar cell power generation equipment or power saving equipment, and those who install or sell such equipment, are subject to the performance of equipment and equipment due to aging and equipment conditions. For the purpose of knowing the change in performance due to changes in weather or weather conditions, construct a facility to artificially set the conditions, actually install equipment as a research facility, or purchase equipment And collecting data by asking the customer to do so.

[0008]

As described above, it is very difficult to monitor and evaluate the performance state of equipment installed for the purpose of saving power, such as solar cell power generation.
In particular, simple and effective, objective, and instantaneous installations of solar power generation equipment installed by companies or individuals who do not have the expertise and technology related to power Since power measurement means were not provided, the person installing the power saving device visually checked the power meter installed by the power company, recorded the value of the power meter, and independently collected statistics. It was not possible to ascertain the state of the device other than to perform.

In such a method, whether the power generation output is reduced due to weather conditions, or even if a supply of a device which causes a negligence of the manufacturer or a deliberate output shortage is supplied, this is scientifically and objectively performed. The reality is that you cannot give guidance or request improvement.

[0010] In addition, there is no means for investigating the effects of local conditions and weather conditions over a wide area in a solar cell power generator maker. It cannot be determined whether it is or is subjective to the customer or whether the customer's claim is correct. Also, when the solar cell power generation device manufacturer intends to use the device under various conditions and conducts R & D for the purpose of improving the performance of the device, an effective method including the weather condition is considered. In order to perform sampling, there is no other method than actually installing the apparatus, and an enormous cost is required.

In order to accurately judge the necessity of maintenance for a solar cell power generation device, even with specialized knowledge of electric power, a power circuit, and solar cells, knowledge and techniques, complicated effects such as the effects of weather and daylight hours are required. It is difficult to determine the performance state of the device under the conditions.

In particular, even if a solar cell power generation device is installed and a manufacturer intends to take measures such as a pick-up inspection at a well-equipped test site or the like after installation, the solar cell power generation device is generally fixed to a building. Above, it is large enough to cover most of the building's roof, making such actions impossible.

As described above, in order to grasp the performance state of a power saving device represented by a solar cell, a professional engineer, a company,
Regardless of the general individual, it required a lot of human effort. Furthermore, even if such a great effort is required, the clarified events are limited to a part of the target facilities, and are the data and numerical values obtained as a result of the investigation appropriate compared to others? There is no established way to know.

The present invention has been made in view of the above circumstances, and an object of the present invention is to obtain a proper statistical value by collecting a large amount of power of a power facility in which a power saving device is installed. It is an object of the present invention to notify the performance state of the power saving device based on the obtained statistical data and to correctly inform the necessity of maintenance. It is another object of the present invention to provide the obtained statistical data to a developer of a power saving device.

[0015]

In order to solve the above-mentioned problems, a value-added data power trading system according to the present invention uses an information system, the Internet, and a power meter to convert power data. This is an electric power data transaction system that can easily collect and easily compare the effect of facility use with others.

Conventionally, when a user of a power saving or power generation facility tries to evaluate the effect of the facility, the meter value of a wattmeter installed by a power company must be recorded independently and tabulated by himself / herself. Did not. In addition, when making comparisons with others, submission of data had to be requested in consultation with the comparison subject. However, information systems, measuring instruments and interfaces were required.
By using a system that integrates via a network, equipment users can use data that has never been obtained without effort.
This is a power data transaction system that allows easy acquisition of data.

The transaction system according to the present invention integrates an information system, the Internet, and a power meter to realize a transaction system for effectively collecting power data, and manufactures and sells power saving and power generation equipment. This realizes a system that can easily acquire statistical data without requiring a facility provider to perform independent surveys.

According to the present invention, in order to grasp the performance state of the installed power saving device, the amount of power generated by an auxiliary power generation device such as a solar battery or the amount of power whose output is controlled via a power saving circuit is recorded. A system for transferring data to a server on the Internet and providing the data. The system provides a simple means for collecting power data and transmits the data to a server on the Internet. -Characterized in that the data is stored in a bar, the stored data is statistically processed, and comparison with other equipment can be realized.

In the electric power data transaction system according to the present invention as described above, since the data is easily acquired, the labor for collecting the data can be greatly reduced. Further, by transferring the acquired data to a server on the Internet, the data is held and the user does not need to store a huge amount of data. Further, the user does not need any knowledge because the data processing is performed on the server, does not need to operate a special computer program, and can perform more appropriate operations by general Internet operation. Data for equipment evaluation can be obtained. Researchers at companies that develop these power-saving devices and equipment can obtain a statistically sufficient amount of measurement data without any special data collection effort. In addition to this, it is also possible to obtain comparison data with devices developed by others.

[0020]

Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a power meter used in the power trading system of the present invention, and FIG. 2 is a block diagram for explaining the configuration of the power trading system of the present invention. As shown in FIG. 2, the present invention is a system for storing, processing, and trading power data between a user of a power saving facility and a facility provider who manufactures, sells and provides the facility. As a specific power saving device, the content of the invention will be specifically described using a solar cell power generation device as an example.

As described above, FIG. 1 is a block diagram showing an embodiment of an electric power meter used in the transaction system of the present invention. This electric power measuring device stores measured electric power data in a memory medium. A memory-medium that has a function of storing and records measurement data is detachable, and especially a solar cell power generator installer or a solar cell power generator manager who does not have knowledge or skills of electric power and electronic circuits, Alternatively, it is assumed that a person equivalent to the above operates.

In FIG. 1, a power meter 1 is connected to a power distribution circuit 2 and sends a measurement result to a recording control circuit 4. The recording control circuit 4 transfers the measurement data including the date and time to the device in the memory 6 at regular time intervals by the built-in clock 5, and records the measurement data. The device of the memory 6 is detachable, and plays a role of sending data to a computer system owned by the user. 3 is an inverter.

An overall image of a specific example in the case where a solar cell power generation device and a company that manufactures and sells the solar cell power generation device use the present invention has a configuration shown in [0024] to [0027].

FIG. 11 shows the configuration of a device for a user who installs and uses a solar cell power generation device. The power 1 supplied by the solar cell power generator J is distributed to the power distribution circuit 2 that distributes the power 11 supplied from the power company and the power 12 supplied from the solar cell power generator J and controls the flow of power.
The power measuring device 1 is connected to the input or output portion of an inverter circuit F that receives the data 2 and the power measuring data stored in the memory medium G is transferred to the server via the Internet. The memory medium G is connected to and read from the computer H having the function of performing the above operations.

The transferred power measurement data is organized and stored in equipment units, date units, and time units in a power measurement data storage server installed on the Internet.

The data stored in the power measurement data storage server is statistical data similarly installed on the Internet.
Data storage servers include manufacturers, locations, weather conditions, seasons,
Average output applied to power equipment performance evaluation taking into account various conditions represented by climate, date, time, sunshine conditions, installation period, solar power generation module surface contamination / deterioration conditions, and model characteristic conditions Various types of statistical data required for equipment evaluation using statistical methods, such as power output, maximum output, output deviation, etc., are integrated, equipment units, date units, time units, manufacturer units, model units, regional units, location units, Weather condition unit, installation condition unit, seasonal unit, climate unit, sunshine condition unit, installation condition unit, solar
It is accumulated according to various conditions according to the statistical meaning, such as the unit of the surface contamination / deterioration condition of the power generation module and the unit of the condition of the model characteristics.

The data thus stored is a data request page for inputting setting conditions set on the Internet.
In accordance with the contents of the request, the data is transferred to the data requester via the Internet.

Next, an overall configuration of a system according to the present invention and an outline of a service system will be described. In FIG. 2 showing the configuration of the transaction system of the present invention, an Internet data server is connected to a network by a transaction server, holds measurement data, and receives measurement data. It provides a function, provides statistical data, and issues a transmission instruction for an inspection recommendation based on the statistical data.

The user of the power-saving and power-saving equipment inserts the memory device attached to the measuring instrument into the computer system used by himself / herself, and connects to the transaction server. The transaction server issues a program function for transferring the data in the memory to the user, records the data in the memory device on the user's computer system, and provides the transaction server.
Transfer data into the bar.

The transaction server merges the acquired electric power data with other electric power data already stored, and the transferred data is statistically different from the other electric data. Is returned to the user together with the statistical data.

The transaction server calculates the payment amount related to the use of the data transferred from the user and the returned data, and prepares the payment data in the payment system.

The transaction server processes and stores statistical data of electric power data accumulated by the transaction server as product development data required by the power saving and power generation equipment provider. Transaction server
Transfers the data in a timely manner as required by the power-saving and power generation equipment provider.

The transaction server calculates the amount of payment related to the use of the equipment provider's request and the returned data, notifies the payment system of the payment, and prepares the payment data.

Next, a detailed configuration and processing of the system will be described. FIG. 3 shows a configuration of a management system for power data transaction in solar cell power generation. This system comprises a user terminal A, a provider terminal B, a viewer server C, a data server connected to the Internet E.
D. This system provides a viewer service on the Internet E via a home page E1.
Power data is accumulated and processed against the background of the bar C and the data server D, and the results are browsed to grasp the performance state of the solar cell power generation device, determine the necessity of maintenance, and determine the necessity of the solar cell. A homepage E1 installed on the Internet E, which is used for the purpose of research and development of a power generation device.
Of the power data, provision of the statistical data, and comparison data of the equipment between plural terminals for the user terminal A and the provider terminal B via
In addition to providing data, it provides services such as transmission of maintenance execution. As shown, a user terminal A, a provider terminal B, a viewer server C, and a data server are provided on the Internet E.
D is connected.

The user terminal A is connected to the Internet, collects power data of the power generated by the solar cell power generator from the power meter F via the memory medium G, and stores the data on the home page E1. Statistics for accumulating data in the power measurement database D1 of the data server D via the CPU, and accumulating the results obtained by processing the data server D. Data
A terminal computer for browsing necessary information, collecting data and browsing results, and acquiring statistical data from the base D2.
It is a tar. The data transfer means is an Internet mail.
Attachment transfer or HT with attached file using file
Data transfer tag of ML document (Internet common format that can be processed by Internet browsing program) (Instruction to indicate display format in HTML)
Is used to transfer data.

The provider terminal B is connected to the Internet, acquires power statistical data provided by the data server D, and obtains the data for research and development purposes. This is a terminal computer for the purpose of obtaining data and obtaining data for determining whether to perform maintenance of the solar cell power generation device.

The viewer server C has a user database C1 and a provider database C2, and the user of the solar cell power generation apparatus accesses for the purpose of using this system. And approve the use of the system to equipment providers that manufacture or sell solar cell power generation equipment,
This is a server that issues access permission to the server D. With the approval of the viewer server C, the user terminal A and the provider terminal B can access the data server D. In addition, the viewer server C accumulates basic information of a solar cell power generation user who accesses for the purpose of using this system and a facility provider who manufactures or sells the solar cell power generation, and uses the information. It stores and accumulates information on system usage such as

The data server D is a power measurement data base.
Server D1 and a statistical database D2.
With the approval of C, power measurement data from the user terminal A to be accessed is accepted, the data is stored in the power measurement database D1, and the statistical data is stored in the statistical database D2. −
Create and store data. In addition, the data server D obtains a browsing request or data provision of a user terminal or a provider terminal B which is accessed via a browsing home page with the approval of the browsing server C. In response to the request, if necessary, the request data is subjected to the browsing process in the form of an HTML document on the browsing home page if the browsing request is made. Suitable for data processing such as CSV (comma-separated text format data format data-JIS standard data) or Excel (data format used by Microsoft spreadsheet program) A data file is created and transferred in an appropriate data format. Date
The transfer means of the data may perform the HTML transfer by setting a download link tag on the HTML browsing page, or may perform the attached transfer as an attached file to the Internet mail.

The home page E1 performs necessary operations when a user of the solar cell power generation device as a user of the present system or a facility provider who manufactures or sells a solar cell power generation device uses the system. It has the function of an interface to perform. When the terminal side wants to browse or download data, it has a function of branching each function and guiding to a home page program functioning as a dedicated operation panel, It has a place to display the processing result returned by each server.

The home page E1 is, together with the HTML document, a program in an Internet programming language such as a CGI (Common Gateway Interface) program or Java (a programming language operating on a network server). This program group realizes each switching function by operation branching, an HTML generation function to realize display and transfer of data, and a data transfer function by FTP (File Transfer Protocol). Meet the operation requirements of

The user of the photovoltaic power generation apparatus, which is a user of the present system, can easily collect data on the apparatus manufactured or sold by himself / herself via the home page E1. Further, it is possible to obtain statistical data necessary for comparison with a device provided by another company.

The basic processing flow in the present system will be described in order as follows.

(1) From here to [0045] (3), the application phase will be described with reference to FIG. FIG. 4 shows the configuration of the application phase. The user of the photovoltaic power generation device is required to provide the device specification information (the manufacturer / installer of the photovoltaic power generation device, the number of photovoltaic modules, the location of the photovoltaic device,
Information required for statistics such as installation angle / regulated power generation capacity, inverter specifications, etc.) and basic information for specifying the applicant are registered using the application form installed on the home page E1.

(2) The application data of the user of the photovoltaic power generation device is passed to the viewer server C, and is provisionally registered, and becomes the delivery information of the power meter 1 and the memory medium G. The operation procedure of the viewer server C is shown in FIG.

(3) The user of the photovoltaic power generator receives the power meter 1, the memory medium G, and the access ID, and installs the meter on the switchboard of the photovoltaic power generator.

(4) The process from [0050] to [9] is a power data storage phase, which will be described with reference to FIG.
FIG. 6 illustrates the configuration of the power data storage phase.
The user of the photovoltaic power generation device can use the data measured by the
Data into the user terminal A using the memory medium G,
Access to home page E.

(5) The home page E checks the access ID against the browsing server C to confirm the presence or absence of authentication.

(6) Upon receiving the authentication, the user of the solar cell power generation device accesses the data transfer page E13.

(7) From the data transfer page to the user terminal A
The transferred power data is transferred to

(8) The data server D receives the data, records the data in the power measurement database D1, and accumulates the data. Subsequently, the data server D is a power measurement data base.
Upon completion of the storage in the data D1, statistical data is created and stored in the statistical database D2.

(9) The data server D is a statistical database.
In response to the completion of the storage in the storage D2, a reception completion notice is issued to the home page E1.

(10) The process from here to [0059] (17) is defined as a user phase and will be described with reference to FIG. FIG.
Shows the configuration of the user browsing phase. The user of the photovoltaic power generator accesses the home page E in order to view or acquire the stored power transition data and the statistical data necessary for evaluating the performance of the apparatus. .

(11) The home page E is an access ID
Is checked against the viewer server C to confirm the presence or absence of authentication.

(12) Upon receiving the authentication, the user of the solar cell power generation device accesses the data viewing page. The user of the photovoltaic power generation device needs to fill in the browsing data request form installed on the data browsing page (necessity of accumulated transition data / statistical evaluation data required). (Type, type of requested other person comparison data, etc.).

(13) When the input is completed, the user presses the execution button for browsing display or data transfer.

(14) In response to the depression of the execution button for browsing display or data transfer, the home page E sends input data to the data server D as data request information.

(15) Upon receiving the request, the data server D
The corresponding data is extracted or extracted from the statistical database D2, converted into browsing data or transfer data as required, and the data browsing page of the home page E is obtained. -Transfer the result to the page.

(16) According to the initial request, the data browsing page that has received the transfer forms a link as HTML if the data is browsing data, and issues an HTML transfer tag if the data is transferred. And display the page.

(17) Upon receiving the completion notification, the user of the solar cell power generation device clicks the displayed link sign to browse or download the target data.

(18) From here to [0063] (21), a maintenance request phase will be described with reference to FIG.
FIG. 8 shows the structure of the maintenance request phase. When the user of the photovoltaic power generation facility estimates that maintenance is necessary based on the data obtained in the user viewing phase, the user accesses the home page E for the purpose of requesting maintenance.

(19) The home page E is an access ID
Is checked against the viewer server C to confirm the presence or absence of authentication.

(20) Upon receiving the authentication, the user of the solar cell power generation device accesses the maintenance request page. The user of the photovoltaic power generation device needs to fill out the maintenance request form installed on the maintenance request page (the data on which the necessity of maintenance is based).
Information about the data). At this time, the information input by the user may be data extraction conditions.

(21) The data input to the maintenance request form is transferred to a facility provider that manufactures or sells a solar cell power generation device in which the device is installed as maintenance request data. The facility provider that manufactures or sells the solar cell power generation device that has received the maintenance request data performs maintenance based on the maintenance request data.

(22) The steps from here to [0071] (29) are referred to as the provider browsing phase, which will be described with reference to FIG.
FIG. 9 shows the structure of the provider browsing phase. The facility provider that manufactures or sells solar cell power generation equipment, with regard to its own manufactured or installed solar cell power generation equipment, is a direct customer's power transition data and total power transition data and equipment. The homepage E is accessed for the purpose of browsing or acquiring the statistical data necessary for the performance evaluation of the system.

(23) The home page E is an access ID
Is checked against the viewer server C to confirm the presence or absence of authentication.

(24) The facility provider that manufactures or sells the photovoltaic power generation device that has been authenticated accesses the data browsing page. The equipment provider that manufactures or sells the photovoltaic power generator is installed on the data viewing page. Necessary items (necessity of accumulated transition data, type of required statistical evaluation data, type of required comparison data of others, etc.) are entered in the browse data request form.

(25) When the input is completed, the user presses the execution button for browsing display or data transfer.

(26) In response to the depression of the execution button for browsing display or data transfer, the home page E sends the input data to the data server D as data request information.

(27) The requested data server D is:
The corresponding data is extracted or extracted from the statistical database D2, converted into browsing data or transfer data as required, and the data browsing page of the home page E is obtained. -Transfer the result to the page.

(28) The data browsing page that receives the transfer creates a link as HTML according to the initial request if it is browsing data, and issues an HTML transfer tag if it is data transfer. Page is displayed.

(29) Upon receiving the completion notification, the facility provider that manufactures or sells the solar cell power generation device clicks the displayed link sign to browse or download the target data.
Do

A diagram showing the correlation between the user of the solar cell power generation device, the equipment provider that manufactures or sells the solar cell power generation device, and each server that provides the service, by integrating the above procedures. FIG. 10 is illustrated.

[0073]

According to the electric power trading system of the present invention, it is connected to a network, holds measurement data, and unifies statistics and evaluation of data, reprocessing, and provision of a result. The data required by equipment users and equipment providers can be provided effectively and easily based on the instructions given in-. Thus, simple collection of implementation evaluation data for equipment is realized, and the operational effects of equipment can be accurately measured. It has excellent effects that can be grasped and used.

The facility user can obtain difficult and accurate measurement values and perform regular measurement, storage of measurement data, and statistical comparison with other users without any effort. . In addition, the equipment provider can implement statistical performance comparison with other equipment and collection of actual measurement values of its own products as accurate values without any effort. In this way, simple collection of practical evaluation data for equipment, which has been difficult in the past, is realized, and the operational effects of the equipment can be accurately grasped and utilized.

A facility provider who is in the position of manufacturing or installing a solar cell power generation device has had to collect the solar cell power generation data which had to be collected on its own by a large amount of cost and labor.
Data can be obtained easily and inexpensively, and further data accumulation can be expected for development. Also,
Mutual evaluation of a solar cell power generation device manufactured by a plurality of manufacturers can be performed at all times, and it is possible to detect and report a fault of the manufacturer or an abnormal output intentionally at an early stage.

It is possible to function as a real-time data collection mechanism for photovoltaic power generation, which is expected to contribute to the environment, which can be useful for making a diffusion plan based on real-world data.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a power meter used in a transaction system of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a transaction system according to the present invention.

FIG. 3 is a configuration diagram of a management system for power data transaction in solar cell power generation.

FIG. 4 is a configuration diagram of an application phase.

FIG. 5 is an explanatory diagram showing an operation procedure of a viewer server.

FIG. 6 is a configuration diagram of a power data storage phase.

FIG. 7 is a configuration diagram of a user browsing phase.

FIG. 8 is a configuration diagram of a maintenance request phase.

FIG. 9 is a configuration diagram of a provider browsing phase.

FIG. 10 is a configuration diagram showing a correlation between an apparatus user and a manufacturing or sales facility provider and each server that provides services.

FIG. 11 is a configuration diagram of an apparatus for a user who has installed a solar cell.

[Description of Signs] 1 Power meter 2 Power distribution circuit 3 Inverter 4 Recording control circuit 5 Clock 6 Memory 7 Internet data server 8 Power saving equipment user 9 Power saving equipment provider 10 Service Bar system 11 Power 12 Power 13 Power meter 14 Power meter A User terminal B Provider terminal C Viewer server C1 Provider database C2 Provider database D data -Data server D1 Power measurement data base D2 Statistical data base E Internet E1 Home page F Inverter circuit G Memory medium H Computer ID access J Solar power generation apparatus

[Remarks] No change to drawing

Claims (9)

[Claims] An electric power meter installation application receiving function is provided, which is connected to a network, provides application information for an electric power meter, retains application information of an electric power meter, issues an instruction to send out an electric power meter, and installs the electric power meter. A transaction server that retains information and settles installation costs, a settlement unit that setstle transaction costs based on instructions from the transaction server, a dispatch unit that sends out a required power meter, and a transaction. An electric power data transaction system comprising access means to a server. 2. A transaction server which is connected to a network, provides a function of receiving power amount information, holds power amount information, and performs data transactions and statistics of power amount data, and a transaction server. -Electric power data comprising: settlement means for settling data transaction costs based on instructions from the server; transfer means for transferring requested data; and access means to the transaction server. Trading system. 3. An electric power meter installation application receiving function, which is connected to the Internet, holds the application information of the electric power meter, gives an instruction to send out the electric power meter, and provides an installer of the electric power meter installer. A transaction server that retains information and settles installation costs, a settlement unit that setstle transaction costs based on a transaction server instruction, a sending unit that sends out a required power meter, and a transaction server. A power data transaction system comprising a communication terminal for providing access to the bar; 4. A transaction server which is connected to the Internet, provides a function of receiving power amount information, holds power amount information, and performs data transaction and statistics of power amount data, and a transaction server. −
Settlement means for performing settlement of the cost of the data transaction based on the instruction of the above, transfer means for transferring the requested data, and a communication terminal for use as an access means to the transaction server. Power data transaction system. 5. The system stores electric power measurement data collected via the Internet, and returns statistical data requested by an electric power meter installer based on an instruction from a transaction server. Power data comprising transfer means for transferring the transferred data and a communication terminal serving as access means for the transaction server.
Trading system. 6. The data transferred to the data stored in the transaction server based on the instructions of the transaction server which realizes obtaining the processed data provided through the statistical program. A communication terminal for receiving data, a settlement means for performing settlement for acquisition of data, a transfer means for transferring requested data, and a communication terminal for serving as an access means for a transaction server. Electric power data trading system. 7. Based on statistical data stored in the statistical data storage server created based on the power measurement data, it is possible to determine whether an abnormality is found in an auxiliary power generation device such as a solar cell or a power saving device such as an inverter. A system that makes judgments and reports abnormalities of these devices via the Internet. 8. Upon receiving the notification from the abnormality notification system,
A maintenance request issuing system that issues a maintenance request at the discretion of the installer of an auxiliary power generation device such as a solar cell or a power saving device such as an inverter. 9. Based on the statistical data stored in the statistical data storage server created based on the power measurement data, an abnormality may be found in an auxiliary power generation device such as a solar cell or a power saving device such as an inverter. A server system having a function of isolating or identifying power measurement data from the power measurement data storage server.