CN112967149B - Multi-party electric quantity statistical information sharing method and system based on block chain technology - Google Patents

Abstract

The invention relates to the technical field of block chain components, in particular to a multi-party electric quantity statistical information sharing method and system based on a block chain technology. The invention effectively improves the practicality level and lean management level of the related system and effectively improves the integrated management process. The continuous improvement of the management mode and the technical method is realized, and a solid foundation is laid for the lean benefit of the marketing management work. The invention relies on informatization means to promote the transition of management modes, realizes the optimization flow, improves the efficiency and optimizes the resource allocation. The risk of operation is reduced for the power enterprises, the self benefit of the enterprises is ensured, and the economic benefit is improved.

Description

Multi-party electric quantity statistical information sharing method and system based on block chain technology

Technical Field

The invention relates to the technical field of block chain pieces, in particular to a multi-party electric quantity statistical information sharing method and system based on a block chain technology.

Background

The electric power spot transaction settlement module is used as a new marketing business module, and basic processes and functions for supporting business operation are mainly realized in the early stage, wherein the basic processes comprise a user registration process, a daily electric quantity clearing process, a monthly settlement process, an electric quantity correction process and the like. Compared with other service modules, the service module is not mature enough, and continuous optimization and lifting are required.

The incremental power distribution network enterprises participate in the marketization transaction users and need the Guangdong power grid to provide access support, and the marketing system needs to realize management of the access of the marketization business of the incremental power distribution network enterprises.

According to the current situation, the following conclusion is not difficult to be formed for the incremental network distribution service:

the incremental distribution network business propulsion relates to a plurality of organization units, and the incremental distribution network enterprises participate in data information such as registration information, user account information, daily clear information, month knot and the like of marketized transaction users, and the data are not directly integrated with a transaction center system and are required to be transferred through a power supply enterprise. In Guangdong province, there are three units of Guangdong power grid company, guangzhou power supply bureau and Shenzhen power supply bureau, and the incremental power distribution network enterprise needs to conduct data interaction with the power grid enterprise of the local city. The workload of the cooperation between the business bodies is large, and the data amount required to be exchanged and butted is large.

The method relates to the development of specific businesses such as distribution network user information transmission, transaction information transmission, electric quantity error punching coordination and the like, and the demands of business docking and data docking also exist in power grid enterprises (Guangdong power grid companies, guangzhou power supply offices and Shenzhen power supply offices) and external coordination units including governments, financial institutions, business partners and the like, so that extremely high demands are provided for data security sharing.

The marketing system of the power grid company at the present stage does not realize the management of the marketing business access of the incremental power distribution network enterprise, and the marketing system and the power distribution network platform have the existing interfaces to realize the synchronization of photovoltaic power generation information and grounding leakage test sequence list information. The incremental power distribution network enterprises participate in the marketing trading users and need the Guangdong power grid to provide access support, the marketing system needs to realize the management of the incremental power distribution network enterprise marketing business access, the demand of Guangdong power spot market construction on the technical support of the marketing side system is met, and the supporting capacity of the marketing system on continuously optimized power spot market trading is improved.

The development of specific businesses such as incremental distribution network user information transmission, transaction information transmission, electric quantity error punching coordination and the like also has the requirements of business docking and data docking in power grid enterprises (Guangdong power grid companies, guangzhou power supply bureau, shenzhen power supply bureau) and external coordination units including governments, financial institutions, business partners and the like, the workload of the coordination among business bodies is large, the data quantity of the exchange and docking is large, and extremely high requirements are provided for safe sharing of data.

The blockchain technology has the characteristics of distributed storage, tamper resistance, traceability, secure encryption, digital signature and the like, and is natural in credibility, consistency and authority. The anti-tampering of the data can be realized in the technical level through the blockchain, the traceability, the full life cycle management and the data interaction between related systems and organizations are unnecessary. Blockchain technology has natural compliance in terms of different commercial establishment hosts.

The electric power marketing business is used as a core business of a power grid company, deeply relates to the economic benefit of the enterprise, and has strict safety control requirements on external access. Meanwhile, the incremental distribution network service and the corporate marketing system need to perform data interaction, and three methods are provided for ensuring safe, reliable and efficient transmission of user data in the aspect of market transaction settlement.

The internet is directly accessed.

The network security is managed and controlled by using the existing broadband network (mobile, communication, telecommunication, etc.) of the system external company (incremental distribution network) through setting up a plurality of firewalls and interactive platforms, as shown in fig. 1.

Internet + VPN (Virtual Private Network):

the virtual private network is a new network technology, and provides a connection mode for safely remotely accessing the private network in the enterprise through the public network. As shown in fig. 2, the network connection is typically made up of three parts: clients, transmission media, and servers. VPN is also composed of these three parts, except that VPN connection uses a tunnel as transport channel, which tunnel is based on public or private networks, such as: the Internet or Intranet.

To implement VPN connection, a VPN Server based on Windows NT or Windows2000 Server must be configured in the internal enterprise network, and the VPN Server must have a public IP address to connect to the internal private network of the enterprise on the one hand, and to connect to the Internet on the other hand. When a client communicates with a computer in a private network via a VPN connection, all data is first transferred by an ISP (Internet service provider) to a VPN server, which is then responsible for transferring all data to the target computer. VPN guarantees the security of communications using three aspects of technology: tunneling protocol, authentication, and data encryption. The client sends a request to the VPN server, the VPN server responds to the request and sends an identity inquiry to the client, the client sends encrypted response information to the VPN server, the VPN server checks the response according to a user database, if the account is valid, the VPN server checks whether the user has remote access rights, and if the user has the rights of remote access, the VPN server accepts the connection. The client and server public keys generated during the authentication process will be used to encrypt data.

Disadvantages: it is necessary to implement dual authentication of VPN. At present, VPN authentication is only limited inside a power grid company, and in order to facilitate VPN management, the power grid company does not authenticate an external enterprise.

Block chain based linking

By creating a fiber optic private network at the nearest access point between the outside company (incremental distribution network) business machine room and the Guangdong power grid city power supply office, other data cannot enter the line. The network topology diagram after the construction of the special line is completed is shown in fig. 3, and through the analysis of the technology, the system outside company (incremental distribution network) belongs to an external network access Guangdong power grid marketing system, and in order to ensure the daily user hour electric quantity, a special line access mode is recommended to be selected for ensuring the safety, reliability and high efficiency of the system. The business system based on the block chain service center station refers to the incremental distribution network application in the scheme range and also refers to other business systems which can be expanded in the future.

Disclosure of Invention

Aiming at the defects of the prior art, the invention discloses a multi-party electric quantity statistical information sharing method and system based on a blockchain technology, which are used for solving the problem that an electric power spot transaction settlement module is used as a new marketing service module, and mainly realize basic processes and functions for supporting service operation in the early stage, wherein the basic processes comprise a user registration process, a daily electric quantity clearing process, a monthly settlement process, an electric quantity correction process and the like. Compared with other service modules, the method is not mature enough, and the problem of continuous optimization and lifting is also required. And the incremental power distribution network enterprises participate in the marketization transaction users and need the Guangdong power grid to provide access support, and the marketing system needs to realize the management of the incremental power distribution network enterprises for accessing the marketization business.

The invention is realized by the following technical scheme:

in a first aspect, the present invention discloses a multi-party electric quantity statistical information sharing method based on a blockchain technology, which includes the following steps:

s1, a user registers in a transaction system, and a transaction center performs business processing after user information verification is passed to finish registration;

s2, user transaction qualification checking is carried out according to the account change information, and marketized user qualification change information is received after passing;

s3, the power grid enterprises acquire and collect electric quantity data, and then push the electric quantity data to a transaction system to carry out user electric quantity settlement;

s4, the incremental power distribution network system receives the monthly settlement basis, checks the monthly settlement basis and initiates a positive flushing treatment process for the abnormal electric quantity;

s5, re-settling according to the electric quantity after the flushing, and forwarding to an incremental power distribution network system for subsequent service processing;

s6, after the abnormal collaborative information is received and subjected to abnormal processing, the abnormal collaborative information is fed back to the incremental power distribution network system to carry out subsequent business processing.

Still further, the step S1 includes the following substeps:

s11, a user registers in a transaction system, a user number and a user name are input, and a transaction center sends user information to a Guangdong power grid to perform user verification and acquire user account information;

s12, judging an incremental distribution network enterprise corresponding to the user verification request, and forwarding the verification request to the corresponding incremental distribution network enterprise according to the route;

s13, the incremental distribution network enterprise returns verification result information to the power grid enterprise, and returns user account information after verification is successful;

s14, forwarding the verification result information to a transaction system, if the verification result information is unsuccessful, returning user information verification, and if the verification result information is successful, carrying out user information verification;

s15, the transaction center verifies the applied user data, including obtaining the historical electricity consumption condition of the user, judging whether the condition of entering the market is met or not, and pushing the registration result to the power grid enterprise;

s16, judging an incremental distribution network enterprise corresponding to the user registration result, and forwarding the verification request to the corresponding incremental distribution network enterprise according to the route;

s17, receiving the user registration result and carrying out service processing according to the registration result.

Still further, the step S2 includes the following substeps:

s21, changing the ledger information of the user, and transmitting the ledger information after the user change to the power grid enterprise by the incremental distribution network enterprise;

s22, the power grid enterprise forwards the account information changed by the incremental distribution network user to a transaction system;

s23, the transaction center checks the user transaction qualification according to the changed user file, and sends the result of marketing/return to the power grid enterprise;

s24, the power grid enterprise forwards the information of the users on/off the market to the incremental power distribution network system, and updates the file;

and S25, updating the file by the incremental power distribution network enterprise according to the information of entering/exiting the market.

Still further, the step S3 includes the following substeps:

s31, calculating the electric quantity information of 24 time points of each metering point of a marketized user in the T-1 day every day; the variable loss electric quantity is distributed to 24 time periods at the end of the month according to the electric quantity proportion of each time period at the end of the month;

s32, pushing the T-2 day electric quantity information to the power grid enterprises every day by the incremental power distribution network enterprises;

s33, collecting daily electricity quantity of incremental power distribution network households by a power grid enterprise;

s34, pushing the collected daily electricity quantity data to a transaction system by the power grid enterprise;

s35, the transaction system receives daily electricity quantity data pushed by a power grid enterprise;

s36, the transaction system performs clearing according to the daily electricity quantity data;

s37, the transaction center settles the increment distribution network user according to months, and a month settlement basis is generated;

s38, pushing the monthly settlement basis to a power grid enterprise by the transaction system;

s39, the power grid enterprise forwards the month basis of the user to the incremental power distribution network system;

s310, the incremental power distribution network system receives month settlement bases forwarded by power grid enterprises and checks the month settlement bases;

and S311, the incremental power distribution network enterprise calculates the fund and the accessories, the basic electric charge and the power electric charge of the marketized user collected daily electric quantity, and combines the incremental power distribution network enterprise with the transaction electric charge to issue a marketized user bill.

Still further, the step S5 includes the following substeps:

s51, the incremental power distribution network enterprises initiate a positive flushing processing flow for abnormal electric quantity;

s52, pushing the daily electric quantity data required to be flushed to a power grid enterprise by the incremental power distribution network system;

s53, the power grid enterprises collect the daily positive charging quantity, including incremental power distribution network users;

s54, pushing the collected solar impact positive electricity quantity data to a transaction system by the power grid enterprise;

s55, the transaction system receives the total solar impact positive electricity data pushed by the power grid enterprise, and settles;

s56, transaction is carried out again according to the electric quantity after the charging, and the settlement basis is pushed to the power grid enterprise;

s57, the power grid enterprises forward the positive clearing basis pushed by the transaction system to the incremental power distribution network system;

s58, the incremental power distribution network system receives the positive clearing basis forwarded by the power grid enterprise and carries out subsequent service processing.

Still further, the step S6 includes the following substeps:

s61, the power grid enterprises initiate abnormal collaborative work orders and push collaborative information to the incremental power distribution network system;

s62, the incremental power distribution network system receives abnormal cooperative information and processes abnormal problems;

s63, the incremental power distribution network system feeds back an exception processing result to a power grid enterprise;

s64, the power grid enterprise receives an exception handling result and carries out subsequent business handling;

s65, the incremental power distribution network system initiates an abnormal collaborative process flow, and collaborative information is pushed to a power grid enterprise;

s66, the power grid enterprise receives abnormal cooperative information and processes abnormal problems;

s67, the power grid enterprises feed abnormal problem processing results back to the incremental power distribution network system;

s68, the incremental power distribution network system receives an abnormal problem processing result returned by the power grid enterprise and performs subsequent service processing.

In a second aspect, the present invention discloses a multi-party electric quantity statistical information sharing system based on a blockchain technology, where the sharing system is configured to implement the multi-party electric quantity statistical information sharing method based on a blockchain technology in the first aspect, and the multi-party electric quantity statistical information sharing method includes a service system, a support layer and a service layer.

Furthermore, the supporting layer is an architecture foundation and provides basic services for ensuring the normal operation of the business application system, and the basic services comprise infrastructure services of a cloud architecture and container cloud services required by a blockchain platform.

Further, the business service layer comprises a blockchain basic technology platform, a blockchain service management platform, a blockchain service capability platform and API interface management, and is used for creating, managing and maintaining the enterprise-level blockchain network by a user and providing general blockchain service capability for upper-layer business application.

Furthermore, the business service layer comprises a dynamic construction module, a block chain application development module, a block application deployment module and a block chain operation monitoring module of the block chain node and the network, and performs trusted data storage verification service and trusted data sharing service.

The beneficial effects of the invention are as follows:

1. the invention realizes management, data interaction integration, service monitoring, problem coordination and the like of the incremental distribution network access through the incremental distribution network access function transformation and the distribution network platform interface function transformation. The method provides powerful information support for intensive management and operation of the company, promotes comprehensive improvement of enterprise efficiency, improves influence of the industry in society, establishes good social image for the company, and achieves good social benefit.

2. The invention effectively improves the practicality level and lean management level of the related system and effectively improves the integrated management process. The continuous improvement of the management mode and the technical method is realized, and a solid foundation is laid for the lean benefit of the marketing management work.

3. The invention relies on informatization means to promote the transition of management modes, realizes the optimization flow, improves the efficiency and optimizes the resource allocation. The risk of operation is reduced for the power enterprises, the self benefit of the enterprises is ensured, and the economic benefit is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a diagram of Internet direct access in the background of the invention;

FIG. 2 is a diagram of the Internet+VPN of the present invention;

FIG. 3 is a block chain based link diagram in accordance with the background of the invention;

FIG. 4 is a diagram of a block chain based service center business system in accordance with an embodiment of the present invention;

FIG. 5 is a diagram of an incremental power distribution network marketization transaction access interaction according to an embodiment of the present invention;

FIG. 6 is a functional block diagram of incremental power distribution network marketization transaction access according to an embodiment of the present invention;

FIG. 7 is a diagram of a marketized user registry according to an embodiment of the present invention;

FIG. 8 is a diagram of a marketized user service change in accordance with an embodiment of the present invention;

FIG. 9 is a diagram of a marketized user outcome of an embodiment of the present invention;

FIG. 10 is a diagram of a marketized power error handling diagram of an embodiment of the present invention;

FIG. 11 is a diagram of a problem co-process in accordance with an embodiment of the present invention;

FIG. 12 is a business flow diagram of an embodiment of the invention taking electricity consumption daily capacity error data as an example;

fig. 13 is a schematic diagram of the concept of marketizing user registration according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The embodiment discloses a multi-party electric quantity statistical information sharing method based on a block chain technology, which comprises the following steps:

s1, a user registers in a transaction system, and a transaction center performs business processing after user information verification is passed to finish registration;

s2, user transaction qualification checking is carried out according to the account change information, and marketized user qualification change information is received after passing;

s3, the power grid enterprises acquire and collect electric quantity data, and then push the electric quantity data to a transaction system to carry out user electric quantity settlement;

s4, the incremental power distribution network system receives the monthly settlement basis, checks the monthly settlement basis and initiates a positive flushing treatment process for the abnormal electric quantity;

s5, re-settling according to the electric quantity after the flushing, and forwarding to an incremental power distribution network system for subsequent service processing;

s6, after the abnormal collaborative information is received and subjected to abnormal processing, the abnormal collaborative information is fed back to the incremental power distribution network system to carry out subsequent business processing.

By means of the embodiment, the management mode is promoted to be changed by means of informatization, so that the optimization flow is realized, the efficiency is improved, and the resource allocation is optimized. The risk of operation is reduced for the power enterprises, the self benefit of the enterprises is ensured, and the economic benefit is improved.

Through the embodiment, the practical level and lean management level of the related system are effectively improved, and the integrated management process is effectively improved. The continuous improvement of the management mode and the technical method is realized, and a solid foundation is laid for the lean benefit of the marketing management work. The lean management level of the Guangdong power grid is improved, the original information barrier is broken, the improvement of the overall management capacity is strongly promoted, and a foundation is laid for realizing the purpose of building the company into an international advanced power grid enterprise with good service, management and image.

Through the embodiment, the incremental distribution network access function is improved, the power distribution network platform interface function is improved, and the incremental distribution network access management, the data interaction integration, the service monitoring, the problem coordination and the like are realized. The method provides powerful information support for intensive management and operation of the company, promotes comprehensive improvement of enterprise efficiency, improves influence of the industry in society, establishes good social image for the company, and achieves good social benefit.

Example 2

The embodiment discloses a service system based on a block chain service center as shown in fig. 4, which comprises a supporting layer, namely an infrastructure layer, wherein the layer is a framework foundation and provides basic services for ensuring the normal operation of a service application system. Including infrastructure services of cloud architecture and container cloud services required by blockchain platforms.

The business service layer is a technical platform for helping users create, manage and maintain the enterprise-level blockchain network and providing general blockchain service capability for upper-layer business applications. The business service layer mainly comprises four parts of contents of a block chain basic technology platform, a block chain service management platform, a block chain service capability platform and API interface management. Specific capabilities of the business service layer include the dynamic construction capability of the blockchain node and the network, the capability of blockchain application development, the capability of blockchain application deployment, the capability of blockchain operation monitoring and the like.

The embodiment provides two core service capabilities, namely a trusted data certification service and a trusted data sharing service, at a service layer.

In this embodiment, the incremental power distribution network enterprise participates in the data information such as registration information, user account information, daily clearance information, and month knot information of the marketized transaction user, and is not directly integrated with the transaction center system, and the data is transferred through the power supply enterprise. In Guangdong province, there are three home network enterprises of Guangdong power grid company, shenzhen power supply company and Guangzhou power supply company, and the incremental power distribution network enterprise needs to perform data interaction with the power grid enterprise of the local city. For example, shenzhen front sea power supply and Shenzhen power supply company are integrated, and then are integrated with a transaction center after data interaction with Guangdong power grid.

The test point of the embodiment is the integration of data interaction and transaction information of the Guangdong power grid marketing system and the small elema power supply bureau incremental distribution network system.

Example 3

The embodiment discloses a 1 service protocol, wherein the incremental power distribution network enterprise marketization transaction service access comprises three major categories of marketization user access, marketization power plant access and problem coordination. See in particular fig. 5 and 6.

The marketized user access comprises 4 parts of content, including marketized user registration (including user verification and user history month electricity acquisition) in the power distribution network enterprise, marketized user service change, marketized user settlement (including daily time period electricity and month settlement), marketized user electricity error processing (including power distribution network enterprise initiated electricity error processing and transaction initiated electricity error flow).

Marketized user registration is shown in fig. 7, and the principle of marketized user registration is shown in fig. 13:

user information verification (10): the user registers in the transaction system, inputs the user number and the user name, and the transaction center sends the user information to the Guangdong power grid for user verification and obtains the user account information.

Note that: the transaction center sends the verification request information, and can judge the incremental distribution network enterprise to which the user belongs in two ways:

1. each incremental distribution network enterprise is allocated with a code, such as a small cable incremental distribution network 0320ZL01, and the incremental distribution network enterprise to which the user belongs is selected during registration.

2. And (3) uniformly coding the users governed by the incremental distribution network enterprises in Guangdong province, identifying the incremental distribution network enterprises to which the incremental distribution network enterprises belong by using the power user numbers, and inputting new user numbers when the users register.

Forwarding the verification request (20): and judging the incremental distribution network enterprises corresponding to the user verification requests, and forwarding the verification requests to the corresponding incremental distribution network enterprises according to the routes.

Checking and feeding back a checking result and a standing book (30): the incremental distribution network enterprise returns verification result information to the power grid enterprise, and returns user account information after verification is successful

Receiving a forwarding verification result (40): forwarding verification result information to a transaction system

Whether the check is successful (50): after the transaction center obtains the checking result, if not, the transaction center returns the user information check, if successful, the user information check is carried out.

User profile verification (60): the transaction center verifies the applied user data, including obtaining the historical electricity consumption condition of the user to judge whether the condition of entering the market is met or not, and then the registration result is pushed to the power grid enterprise.

Forwarding the user registration result (70): and judging the incremental network distribution enterprises corresponding to the user registration results, and forwarding the verification request to the corresponding incremental network distribution enterprises according to the route.

Receiving a user registration result (80): and receiving a user registration result and carrying out service processing according to the registration result.

Marketization user service changes as shown in figure 8,

pushing user account change information (10): and the ledger information of the user is changed, and the incremental distribution network enterprise transmits the ledger information after the user is changed to the power grid enterprise.

Forwarding user account change information (20): and the power grid enterprise forwards the ledger information after the incremental network distribution user is changed to the transaction system.

User transaction qualification audit (30): and the transaction center examines the user transaction qualification according to the changed user file and sends the result of marketing (refunding) to the power grid enterprise.

Forwarding marketized user qualification change information (40): and the power grid enterprise forwards the information of the users in the market (out of the market) to the incremental power distribution network system, and updates the file.

Receiving marketization qualification change information (50): and updating the file by the incremental power distribution network enterprises according to the information of entering (leaving) the market.

Marketized user settlement as shown in figure 9,

daily electricity accounting (10): calculating the electric quantity information of 24 time points of each metering point of the marketized user on the T-1 day every day; the power of the variable loss is distributed to 24 time periods at the end of the month according to the power proportion of each time period at the end of the month.

Pushing daily electricity (10): and pushing the T-2 day electric quantity information to the power grid enterprises every day by the incremental power distribution network enterprises.

Summary electrical quantity data (including wide-depth and incremental distribution network users) (20): and the power grid enterprises collect the daily electric quantity of the wide-depth and incremental power distribution network households.

Push power (30): and pushing the collected daily electric quantity data to a transaction system by the power grid enterprise.

Receiving daily electricity quantity (40): and the transaction system receives daily electricity quantity data pushed by the power grid enterprise.

Daily charge clearing (50): the transaction system performs clearing according to the daily electricity quantity data.

Monthly settlement is based on accounting (60): and the transaction center settles the increment distribution network users according to months, and generates a monthly settlement basis.

Pushing a transaction month settlement basis (70): and the transaction system pushes the monthly settlement basis to the power grid enterprise.

Forwarding transaction settlement basis (80): and the power grid enterprises forward the month bases of the users to the incremental power distribution network system.

Receiving a transaction settlement basis and checking (90): and the incremental power distribution network system receives the month settlement basis forwarded by the power grid enterprise and checks the month settlement basis.

Moon settlement (100): and the incremental power distribution network enterprises calculate the daily electric quantity collected by the marketized users for funds, accessories, basic electric charges and power electric charges, and combine the electric charges with the transaction electric charges to give a marketized user bill.

Marketized power error handling as shown in figure 10,

daily clear electric quantity correction flow (10): and the incremental power distribution network enterprise initiates a positive flushing processing flow for the abnormal electric quantity.

Pushing the daily positive electricity quantity (20): and pushing the daily electric quantity data to be flushed to the power grid enterprise by the incremental power distribution network system.

Daily positive charge summary (30): the power grid enterprises gather daily positive electricity, including wide-depth and incremental power distribution network users.

Pushing the daily positive electricity quantity (40): and pushing the collected solar impact positive electricity quantity data to a transaction system by the power grid enterprise.

Transaction receipt positive charge (50): and the transaction system receives the total solar impact positive electricity data pushed by the power grid enterprise and performs settlement.

Transaction push positive settlement basis (60): and re-settling the transaction according to the electric quantity after the transaction is well flushed, and pushing the settlement basis to the power grid enterprise.

Forwarding positive settlement basis (70): and the power grid enterprises forward the positive clearing basis pushed by the transaction system to the incremental power distribution network system.

Receive positive settlement basis (80): and the incremental power distribution network system receives the positive clearing basis forwarded by the power grid enterprise and performs subsequent service processing.

The problem co-processing is as shown in figure 11,

pushing abnormal cooperative information (10): and the power grid enterprise initiates an abnormal collaborative work order and pushes the collaborative information to the incremental power distribution network system.

Receive anomaly co-information (20): and the incremental power distribution network system receives the abnormal cooperative information and processes the abnormal problems.

Feedback exception handling results (30): and the incremental power distribution network system feeds back an abnormal processing result to the power grid enterprise.

Receive exception handling results (40): and the power grid enterprise receives the abnormal processing result and performs subsequent business processing.

Pushing abnormal collaborative information (50): and the incremental power distribution network system initiates an abnormal collaborative process flow and pushes collaborative information to a power grid enterprise.

Receive anomaly co-information (60): and the power grid enterprise receives the abnormal cooperative information and processes the abnormal problems.

Feedback exception handling results (70): and the power grid enterprises feed the abnormal problem processing results back to the incremental power distribution network system.

Receive exception handling results (80): and the incremental power distribution network system receives an abnormal problem processing result returned by the power grid enterprise and performs subsequent service processing.

Taking electricity consumption daily electricity quantity error data as an example, the business flow is shown in fig. 12, and the invention has the following benefits:

social benefits

The incremental distribution network access management, the data interaction integration, the service monitoring, the problem coordination and the like are realized through the incremental distribution network access function transformation and the distribution network platform interface function transformation. The method provides powerful information support for intensive management and operation of the company, promotes comprehensive improvement of enterprise efficiency, improves influence of the industry in society, establishes good social image for the company, and achieves good social benefit.

Management benefits

Through the scheme, the practical level and the lean management level of related systems are effectively improved, and the integrated management process is effectively improved. The continuous improvement of the management mode and the technical method is realized, and a solid foundation is laid for the lean benefit of the marketing management work. The lean management level of the Guangdong power grid is improved, the original information barrier is broken, the improvement of the overall management capacity is strongly promoted, and a foundation is laid for realizing the purpose of building the company into an international advanced power grid enterprise with good service, management and image.

Economic benefit

By the scheme, the management mode is promoted to be changed by means of informatization, so that the optimization flow is realized, the efficiency is improved, and the resource allocation is optimized. The risk of operation is reduced for the power enterprises, the self benefit of the enterprises is ensured, and the economic benefit is improved.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A multi-party power statistics sharing method based on a blockchain technique, the method comprising the steps of:

s1, a user registers in a transaction system, and a transaction center performs business processing after user information verification is passed to finish registration;

s2, user transaction qualification checking is carried out according to the account change information, and marketized user qualification change information is received after passing;

s3, the power grid enterprises acquire and collect electric quantity data, and then push the electric quantity data to a transaction system to carry out user electric quantity settlement;

s4, the incremental power distribution network system receives the monthly settlement basis, checks the monthly settlement basis and initiates a positive flushing treatment process for the abnormal electric quantity;

s5, re-settling according to the electric quantity after the flushing, and forwarding to an incremental power distribution network system for subsequent service processing;

s6, after the abnormal collaborative information is received and subjected to abnormal processing, the abnormal collaborative information is fed back to the incremental power distribution network system to carry out subsequent business processing.

2. The blockchain technology based multiparty power statistics sharing method according to claim 1, wherein S1 comprises the sub-steps of:

s11, a user registers in a transaction system, a user number and a user name are input, and a transaction center sends user information to a power grid enterprise to perform user verification and acquire user account information;

s12, judging an incremental distribution network enterprise corresponding to the user verification request, and forwarding the verification request to the corresponding incremental distribution network enterprise according to the route;

s13, the incremental distribution network enterprise returns verification result information to the power grid enterprise, and returns user account information after verification is successful;

s14, forwarding the verification result information to a transaction system, if the verification result information is unsuccessful, returning user information verification, and if the verification result information is successful, carrying out user information verification;

s15, the transaction center verifies the applied user data, including obtaining the historical electricity consumption condition of the user, judging whether the condition of entering the market is met or not, and pushing the registration result to the power grid enterprise;

s16, judging an incremental distribution network enterprise corresponding to the user registration result, and forwarding the verification request to the corresponding incremental distribution network enterprise according to the route;

s17, receiving the user registration result and carrying out service processing according to the registration result.

3. The blockchain technology based multiparty power statistics sharing method according to claim 1, wherein S2 comprises the sub-steps of:

s21, changing the ledger information of the user, and transmitting the ledger information after the user change to the power grid enterprise by the incremental distribution network enterprise;

s22, the power grid enterprise forwards the account information changed by the incremental distribution network user to a transaction system;

s23, the transaction center checks the user transaction qualification according to the changed user file, and sends the result of marketing/return to the power grid enterprise;

s24, the power grid enterprise forwards the information of the users on/off the market to the incremental power distribution network system, and updates the file;

and S25, updating the file by the incremental power distribution network enterprise according to the information of entering/exiting the market.

4. The blockchain technology based multiparty power statistics sharing method according to claim 1, wherein S3 comprises the sub-steps of:

s31, calculating the electric quantity information of 24 time points of each metering point of a marketized user in the T-1 day every day; the variable loss electric quantity is distributed to 24 time periods at the end of the month according to the electric quantity proportion of each time period at the end of the month;

s32, pushing the T-2 day electric quantity information to the power grid enterprises every day by the incremental power distribution network enterprises;

s33, collecting daily electricity quantity of incremental power distribution network households by a power grid enterprise;

s34, pushing the collected daily electricity quantity data to a transaction system by the power grid enterprise;

s35, the transaction system receives daily electricity quantity data pushed by a power grid enterprise;

s36, the transaction system performs clearing according to the daily electricity quantity data;

s37, the transaction center settles the increment distribution network user according to months, and a month settlement basis is generated;

s38, pushing the monthly settlement basis to a power grid enterprise by the transaction system;

s39, the power grid enterprise forwards the month basis of the user to the incremental power distribution network system;

s310, the incremental power distribution network system receives month settlement bases forwarded by power grid enterprises and checks the month settlement bases;

and S311, the incremental power distribution network enterprise calculates the fund and the accessories, the basic electric charge and the power electric charge of the marketized user collected daily electric quantity, and combines the incremental power distribution network enterprise with the transaction electric charge to issue a marketized user bill.

5. The blockchain technology based multiparty power statistics sharing method according to claim 1, wherein S5 comprises the sub-steps of:

s51, the incremental power distribution network enterprises initiate a positive flushing processing flow for abnormal electric quantity;

s52, pushing the daily electric quantity data required to be flushed to a power grid enterprise by the incremental power distribution network system;

s53, the power grid enterprises collect the daily positive charging quantity, including incremental power distribution network users;

s54, pushing the collected solar impact positive electricity quantity data to a transaction system by the power grid enterprise;

s55, the transaction system receives the total solar impact positive electricity data pushed by the power grid enterprise, and settles;

s56, transaction is carried out again according to the electric quantity after the charging, and the settlement basis is pushed to the power grid enterprise;

s57, the power grid enterprises forward the positive clearing basis pushed by the transaction system to the incremental power distribution network system;

s58, the incremental power distribution network system receives the positive clearing basis forwarded by the power grid enterprise and carries out subsequent service processing.

6. The blockchain technology based multiparty power statistics sharing method according to claim 1, wherein S6 comprises the sub-steps of:

s61, the power grid enterprises initiate abnormal collaborative work orders and push collaborative information to the incremental power distribution network system;

s62, the incremental power distribution network system receives abnormal cooperative information and processes abnormal problems;

s63, the incremental power distribution network system feeds back an exception processing result to a power grid enterprise;

s64, the power grid enterprise receives an exception handling result and carries out subsequent business handling;

s65, the incremental power distribution network system initiates an abnormal collaborative process flow, and collaborative information is pushed to a power grid enterprise;

s66, the power grid enterprise receives abnormal cooperative information and processes abnormal problems;

s67, the power grid enterprises feed abnormal problem processing results back to the incremental power distribution network system;

s68, the incremental power distribution network system receives an abnormal problem processing result returned by the power grid enterprise and performs subsequent service processing.

7. A multi-party electricity statistical information sharing system based on a blockchain technology, wherein the sharing system is used for implementing the multi-party electricity statistical information sharing method based on the blockchain technology according to any one of claims 1-6, and the multi-party electricity statistical information sharing system comprises a business system, a supporting layer and a business service layer.

8. The blockchain technology-based multi-party electricity statistics information sharing system according to claim 7, wherein the supporting layer is a framework base, and provides a basic service for ensuring normal operation of the business application system, including an infrastructure service of a cloud framework and a container cloud service required by a blockchain platform.

9. The blockchain technology based multiparty power statistics information sharing system according to claim 7, wherein the business service layer comprises a blockchain base technology platform, a blockchain service administration platform, a blockchain service capability platform and API interface management for user creation, management and maintenance of enterprise-level blockchain networks and for providing generic blockchain service capabilities for upper layer business applications.

10. The blockchain technology-based multiparty electric quantity statistical information sharing system according to claim 7, wherein the business service layer comprises a dynamic construction module, a blockchain application development module, a blockchain application deployment module and a blockchain operation monitoring module of the blockchain node and the network for trusted data storage and trusted data sharing services.