CN109697219B - Block chain-based electric power distributed system and block chain recording method thereof - Google Patents

Abstract

The invention discloses a block chain-based electric power distributed system and a block chain recording method thereof, wherein the method comprises the following steps: receiving related information of a distributed system, wherein the related information comprises first interaction information generated by an intelligent ammeter, first electric power information generated by a photovoltaic cell control system and second electric power information generated by a wind power control system; second interaction information generated by the charger; generating a block chain in the block chain, extracting distributed first position information associated with the first power information based on the first power information, and recording the first power information and the first position information on a first block on the block chain; extracting distributed position information associated with the second power information based on the second power information, and recording the second power information and the second position information on a second block on the block chain; and issuing a block chain, and transmitting the first block and the second block to one or more other nodes in the whole block chain.

Description

Block chain-based power distribution system and block chain recording method thereof

Technical Field

The invention relates to the technical field of block chains, in particular to a block chain-based electric power distributed system and a block chain recording method thereof.

Background

In the field of electric power, along with the continuous popularization of distributed equipment, how to carry out electric power circulation and cost calculation, how to realize rapid internet surfing of distributed electric power, how to overcome the difficult problem that the existing one-way cost calculation cannot realize the future two-way cost calculation, which is the difficulty of current electric power transformation,

with the application of the block chain, the point-to-point payment of the cost can be realized, the payment safety is improved while the cost is paid, the tracing can be conducted, the existing payment mode needing to be paid through a third party is changed, how to effectively combine the power and the block chain, the safe and efficient application of the power is realized, the safety of the two-way circulation and the power circulation of the future distributed power is adapted, the quick settlement of the cost is changed, how to operate the distributed equipment and a connected network, calculate the position of the block chain in the block chain, determine the absolute position of the block chain, clarify the position of the block chain, and judge the authenticity of the block chain, which is an important technical problem of enhancing the correctness and the effectiveness of the block chain and a problem to be overcome in the power, particularly in a distributed system.

Disclosure of Invention

The invention provides a block chain-based electric power distributed system, which comprises an intelligent electric meter, a photovoltaic cell control system, a wind power control system, a charger, block chain generation equipment, a network communication interface, a server and a database, wherein the intelligent electric meter is connected with the photovoltaic cell control system through a network;

the server is coupled to a block chain generating device and a database through the network communication interface, the block chain generating device receives first interaction information generated by the intelligent electric meter, and receives first electric power information generated by the photovoltaic cell control system and second electric power information generated by the wind power control system; receiving second interaction information generated by the charger;

the block chain generation device extracts distributed first position information associated with the first power information based on the first power information, and the first power information and the first position information are recorded on a first block on a block chain;

the block chain generation device extracts distributed position information associated with the second power information based on the second power information, and the second power information and the second position information are recorded on a second block on the block chain;

transmitting the first block and the second block to one or more other nodes in the entire block chain;

the server performing a cost accounting based on the first and second blocks, the one or more other nodes adjusting power output according to the first and second blocks; the database stores the cost accounting and the adjusted amount of power output by the one or more other nodes.

The electric power distribution system further comprises a user terminal, and the user terminal sends a request to the server or receives a response signal of the server.

In the power distribution system, the block chain generation device records the first mutual information on a third block of a block chain, and records the second mutual information on a fourth block of the block chain.

In the electric power distributed system, the first block and the second block are provided with an association ID, the association ID is used for setting a timestamp on information of the first block and the second block, when one or more other nodes in the whole block chain receive the first block or the second block, the association ID is checked, the timestamp is compared with the current time for judgment, whether the current time is within the timestamp range is judged, if yes, adjustment is carried out, and if not, the current time is marked on the association ID and fed back to a server.

In the power distribution system, the fourth block sets a direction identifier, the direction identifier feeds back the direction of energy flow, and the fourth block performs money calculation according to the amount of energy flow, associates the money with the direction identifier, and sends the association result to the server.

A blockchain recording method of the blockchain-based power distribution system according to any one of the above,

receiving related information of a distributed system, wherein the related information comprises first interaction information generated by an intelligent ammeter, first electric power information generated by a photovoltaic cell control system and second electric power information generated by a wind power control system; second interaction information generated by the charger;

generating a block chain in the block chain, extracting distributed first position information associated with the first power information based on the first power information, and recording the first power information and the first position information on a first block on the block chain; extracting distributed position information associated with the second power information based on the second power information, and recording the second power information and the second position information on a second block on the block chain;

and issuing a block chain, and transmitting the first block and the second block to one or more other nodes in the whole block chain.

The block chain recording method performs cost accounting based on the first block and the second block, and the one or more other nodes adjust power output according to the first block and the second block; and adjusting the power output, and issuing bill information to the user terminal.

In the block chain recording method, the block chain generating device records the first mutual information on a third block of a block chain, and records the second mutual information on a fourth block of the block chain.

In the block chain recording method, the user terminal sends a charging request to the server, receives bill information of the server, generates a payment block chain containing time and payment type according to the bill information, sends the payment block chain to the server, and stores the received payment block chain in a database after associating the received payment block chain with the third block and the fourth block.

In the block chain recording method, the first block and the second block are provided with an association ID, the association ID is used for setting a timestamp on information of the first block and the second block, when one or more other nodes in the whole block chain receive the first block or the second block, the association ID is verified, the timestamp is compared with the current time for judgment, whether the current time is within the timestamp range is judged, if so, adjustment is performed, and if not, the current time is marked on the association ID and fed back to a server; the fourth block sets a direction identifier, the direction identifier feeds back the energy flow direction, the fourth block calculates the amount of money according to the energy flow amount, associates the amount of money with the direction identifier, and sends the association result to the server.

According to the invention, the distributed power generation system is distributed in a block chain manner, so that the position information of power transmission and the generated amount information can be recorded in real time; the photovoltaic cell and the wind power block chain are associated, and the time stamp is set for the associated information, so that the timeliness of the distributed power can be better considered; the flow direction in the charger is recorded through the block chain, so that the bill is conveniently recorded without performing accounting in the charger, the payment or the reception of the charge is determined through the background server according to the specific value of energy circulation and the associated positive and negative values, the positive and negative values of the background operation charge can be directly performed through the server, and the point-to-point charge payment is directly performed with the user terminal through the server. Through the recorded electric power value, time and expense amount of the block chain, background expense unified accounting and storage are conveniently carried out, various information is recorded in one piece of information after the information is collected to the server, information collection adjustment is facilitated, the operation difficulty of the server is reduced, and the operation speed of the server is improved.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. In the drawings, like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a schematic diagram of a power distribution system of the present invention.

Fig. 2 is a schematic diagram of the block chain recording method of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.

As shown in fig. 1, is a schematic diagram of the power distribution system of the present invention.

The invention provides a block chain-based electric power distributed system, which comprises an intelligent electric meter, a photovoltaic cell control system, a wind power control system, a charger, block chain generation equipment, a network communication interface, a server and a database, wherein the intelligent electric meter is connected with the photovoltaic cell control system through a network;

the server is coupled to a block chain generating device and a database through the network communication interface, the block chain generating device receives first interaction information generated by the intelligent electric meter, and receives first electric power information generated by the photovoltaic cell control system and second electric power information generated by the wind power control system; receiving second interaction information generated by the charger;

the block chain generation device extracts distributed first position information associated with the first power information based on the first power information, and the first power information and the first position information are recorded on a first block on a block chain;

the block chain generation device extracts distributed position information associated with the second power information based on the second power information, and the second power information and the second position information are recorded on a second block on the block chain;

transmitting the first block and the second block to one or more other nodes in the entire block chain;

the server performing a cost accounting based on the first and second blocks, the one or more other nodes adjusting power output according to the first and second blocks; the database stores the cost accounting and the adjusted amount of power output by the one or more other nodes.

The electric power distribution system further comprises a user terminal, and the user terminal sends a request to the server or receives a response signal of the server.

In the power distribution system, the block chain generation device records the first mutual information on a third block of a block chain, and records the second mutual information on a fourth block of the block chain.

In the electric power distributed system, the first block and the second block are provided with an association ID, the association ID is used for setting a timestamp for information of the first block and the second block, when one or more other nodes in the whole block chain receive the first block or the second block, the association ID is verified, the timestamp is compared with the current time to judge whether the current time is within the timestamp range, if yes, adjustment is carried out, and if not, the current time is marked on the association ID and fed back to a server.

In the electric power distributed system, the fourth block sets a direction identifier, the direction identifier feeds back the energy flow direction, and the fourth block calculates the amount of money according to the energy flow amount, associates the amount of money with the direction identifier, and sends the associated result to the server.

Fig. 2 is a schematic diagram of the block chain recording method according to the present invention. A block chain recording method of the block chain-based power distribution system according to any one of the above items,

receiving related information of a distributed system, wherein the related information comprises first interaction information generated by an intelligent ammeter, first electric power information generated by a photovoltaic cell control system and second electric power information generated by a wind power control system; second interaction information generated by the charger;

generating a block chain in the block chain, extracting distributed first position information associated with the first power information based on the first power information, and recording the first power information and the first position information on a first block on the block chain; extracting distributed position information associated with the second power information based on the second power information, and recording the second power information and the second position information on a second block on the block chain;

and issuing a block chain, and transmitting the first block and the second block to one or more other nodes in the whole block chain.

The block chain recording method performs cost accounting based on the first block and the second block, and the one or more other nodes adjust power output according to the first block and the second block; and adjusting the power output, and issuing bill information to the user terminal.

In the block chain recording method, the block chain generating device records the first mutual information on a third block of a block chain, and records the second mutual information on a fourth block of the block chain.

In the block chain recording method, the user terminal sends a charging request to the server, receives bill information of the server, generates a payment block chain containing time and payment category according to the bill information, and sends the payment block chain to the server, and the server associates the received payment block chain with the third block and the fourth block and stores the associated payment block chain in a database.

In the block chain recording method, the first block and the second block are provided with an association ID, the association ID is used for setting a timestamp on information of the first block and the second block, when one or more other nodes in the whole block chain receive the first block or the second block, the association ID is verified, the timestamp is compared with the current time for judgment, whether the current time is within the timestamp range is judged, if so, adjustment is performed, and if not, the current time is marked on the association ID and fed back to a server; the fourth block sets a direction identifier, the direction identifier feeds back the energy flow direction, the fourth block calculates the amount of money according to the energy flow amount, associates the amount of money with the direction identifier, and sends the association result to the server.

A computer program product, or computer storage medium, that executes program instructions that,

receiving related information of a distributed system, wherein the related information comprises first interaction information generated by an intelligent ammeter, first electric power information generated by a photovoltaic cell control system and second electric power information generated by a wind power control system; second interaction information generated by the charger;

generating a block chain in the block chain, extracting distributed first position information associated with the first power information based on the first power information, and recording the first power information and the first position information on a first block on the block chain; extracting distributed position information associated with the second power information based on the second power information, and recording the second power information and the second position information on a second block on the block chain;

and issuing a block chain, and transmitting the first block and the second block to one or more other nodes in the whole block chain.

The computer program product or computer storage medium, performing cost accounting based on the first and second blocks, the one or more other nodes adjusting power output according to the first and second blocks; and adjusting the power output, and issuing bill information to the user terminal.

The computer program product or the computer storage medium of this document may further include a block chain generation device that records the first mutual information on a third block of a block chain and records the second mutual information on the fourth block of the block chain.

The user terminal sends a charging request to the server, receives bill information of the server, generates a payment block chain including time and payment category according to the bill information, sends the payment block chain to the server, and stores the received payment block chain, the third block and the fourth block in a database after the server associates the received payment block chain with the third block and the fourth block.

The computer program product or the computer storage medium, where the first block and the second block set an association ID, where the association ID is used to set a timestamp for information of the first block and the second block, and when one or more other nodes in the whole block chain receive the first block or the second block, the association ID is checked, and the timestamp is compared with the current time to determine whether the current time is within the timestamp range, if so, the adjustment is performed, and if not, the current time is marked on the association ID and fed back to the server; the fourth block sets a direction identifier, the direction identifier feeds back the energy flow direction, the fourth block calculates the amount of money according to the energy flow amount, associates the amount of money with the direction identifier, and sends the association result to the server.

According to the invention, the distributed power generation system is distributed in a block chain manner, so that the position information of power transmission and the generated amount information can be recorded in real time; the photovoltaic cell and the wind power are associated through the block chain, and the time stamp is set for the associated information, so that the timeliness of the distributed power can be better considered; the flow direction in the charger is recorded through the block chain, so that the bill is conveniently recorded without accounting in the charger, the payment or the receiving of the charge is determined through the background server according to the specific value of energy circulation and the associated positive and negative values, the positive and negative values of the background operation charge can be directly carried out through the server, and the point-to-point charge payment is directly carried out with the user terminal through the server. Through the record electric power value, time, expense amount of money of block chain, conveniently carry out the unified accounting of backstage expense and save, gather to the server after with multiple information record in an information, be favorable to carrying out the adjustment of information gathering, reduce the server and move the degree of difficulty, promote the functioning speed of server.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications can be made without departing from the scope of the invention. That is, the methods, systems or devices discussed above are examples. Various configurations may omit, substitute, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in an order different than that described, and/or various stages may be added, omitted, and/or combined. Also, features described with respect to certain configurations may be combined in various other configurations. Different aspects and elements of the configuration may be combined in a similar manner. Furthermore, many of the elements that follow as technology develops are merely examples and do not limit the scope of the disclosure or claims.

Specific details are given in the description to provide a thorough understanding of the exemplary configurations including implementations. However, configurations may be practiced without these specific details, for example, well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring the configurations. This description provides example configurations only, and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configurations will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

Further, although each operation may describe the operation as a sequential process, many of the operations can be performed in parallel or concurrently. In addition, the order of the operations may be rearranged. There may be other steps in a process. Furthermore, examples of the methods may be implemented by hardware, software, firmware, middleware, code, hardware description languages, or any combination thereof. When implemented in software, firmware, middleware or code, the program code or code segments to perform the necessary tasks may be stored in a non-transitory computer-readable medium such as a storage medium and the described tasks are performed by a processor.

It is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is the following claims, including all equivalents, that are intended to define the spirit and scope of this invention. The above examples are to be construed as merely illustrative and not limitative of the remainder of the disclosure. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (10)

1. A block chain-based electric power distributed system is characterized by comprising an intelligent electric meter, a photovoltaic cell control system, a wind power control system, a charger, block chain generation equipment, a network communication interface, a server and a database;

the server is coupled to a block chain generating device and a database through the network communication interface, the block chain generating device receives first interaction information generated by the intelligent ammeter, and receives first power information generated by the photovoltaic cell control system and second power information generated by the wind power control system; receiving second interaction information generated by the charger;

the block chain generation device extracts distributed first position information associated with the first power information based on the first power information, and records the first power information and the first position information on a first block on a block chain;

the block chain generation device extracts distributed position information associated with the second power information based on the second power information, and the second power information and the second position information are recorded on a second block on the block chain;

transmitting the first block and the second block to one or more other nodes in the entire block chain;

the server performing a cost accounting based on the first and second blocks, the one or more other nodes adjusting power output according to the first and second blocks; the database stores the cost accounting and the adjusted amount of power output by the one or more other nodes.

2. The power distribution system of claim 1, further comprising a user terminal that sends a request to the server or receives a response signal of the server.

3. The power distribution system of claim 2, wherein the block chain generation device records the first mutual information on a third block on the block chain and the second mutual information on a fourth block on the block chain.

4. The power distribution system of claim 2, wherein the first block and the second block are provided with an association ID, the association ID is used for setting a timestamp for information of the first block and the second block, when the first block or the second block is received by one or more other nodes in the whole block chain, the association ID is checked, the timestamp is compared with the current time to judge whether the current time is within the timestamp range, if so, adjustment is carried out, and if not, the current time is marked on the association ID and fed back to the server.

5. The power distribution system according to claim 3, wherein the fourth block sets a direction identifier that feeds back a direction of energy flow, and performs an amount calculation based on an amount of energy flow, and associates the amount with the direction identifier, and transmits a result of the association to the server.

6. A block chain recording method of the block chain based electric power distribution system according to any one of claims 1 to 5,

receiving related information of a distributed system, wherein the related information comprises first interaction information generated by an intelligent ammeter, first electric power information generated by a photovoltaic cell control system and second electric power information generated by a wind power control system; second interaction information generated by the charger;

generating a block chain in the block chain, extracting distributed first position information associated with the first power information based on the first power information, and recording the first power information and the first position information on a first block on the block chain; extracting distributed position information associated with the second power information based on the second power information, and recording the second power information and the second position information on a second block on the block chain;

and issuing a block chain, and transmitting the first block and the second block to one or more other nodes in the whole block chain.

7. The blockchain recording method of claim 6, wherein a cost accounting is performed based on the first and second blocks, the one or more other nodes adjusting power output according to the first and second blocks; and adjusting the power output, and issuing bill information to the user terminal.

8. The block chain recording method according to claim 7, wherein the block chain generating device records the first mutual information on a third block on the block chain, and records the second mutual information on a fourth block on the block chain.

9. The blockchain recording method according to claim 8, wherein the user terminal transmits a charging request to the server, receives bill information of the server, generates a chain of payment blocks including time and payment category according to the bill information, transmits the chain of payment blocks to the server, and the server stores the received chain of payment blocks in a database after associating the received chain of payment blocks with the third block and the fourth block.

10. The block chain recording method according to claim 9, wherein the first block and the second block are provided with an association ID, the association ID is used to set a timestamp for information of the first block and the second block, when the first block or the second block is received by one or more other nodes in the entire block chain, the association ID is checked, the timestamp is compared with the current time to determine whether the current time is within the timestamp range, if so, adjustment is performed, and if not, the current time is marked on the association ID and fed back to the server; the fourth block sets a direction identifier which feeds back the energy flow direction, calculates the amount of money according to the energy flow amount, associates the amount of money with the direction identifier, and sends the association result to the server.

Images