CN113592356A - Intelligent planning method for shared charging pile based on block chain - Google Patents

Abstract

The invention discloses a sharing charging pile intelligent planning method based on a block chain, which comprises a block chain charging pile intelligent data planning system, a sharing charging pile intelligent data planning system and a sharing charging pile intelligent data planning system, wherein the block chain charging pile intelligent data planning system is used for receiving user and vehicle information provided by a sub-block chain data management planning system of each charging pile area; the system comprises a sub-blockchain data management planning system, a charging pile management system and a charging management system, wherein the sub-blockchain data management planning system is a blockchain system installed in each charging pile and used for identifying and confirming information and charging conditions of users and vehicles; a block chain monitoring system is arranged between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system; a blockchain monitoring system is arranged between the intelligent data planning system for charging piles and the sub-blockchain data management planning system through blockchains, and therefore the shared charging piles in a plurality of areas can be monitored.

Description

Intelligent planning method for shared charging pile based on block chain

Technical Field

The invention relates to the technical field of block chain shared charging piles, in particular to a block chain-based shared charging pile intelligent planning method.

Background

At present, the construction speed and the investment amount of the charging pile are gradually increased, and each public charging pile operator has a service platform and a service mode, so that information interaction and sharing are not facilitated; compared with public charging piles, the occupancy of private charging piles has reached 60%, and the number is still in constant rise.

Along with the continuous development of new forms of energy trade sharing stake of charging also continuous development, but present sharing stake of charging all uses alone at present, and the exclusive use has been unable to satisfy present market, so begins to plan whole stake of charging based on the block chain, and the sharing that plans with the block chain at present fills electric pile and can't carry out a plurality of regional control.

Disclosure of Invention

The invention aims to provide a block chain-based intelligent planning method for a shared charging pile, which aims to solve the problem that the shared charging pile planned by the block chain cannot monitor a plurality of areas at present.

In order to achieve the purpose, the invention provides the following technical scheme: a sharing charging pile intelligent planning method based on a block chain comprises a block chain charging pile intelligent data planning system, a sharing charging pile intelligent data planning system and a sharing charging pile intelligent data planning system, wherein the block chain charging pile intelligent data planning system is used for receiving user and vehicle information provided by a sub-block chain data management planning system of each charging pile area; the system comprises a sub-blockchain data management planning system, a charging pile management system and a charging management system, wherein the sub-blockchain data management planning system is a blockchain system installed in each charging pile and used for identifying and confirming information and charging conditions of users and vehicles;

a block chain monitoring system is arranged between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system;

the block chain monitoring system comprises two block chain monitoring plates, wherein one block chain monitoring plate is used for monitoring the block chain charging pile intelligent data planning system, and the other block chain monitoring plate is used for monitoring the sub-block chain data management planning system;

each block chain monitoring plate is divided into a plurality of monitoring nodes, and each monitoring node correspondingly monitors different information data.

Furthermore, the block chain charging pile intelligent data planning system comprises N charging pile planning modules, wherein N can be any positive number, each charging pile planning module operates independently, and each charging pile planning module corresponds to a plurality of charging piles;

the sub-block chain data management planning system comprises charging data statistics modules, each charging pile corresponds to one charging data statistics module, and the plurality of charging data statistics modules are in wireless connection with one of the charging pile planning modules.

Furthermore, the charging data statistics module comprises a vehicle information identification module and a user identity identification module, and the vehicle information identification module and the user identity identification module operate independently;

the vehicle information identification module is used for identifying the license plate information of the vehicle charged by the charging pile;

and the user identity identification module is used for identifying the identity card information of the vehicle owner.

Furthermore, the plurality of monitoring nodes are respectively in signal connection with a vehicle information identification module and a user identity identification module of the charging data statistical module.

Furthermore, a block chain data sorting module and a block chain differentiation module are arranged in the charging pile planning module;

the block chain data sorting module is used for sorting the user charging vehicle information and the monitoring data information which are conveyed by each sub-block chain data management planning system;

the block chain differentiation module is bidirectionally connected with the block chain data sorting module and is used for dividing block chain charging piles in different areas.

Furthermore, the block chain monitoring system further comprises a storage module, which is used for storing the charging pile data information monitored by the block chain monitoring system.

Compared with the prior art, the invention has the beneficial effects that:

according to the method for sharing charging pile intelligent planning based on the block chain, a block chain monitoring system is arranged between a block chain charging pile intelligent data planning system and a sub-block chain data management planning system, and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system, so that the sharing charging piles in a plurality of regions can be monitored.

Drawings

Fig. 1 is a flowchart of a method for intelligent planning of a shared charging pile based on a block chain according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the first embodiment, the first step is,

referring to fig. 1, in an embodiment of the present invention, a method for sharing charging pile intelligent planning based on a block chain includes a block chain charging pile intelligent data planning system, configured to receive user and vehicle information provided by a sub-block chain data management planning system of each charging pile area; the system comprises a plurality of charging piles, a sub-blockchain data management planning system and a control system, wherein the sub-blockchain data management planning system is a blockchain system which is installed in each charging pile and used for identifying and confirming information and charging conditions of users and vehicles.

And a block chain monitoring system is arranged between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system.

The block chain monitoring system comprises two block chain monitoring plates, wherein one block chain monitoring plate is used for monitoring the block chain charging pile intelligent data planning system, and the other block chain monitoring plate is used for monitoring the sub-block chain data management planning system.

Each block chain monitoring plate is divided into a plurality of monitoring nodes, and each monitoring node correspondingly monitors different information data.

According to the method for sharing charging pile intelligent planning based on the block chain, a block chain monitoring system is arranged between a block chain charging pile intelligent data planning system and a sub-block chain data management planning system, and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system, so that the sharing charging piles in a plurality of regions can be monitored.

Example II,

Referring to fig. 1, in an embodiment of the present invention, a method for sharing charging pile intelligent planning based on a block chain includes a block chain charging pile intelligent data planning system, configured to receive user and vehicle information provided by a sub-block chain data management planning system of each charging pile area; the system comprises a plurality of charging piles, a sub-blockchain data management planning system and a control system, wherein the sub-blockchain data management planning system is a blockchain system which is installed in each charging pile and used for identifying and confirming information and charging conditions of users and vehicles.

And a block chain monitoring system is arranged between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system.

The block chain monitoring system comprises two block chain monitoring plates, wherein one block chain monitoring plate is used for monitoring the block chain charging pile intelligent data planning system, and the other block chain monitoring plate is used for monitoring the sub-block chain data management planning system.

Each block chain monitoring plate is divided into a plurality of monitoring nodes, and each monitoring node correspondingly monitors different information data.

The block chain charging pile intelligent data planning system comprises N charging pile planning modules, wherein N can be any positive number, each charging pile planning module operates independently, and each charging pile planning module corresponds to a plurality of charging piles;

the sub-block chain data management planning system comprises charging data statistics modules, each charging pile corresponds to one charging data statistics module, and the plurality of charging data statistics modules are in wireless connection with one of the charging pile planning modules.

The charging data statistical module comprises a vehicle information identification module and a user identity identification module, and the vehicle information identification module and the user identity identification module operate independently;

the vehicle information identification module is used for identifying the license plate information of the vehicle charged by the charging pile;

and the user identity identification module is used for identifying the identity card information of the vehicle owner.

And the plurality of monitoring nodes are respectively in signal connection with the vehicle information identification module and the user identity identification module of the charging data statistical module.

A block chain data sorting module and a block chain differentiation module are arranged in the charging pile planning module;

the block chain data sorting module is used for sorting the user charging vehicle information and the monitoring data information which are conveyed by each sub-block chain data management planning system;

the block chain differentiation module is bidirectionally connected with the block chain data sorting module and is used for dividing block chain charging piles in different areas.

The block chain monitoring system further comprises a storage module for storing the charging pile data information monitored by the block chain monitoring system.

The information of the user and the vehicle is stored through the storage module, and the charging device is favorable for searching the information.

In summary, according to the method for sharing charging pile intelligent planning based on the block chain, a block chain monitoring system is arranged between a block chain charging pile intelligent data planning system and a sub-block chain data management planning system, and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system, so that the sharing charging piles in a plurality of regions can be monitored.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. A sharing charging pile intelligent planning method based on a block chain is characterized by comprising a block chain charging pile intelligent data planning system, a sharing charging pile intelligent data planning system and a sharing charging pile intelligent data planning system, wherein the block chain charging pile intelligent data planning system is used for receiving user and vehicle information provided by a sub-block chain data management planning system of each charging pile area; the system comprises a sub-blockchain data management planning system, a charging pile management system and a charging management system, wherein the sub-blockchain data management planning system is a blockchain system installed in each charging pile and used for identifying and confirming information and charging conditions of users and vehicles;

a block chain monitoring system is arranged between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system and is used for monitoring information data transmission between the block chain charging pile intelligent data planning system and the sub-block chain data management planning system;

the block chain monitoring system comprises two block chain monitoring plates, wherein one block chain monitoring plate is used for monitoring the block chain charging pile intelligent data planning system, and the other block chain monitoring plate is used for monitoring the sub-block chain data management planning system;

each block chain monitoring plate is divided into a plurality of monitoring nodes, and each monitoring node correspondingly monitors different information data.

2. The method of claim 1, wherein the blockchain-based shared charging pile intelligence data planning system comprises N charging pile planning modules, wherein N is any positive number, each charging pile planning module operates independently, and each charging pile planning module corresponds to a plurality of charging piles;

the sub-block chain data management planning system comprises charging data statistics modules, each charging pile corresponds to one charging data statistics module, and the plurality of charging data statistics modules are in wireless connection with one of the charging pile planning modules.

3. The intelligent planning method for the shared charging pile based on the block chain as claimed in claim 2, wherein the charging data statistics module comprises a vehicle information identification module and a user identity identification module, and the vehicle information identification module and the user identity identification module operate independently;

the vehicle information identification module is used for identifying the license plate information of the vehicle charged by the charging pile;

and the user identity identification module is used for identifying the identity card information of the vehicle owner.

4. The method of claim 3, wherein the plurality of monitoring nodes are respectively in signal connection with a vehicle information identification module and a user identity identification module of the charging data statistics module.

5. The method of claim 1, wherein a blockchain data sorting module and a blockchain differentiation module are arranged in the charging pile planning module;

the block chain data sorting module is used for sorting the user charging vehicle information and the monitoring data information which are conveyed by each sub-block chain data management planning system;

the block chain differentiation module is bidirectionally connected with the block chain data sorting module and is used for dividing block chain charging piles in different areas.

6. The method of claim 1, wherein the blockchain monitoring system further comprises a storage module for storing charging pile data information monitored by the blockchain monitoring system.

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