CN107521356B - Charging management system for electric automobile and management method thereof - Google Patents

Charging management system for electric automobile and management method thereof Download PDF

Info

Publication number
CN107521356B
CN107521356B CN201710327885.XA CN201710327885A CN107521356B CN 107521356 B CN107521356 B CN 107521356B CN 201710327885 A CN201710327885 A CN 201710327885A CN 107521356 B CN107521356 B CN 107521356B
Authority
CN
China
Prior art keywords
management platform
charging
power supply
management
user
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201710327885.XA
Other languages
Chinese (zh)
Other versions
CN107521356A (en
Inventor
李志财
顾益峰
赵辉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shanghai Yuechong Network Technology Co ltd
Original Assignee
Shanghai Yuechong Network Technology Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shanghai Yuechong Network Technology Co ltd filed Critical Shanghai Yuechong Network Technology Co ltd
Publication of CN107521356A publication Critical patent/CN107521356A/en
Application granted granted Critical
Publication of CN107521356B publication Critical patent/CN107521356B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/02Marketing; Price estimation or determination; Fundraising
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L53/00Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
    • B60L53/60Monitoring or controlling charging stations
    • B60L53/65Monitoring or controlling charging stations involving identification of vehicles or their battery types
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L53/00Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
    • B60L53/10Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles characterised by the energy transfer between the charging station and the vehicle
    • B60L53/12Inductive energy transfer
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L53/00Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
    • B60L53/60Monitoring or controlling charging stations
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L53/00Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
    • B60L53/60Monitoring or controlling charging stations
    • B60L53/66Data transfer between charging stations and vehicles
    • B60L53/665Methods related to measuring, billing or payment
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/06Energy or water supply
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M10/00Secondary cells; Manufacture thereof
    • H01M10/42Methods or arrangements for servicing or maintenance of secondary cells or secondary half-cells
    • H01M10/44Methods for charging or discharging
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/70Energy storage systems for electromobility, e.g. batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/7072Electromobility specific charging systems or methods for batteries, ultracapacitors, supercapacitors or double-layer capacitors
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T90/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02T90/10Technologies relating to charging of electric vehicles
    • Y02T90/12Electric charging stations
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T90/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02T90/10Technologies relating to charging of electric vehicles
    • Y02T90/14Plug-in electric vehicles

Landscapes

  • Engineering & Computer Science (AREA)
  • Business, Economics & Management (AREA)
  • Power Engineering (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Strategic Management (AREA)
  • Economics (AREA)
  • Theoretical Computer Science (AREA)
  • Accounting & Taxation (AREA)
  • Finance (AREA)
  • Health & Medical Sciences (AREA)
  • Development Economics (AREA)
  • Marketing (AREA)
  • Physics & Mathematics (AREA)
  • General Business, Economics & Management (AREA)
  • General Physics & Mathematics (AREA)
  • General Health & Medical Sciences (AREA)
  • Tourism & Hospitality (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Game Theory and Decision Science (AREA)
  • Human Resources & Organizations (AREA)
  • Primary Health Care (AREA)
  • Entrepreneurship & Innovation (AREA)
  • Manufacturing & Machinery (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Management, Administration, Business Operations System, And Electronic Commerce (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)

Abstract

The invention provides a charging management system for an electric automobile and a management method thereof, wherein the charging management method comprises the following steps: receiving a charging requirement provided by at least one user end; providing at least one power supply device; and providing at least one providing terminal, wherein at least one management platform provides at least one power supply device and the providing terminal according to the received charging requirement of the using terminal, so that the power supply device meets the power supply requirement of the using terminal, and the using terminal and the providing terminal carry out charging transaction through the management platform.

Description

Charging management system for electric automobile and management method thereof
Technical Field
The invention relates to the field of management systems, in particular to a charging management system for an electric automobile and a management method thereof.
Background
At present, domestic electric vehicles are more and more concerned by society and favored by consumers, and with the rapid increase of new energy vehicles in society, problems such as insufficient charging equipment and the like and incomplete infrastructure gradually emerge, and become a pain point for the popularization of new energy vehicles. Although a large number of direct current charging piles and alternating current charging piles are constructed in large and medium-sized cities, the problem of charging difficulty is still the salary, and the piles have the problems of strong geographical position limitation, inflexible payment modes of different operators, incompatible network protocols and the like.
In order to solve the above problems, it is necessary to design a novel charging and power supplying device which is less limited by geographical location, easy to be accepted by vehicle owners, less difficult to construct, and capable of being operated, monitored and unattended.
At present, various rechargeable products and mobile electric devices, especially electric vehicles, are receiving more and more attention from society and are favored by the market. In addition, the environment-friendly and pollution-free energy using mode of the electric energy also conforms to the future development trend of new energy.
As the amount of mobile electric devices used increases, more and more problems become apparent. The shortage of outdoor charging equipment and the shortage of public charging equipment cause great influence on the use of mobile electric equipment at the use end. In particular, when charging is required in an emergency, a large loss is caused to the electric equipment. These problems not only bring inconvenience, but also influence the popularization of new energy electric equipment, and are not favorable for the research and development and market development of new energy industries.
Many mobile electric devices can be charged directly by using the commercial power, and new charging technologies, voltage conversion technologies, and the like are used in a mature manner. In some public places, although a lot of operating charging piles are built, the traditional charging piles and corollary equipment are still cup car salaries for the number of electric equipment which is increased at a very fast speed.
In practice, many users of electric vehicles borrow nearby general household, commercial or industrial power sources, but the power source owners also need to pay for the electric energy producers, so that payment methods such as charging from the users to the power source owners have many problems, and charging transactions are affected. And the interface requirements of different electric equipment are different, and finding a proper interface is troublesome. These all affect the use of these power sources and cannot effectively utilize social resources.
Disclosure of Invention
The invention aims to provide a charging management system for an electric automobile and a management method thereof, which can be conveniently installed, conveniently arranged and conveniently operated to supply power to a charged device of the electric automobile.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which provide at least one management platform and at least one power supply device, so that the power supply device can meet the power supply requirement of at least one user terminal for a device to be charged of the electric vehicle, and the user terminal and at least one provider terminal of the power supply device perform charging transaction through the management platform.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein the user terminal that needs to charge the electric vehicle can not only conveniently charge the electric vehicle, but also make advance reservation, have multiple power supply equipment options, and obtain charging with high cost performance.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein communication interaction among the providing terminal, the power supply device, the management platform and the using terminal can also ensure automatic operation and monitoring.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which can realize wireless power supply of the power supply device.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein the user terminal can obtain status information of the power supply device through the management platform.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, in which the management platform can perform remote control unlocking and charging by the power supply device.
Another object of the present invention is to provide a charge management system for an electric vehicle and a management method thereof, in which the power supply apparatus can perform charge locking during power supply.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein the management platform can monitor the power supply process of the power supply device.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein the user terminal can select the power supply device adapted to the own device to be charged through the management platform.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which can allocate a user account to a vehicle owner of the electric vehicle or other users who have a charging requirement, so that the user obtains the user account from the management platform through the user terminal, and binds the user account with each device to be charged, which is commonly used by the user, so as to pass through personalized setting.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, in which a home or a business that sets the power supply device can obtain a provision account number and bind information of the power supply device operated by the business, such as a device identification number, so that the management platform can better manage each power supply device to provide a charging service for a user of the electric vehicle.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, in which the charging demand of a user is processed by the management platform at an increased speed through the power supply device, and an unlocking response is obtained more quickly.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, in which a feedback process of an unlocking state can be simplified, and a user can more quickly issue a charging instruction after unlocking to the management platform through the user terminal.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which can reduce power consumption of communication.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which can provide a guiding path to a geographical location of the power supply device selected by a user or matched with the management platform for charging.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which can provide a charging reservation for a user.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which can provide a charging service authorization for the providing terminal.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which can provide a charging reservation service authorization for the providing terminal.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, in which the power supply device can automatically log in the management platform when installed and store installation environment information, such as geographical location, GSM signal strength, parking space occupancy state, etc., to the management platform.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein a management platform is provided, and at least one user terminal and at least one provider terminal perform charging transactions through the management platform.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein a management platform is provided, and the management platform facilitates charging transaction according to the geographic location of the user terminal and the geographic location of the provider terminal.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which provide a management platform for facilitating charging transaction according to the power demand of the user terminal.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which provides a management platform for facilitating charging transaction according to the power consumption specification of the user terminal.
Another objective of the present invention is to provide a charging management system and a management method thereof for an electric vehicle, which process and manage charging transactions, and when a general power source owner is the providing end, the using end can use the management platform to perform charging at any time, so that the charging transactions break through the traditional location limitation, and further the maintenance cost of charging hardware is reduced.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein when the charging device of the providing terminal is used to charge the using terminal, the management platform can manage, monitor and count information of the charging transaction, and can operate and control the charging transaction.
Another objective of the present invention is to provide a charging management system and a management method thereof for an electric vehicle, wherein when a vehicle owner of the electric vehicle uses a charging device of the providing terminal to charge, the vehicle owner can provide an accurate charging service for the using terminal, and can pay through the management platform, and can provide a charging service for the providing terminal, and the management platform charges for the charging transaction, so that the charging transaction has a fair and flexible payment process.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein the management platform can supervise and operate the charging transaction through statistics and analysis of the charging transaction information, process the charging transaction information, and establish a credit mechanism between the user terminal and the providing terminal.
Another objective of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, wherein the management platform is provided, and the user terminal or the providing terminal performs feedback through the management platform.
Another object of the present invention is to provide a charging management system for an electric vehicle and a management method thereof, which provide the management platform, and provide rewards to the provider and the application through the management platform.
In order to achieve at least one of the above objects, the present invention provides a charge management method, including the steps of:
receiving a charging requirement provided by at least one user end;
providing at least one power supply device; and
providing at least one providing terminal, wherein at least one management platform provides at least one power supply device and the providing terminal according to the received charging requirement of the using terminal, so that the power supply device meets the power supply requirement of the using terminal, and the using terminal and the providing terminal carry out charging transaction through the management platform.
In some embodiments, further comprising the steps of: and the management platform receives the identification information of the power supply equipment and searches and inquires the state of the power supply equipment.
In some embodiments, further comprising the steps of: and the using end sends the identification information of the power supply equipment to the management platform by scanning the equipment identification code of the power supply equipment or sending an equipment identification number.
In some embodiments, further comprising the steps of: and the management platform judges whether the power supply equipment can be provided for the user terminal or not according to the state feedback information of the power supply equipment.
In some embodiments, further comprising the steps of: and unlocking the power supply equipment so as to enable the user end to use the power supply equipment.
In some embodiments, further comprising the steps of:
the management platform receives an unlocking command sent by the using end;
the management platform sends an unlocking command to the power supply equipment;
the power supply equipment receives an unlocking command sent by the management platform; and
the power supply device is unlocked.
In some embodiments, further comprising the steps of:
the power supply equipment feeds back an unlocking execution result to the management platform; and
and the management platform feeds back an unlocking state to the user terminal.
In some embodiments, said step further comprises, after unlocking said power supply device, the step of: the power supply device performs charging.
In some embodiments, further comprising the steps of: the power supply device performs charge locking.
In some embodiments, at least one control unit of the power supply device controls at least one safety lock control unit to perform charging locking.
In some embodiments, further comprising the steps of: and the power supply equipment executes charging according to the instruction of the management platform or the using end.
In some embodiments, further comprising the steps of:
the power supply equipment feeds back the state of the charging process to the management platform in real time; and
and the management platform receives the charging process fed back by the power supply equipment in real time and stores charging parameters.
In some embodiments, further comprising the steps of:
the management platform receives a charging stopping instruction of the using end;
the management platform sends a charging stopping instruction to the power supply equipment;
the power supply device stops supplying power; and
the management platform performs payment transaction operations.
In some embodiments, further comprising the steps of:
the power supply equipment feeds back initial charging parameters to the management platform;
the management platform stores initial charging parameters;
the power supply device stops supplying power;
the power supply equipment feeds back a charging ending parameter to the management platform;
the management platform stores the charging ending parameters; and
the management platform performs payment transaction operations.
In some embodiments, further comprising the steps of:
acquiring the information of the user terminal;
distributing a user account to the user terminal;
acquiring the charged equipment information of the electric automobile provided by the using end; and
and binding the information of each charged device of the user terminal and the user account.
In some embodiments, further comprising the steps of:
acquiring the information of the providing terminal;
distributing the providing account to a providing terminal;
acquiring power supply equipment information of the providing end; and
and binding the power supply equipment information of the provider and the allocated providing account.
In some embodiments, the step of unlocking the power supply device further comprises the steps of: the user terminal sends a user account and a charging request to the power supply equipment;
the power supply equipment receives a charging request sent by the using end;
the power supply equipment sends a charging request of the user end to the management platform;
the management platform performs user authentication; and
the management platform sends an unlocking command to the power supply equipment.
In some embodiments, further comprising the steps of: the power supply device performs an unlocked state display.
In some embodiments, further comprising the steps of:
the management platform acquires a user account of the user terminal;
the management platform acquires the geographical position information of the user terminal;
acquiring a search condition provided by the using end;
the management platform searches the power supply equipment in a search condition range according to the using end position information; and
the management platform is matched with the power supply equipment.
In some embodiments, further comprising the steps of:
the management platform feeds back a matching result to the user end;
the management platform prompts the user terminal to select the power supply equipment; and
and the management platform acquires the power supply equipment selected by the using end.
In some embodiments, further comprising the steps of:
the management platform generates at least one guide path so that a user of the user end can reach the selected power supply equipment according to the guide path.
In some embodiments, further comprising the steps of:
the management platform acquires the position information of the power supply equipment selected by the using end; and
and the management platform provides a guide path according to the geographical position information of the user end and the position information of the selected power supply equipment.
In some embodiments, further comprising the steps of:
the management platform judges whether the user terminal is bound with the charged device;
when the management platform judges that the user end is not bound with the charged device, the management platform executes the binding of the user end with the charged device or prompts the user end to input the information of the charged device; and
and when the management platform judges that the user end is bound with the charged equipment, the management platform acquires the charged equipment information of the electric automobile of the user end.
In some embodiments, said step of said management platform feeding back the matching result to said user terminal further comprises the following steps:
storing the charging reservation information of the user terminal to the power supply equipment selected by the user terminal; and
and the management platform receives and stores the charging reservation information of the user terminal.
In some embodiments, the step of obtaining, by the management platform, the power supply device selected by the user further includes the following steps:
the management platform feeds back the charging requirement of the using end to the providing end of the power supply equipment selected by the using end;
the management platform judges whether the providing terminal agrees to provide the charging service; and
when the providing terminal does not agree to provide the charging service, the management platform prompts the using terminal to reselect the power supply equipment.
In some embodiments, further comprising the steps of: the management platform provides charging reservation service authorization to the providing terminal.
In some embodiments, further comprising the steps of:
receiving the charging reservation information of the user terminal;
sending the charging reservation information of the user terminal to the providing terminal;
judging whether the providing terminal agrees to provide charging service;
when the providing terminal does not agree to provide the charging service, the charging reservation information of the using terminal is sent to the other providing terminal; and
and when the providing terminal agrees to provide the charging service, storing the charging reservation information of the using terminal to the power supply equipment of the providing terminal.
In some embodiments, further comprising the steps of: the power supply equipment automatically logs in the management platform and stores installation environment information to the management platform.
In some embodiments, further comprising the steps of:
the power supply equipment detects and acquires installation environment information;
the power supply equipment logs in the management platform;
the power supply equipment judges whether the management platform allows login;
when the management platform allows the power supply equipment to log in, the power supply equipment communicates with the management platform, and the power supply equipment is identified as a normal working state;
when the management platform does not allow the power supply equipment to log in, the power supply equipment can repeatedly send login messages to the management platform until the login is successful;
the power supply equipment sends installation environment information to the management platform; and
the management platform stores installation environment information of the power supply equipment.
In some embodiments, the power supply device supplies power in a wired manner or in a wireless manner.
In some embodiments, further comprising the steps of:
searching the providing end; and
and matching the using end with the providing end, wherein the management platform searches the providing end according to the charging requirement of the using end, and then the management platform matches the using end according to the searched providing end.
In some embodiments, before the step of searching the providing end, further comprising the steps of: and acquiring the geographical position information of the user terminal.
In some embodiments, before the step of searching the providing end, further comprising the steps of: and acquiring the information of the required electric quantity of the user terminal.
In some embodiments, after the step of matching the using end with the providing end, further comprising the steps of: and providing the geographical position information of the providing terminal.
In some embodiments, further comprising the step of: and managing the process of the charging transaction between the providing terminal and the using terminal, wherein the management platform manages the process of the charging transaction between the providing terminal and the using terminal through a transaction identification code.
In some embodiments, after the step of managing the process of the provider-side and the consumer-side charging transactions, further comprising the steps of: the fee is paid.
In some embodiments, after the step of paying the fee, further comprising the steps of: the user terminal pays a fee to the management platform; and the management platform pays the fee to the provider.
In some embodiments, after the step of paying the fee, a further step comprises: and evaluating the transaction, wherein the providing end evaluates the using end through the management platform, and the using end evaluates the providing end through the management platform.
In some embodiments, after the step of evaluating the transaction, further comprising the step of: an award, wherein the management platform awards the provider of the provider or the user of the consumer, respectively.
Drawings
Fig. 1 is a flowchart illustrating a charging management method according to an embodiment of the present invention.
Fig. 2 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 3 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 4 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 5 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 6 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 7 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 8 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 9 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 10 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 11 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 12 is a flowchart illustrating a charging management method according to an embodiment of the invention.
Fig. 13 is a block diagram schematic of a charge management system according to an embodiment of the invention.
Fig. 14 is a block diagram schematic of a charge management system according to an embodiment of the invention.
Fig. 15 is a block diagram schematic of a charge management system according to an embodiment of the invention.
Fig. 16 is a block diagram schematic of a charge management system according to an embodiment of the invention.
Fig. 17 is a block diagram schematic of a charge management system according to an embodiment of the invention.
Fig. 18 is a schematic diagram of a charging transaction method of the charging management system according to another embodiment of the present invention.
Fig. 19 is a flowchart illustrating a charging transaction method of the charging management system according to an embodiment of the present invention.
Fig. 20 is a functional diagram of the management platform and the client in the charging transaction method of the charging management system according to an embodiment of the present invention.
Fig. 21 is a schematic diagram of the connection relationship between the management platform and the client of the charging transaction method of the charging management system according to an embodiment of the present invention.
Fig. 22 is a schematic diagram of the client of the charging transaction method of the charging management system according to an embodiment of the present invention.
Fig. 23 is a block diagram of the structure of a charge management system according to an embodiment of the present invention.
Fig. 24 is a flowchart of a charge management system according to an embodiment of the present invention.
Detailed Description
The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.
It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be constructed and operated in a particular orientation and thus are not to be considered limiting.
It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.
Referring to fig. 1 to 17 of the drawings, a charge management method for an electric vehicle according to a preferred embodiment of the present invention is explained. In the implementation process of the charging management method for the electric vehicle, the management platform 10 can participate in the charging management of the user terminal 201 and the providing terminal 202, and a user needing charging can perform a charging operation on a device to be charged of the user terminal 201 by using the user terminal 201 through information interaction with the management platform 10 and a power supply device 20. The management platform 10 and the power supply device 20 can also communicate with each other to ensure normal charging of the charged device at the user end 201. In addition, the communication interaction among the providing terminal 202, the power supply device 20, the management platform 10 and the using terminal 201 can also ensure the automatic operation and monitoring.
The power supply device 20 is connected to the management platform 10 through a network so that the power supply device 20 can be monitored and controlled by the management platform 10. The user driving the electric vehicle uses the user terminal 201 to inquire, reserve and control the power supply device 20 through a mobile phone terminal or other mobile communication devices, so as to achieve the purpose of supplying power to the charged device. The charging management method for the electric vehicle provides a set of complete, convenient and cost-effective solutions for the outgoing charging of a user driving the electric vehicle by using the user 201, the electric energy provided by the providing terminal 202, such as a merchant or an operator provided with the power supply equipment 20, and the operation of the operator provided with the management platform 10, and can also promote the popularization of the electric vehicle and the construction of public charging equipment.
When the charged device of the electric vehicle needs to be charged, the vehicle owner can search through the management platform 10 through the using terminal 201 to match that the power supply device 20 is charged. As shown in fig. 1, the charging management method for an electric vehicle includes the steps of:
(1001) the management platform 10 receives the charging demand of the user terminal 201. The owner of the electric vehicle sends a charging demand to the management platform 10 through the user terminal 201.
(1002) The management platform 10 receives the power supply apparatus 20 information. Here, the information of the power supply apparatus 20 received by the management platform 10 includes an identification serial number or an apparatus number, etc. preset in the management platform 10 to identify the power supply apparatus 20.
It should be noted that, in an embodiment, when the user terminal 201 is implemented in a mobile device, such as a mobile phone or an iPad, a car owner can scan a two-dimensional code set by the power supply device 20 through a handheld device or directly input a device number of the power supply device 20, and the handheld device sends the device number information of the power supply device 20 to the management platform 10 through a network, so that the management platform 10 can receive not only the charging requirement of the user terminal 201, but also the information of the power supply device 20.
(1003) The management platform 10 looks up and queries the power supply device 20 status. The management platform 10 can know whether the power supply device 20 selected by the user is in the available state by inquiring the state of the power supply device 20.
(1004) The power supply apparatus 20 receives the apparatus status query instruction.
(1005) The power supply device 20 feeds back the use state information to the management platform 10.
(1006) The management platform 10 receives feedback information of the power supply device 20.
(1007) The management platform 10 determines whether the power supply apparatus 20 is available for use.
(1008) When the power supply device 20 is in the unavailable state, the management platform 10 prompts the user terminal 201 to replace another power supply device 20.
(1009) When the power supply device 20 is in the available state, the management platform 10 feeds back the state of the power supply device 20 to the user terminal 201.
Through the above steps, the user can know the use state of the power supply device 20 in time from the user terminal 201, and then send a command to unlock the power supply device 20 for charging.
(1011) The management platform 10 receives the unlocking command sent by the user terminal 201.
(1012) The management platform 10 sends an unlock command to the power supply apparatus 20.
(1013) The power supply apparatus 20 receives the unlock command transmitted by the management platform 10.
(1014) The power supply device 20 is unlocked.
(1015) The power supply device 20 feeds back the unlocking execution result to the management platform 10. After the management platform 10 obtains that the state of the power supply device 20 is the use state, when another user wants to use the power supply device 20 through the use end 201 again, the management platform 10 can prompt the user to replace the power supply device 20 which is not in the use state in time to perform a charging operation.
(1016) The management platform 10 feeds back the unlock state to the user terminal 201. Here, the management platform 10 feeds back the unlock state to the user terminal 201 that initially issues the charging requirement, so that the user can provide power in time or the power supply device 20 is already in the unlock state.
(1017) The management platform 10 receives the charging execution command from the user terminal 201. After knowing that the power supply device 20 is already in the unlocked state, the user sends an instruction to the management platform 10 through the user terminal 201 to perform charging for the management platform 10 to receive.
(1018) The management platform 10 sends a charging instruction to the power supply device 20.
(1019) The power supply device 20 receives the charging instruction transmitted by the management platform 10.
(1021) The power supply device 20 performs charging.
(1022) The power supply apparatus 20 performs charge locking.
It is worth mentioning that the step (1022) of performing charging locking can prevent other users from operating the power supply device 20 through the user terminal 201 and affecting the normal power supply of the power supply device 20. For example, when the owner inserts a charger power supply plug of an electric vehicle into the power supply device 20, the power supply device 20 is automatically locked.
(1023) The power supply device 20 feeds back the state of the charging process to the management platform 10 in real time.
(1024) The management platform 10 receives the charging process fed back by the power supply device 20 in real time and stores the charging parameters.
Through the step (1023) and the step (1024), the management platform 10 can know the whole power supply process of the power supply device 20, which can facilitate charging and billing later, and can monitor the power supply process of the power supply device 20.
(1025) The management platform 10 receives the charging stop command of the user terminal 201. The user sends a charging stop instruction to the management platform 10 through the user terminal 201, so that the management platform 10 can receive the charging stop instruction.
(1026) The management platform 10 sends a stop charging instruction to the power supply apparatus 20.
(1027) The power supply apparatus 20 stops supplying power.
(1030) The management platform 10 performs payment transaction operations.
The charging management method can allocate the user account number to the owner of the electric vehicle or other users with charging requirements, so that the user can acquire the user account number from the management platform 10 through the using terminal 201, and bind the user account number with each commonly-used device to be charged, so that through personalized setting, when the charging requirement exists, the management platform 10 can quickly acquire the information of the commonly-used device to be charged through the user account number, and the adaptability and matching speed of the power supply device 20 are improved, and on the other hand, the user can quickly charge the bound device to be charged by using the power supply device 20. As shown in fig. 2, the charging management method for an electric vehicle includes the steps of:
(2001) the consumer 201 information is acquired.
(2002) A user account is assigned to the user terminal 201.
(2003) The charged device information of the electric vehicle provided by the user terminal 201 is acquired.
(2004) And binding the information of each charged device of the user terminal 201 and the user account.
Similarly, when a home or a business sets the power supply device 20 to provide a charging service for an owner of an electric vehicle, as shown in fig. 3, the charging management method for the electric vehicle includes the following steps:
(3001) obtain provider 202 information.
(3002) A provisioning account number is assigned to the provider 202.
(3003) The power supply apparatus 20 information of the provider 202 is acquired.
(3004) Binding the power supply device 20 information of the provider 202 and the assigned providing account number.
That is, a home or a business that sets the power supply apparatus 20 can acquire a provision account number and bind information of the power supply apparatus 20 operated by itself, such as an apparatus identification number, so that the management platform 10 can better manage each of the power supply apparatuses 20 to provide a charging service to a user of an electric vehicle.
As shown in fig. 4, the step (1012) further comprises the following steps:
(4001) the user terminal 201 transmits a user account and a charging request to the power supply device 20.
(4002) The power supply apparatus 20 receives the charging request transmitted from the user terminal 201.
(4003) The power supply device 20 transmits a charging request of the user terminal 201 to the management platform 10.
(4004) The management platform 10 performs user authentication.
That is to say, after a user with a user account can log in the user account of the power supply device 20 through the using terminal 201, the power supply device 20 sends a charging requirement to the management platform 10, and after user authentication, the power supply device 20 is unlocked, so that the speed of processing the charging requirement of the user by the management platform 10 through the power supply device 20 is increased, and an unlocking response is obtained more quickly.
In each step between the step (1014) and the step (1017) of fig. 1, after the user feeds back the unlocking state to the management platform 10 through the power supply device 20, the management platform 10 feeds back to the user. Alternatively, the user can know the unlocked state through a direct state display of the power supply apparatus 20. For example, after the power supply device 20 is unlocked, the unlocking state is directly fed back to the user through the unlocking indicator lamp of the power supply device 20 in the form of an optical signal, and is not fed back to the user through the management platform 10 via the using terminal 201, so that the feedback process of the unlocking state is simplified, and the user can more quickly send a charging instruction after unlocking to the management platform 10.
That is, as shown in fig. 5, the following steps are further included between the step (1014) and the step (1017):
(5001) the power supply apparatus 20 performs the unlocked state display.
As shown in fig. 6, the following steps are further included between the step (1021) and the step (1030):
(6001) the power supply device 20 feeds back the initial charging parameter to the management platform 10.
(6002) The management platform 10 stores initial charging parameters.
(1027) The power supply apparatus 20 stops supplying power.
(6003) The power supply device 20 feeds back the end charging parameter to the management platform 10.
(6004) The management platform 10 stores the end-of-charge parameter.
That is, the step between the step (1021) and the step (1027) shown in fig. 1 is to feed back the charging parameters to the management platform 10 in real time through the power supply device 20, so that the management platform 10 can process the charging fee, but during the charging process, the real-time communication between the power supply device 20 and the management platform 10 may cause the consumption of the power supply device 20, which increases the operation cost, and therefore, alternatively, the charging fee data can also be processed by recording the initial charging parameters and the ending charging parameters and processing the difference value in fig. 6, so that the power consumption of the real-time communication is also saved.
In the embodiment shown in fig. 1, when a user of an electric vehicle directly faces the power supply device 20, the charging service of the power supply device is acquired through interaction of the management platform 10. In another embodiment, when a user of an electric vehicle cannot easily find the charging device 20 during driving, the user terminal 201 can be mounted on a vehicle or a mobile device such as a mobile phone, search and match the charging device 20 providing a charging service according to the user's geographical location information and the user's search condition, and provide a guidance route to the geographical location of the charging device 20 selected by the user or matched by the management platform 10 for charging.
Specifically, as shown in fig. 7, the charging management method includes the steps of:
(1001) the management platform 10 receives the charging demand of the user terminal 201.
(7001) The management platform 10 acquires the user account of the user terminal 201.
(7002) The management platform 10 determines whether the user terminal 201 is bound to the charged device.
(7003) When the management platform 10 determines that the user terminal 201 is not bound to the charged device, the management platform 10 executes the binding of the user terminal 201 to the charged device or prompts the user terminal 201 to input the information of the charged device.
(7004) When the management platform 10 determines that the charging target device is bound to the user terminal 201, the management platform 10 acquires the charging target device information of the electric vehicle of the user terminal 201.
(7005) The management platform 10 acquires the geographical location information of the user terminal 201.
(7006) The management platform 10 acquires the search condition provided by the user terminal 201.
(7007) The management platform 10 searches the power supply device 20 within the search condition range according to the position information of the user terminal 201.
(7008) The management platform 10 is matched with the power supply device 20.
(7009) The management platform 10 feeds back the matching result to the user terminal 201.
(7010) The management platform 10 prompts the user terminal 201 to select the power supply device 20.
(7011) The management platform 10 acquires the power supply device 20 selected by the user terminal 201.
(7012) The management platform 10 acquires the position information of the power supply apparatus 20 selected by the user terminal 201.
(7013) The management platform 10 provides a guidance route according to the geographical location information of the user terminal 201 and the location information of the selected power supply apparatus 20.
The charging management method can provide charging appointment for the user. As shown in fig. 8, the step (7009) is followed by the steps of:
(8001) the charging schedule information of the user terminal 201 is stored in the power supply device 20 selected by the user terminal.
(8002) The management platform 10 receives and stores the charging reservation information of the user terminal 201.
That is, the user reservation function is provided to ensure that the selected or matched power supply apparatus 20 is not occupied by other users on the way to the power supply apparatus 20 according to the guidance route.
The charging management method of the present invention can provide charging service authorization for the providing terminal 202. As shown in fig. 9, the step (7011) further comprises the following steps:
(9001) the management platform 10 feeds back the charging requirement of the user terminal 201 to the provider terminal 202 of the power supply device 20 selected by the user terminal.
(9002) The management platform 10 determines whether the provider 202 agrees to provide the charging service.
(9003) When the provider 202 does not agree to provide the charging service, the management platform 10 prompts the user 201 to reselect the power supply device 20.
That is, after the user selects the power supply device 20 through the user terminal 101, the management platform sends an authorization prompt to the providing terminal 202, and the providing terminal 202 can approve or deny the provision of the charging service to the user.
The charging management method of the present invention can provide charging reservation service authorization for the providing terminal 202. As shown in fig. 10, the charging management method further includes the following steps:
(1091) the charging reservation information of the user terminal 201 is received.
(1092) The charging reservation information of the user terminal 201 is transmitted to the providing terminal 202.
(1093) It is determined whether the provider 202 agrees to provide the charging service.
(1094) When the providing terminal 202 does not agree to provide the charging service, the charging reservation information of the using terminal 201 is transmitted to another providing terminal 201.
(1095) When the providing terminal 202 agrees to provide the charging service, the charging reservation information of the using terminal 201 is stored to the power supply device 20 of the providing terminal 202.
That is, after the user sends the reservation information for selecting the power supply device 20 through the user terminal 201, a provider, such as a home or a business, operating the power supply device 20 can approve or reject the charging service through the provider terminal 202.
By the charging management method of the present invention, the power supply device 20 can also automatically log in the management platform 10 when installing and store installation environment information, such as geographical location, GSM signal strength, parking space occupation status, etc., to the management platform 10. As shown in fig. 11, the charging management method further includes the steps of:
(1101) the power supply apparatus 20 detects and acquires the installation environment information.
(1102) The power supply device 20 logs on to the management platform 10.
(1103) The power supply apparatus 20 determines whether the management platform 10 permits login.
(1105) When the management platform 10 allows the power supply device 20 to log in, the power supply device 20 communicates with the management platform 10, and the power supply device 20 is recognized as a normal operating state.
(1104) When the management platform 10 does not allow the power supply device 20 to log in, the power supply device 20 will repeatedly send a login message to the management platform 10 until the login is successful.
(1106) The power supply device 20 transmits the installation environment information to the management platform 10.
(1107) The management platform 10 stores installation environment information of the power supply apparatus 20.
According to another aspect of the present invention, the charging management method for an electric vehicle of the present invention further includes a charging transaction method, where the charging transaction method includes that the management platform 10 participates in the charging transaction of the user terminal 201 and the providing terminal 202. The management platform 10 receives the charging requirement information of the user terminal 201; the management platform 10 provides the information of the user terminal 201 about the providing terminal 202. The user terminal 201 exchanges information with the management platform 10, and the provider terminal 202 exchanges information with the management platform 10 to form an operation system of charging transaction. Wherein, the process of the charging transaction between the providing terminal 201 and the using terminal 202 is managed, wherein the management platform 10 manages the process of the charging transaction between the providing terminal and the using terminal through a transaction identification code.
Further, as shown in fig. 12, in another embodiment of the present invention, the charging management method further includes the steps of:
(1036) fee estimation and credit prompt.
(1037) It is determined whether the consumer 201 is transacting.
(1038) When the user terminal 201 is judged to determine the transaction, charging start and billing are performed.
(1033) When the user terminal 201 is judged not to transact, another provider terminal 202 is searched and fee estimation and credit prompting are performed until the user terminal 201 is judged to confirm the transaction.
(1038) Charging is started and charging is carried out.
(1039) The transaction is paid.
(1040) And evaluating feedback.
(1041) And recording the credit.
Further, the step (1036) of the charge management method is preceded by the steps of:
(1031) the user terminal 201 is charged and alarmed;
(1032) the management platform 10 is subject to information;
(1033) the search provider 202.
Further, the step (1036) of the charge management method is preceded by the steps of:
(1034) the provider 202 allows the transaction;
(1035) the management platform 10 provides information.
The charging management method further includes the steps of: the fee is paid.
Specifically, the user terminal 201 pays a fee to the management platform 10; and the management platform 10 pays the provider 202.
Further, the charging management method further includes the steps of: the transaction is evaluated. Wherein, the providing terminal 201 evaluates the using terminal 201 through the management platform 10, and the using terminal 201 evaluates the providing terminal through the management platform 10.
Further, the charging management method further includes the steps of: and (6) awarding. Wherein the management platform 10 rewards the provider or the user, respectively. The form of the reward may be implemented as a monetary reward or credit record, etc.
As shown in fig. 13 to 17, a charge management system according to an embodiment of the present invention is explained. The charging management system the management platform 10 further includes a database 11, an operating system 12, a payment system 13, a communication system 14 and an early warning system 15. The management platform 10 can be set and adjusted through the operating system 12, and the database 11, the payment system 13, the communication system 14 and the early warning system 15 communicate, control and the like through the operating system 12.
The user terminal 201 can communicate with the providing terminal 202 through the communication system 14 of the management platform 10. When the user terminal 201 issues the charging-required information, the communication system 14 of the management platform 10 receives the charging-required information of the user terminal 201, and provides the user terminal 201 with the information of the provider terminal 202 suitable for the transaction.
The user can issue information such as the interface model, the geographical location, the expected charging capacity, etc. that the user needs to charge by using the user terminal 201. The provider 202 may publish information on its offered power interface model, geographic location, billing criteria, etc. The operating system 12 of the management platform 10 processes the information of the user terminal 201 and the information of the provider terminal 202, and the communication system 14 distributes the relevant information according to the requirements of the user terminal 201 and the provider terminal 202. The user terminal 201 selects the providing terminal 202 according to the provided information. The providing terminal 202 selects whether to provide the charging service according to the information of the using terminal 201. Preferably, in a case where the providing terminal 202 and the using terminal 201 mutually select, the management platform 10 manages charging transactions of the providing terminal 202 and the using terminal 201.
The user terminal 201 includes a user terminal communication module 211 and a user terminal interaction module 214 which are communicatively connected to each other, the user terminal 202 includes a user terminal interaction module 213 and a user terminal communication module 212 which are communicatively connected to each other, the management platform 10 includes the database 11, the operating system 12, the payment system 13, the warning system 15, a charging management module 16, a search module 17, a matching module 18, a verification module 19, the communication system 14, an evaluation module 91, a reservation module 92, an account management module 93 and a guidance path generation module 94 which are communicatively connected to each other, the power supply device 20 includes a positioning and networking unit 22, an electric energy metering unit 23, a clock unit 24, an electric energy output control unit 25, a communication interface 27, an auxiliary unit 28, a guidance path generation module 94 which are communicatively connected to each other, A power source 30, a GPRS unit 31, a wireless charging unit 34, a program updating unit 26, a security lock control unit 29, a parking space detection module 33, an energy storage unit 35, a storage unit 36, a state feedback unit 37, a communication unit 32, and a control unit 21.
It is particularly worth mentioning that the wireless charging unit 34 of the power supply device 20 is capable of implementing a wireless charging mode.
The control unit 21 controls the action of the power supply device 20, monitors the state of the power supply device 20, and implements communication with the management platform 10; the GPRS unit 31 provides a channel for connecting the power supply device 20 and the management platform 10, and is also a path for transmitting a communication protocol; the electric energy metering unit 23 has an electric energy metering function; the clock unit 24 has a function of time-referencing the power supply apparatus 20; the safety lock control unit 29 enables the power supply device 20 to have a higher protection level and provides a safety protection function for the charged device; the parking space detection module 33 monitors and checks the occupied state of the parking space, and reminds the user to avoid the situation that the electric vehicle is available for use but does not park in the parking space because the electric vehicle does not have the parking space; the power output control unit 25 controls the power output, which can be implemented as a relay control module in some embodiments; the accessory unit 28 can be implemented as a communication interface of an accessory device.
The user-side communication module 211, the provider-side communication module 212, the communication system 14, and the communication unit 32 are communicatively connected to realize the communicative connection among the user side 201, the provider side 202, the management platform 10, and the power supply device 20, so that a user of an electric vehicle can quickly and quickly find a suitable power supply device 20 for charging through the user side 201 under the charging management of the management platform 10, and the provider side 202 can also manage the power supply device 20 of the user through the management platform 10 to provide a power supply service.
When a user of the electric vehicle has a charging demand, after finding the power supply device 20 nearby, the user sends the charging demand through the user terminal 201. The user terminal 201 may be implemented as a car machine of an electric car or a mobile portable device. The user 201 sends a charging requirement to the management platform 10 through the user communication module 211 and the user interaction module 214, and the communication system 14 of the management platform 10 receives the charging requirement sent by the user communication module 211. After the user of the electric vehicle scans or inputs the device number or the identification number of the power supply device 20, the information of the power supply device 20 is sent to the management platform 10 by the user terminal communication module 211, and the communication system 14 of the management platform 10 receives the information of the power supply device 20. Through the identification information of the power supply device 20, the search module 17 of the management platform 10 searches and queries the database 11 for the status of the power supply device 20. Besides, the search module 17 of the management platform 10 can also issue a device status query instruction to the power supply device 20, and the status feedback unit 37 of the power supply device 20 receives the device status query instruction of the management platform 10 and feeds back the use status information to the management platform 10. The operating system 12 of the management platform 10 receives the feedback information of the power supply device 20 and determines whether the power supply device 20 is available according to the feedback information. When the power supply device 20 is in the unavailable state, the operating system 12 of the management platform 10 prompts the user terminal 201 to replace another power supply device 20. That is, at this time, the owner of the electric vehicle may know that the currently selected power supply apparatus 20 cannot be used and needs to replace another power supply apparatus 20.
When the power supply device 20 is in the available state, the operating system 12 of the management platform 10 feeds back the state of the power supply device 20 to the user terminal 201. An owner sends an unlocking command through the using end communication module 211 and the using end interaction module 214 of the using end 201, the operating system 12 of the management platform 10 receives the unlocking command sent by the using end 201 and sends the unlocking command to the control unit 21 of the power supply device 20, and the control unit 21 of the power supply device 20 receives the unlocking command sent by the management platform 10 and controls the safety lock control unit 29 to unlock. After unlocking, the security lock control unit 29 of the power supply device 20 feeds back the unlocking execution result to the operating system 12 of the management platform 10. The operating system 12 of the management platform 10 feeds back an unlocking state to the user side communication module 211 and the user side interaction module 214 of the user side 201. The owner of electric automobile passes through user end interaction module 214 sends the execution instruction of charging, management platform 10 charge management module 16 and receive user end 201's execution instruction of charging to send the instruction of charging extremely power supply unit 20 control unit 21, power supply unit 20 control unit 21 receives the instruction of charging that management platform 10 sent, and control electric energy output control unit 25 charges to the other charging apparatus executions of owner.
Furthermore, the safety lock control unit 29 of the power supply apparatus 20 can also perform charge locking during power supply.
The state feedback unit 37 of the power supply device 20 acquires real-time data of the electric energy metering unit 23 and the clock unit 24 and feeds back a charging process state, such as charging time and charging amount, to the charging management module 16 of the management platform 10 in real time. The management platform 10 receives the charging process fed back by the power supply device 20 in real time, and the charging management module 16 of the management platform 10 stores the charging parameters in the charging process state in the database 11. When the owner of the electric vehicle sends a charging stop instruction, the charging management module 16 of the management platform 10 receives the charging stop instruction of the user terminal 201, the charging management module 16 of the management platform 10 sends the charging stop instruction to the control unit 21 of the power supply device 20, and the control unit 21 controls the electric energy output control unit 25 to stop supplying power. The payment system 13 of the management platform 10 performs payment transaction operations.
In the implementation of the charging management method of the present invention, the charging management system can allocate a user account to an owner of the electric vehicle or other users with charging requirements, so that the user can obtain the user account from the management platform 10 through the user terminal 201, and bind the user account with each commonly used device to be charged, so that through personalized setting, when there is a charging requirement, the management platform 10 can quickly obtain information of the commonly used device to be charged through the user account, thereby improving the adaptability and matching speed of the power supply device 20, and on the other hand, the user can quickly charge the bound device to be charged by using the power supply device 20. Specifically, after the user submits a user account application through the user-side interaction module 214, the account management module 93 of the management platform 10 obtains the user-side communication module 211 information of the user side 201, allocates a user account, and sends the user account to the user side 201. The user inputs charged device information of a commonly used electric vehicle through the user terminal interaction module 214, the account management module 93 of the management platform 10 obtains the charged device information of the electric vehicle provided by the user terminal 201, and the matching module 18 associates and stores a user account and each charged device information of the user terminal 201 in the database 11, so as to bind each charged device information and the user account of the user terminal 201.
In the implementation of the charging management method of the present invention, the charging management system can allocate a provision account to a family or a business that sets the power supply device 20. Specifically, the account management module 93 of the management platform 10 obtains provider information sent by the provider interaction module 213 and the provider communication module 212 of the provider 202, the account management module 93 allocates a provider account to the provider 202, and the matching module 18 of the management platform 10 obtains the provider interaction module 213 of the provider 202 and the power supply equipment 20 information of the provider 202 sent by the provider communication module 212, matches and associates the information and stores the information in the database 11, so as to bind the power supply equipment 20 information of the provider 202 and the allocated provider account.
In the implementation of the charging management method of the present invention, when a user of an electric vehicle has a charging demand, the power supply device 20 can send the charging demand to the management platform 10 by inputting a registered user account on the found power supply device 20, and after user verification, the power supply device 20 is unlocked, so that the speed of processing the charging demand of the user by the management platform 10 through the power supply device 20 is increased, and a response of unlocking is obtained more quickly. Specifically, a user inputs a user account and a charging request through the user interaction module 214, the user communication module 211 of the user 201 sends the user account and the charging request to the control unit 21 of the power supply device 20, the control unit 21 receives the charging request sent by the user 201 and sends the charging request of the user 201 to the account management module 93 of the management platform 10 through the communication unit 32, the authentication module 19 of the management platform 10 performs user authentication according to the account management module 93 and data in the database 11, after the authentication is passed, the operating system 12 of the management platform 10 sends an unlocking command to the control unit 21 of the power supply device 20 according to an authentication result of the authentication module 19, and the control unit 21 controls the security lock control unit 29 to perform unlocking, so that the user of the electric vehicle can obtain the power supply service.
In the implementation of the charging management method of the present invention, the user can know the unlock state through the direct state display of the power supply device 20. For example, after the power supply device 20 is unlocked, the unlocking state is directly fed back to the user through the unlocking indicator lamp of the power supply device 20 in the form of an optical signal, and is not fed back to the user through the management platform 10 via the using terminal 201, so that the feedback process of the unlocking state is simplified, and the user can more quickly send a charging instruction after unlocking to the management platform 10. Specifically, the safety lock control unit 29 of the power supply device 20 performs unlocking under the control of the control unit 21, and the control unit 21 controls the accessory unit 28 to perform unlocking state display, for example, when an unlocking display lamp is included in the accessory unit 28, the unlocking state is directly fed back to a user through an optical signal, and of course, a sound signal lamp may be used. After the user or the unlock state, a charging instruction is sent to the management platform 10 through the user terminal communication module 211 and the user terminal interaction module 214, and the management platform 10 receives an execution charging instruction of the user terminal 201.
In the implementation of the charging management method of the invention, besides the charging cost can be processed by feeding back the charging parameters in real time, the charging cost data can also be processed by recording the initial charging parameters and the ending charging parameters and processing the difference value, and the electric energy consumption of real-time communication is also saved. Specifically, the power output control unit 25 of the power supply device 20 performs charging, the power metering unit 23 and the clock unit 24 of the power supply device 20 feed back initial charging parameters to the management platform 10, and the database 11 of the management platform 10 stores the initial charging parameters. When the power output control unit 25 of the power supply device 20 stops supplying power, the power metering unit 23 and the clock unit 24 of the power supply device 20 feed back a charging ending parameter to the charging management module 16 of the management platform 10, and the database 11 of the management platform 10 stores the charging ending parameter.
In the implementation of the charging management method of the present invention, when a user of an electric vehicle cannot easily find the charging device 20 while driving, the user can search and match the power supply device 20 providing a charging service according to the geographic location information of the user and the search condition of the user when the user is mounted on a vehicle or a mobile device such as a mobile phone via the user terminal 201, and can provide a guidance path to the geographic location of the power supply device 20 selected by the user or matched by the management platform 10 for charging.
Specifically, the communication system 14 of the management platform 10 receives a charging requirement of the user 201, the communication system 14 of the management platform 10 obtains a user account of the user 201, the operating system 12 of the management platform 10 determines whether the user 201 is bound to a charged device according to the database 11 and the account management module 93, when the management platform 10 determines that the user 201 is not bound to a charged device according to the database 11 and the account management module 93, the operating system 12 of the management platform 10 executes that the user 201 is bound to a charged device or prompts the user 201 to input information of the charged device, and when the management platform 10 determines that the user 201 is bound to a charged device according to the database 11 and the account management module 93, the operating system 12 of the management platform 10 obtains a charge device information of the electric vehicle of the user 201 The guiding path generating module 94 of the management platform 10 obtains the geographical location information of the user terminal 201, the searching module 17 of the management platform 10 obtains the searching condition provided by the user terminal communication module 211 of the user terminal 201, the searching module 17 of the management platform 10 searches the power supply device 20 within the searching condition range according to the location information of the user terminal 201, and the matching module 18 of the management platform 10 matches the power supply device 20
The operating system 12 of the management platform 10 feeds back a matching result to the user terminal 201 according to the matching condition of the matching module 18,
the operating system 12 of the management platform 10 prompts the user terminal 201 to select the power supply device 20 through the user terminal communication module 211, so as to select a power supply device that matches the charging requirement among the matched power supply devices 20,
the communication system 14 of the management platform 10 obtains the power supply device 20 selected by the user terminal 201, the guiding path generating module 94 of the management platform 10 obtains the position information of the power supply device 20 selected by the user terminal 201, and the guiding path generating module 94 of the management platform 10 provides a guiding path according to the geographical position information of the user terminal 201 and the position information of the selected power supply device 20. So that the user can charge to the selected or matched geographical position of the power supply apparatus 20 according to the provided guiding path.
In the implementation of the charging management method of the present invention, after the user selects the power supply apparatus 20, it is also possible to reserve charging. Specifically, the matching module 18 of the management platform 10 feeds back a matching result to the user terminal 201, the user sends reservation information to the reservation module 92 of the management platform 10 through the user terminal communication module 211 and the user terminal interaction module 214, and the reservation module 92 of the management platform 10 stores the charging reservation information of the user terminal 201 and sends the charging reservation information to the storage unit 36 of the power supply device 20 selected by the user terminal 201.
Further, after the user selects the power supply device 20 through the user terminal 101, the management platform sends an authorization prompt to the providing terminal 202, and the providing terminal 202 can approve or reject to provide the charging service to the user. Specifically, the management platform 10 obtains the power supply device 20 selected by the user terminal 201, the operating system 12 of the management platform 10 feeds back the charging requirement of the user terminal 201 to the providing terminal 202 of the power supply device 20 selected by the user terminal, and determines whether the providing terminal 202 agrees to provide the charging service. When the providing end 202 does not agree to provide the charging service, the operating system 12 of the management platform 10 prompts the using end 201 to reselect the power supply device 20, and when the providing end 202 agrees to provide the charging service, the guiding path generating module 94 of the management platform 10 obtains the location information of the power supply device 20 selected by the using end 201.
In the implementation of the charging management method of the present invention, after the user sends the reservation information for selecting the power supply device 20 through the user terminal 201, a provider, such as a home or a business, operating the power supply device 20 can approve or reject the charging service through the provider terminal 202. Specifically, the reservation module 92 of the management platform 10 receives the charging reservation information of the user terminal 201 and sends the charging reservation information of the user terminal 201 to the provider terminal 202, the operating system 12 of the management platform 10 determines whether the provider terminal 202 agrees to provide the charging service, when the provider terminal 202 disagrees with providing the charging service, the reservation module 92 of the management platform 10 sends the charging reservation information of the user terminal 201 to another provider terminal 201, and when the provider terminal 202 agrees to provide the charging service, the reservation module 92 of the management platform 10 stores the charging reservation information of the user terminal 201 to the storage unit 36 of the power supply device 20 of the provider terminal 202.
In the implementation of the charging management method of the present invention, the power supply device 20 can also automatically log in the management platform 10 when installing and store installation environment information, such as geographic location, GSM signal strength, parking space occupancy status, etc., to the management platform 10. Specifically, power supply unit 20 the location with networking unit 22, GPRS unit 31 and parking stall detection module 33 are in detection and acquisition installation environment information under control unit 21's control, power supply unit 20 control unit 21 logs in management platform 10 to judge whether management platform 10 allows logging in, when management platform 10 allows power supply unit 20 to log in, power supply unit 20 and management platform 10 communicate, power supply unit 20 is discerned as normal operating condition, when management platform 10 does not allow power supply unit 20 to log in, then power supply unit 20 control unit 21 can repeatedly send the login message to management platform 10 until the login succeeds. The power supply device 20 comprises a positioning and networking unit 22, a GPRS unit 31 and a parking space detection module 33, wherein the positioning and networking unit sends installation environment information to a management platform 10, and the database 11 of the management platform 10 stores the installation environment information of the power supply device 20.
The user terminal 201 obtains a charging requirement from the electric equipment. The user terminal 201 communicates with the management platform 10, and the management platform 10 receives the information of the user terminal 201. The provider 202 may issue information allowing charging transactions through the management platform 10. According to the information of the user terminal 201, the management platform 10 searches the provider terminal 202. The management platform provides the location information of the providing end 202 to the using end 201. The user terminal 201 and the providing terminal 202 mutually determine the willingness to carry out transaction, the management platform 10 estimates the cost of the transaction, and the management platform 10 partially or completely provides the information of the user terminal 201 about the providing terminal 202 to prompt the transaction. The user end 201 and the providing end 202 determine the transaction, and when the transaction is not determined, the management platform 10 searches the providing end 202 for the user end 201 again. After the transaction is determined, the user terminal starts charging, and the management platform 10 may record charging information and perform charging statistics on charging. The charging information can be transmitted to the management platform 10, and the payment system 13 will count the charging fee and perform payment transaction for the user terminal 201 and the provider terminal 202. The payment system 13 will provide at least one payment method to the user terminal 201 and the providing terminal 202. After the payment is finished, the user terminal 201 and the providing terminal 202 can be evaluated through the management platform 10. The transaction information and the evaluation information are transmitted to the management platform 10, and the management platform 10 records the information data in the database 11 for credit record. In particular, the management platform manages the process of the providing terminal and the charging transaction through a transaction identification code.
The user terminal 201 can obtain a charging alarm from the electric equipment. The user terminal 201 contacts and communicates with the management platform 10 to provide request information, the information includes the charging interface model, the device geographic position, the expected charging electric quantity, and the like, and the management platform 10 receives and processes the information of the user terminal 201. The providing terminal 202 issues information allowing charging transaction through the management platform 10, where the information includes the charging interface model, the geographic location, and the like. According to the information of the user terminal 201, the management platform 10 searches for the suitable providing terminal 202, preferably matching the suitable charging interface and being adjacent to the geographical position. The management platform 10 provides the user terminal 201 with the provider terminal 202 location information. The user terminal 201 and the providing terminal 202 mutually determine the willingness to carry out the transaction, the management platform 10 estimates the cost of the transaction, and the management platform 10 partially or completely provides the information of the user terminal 201 to the providing terminal 202 to prompt the transaction. The consumer end 201 and the provider end 202 determine a transaction. If the transaction is not certain, the management platform 10 re-searches the provider 202 for the user 201. After the transaction is determined, the user terminal 201 starts charging, the management platform 10 may record charging information, make an agreement on charging fees, and transmit information of electric energy fees, service fees, and charging transactions to the management platform 10, and the payment system 13 may count transaction fees and perform payment transaction reminding on the user terminal 201 and the provider terminal 202. The user end 201 and the providing end 202 can directly pay, and the payment mode can adopt cash, card swiping and the like. After the payment is finished, the user terminal 201 and the providing terminal 202 can be evaluated through the management platform 10. The management platform 10 will record the information data in the database 11 for credit record.
The user terminal 201 can obtain a charging reminder from the electric equipment. The user terminal 201 communicates with the management platform 10, and the management platform 10 receives information of the user terminal 201, where the information includes a charging interface model, a device geographical location, a predicted charging capacity, and the like. The providing terminal 202 issues information allowing charging transaction through the management platform 10, where the information includes the charging interface model, the geographic location, and the like. According to the information of the user terminal 201, the management platform 10 searches the provider terminal 202, and the user terminal 201 autonomously selects the provider terminal 202. Providing said user side 201 with said provider side 202 location information. The user terminal 201 and the providing terminal 202 mutually determine the willingness to carry out the transaction, the management platform 10 estimates the cost of the transaction, and the management platform 10 partially or completely provides the information of the user terminal 201 to the providing terminal 202 to prompt the transaction. The user end 201 and the providing end 202 determine the transaction, and when the transaction is not determined, the management platform 10 searches the providing end 202 for the user end 201 again. Charging can be started after the transaction is confirmed, and the management platform 10 can record charging information. The charging information may be transmitted to the management platform 10, the fee may be electric energy fee, service fee, and the like, and payment transaction is performed between the user terminal 201 and the providing terminal 202, the management platform 10 pays the providing terminal 202, and the management platform 10 charges the user terminal 201. After the payment is finished, the user terminal 201 and the providing terminal 202 perform evaluation through the management platform 10. The management platform 10 will record the information data in the database 11 for credit record.
Referring to fig. 14, the power supply device 20 in the charging management system can meter power of a power supply 30, a monitoring device 40 collects data information in a charging transaction, and a communication device 50 exchanges data with the management platform 10. The communication device 50 may transmit data information to the communication system 14 of the management platform 10, and the communication system 14 of the management platform 10 may also transmit data information to the communication device 50. The management platform 10 may collect time, geographical location, payment information, charging information, and the like in the charging transaction between the providing terminal 202 and the using terminal 201, and store the time, geographical location, payment information, charging information, and the like in the database 11. The database 11 is preferably a cloud data store. The operating system 12 can analyze and process the data in the database 11, and the early warning system 15 can analyze the data in the database 11 and warn about an abnormal situation. As shown in fig. 4, in the present preferred embodiment, information data is exchanged between the management platform 10 and the power supply device 20, preferably using a network and wireless communication.
The power supply device 20 may count the power of the power source 30 during charging, the management platform 10 may calculate a transaction according to the type of the used power, and the management platform 10 may provide transaction payment information, such as power consumption, power cost, service cost and other fees, to the user terminal 201 and the provider terminal 202. The payment system 13 will provide at least one payment method for the transaction between the providing end 202 and the using end 201. In the preferred embodiment, the payment system 13 directly allows the user side 201 to pay the provider side 202, such as cash, check, card swipe or mobile payment. The payment system 13 is used as a third party, and the payment system 13 will pay the provider 202 and collect the fee from the user 201; the payment system 13 first collects the fee of the user terminal 201, and then pays the fee to the providing terminal 202 after the charging transaction is completed.
The power supply device 20 may transmit real-time power information during charging to the management platform 10, and the management platform 10 may store and analyze the power consumption information of the providing terminal 202 and the using terminal 201. The early warning system 15 analyzes the power consumption information and issues an abnormal condition to the power supply device 20, so that the providing terminal 202 and the using terminal 201 can grasp the condition, and further adjustment is performed.
The management platform 10 analyzes all or part of the transaction information of the providing end 202 and the using end 201 to obtain a credit value, so that each of the providing end 202 and the using end 201 has a credit record, and the credit record can provide reference for the next transaction.
Fig. 16 is a schematic diagram of a principle of the power supply device 20 according to the embodiment of the present invention. The power supply device 20 includes the control unit 21, the clock unit 24 is connected to the control unit 21 to provide a clock signal for the control unit 21, the power output unit 25 is connected to the power supply 30 and the control unit 21 to control power output, the power metering unit 23 is connected to the control unit 21 to meter power output, the positioning and networking unit 22 is connected to the control unit 21 to provide positioning and networking functions for the power supply device 20, the program updating unit 26 is connected to the control unit 21 to provide an interface for program updating of the control unit 21, and the communication interface 27 is connected to the control unit 21 to provide an interface for the power supply device 20 to communicate information with the management platform 10.
The using terminal 201 may mount the power supply device 20 to a charging interface of a mobile electric device, the providing terminal 202 may mount the power supply device 20 to a common power interface or connect to a socket, and the control unit 21 is preferably an MCU or a smart phone.
In this embodiment, the using end 201 and the providing end 202 can use the power supply device 20 by both parties to complete a transaction by using the transaction method; the user end 201 can conveniently use the power supply device 20 to complete the transaction by using the transaction method; the providing end 202 can simply and conveniently use the power supply device 20 to complete the transaction by using the transaction method.
The user obtains a charging demand from the power supply apparatus 20 using the user terminal 201. The power supply device 20 can communicate with the management platform 10 to search for the neighboring provider 202 according to the positioning information of the user 201. The communication system 14 of the management platform 10 locates the positions of the user terminal 201 and the providing terminal 202. The providing end 202 issues information allowing a charging transaction through the management platform 10. The management platform 10 provides the location information of the providing end 202 to the using end 201. The user 201 and the provider 202 mutually determine the willingness to carry out the transaction, the management platform 10 establishes transaction information through a transaction identification code, estimates the transaction fee, and the management platform 10 partially or completely distributes credit information of the user 201 and the provider 202 to prompt both parties of the transaction. The user terminal 201 and the providing terminal 202 determine a transaction, and when the transaction is not determined, the power supply device 20 searches the providing terminal 202 for the user terminal 201 again. Charging can be started after the transaction is determined, and the power supply device 20 can record charging information and perform charging statistics on charging electric energy. The charging information may be transmitted to the management platform 10, the payment system 13 may count charging fees and perform payment transactions on the user terminal 201 and the provider terminal 202, and the payment system 13 may provide at least one payment method to the user terminal 201 and the provider terminal 202 through the power supply device 20. After the payment is finished, the user terminal 201 and the providing terminal 202 may be evaluated by the power supply device 20. The power supply device 20 will transmit the transaction information and the evaluation information to the management platform 10, and the management platform 10 will record the information data in the database 11 for credit record.
It is worth mentioning that the payment system 13 will provide payment methods to the user terminal 201 and the providing terminal 202 through the power supply device 20, including but not limited to: cash, check, or swipe card. The payment system 13 is a third party, and the payment system 13 will pay the provider 202 and collect the fee from the user 201. The payment system 13 first collects the fee of the user terminal 201, and then pays the fee to the providing terminal 202 after the charging transaction is completed.
It should be noted that the database 11 may analyze the information data, and the early warning system 15 may remind the user terminal 201 and the provider terminal 202 of the abnormal data or abnormal trend through the power supply device 20. Thus, the service end 201 and the providing end 202 can perform maintenance and repair on the charging device.
In the preferred embodiment, the power supply in the society can be fully utilized as a resource to charge the mobile charging equipment. Meanwhile, the benefits of both parties of the transaction are guaranteed, and a credit mechanism is established.
In the embodiments of fig. 18-24, the charging management system of the present invention can be implemented as an energy management system that manages electrical energy.
Fig. 23 is a block diagram showing another preferred embodiment of the charge management system of the present invention. The present invention includes an energy management platform 10A and at least one power management device 20A, the power management device 20A communicatively coupled to the energy management platform 10A. The energy management platform 10A manages the power management device 20A. The power management device 20A provides access to a power source. That is, the power management apparatus 20A uses the power supply as a power supply terminal. The power management device 20A provides access to at least one charging device to supply power to the charging device. In a preferred embodiment of the present invention, the power management device 20A provides for electrically connecting at least one mobile powered device for charging. The mobile electric equipment comprises a notebook computer, a tablet personal computer, a mobile phone, an electric automobile, an electric airplane and the like.
It is worth mentioning that the power supply also supplies power to the power management device 20A. After the power management device 20A turns on the power, the power management device 20A acquires the current geographical location information. The power management device 20A transmits the current geographical location information and the identification information of the power management device 20A to the energy management platform 10A. The energy management platform 10A registers the electric energy management device 20A based on the current location information of the electric energy management device 20A and the identification information of the electric energy management device 20A. The energy management platform 10A manages the power management device 20A based on the identification information of the power management device 20A and the current location information of the power management device 20A. The provider inputs the identification information of the power management device and the information of the power provider through an intelligent device. Through the smart device, the identification information of the power management device and the information of the power provider are transmitted to the energy management platform 10A. The energy management platform 10A matches the electric energy management device with the provider based on the identification information of the electric energy management device. The energy management platform 10A obtains the amount of power provided by the power provider through the power management device. It is worth mentioning that the smart device may obtain the identification information of the power management device from the power management device. For example, through nfc (near Field communication), the smart device obtains identification information of the power management device from the power management device. Or the identification information of the power management apparatus is set as an identification code. The identification information of the power management device 20A is set outside the power management setting. The intelligent device, such as a smart phone, can acquire the identification information of the electric energy management device through a camera arranged on the smart phone. The identification information of the power management device and the provider information are then sent to the energy management platform 10A. The energy management platform 10A sets the power supply provider of the electric energy management device based on the identification information of the electric energy management device and the provider information. Preferably, the identification information of the power management apparatus is set as a two-dimensional code. The user identifies the two-dimensional code through the intelligent equipment.
After a user accesses an electric device to the power management device 20A, the user acquires identification information of the power management device 20A from the power management device 20A using the smart device. The identification information of the power management apparatus 20A and the information of the user are then transmitted to the energy management platform 10A. The energy management platform 10A sets and manages the user based on the identification information of the power management apparatus 20A and the information of the user. It should be noted that, after the energy management platform 10A is configured for the user, the user is authorized to control the corresponding electric energy management device 20A according to the identification information of the electric energy management device 20A. The user controls the power management device 20A through the smart device. The user controls the power management device 20A to charge the electric device 20A through the smart device. After the charging of the electric device is completed, the user controls the power management device 20A to stop charging through the smart device. The energy management platform 10 obtains the amount of power for charging the electric device from the electric energy management device 20A. The energy management platform 10 provides the user with the payment required according to the amount of electricity charged to the electric equipment by the electric energy management equipment 20A. The user can obtain the fee to be paid through the intelligent device. The energy management platform 10 sends the information of the fee that the user needs to pay to the smart device of the provider, so that the provider can confirm the fee paid by the user.
The energy management platform 10A includes a device management module 11A, a verification module 12A, and a management module 13A. The management module 13A is communicatively connected to the device management module 11A and the authentication module 12A, respectively. The management module 11A manages the usage of the power management device 20A, such as the amount of power used by the user for charging. The authentication module 12A authenticates the power management device 20A. If the power management device 20A is authenticated, the power management device 20A is allowed to communicatively couple with the communication management platform 10A. After the power management device 20A is communicatively connected to the communication management platform 10A, the device management module 11A manages the power management device 20A. Specifically, the device management module 11A registers the power management device 20A based on the identification information of the power management device 20A and the geographical location information of the power management device 20A. The device management module 11A further obtains detailed information of the power management device 20A, such as a voltage range, a current range, a charging target, and the like of the power management device 20A providing the charging. The management module 11A manages the power source and the electric-powered device according to the identification information of the electric energy management device 20A. Further, the management module 11A provides management for the power supply provider and the user. Specifically, the identification information of the power management device 20A provided by the user and the smart device used by the user pass the authentication of the authentication module 12A, and the smart device used by the user is allowed to send an operation request to the management module 11A. The management module 11A controls the power management device 20A to perform corresponding operations, such as starting charging, stopping charging, and the like, according to the operation request sent by the smart device. It should be noted that, if the power management device 20A detects that the charging of the electric device is completed, the power management device 20A stops charging the electric device. The power management apparatus 20A then transmits information of the completion of charging to the management module 11A. The management module 11A sends charging completion information to the smart device of the user, so as to prompt the user that the charging of the electric device is completed through the smart device.
The energy management platform 10A further includes a payment module 14A. The payment module 14A is communicatively coupled to the management module 11A. The payment module 14A creates accounts for the user and the power provider, respectively. That is, the payment module 14A creates a corresponding user account for the user, and the payment module 14A creates a corresponding power provider account for the power provider. The payment module 14A acquires the charge amount from the management module 11A. The power provider account records the amount of power provided by the power provider. The user account records the amount of electricity used. The payment module 14A further obtains the geographical location information of the power management module 20A through the management module 11A. The payment module 14A determines the payment fee of the user according to the geographical location information of the power management module 20A and the amount of power used by the electric device for charging. The payment module 14A transmits the payment fee to the smart device of the user and the smart device of the power provider through the management module 11A, respectively. The user is informed of the payment through the smart device. The power supply provider is informed of the payment through the smart device. The user pays the power supply provider according to the payment fee. The user can pay the power provider through the smart device through the payment module 14A. The power provider checks whether the user pays the fee through the payment module 14A using the smart terminal. It is worth mentioning that the amount of electricity can be used for payment. Specifically, if the power supply provider does not receive the payment, the amount of power provided by the power supply provider is recorded in the account of the power supply provider. If the power provider charges the electric device as a user using the electric energy management device 20A, the power provider can pay the electric energy using the provided electric energy. That is, the payment module 14A provides a payment means using the amount of provided power and a payment means for paying a fee.
The power management device 20A further includes a communication module 21A, a control module 22A, a power management module 23A, a positioning module 24A, and an identification module 26A. The communication module 21A is communicatively connected to the power management module 23A, the positioning module 24A, and the control module 22A, respectively. The communication module 21A provides a communication means to communicatively couple with the energy management platform 10. The Communication module 21A supports Communication modes such as GPRS (General Packet Radio Service), GSM (Global System for Mobile Communication), 3G (third generation Mobile Communication technology), 4G (fourth generation Mobile Communication technology), 5G (5 th generation Mobile Communication technology), Wi-Fi, Li-Fi, and bluetooth. The location module 24 provides current location information of the power management device 20A. The identification module 26A records identification information of the power management device 20A. The control module 22A obtains current location information from the positioning module 24A. The control module 22A obtains the identification information from the identification module 26A. The control module 22A transmits the current position information and the identification information to the management module 11A through the communication module 21A. The control module 22A receives the operation instruction sent by the management module 11A through the communication module 11A. The control module 22A operates according to the received operation instruction. The power management module 23A provides electrical connections to at least one power source and at least one powered device, respectively. The power management module 23A controls the power source to charge the user device. Further, the power management module 23A may adjust according to the charging current and the charging voltage of the electric device, so that the power management module 23A charges the electric device with the charging current and the charging voltage of the electric device. The electric energy management module 23 provides the management module 11A with the electric quantity data before and after the charging of the user equipment through the communication module 21A, so that the management module 11A obtains the charging electric quantity of the user equipment according to the electric quantity data before and after the charging of the user equipment. If the control module 22A receives instructions regarding power management. The control module 22A sends instructions regarding power management to the power management module 23A. The power management module 23A executes instructions regarding power management.
The power management module 23A further includes a power input module 231A, a power output module 232A and a power metering module 233A. The power metering module 233A is communicatively connected to the power input module 231A and the power output module 232A, respectively. The power input module 231A provides at least one power interface 2311A for electrically connecting a power source to the power input module 231A. The power input module 231A provides access to ac power. Such as a household ac power source, a commercial ac power source, etc. The power input module 231A is provided into an energy storage device, such as a capacitor or a battery. That is, the power input module 231A may use an energy storage device as a power source. The power output module 232A provides at least one device interface 2321A for accessing the electrical device. Preferably, the powered device is a mobile powered device. Before the electric device is charged, the electric energy metering module 233A records the electric energy metering data before charging. After the electric device finishes charging, the electric energy metering module 233A records the electric energy metering data after charging. It should be noted that the electric energy metering module 233A directly meters the charging amount of the electric device, so that the electric energy metering module 233A can simultaneously meter the charging amount of a plurality of user devices, and the electric energy management module 23A can simultaneously allow a plurality of electric devices to be charged. The power management module 23A further includes a conditioning module 234A. The conditioning module 234A is communicatively coupled to the power input module 231A and the power output module 232A, respectively. After the electrical device is electrically connected to the power output module 232A, the adjusting module 234A accesses the electrical device through the power output module 232A to obtain the charging requirement of the electrical device. If the adjusting module 234A obtains the charging requirement of the electric device, the adjusting module 234A analyzes the power supply condition of the power supply. If the power supply condition of the power supply meets the charging requirement of the electrical device, the adjusting module 234A allows the power supply to supply power to the user equipment, so as to charge the user equipment. If the power supply condition of the power supply cannot satisfy the charging requirement of the electrical device, the adjusting module 234A adjusts the power supply condition of the power supply so that the power supply can satisfy the charging requirement of the electrical device. If the power supply provides 220V and the powered device is adapted to 5V, the adjusting module 24A adjusts the 220V to 5V. The power output module 232A charges the electric device with a voltage of 5V. It is worth mentioning that the charging requirement of the electric device is sent to the device management module 11A through the communication module 231A. The device management module 11A records the charging requirement of the electric device. If the adjustment module 24A cannot obtain the charging requirement of the electrical device from the electrical device, the adjustment module 24A sends a request to the device management module 11A through the communication module 11A to request the device management module 11A to provide the charging requirement of the electrical device. If the device management module 11A finds the charging requirement of the electric device, the device management module 11A sends the charging requirement of the electric device to the adjusting module 234A. The adjusting module 234A obtains the charging requirement of the electric device through the communication module 21A. The adjusting module 234A adjusts the power output module 232A according to the charging requirement, so that the power output module 232A charges the electric device according to the charging requirement.
The power management module 23A further includes an energy storage module 28A. The energy storage device is electrically connected to the power management module 23A. Specifically, the energy storage module 28A is electrically connected to the regulating module 234A, the power input module 231A and the power output module 232A, respectively. The adjustment module 234A can adjust the power input module 231 to charge the energy storage module 28A. The energy storage module 28A can be used as a power source to charge the electric device through the power output module 232A. If the power supply fails or does not meet the charging requirement of the electric device, the energy storage module 28A can be used as a power supply to charge the electric device. The energy storage module 28A is preferably a rechargeable battery.
The power management module 23A further includes a clock module 25A. The clock module 25A provides a reference time. The clock module 25A is communicatively coupled to the control module 22A. The control module 22A regulates the clock module 25A. The control module 22A executes the operation instructions according to the time provided by the clock module 25A. The power management module 23A further includes an update module 27A. The update module 27A provides a control method for updating the control module 22A. The update module 27A provides updates to the manner of regulation of the power management module 23A.
The energy management platform 10A further includes a credit module 15A. The credit module 15A is communicatively coupled to the management module 13A. After the power management device 20A finishes charging the electric device, the user evaluates the power management device 20A through the smart device. The power provider can evaluate the user through the information module 15A. The evaluation of the user is made as part of the user's credit. It should be noted that the management module 13A can obtain the evaluation of the user through the information module 15A to determine whether to provide the service for the user.
The energy management system further includes an electrical energy application module 30A. The power application module 30A may be installed in a consumer. The power application module 30 provides information for acquiring the power of the electric device. The electric quantity information of the electric equipment refers to the electric quantity information, the available electric quantity information, the charging standard and other information of the electric equipment. According to the power information and the available power information of the electric device, the power application module 30A predicts the remaining operating time of the electric device. The power application module 30A obtains the location information of the power management device 20A from the management platform 10A, which provides at least one power management device meeting the charging standard of the electric device. So that the user can select the power management apparatus 20A. Preferably, the power application module 30A displays the location of each power management device 20A in the form of a map. The power application module 30A provides the available power information and the current location of the electric device to the management platform 10A. After the management platform 10A processes the available power information and the current location of the electric device, the management platform 10 recommends one of the electric energy management devices 20A to the electric energy application module 30. Further, the management platform 10 recommends a path to the power management device 20A to the power application module 30.
The power application module 30A is installed in a smart phone as a preferred embodiment, which is further described. The power application module 30A is installed in the smart phone. The power application module 30A may obtain the power capacity, the current available power, the charging standard, and the current location information of the smart phone. It should be noted that the electric energy application module 30A obtains the electric energy capacity, the current available electric quantity, the charging standard and the current location information of the smart phone after obtaining the authorization of the smart phone. The power application module 30A further obtains the energy consumption of the smart phone, so as to predict the remaining usage time of the smart phone according to the energy consumption and the current available power of the smart phone. The electric energy application module 30A sends the remaining usage time, the charging current specification, and the current location information of the smart phone to the management platform 10A. Preferably, the power application module 30A needs to pass the authentication of the management platform 10A before the management platform 10A receives the information sent by the power application module 30A. Specifically, the power application module 30A provides identification information for recording the user. For example, the power application module 30A records the account number of the user in the management platform 10A. The power application module 30A is communicatively coupled to the management platform 10A. Specifically, the power application module 30A accesses the energy management platform 10A through the smart phone. The power application module 30A provides the authentication module 12A with identification information of the user. If the user passes the authentication of the authentication module 12A, the user is allowed to access the management module 13A.
The management module 13A of the management platform 10A receives the remaining usage time, the charging standard, and the current location information of the smartphone. The management module 13A transmits the remaining usage time of the smartphone, the charging standard, and the current location information to the device management module 11A. The device management module 11A determines a search range for searching the electric energy management device 20A according to the remaining usage time of the smartphone, centering on the current position of the smartphone. After the search range is determined, the device management module 11A searches the power management devices 20A according to the charging criteria, and obtains the locations of the power management devices 20A that can supply power according to the charging criteria. The device management module 11A transmits the obtained location of each of the power management devices 20A that can be supplied with power according to the charging standard to the power application module 30A through the management module 13A. The power application module 30A provides the location of each power management device 20A that can be powered according to the charging standard to the smartphone. Preferably, the power application module displays the location of each power management device 20A capable of supplying power according to a charging standard on the smartphone.
It is worth mentioning that, if the device management module 11A does not find each of the power management devices 20A capable of supplying power according to the charging standard in the search range, the device management module 11A searches the search range for the location of the power management device 20A. The device management module 11A transmits the location of the power management device 20A to the power application module 30A through the management module 13A. The power application module 30A displays the location of each power management device 20A within the search range on the smartphone. Further, the device management module 11A generates a recommended path according to the current location of the smartphone and the location away from the power management device 20A, so as to guide charging of the smartphone to the power management device 20A.
It should be noted that the device management module 11A can further detect the status of each device interface of the power output module 232A of each power management device 20A. If the power management device 20A cannot provide the device interface that is idle, the device management module 11A excludes the power management device 20A from the search results. That is, the power management device 20A that cannot provide a vacant device interface is not recommended to the power application module 30A by the power management device 20A through the management module 13A. Therefore, the power management device 20A that cannot provide the idle is not displayed on the smartphone.
Through the recommended route, the user is guided to the power management apparatus 20A. The user acquires the identification information of the electric energy management device 20A using the smartphone. Preferably, the identification information of the power management device 20A is acquired by the power application module 30A. The electric energy application module 30A transmits the identification information of the electric energy management device 20A and the identification information of the user to the energy management platform 10A through the smart phone. After the management module 13A receives the identification information of the power management device 20A and the information of the user, the management module 13A sends the identification information of the power management device 20A and the information of the user to the verification module 12A. After the verification module 12A passes the verification of the user, the management module 13 authorizes the user to use the power management apparatus for charging. Further, the management module 13A authorizes the control of the energy management device 20A through the power application module 30A.
After the smart phone is accessed to the energy management device 20A, the power management device 20A stays in access to the smart phone. It is worth mentioning that the user controls whether to allow the energy management device 20A to access the smart phone through the electric energy application module 20A. The control module 22A obtains the charging standard of the smartphone through the communication module 21A. The control module 22A sends the charging standard of the smartphone to the power management module 23A. The power input module 232A of the power management module 23A identifies the device interface to which the smart phone is connected. The adjusting module 234A of the power management module 23A adjusts the power electrically connected to the device interface of the smart phone according to the charging standard, so that the device interface outputs the power to the smart phone according to the charging standard. It should be noted that the charging standard of the smart phone can be sent from the device management module 11A to the communication module 21A through the management module 13A. The management module 13A receives the charging standard of the smartphone through the communication module 21A. The management module 13A then sends the charging standard of the smartphone to the electric energy management module 23A. The power management module 23A adjusts the power supplied to the smart phone according to the charging standard, so that the power management module 23A supplies power to the smart phone according to the charging standard of the smart phone.
It is worth mentioning that if the energy management device 20A cannot provide the smart phone with electric energy according to the charging standard, the energy management device 20A supplies the smart phone with electric energy according to the passed charging standard. Further, the energy management device 20A may search for a location of the energy management device 20A that can meet the charging standard of the smartphone, and then provide the location to the user through the power application module 30A. Specifically, the control module 22A obtains the power capacity of the smartphone, the current amount of power available, the charging criteria, the current charging criteria, and the current location of the energy management device 20A. The control module 22A transmits the electric energy capacity, the current available electric energy amount, the charging standard, the current charging standard, and the current location of the energy management device 20A of the smartphone to the management module 13A through the communication module 21A. The management module 13A searches for the location of each energy management device 20A that can supply power according to the charging standard of the smartphone through the device management module 11A. The management module 13A selects a location of the energy management device 20A that is closest to the energy management device 20A currently charged by the smartphone and is capable of supplying power according to the charging standard of the smartphone. The management module 13A further provides a guiding path to guide the user to the location of the energy management device 20A according to the charging standard of the smart phone. If the available power of the smart phone is not sufficient to support the smart phone reaching the location of the energy management device 20A according to the charging standard of the smart phone, the management module 12 generates a charging scheme according to the available power of the smart phone, the power consumption of the smart phone, the power capacity of the smart phone, the current charging standard provided by the energy management device 20A, and the charging standard of the smart phone. The charging scheme includes how much time is required for the current energy management device 20A to fully charge the smartphone; when the current energy management device 20A is charged for a period of time, the smartphone reaches the location of the energy supply device 20A that can supply electric energy according to the charging standard of the smartphone, and the smartphone can maintain normal operation, and the energy supply device 20A that supplies electric energy according to the charging standard of the smartphone supplies electric energy to the smartphone so that the smartphone is fully charged. The management module 13A transmits the charging scheme to the electric energy application module 30A. The electric energy application module 30A displays the charging scheme through the smart phone. It is noted that the power application module 30A may be implemented as an application software to facilitate installation in various smart devices. The power application module 30A may also be implemented as a power application device, which may also be installed to each electric device.
It should be noted that, if the energy management module 20A supplies electric energy to a plurality of electric devices at the same time, the management module 13A accesses the payment module 14A to obtain the electric energy provided by the user corresponding to each electric device. The management module 13A preferentially satisfies the charging demand of the user, which is greater in the amount of power supplied.
It should be noted that the energy management device 20A further includes a detection module 29A, the detection module 29A is communicatively connected to the control module 22A, and the control module 22A determines that the environmental factor of the energy management device 20A causes the energy management module 20A to be unusable through the environmental information of the energy management device 20A of the detection module 29A. For example, the detection module 29A may be implemented as a camera, and the environmental factors of the energy management device 20A are acquired through the camera. If there is an obstacle blocking the electric vehicle from using the energy management device 20A, the management module 13A does not recommend the energy management device 20A to the user. If the obstacle is removed, the management module 13A determines that the obstacle is removed by analyzing the information provided by the detection module 29A, and the management module 13A resumes recommending the energy management module 22A.
Fig. 24 is a flowchart of a charging management system implemented as an energy management method according to another embodiment of the invention. The energy management method comprises the following steps:
step 1001': the power management device 20A is initialized. When a power source is connected to the power input module 231A, the power source supplies power to the power management device 20A, and the power management device 20A is activated. The positioning module 22A acquires the current location information of the power management device 20A. The control module 22A acquires the identification information of the power management device 20A from the identification module 27A. The positioning module 22A may be a GPS module, a beidou system module, etc. that provides the location information of the electric energy management device. The control module 22A transmits the current location information of the power management device 20A and the identification information to the management module 13A through the communication module 21A. The management module 13A registers the power management device 20A based on the current location information of the power management device 20A and the identification information. After the registration is completed, the power management apparatus 20A may provide the charging service. If the power provider is not registered with the energy management platform 10A, the power provider needs to register with the energy management platform 10A. The power supply provider obtains the identification information of the power management device 20A through an intelligent device. The power provider sends the identification information of the power management device 20A and the information of the power provider to the management module 13A through the smart device. The management module 13A registers the power supply provider based on the information of the power supply provider and the identification information of the power supply management device 20A. After the power supply provider registers, the management module 13A authorizes the power supply provider to control the power management device 20A through the smart device. If the user is not registered with the energy management platform 10A, the user obtains the identification information of the power management device 20A through the smart device. The user provides the management module 13A with the identification information of the power management device 20A and the information of the user through the smart device. The management module 13A registers the user based on the identification information of the power management apparatus 20A and the information of the user. After registration is completed, the user may use the power management device to charge a powered device. It is worth mentioning that the payment module 14A establishes accounts for the power provider and the user, respectively. The user makes payment through the account number of the user.
Step 1002': and determining a charging mode. The charging mode provided by the energy management system comprises the following steps: charge-by-charge and charge-by-payment. The default charging mode is to charge the amount of charge. If the user does not perform the payment operation, go to step 1003'. If the user pays, the payment module 14A obtains the location information of the electric energy management device 20A from the management module 13A, and the payment module 14A obtains the electric quantity billing unit of the location according to the location information. The payment module 14A obtains the charging electric quantity corresponding to the charging fee paid by the user according to the electric quantity billing unit at the position. It is worth mentioning that if the user provides power as the power provider once, the amount of power provided by the user as the power provider can be used for payment. The user account of the payment module 14A records the power provided by the user as a power provider and the location information of the provided power. The user can be used for paying the charging electric quantity with the provided electric quantity.
Step 1003': a charging demand is determined. The adjusting module 234A obtains the charging requirement of the electric device through the power output module 232A. After the adjusting module 234A obtains the charging requirement of the electric device, the adjusting module 234A adjusts the electric energy output module 232A according to the charging requirement, so that the electric energy output module 232A charges the electric device according to the charging requirement. If the adjusting module 234A cannot obtain the charging requirement of the electric device from the electric device, the adjusting module 234A makes a request to the management module 13A through the communication module 21A to obtain the charging requirement of the electric device. The management module 13A searches the device management module 11A to obtain the charging requirement of the electric device. If the device management module 11A records the charging requirement of the electric device, the management module 13A sends the charging requirement of the electric device to the adjustment module 234A. The adjusting module 234A adjusts the power output module 234A according to the charging requirement of the electric device, so that the power output module is charged according to the charging requirement of the electric device. It should be noted that the sequence of step 1002 'and step 1003' may be interchanged, or may be executed simultaneously.
Step 1004': and charging is carried out. The power output module 234A charges the electric device. If the power supply cannot stably supply power, the adjusting module 234A stops using the power supply, and then the adjusting module charges the electric device using the energy storage module 28A. If the user chooses to charge for a paid fee then go to step 1006':
step 1005': the fee is paid. The user makes a payment via the payment module 14A. The payment module 14A provides payment methods including: paying the electric quantity and paying the fee. If the account of the user records the charging electric quantity, the user can pay by using a mode of paying the electric quantity. The power management power metering module 233A supplies a start metering value and an end metering value to the management module 13A at the start of charging and the end of charging, respectively. The management module 13A obtains the charging amount according to the starting measurement number and the ending measurement number. The payment module 14A deducts the charging amount from the account of the user, and then adds the charging amount to the account of the power provider. If the user pays by using the payment method, the management module 13A provides the user with the information of the fee to be paid according to the charging capacity. The user pays a fee through the payment module 13A. It is worth mentioning that if the user uses the payment method, the charging amount provided by the power provider will not be recorded in the account of the power provider.
Step 1006': and (6) evaluating. The user evaluates the power management apparatus 20A through the credit module 15A. The power provider evaluates the user through the credit module 15A.
It is worth mentioning that the user can access the energy management platform 10A through the smart device. Specifically, the user is communicatively coupled to the management module 13A via the smart device. The user inquires the location of the power management apparatus 20A through the management module 13A. Further, the smart device provides current location information, and the management module 13A provides at least one path to the smart device according to the location information of the power management device 20A and the current location information to guide the user to the power management device. The user provides the charging requirement of the electric equipment to the management module 13A through the intelligent equipment. The management module 13A provides the usage with location information that satisfies the charging requirement of the electric device according to the charging requirement of the electric device. The management module 13A then provides at least one guiding path to guide the user to the power management module 20A. It should be noted that, the management module 13A preferably recommends the electric energy management module 20A that the user can meet the charging requirement of the electric device recently according to the current location of the user and the charging requirement of the electric device. Further, the management module 13A provides the guiding path to the user to the power management module 20A.
For example, the user needs to charge the electric vehicle. The user accesses the energy management platform 10A through a smart device, such as a smart phone. The verification module 12A verifies the user's information provided by the user through the smart phone. If the user passes the authentication of the authentication module 12A, the user is allowed to access the management module 13A. The user sends the charging request to the management module 13A through the smart phone. The management module 13A acquires the location information of the power management device 20A capable of supplying electric power to the electric vehicle in the device management module 11A. The management module 13A provides the smartphone with location information of the power management device. Further, the management module 13A obtains the current location of the user through a smart phone. The management module 13A provides the location information of the power management device 20A closest to the current location of the user for the location information of each power management device according to the current location information of the user. Further, the user provides the charging requirement of the electric automobile through the smart phone. The management module 13A recommends the electric energy management device 20A meeting the charging requirement of the electric vehicle according to the charging requirement of the electric vehicle. It is worth mentioning that each of the power management devices 20A provides the management module 13A with status information of the power management device 20A, respectively. Specifically, the power management device 20A provides the management module 13A with the number of electric devices to be charged using the power management device 20A, the power state of the power management device 20A, and the charging state of each electric device. The management module 13 determines whether the power management device 20A satisfies the charging requirement according to the status information of the power management device 20A. If the power management device 20A cannot meet the charging requirement, the management module 13A does not recommend the power management device 20A to the user. The management module 13A searches for the power management device 20 that can meet the charging requirement of the user and recommends it to the user.
After the user drives the electric vehicle to the recommended power management module 20A. The battery of the electric vehicle is electrically connected to the power output module 232A of the power management module 20A. The adjusting module 234A adjusts the power output module 232A according to the charging requirement of the electric vehicle, so that the power output module 232A meets the charging requirement of the electric vehicle. Then, the electric energy output module 232A charges the electric vehicle according to the charging requirement. After the charging is completed, the management module 13A obtains the charging capacity from the power management apparatus 20A. The management module 13A sends the amount of charge to be paid and the amount of charge used to the smartphone. The user pays a fee through the smartphone. It is worth mentioning that the power provider can set a charge amount or a charge fee. If the power provider sets the charge amount and the user pays the fee, the user pays the energy management platform 10A to purchase and sell the charge amount, and then the user uses the charge amount again to pay the charge amount.
It is worth mentioning that the power management module 20A can supply power to mobile electric devices, such as smart phones, wearable devices, notebook computers, tablet computers, electric vehicles, rechargeable batteries, and the like
When the mobile electric equipment, especially the equipment driven by electric energy, needs to be charged, the user end 201 ' of the mobile electric equipment needs to use the power supply 30 ' of the power supply end 202 ' as the charging provider. In this embodiment, the user terminal 201 'is generally an individual or a group that needs a charging service, and the providing terminal 202' is generally a holder or a group of a power source. Since the providing end 202 ' needs to pay the electric energy producing party, the providing end 202 ' also needs to reasonably charge the charging behavior of the using end 201 ' in most cases.
The charge management method of the present invention can be implemented as a charge transaction method. The charging transaction method of the present invention includes a management platform 10 ' participating in the charging transaction of the user terminal 201 ' and the providing terminal 202 '. The management platform 10 'receives the charging requirement information of the user terminal 201'; the management platform 10 ' provides the information of the using end 201 ' with respect to the providing end 202 '. The user terminal 201 'exchanges information with the management platform 10', and the provider terminal 202 'exchanges information with the management platform 10', so as to form an operation system for charging transaction. As shown in fig. 18, the management platform 10 'further includes a database 11', an operating system 12 ', a payment system 13', a communication system 14 'and an early warning system 15'. The management platform 10 ' can be set and adjusted through the operating system 12 ', and the database 11 ', the payment system 13 ', the communication system 14 ' and the early warning system 15 ' communicate, control and the like through the operating system 12 '.
The user terminal 201 'can communicate with the providing terminal 202' through the communication system 14 'of the management platform 10'. When the user terminal 201 'issues the charging-required information, the communication system 14' of the management platform 10 'receives the charging-required information of the user terminal 201' and provides the user terminal 201 'with the information of the providing terminal 202' suitable for transaction.
The user terminal 201' can issue information such as the interface model, the geographical location, the expected charging capacity, etc. that the user terminal needs to charge. The provider 202' may publish information on its offered power interface model, geographic location, billing criteria, etc. The operating system 12 ' of the management platform 10 ' processes the information of the user terminal 201 ' and the information of the provider terminal 202 ', and the communication system 14 ' issues related information according to the requirements of the user terminal 201 ' and the provider terminal 202 '. The user terminal 201 'selects the providing terminal 202' according to the provided information. The providing terminal 202 'selects whether to provide the charging service according to the information of the using terminal 201'. Preferably, in a case where the providing terminal 202 ' and the using terminal 201 ' are mutually selected, the management platform 10 ' manages charging transactions of the providing terminal 202 ' and the using terminal 201 '.
In an optional mode of the preferred embodiment, the flow of the transaction method is shown in fig. 19. For convenience of illustration, the user terminal 201 'in the preferred embodiment is preferably a new energy vehicle that needs to be charged, and the providing terminal 202' is preferably a nearby store. The user terminal 201' obtains a charging requirement from the electric equipment. The user terminal 201 'communicates with the management platform 10', and the management platform 10 'receives the information of the user terminal 201'. The provider 202 'may issue information allowing charging transactions through the management platform 10'. According to the information of the user terminal 201 ', the management platform 10 ' searches the provider terminal 202 '. The management platform provides the location information of the providing end 202 'to the using end 201'. The user 201 'and the providing end 202' mutually determine the willingness to carry out the transaction, the management platform 10 'estimates the cost of the transaction, and the management platform 10' partially or completely provides the information of the user 201 'about the providing end 202' and prompts the transaction. The user terminal 201 ' and the providing terminal 202 ' determine the transaction, and when the transaction is not determined, the management platform 10 ' will search the providing terminal 202 ' again for the user terminal 201 '. After the transaction is determined, the user terminal starts charging, and the management platform 10' may record charging information and make charging statistics on charging. The charging information may be transmitted to the management platform 10 ', and the payment system 13 ' may count the charging fee and perform a payment transaction for the user terminal 201 ' and the provider terminal 202. The payment system 13 ' will provide at least one payment method to the user terminal 201 ' and the providing terminal 202 '. After the payment is finished, the user terminal 201 ' and the providing terminal 202 ' can be evaluated through the management platform 10 '. The transaction information and the evaluation information are transmitted to the management platform 10 ', and the management platform 10 ' records the information data in the database 11 ' for credit recording. In particular, the management platform manages the process of the providing terminal and the charging transaction through a transaction identification code. It is worth mentioning that the providing end 202 ' provides power to the using end 201 ' through the client 20 '.
In another optional mode of the preferred embodiment, for convenience of illustration, the user terminal 201' in the preferred embodiment is preferably an electric vehicle to be charged, and the providing terminal 202 is preferably adjacent to a household. The user terminal 201' can receive a charging alarm from the electric device. The user terminal 201 'contacts and communicates with the management platform 10' to provide request information, the information includes the charging interface model, the device geographical position, the expected charging capacity and the like, and the management platform 10 'receives and processes the information of the user terminal 201'. The providing terminal 202 'issues information allowing charging transaction through the management platform 10', wherein the information includes the model of the charging interface, the geographic location, and the like. According to the information of the user terminal 201 ', the management platform 10 ' searches for the suitable providing terminal 202 ', and preferably matches the suitable charging interface and the adjacent geographic position. The management platform 10 ' provides the using end 201 ' with the providing end 202 ' location information. The user 201 'and the provider 202' mutually determine the willingness to carry out the transaction, the management platform 10 'estimates the cost of the transaction, and the management platform 10' partially or completely provides the information of the user 201 'to the provider 202' to prompt the transaction. The consumer 201' and the provider 202 determine the transaction. If the transaction is not certain, the management platform 10 ' will re-search the provider 202 ' for the user 201 '. After the transaction is determined, the user 201 'starts charging, the management platform 10' may record charging information, make an agreement on charging cost, and make a cost component of electric energy cost and service cost, the information of the charging transaction may be transmitted to the management platform 10 ', and the payment system 13' may count transaction cost and perform payment transaction reminding on the user 201 'and the provider 202'. The user end 201 'and the providing end 202' can pay directly, and the payment mode can adopt cash, card swiping and the like. After the payment is finished, the user terminal 201 ' and the providing terminal 202 ' can be evaluated through the management platform 10 '. The management platform 10 'will record the information data in the database 11' for credit recording.
In another optional mode of the preferred embodiment, for convenience of illustration, the user terminal 201 'in the preferred embodiment is preferably a mobile smart device that needs to be charged, and the providing terminal 202' is preferably a nearby store. The user terminal 201' can obtain a charging reminder from the electric equipment. The user terminal 201 'communicates with the management platform 10', and the management platform 10 'receives information of the user terminal 201', wherein the information includes a charging interface model, a device geographical position, a predicted charging capacity and the like. The providing terminal 202 'issues information allowing charging transaction through the management platform 10', wherein the information includes the model of the charging interface, the geographic location, and the like. According to the information of the user terminal 201 ', the management platform 10 ' searches the provider terminal 202 ', and the user terminal 201 ' autonomously selects the provider terminal 202 '. Providing said user terminal 201 'with said provider terminal 202' location information. The user 201 'and the provider 202' mutually determine the willingness to carry out the transaction, the management platform 10 'estimates the cost of the transaction, and the management platform 10' partially or completely provides the information of the user 201 'to the provider 202' to prompt the transaction. The user terminal 201 ' and the providing terminal 202 ' determine the transaction, and when the transaction is not determined, the management platform 10 ' will search the providing terminal 202 ' again for the user terminal 201 '. Charging can be started after the transaction is confirmed, and the management platform 10' can record the charging information. The charging information can be transmitted to the management platform 10 ', the fee composition is the electric energy fee, the service fee, and the like, and the payment transaction is performed for the user 201 ' and the provider 202 ', the management platform 10 ' pays the provider 202 ', and the management platform 10 ' charges the user 201 '. After the payment is finished, the user terminal 201 ' and the providing terminal 202 ' are evaluated through the management platform 10 '. The management platform 10 'will record the information data in the database 11' for credit recording.
In another optional mode of the preferred embodiment, for convenience of description, the using end 201 'in the preferred embodiment is preferably a new energy vehicle that needs to be charged, and the providing end 202' is preferably a charging pile. As shown in fig. 20 ', the providing end 202 ' and the using end 201 ' in the transaction operation system preferably use a client 20 ', wherein the client 20 ' can perform power metering on a power source 30 ', a monitoring device 40 ' collects data information in a charging transaction, and a communication device 50 ' performs data exchange with the management platform 10 '. The communication device 50 'may transmit data information to the communication system 14' of the management platform 10 ', and the communication system 14' of the management platform 10 'may also transmit data information to the communication device 50'. The management platform 10 'may collect the time, the geographical location, the payment information, the charging information, and the like in the charging transaction between the providing terminal 202' and the using terminal 201 'and store the same in the database 11'. The database 11' is preferably a cloud data store. The operating system 12 'can analyze and process the data in the database 11', and the early warning system 15 'can analyze the data in the database 11' and alarm for abnormal situations. As shown in fig. 21, in the present embodiment, the information data exchange between the management platform 10 'and the client 20' is preferably performed using a network and wireless communication.
The client 20 'may count the power of the power source 30' during charging, the management platform 10 'may calculate a transaction according to the type of the used power, and the management platform 10' may provide transaction payment information, such as power consumption, power cost, service cost, and other fees, for the user 201 'and the provider 202'. The payment system 13 ' will provide at least one payment method for the transaction between the providing end 202 ' and the using end 201 '. In the preferred embodiment, the payment system 13 directly allows the user side 201 'to pay the provider side 202', such as cash, check, card swipe or mobile payment. The payment system 13 'is used as a third party, and the payment system 13' pays the providing terminal 202 'and then collects the fee from the using terminal 201'; the payment system 13 ' will collect the fee of the user terminal 201 ' first, and pay the fee to the providing terminal 202 ' after the charging transaction is completed.
The client 20 ' may transmit real-time power information during charging to the management platform 10 ', and the management platform 10 ' may store and analyze the power consumption information of the provider 202 ' and the user 201 '. The early warning system 15 'analyzes the electricity consumption information and issues an abnormal condition to the client 20', so that the providing terminal 202 'and the using terminal 201' can grasp the condition, and further adjustment is performed.
The management platform 10 ' analyzes all or part of the transaction information of the providing end 202 ' and the using end 201 ' to obtain a credit value, so that each of the providing end 202 ' and the using end 201 ' has a credit record, and the credit record can provide reference for the next transaction.
Fig. 22 is a schematic diagram of a principle of the client 20' according to the embodiment of the present invention. The client 20 'includes a control unit 21', a clock unit 24 'connected to the control unit 21' for providing clock signals to the control unit 21 ', a power output unit 25' connected to the power supply 30 'and the control unit 21' for controlling power output, a power metering unit 23 'connected to the control unit 21' for metering output power, a positioning and networking unit 22 'connected to the control unit 21' for providing positioning and networking functions to the client 20 ', a program updating unit 26' connected to the control unit 21 'for providing an interface for program updating of the control unit 21', and a communication interface 27 'connected to the control unit 21' for providing an interface for the client 20 'to communicate information with the management platform 10'.
The user terminal 201 ' can install the client terminal 20 ' in a charging interface of a mobile electric device, the providing terminal 202 ' can install the client terminal 20 ' in a common power interface or connect to a socket, and the control unit 21 ' is preferably an MCU or a smart phone.
In this embodiment, in the charging transaction operation system of the transaction method, the user 201 ' and the provider 202 ' may use the client 20 ' by both parties, and complete a transaction by using the transaction method; the user end 201 'can conveniently use the client end 20' to complete the transaction by using the transaction method; the providing end 202 'may simply facilitate use of the client 20' to complete the transaction using the transaction method.
The flow of the transaction method of the preferred embodiment is also shown in fig. 19. The user terminal 201 'obtains the charging requirement from the client terminal 20'. The client 20 'can communicate with the management platform 10' to search for the neighboring provider 202 'according to the location information of the user 201'. The communication system 14 'of the management platform 10' locates the positions of the user terminal 201 'and the providing terminal 202'. The providing end 202 'issues information allowing charging transaction through the management platform 10'. The management platform 10 ' provides the location information of the providing end 202 ' to the using end 201 '. The user 201 'and the provider 202' mutually determine the willingness to carry out the transaction, the management platform 10 'establishes transaction information through a transaction identification code, the transaction fee is estimated, and the management platform 10' partially or completely distributes credit information of the user 201 'and the provider 202' to prompt both parties of the transaction. The user end 201 ' and the providing end 202 ' determine the transaction, and when the transaction is not determined, the client 20 ' will search the providing end 202 ' again for the user end 201 '. Charging can be started after the transaction is determined, and the client 20' can record charging information and perform charging statistics on charging electric energy. The charging information may be transmitted to the management platform 10 ', the payment system 13' may count charging fees and perform payment transaction for the user terminal 201 'and the provider terminal 202', and the payment system 13 'may provide at least one payment method to the user terminal 201' and the provider terminal 202 'through the client terminal 20'. After the payment is finished, the user terminal 201 ' and the providing terminal 202 ' can be evaluated by the client terminal 20 '. The client 20 'will transmit the transaction information and the evaluation information to the management platform 10', and the management platform 10 'will record the information data in the database 11' for credit record.
It is worth mentioning that the payment system 13 'will provide payment methods to the user end 201' and the providing end 202 'through the client end 20', including but not limited to: cash, check, or swipe card. The payment system 13 'acts as a third party, and the payment system 13' will pay the provider 202 'and collect the fee from the user 201'. The payment system 13 ' first collects the fee of the user terminal 201 ' and then pays the fee to the providing terminal 202 ' after the charging transaction is completed.
It should be noted that the database 11 ' may analyze the information data, and the early warning system 15 ' may remind the user terminal 201 ' and the provider terminal 202 ' of the abnormal data or abnormal trend through the client terminal 20 '. Thus, the service end 201 'and the providing end 202' can perform maintenance and repair on the charging device.
In another preferred embodiment of the present invention, the user terminal 201 'sends a charging request to the management platform 10'. Specifically, the user terminal 201 'sends a charging request to the management platform 10' through an intelligent device. The management platform 10 ' searches for the client 20 ' that matches the charging request according to the charging request provided by the user 201 '. The charging request is selected from the type of charging interface, charging capacity, charging voltage, charging current, and the like. The management platform 10 'searches for the client 20' conforming to the charging request according to the charging request. The management platform 10 ' provides each client 10 ' matching the charging request to the user terminal 201 '. Further, the management platform 10 'obtains the geographic location of each client 20' according to the charging request. The management platform 10 ' provides the geographic location of each client 20 ' that meets the charging request to the user terminal 10 '. If the smart device can provide the current geographic location of the user terminal 201 ', the management platform 10 ' obtains the geographic location of the user terminal 201 ' through the smart device. If the user terminal 10' is an electric vehicle, the smart device is a smart phone, and the driver provides the charging requirement of the electric vehicle to the management platform through the smart phone. The smartphone further provides a current geographic location. The management platform 10 'recommends the geographic location of the client 20' in the vicinity of the user 201 'according to the current geographic location of the user 201'. After the user end 201 'reaches the geographic location of the client 20', the user end 201 'is electrically connected to the client 20'. After the user terminal 201 'and the providing terminal 202' determine the transaction, the client terminal 20 'starts to charge the user terminal 201'. The client 20' records the charging information and measures the charging energy. The client 20 'transmits the charging information to the management platform 10'. The payment system 13' derives a payment fee according to the amount of charged electricity. The user terminal 201 'makes payment through the payment system 13'. The user terminal 201 'pays the payment fee to the payment system 13'. The payment system 13' pays the payment to the provider. After the payment is finished, the user terminal 201 ' and the providing terminal 202 ' can be evaluated by the client terminal 20 '. The client 20 'will transmit the transaction information and the evaluation information to the management platform 10', and the management platform 10 'will record the information data in the database 11' for credit record.
It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (38)

1. A charge management method, comprising the steps of:
receiving a charging requirement provided by at least one user end; and
providing at least one power supply device and at least one providing terminal by a management platform according to the received charging requirement of the using terminal, wherein the at least one management platform provides the at least one power supply device and the providing terminal according to the received charging requirement of the using terminal, so that the power supply device meets the charging requirement of the using terminal, and the using terminal and the providing terminal perform charging transaction through the management platform;
the management platform acquires a user account of the user terminal;
the management platform acquires the geographical position information of the user terminal;
acquiring a search condition provided by the using end;
the management platform searches the power supply equipment in a search condition range according to the using end position information; and
the management platform is matched with the power supply equipment, wherein the environmental factors of the energy management equipment are obtained by a detection module, if an obstacle exists to block the use of the energy management equipment by the user terminal, the management platform cannot be matched with the blocked energy management equipment, and the energy management equipment comprises the power supply equipment.
2. The charge management method according to claim 1, further comprising the steps of: and the management platform receives the identification information of the power supply equipment and searches and inquires the state of the power supply equipment.
3. The charge management method according to claim 2, further comprising the steps of: and the using end sends the identification information of the power supply equipment to the management platform by scanning the equipment identification code of the power supply equipment or sending an equipment identification number.
4. The charge management method according to claim 2, further comprising the steps of: and the management platform judges whether the power supply equipment can be provided for the user terminal or not according to the state feedback information of the power supply equipment.
5. The charge management method according to claim 2, further comprising the steps of: and unlocking the power supply equipment so as to enable the user end to use the power supply equipment.
6. The charge management method according to claim 5, further comprising the steps of:
the management platform receives an unlocking command sent by the using end;
the management platform sends an unlocking command to the power supply equipment;
the power supply equipment receives an unlocking command sent by the management platform; and
the power supply device is unlocked.
7. The charge management method of claim 5, further comprising the steps of:
the power supply equipment feeds back an unlocking execution result to the management platform; and
and the management platform feeds back an unlocking state to the user terminal.
8. The charge management method according to claim 5, wherein said step further comprises, after unlocking said power supply device, the step of: the power supply device performs charging.
9. The charge management method of claim 8, further comprising the steps of: the power supply device performs charge locking.
10. The charge management method according to claim 9, wherein the at least one control unit of the power supply device controls the at least one security lock control unit to perform the charge lock.
11. The charge management method of claim 1, further comprising the steps of: and the power supply equipment executes charging according to the instruction of the management platform or the using end.
12. The charge management method according to claim 11, further comprising the steps of:
the power supply equipment feeds back the state of the charging process to the management platform in real time; and
and the management platform receives the charging process state fed back by the power supply equipment in real time and stores charging parameters.
13. The charge management method of claim 12, further comprising the steps of:
the management platform receives a charging stopping instruction of the using end;
the management platform sends a charging stopping instruction to the power supply equipment;
the power supply device stops supplying power; and
the management platform performs payment transaction operations.
14. The charge management method according to claim 11, further comprising the steps of:
the power supply equipment feeds back initial charging parameters to the management platform;
the management platform stores initial charging parameters;
the power supply device stops supplying power;
the power supply equipment feeds back a charging ending parameter to the management platform;
the management platform stores the charging ending parameters; and
the management platform performs payment transaction operations.
15. The charge management method according to claim 1, further comprising the steps of:
acquiring the information of the user terminal;
distributing a user account to the user terminal;
acquiring the charged equipment information of the electric automobile provided by the using end; and
and binding the information of each charged device of the user terminal and the user account.
16. The charge management method according to claim 1, further comprising the steps of:
acquiring the information of the providing terminal;
allocating a providing account to a providing terminal;
acquiring power supply equipment information of the providing end; and
and binding the power supply equipment information of the provider and the allocated providing account.
17. The charge management method of claim 5, wherein said step of unlocking said power supply device further comprises the steps of:
the user terminal sends a user account and a charging request to the power supply equipment;
the power supply equipment receives a charging request sent by the using end;
the power supply equipment sends a charging request of the user end to the management platform;
the management platform performs user authentication; and
the management platform sends an unlocking command to the power supply equipment.
18. The charge management method of claim 5, further comprising the steps of: the power supply device performs an unlocked state display.
19. The charge management method according to claim 1, further comprising the steps of:
the management platform feeds back a matching result to the user end;
the management platform prompts the user terminal to select the power supply equipment; and
and the management platform acquires the power supply equipment selected by the using end.
20. The charge management method according to claim 19, further comprising the steps of:
the management platform generates at least one guide path so that a user of the user end can reach the selected power supply equipment according to the guide path.
21. The charge management method according to claim 20, further comprising the steps of:
the management platform acquires the geographical position information of the power supply equipment selected by the using end; and
and the management platform provides a guide path according to the geographical position information of the user end and the geographical position information of the selected power supply equipment.
22. The charge management method according to claim 1, further comprising the steps of:
the management platform judges whether the user terminal is bound with the charged device;
when the management platform judges that the user end is not bound with the charged device, the management platform executes the binding of the user end with the charged device or prompts the user end to input the information of the charged device; and
and when the management platform judges that the user end is bound with the charged equipment, the management platform acquires the charged equipment information of the electric automobile of the user end.
23. The charge management method according to claim 19, wherein said step of said management platform feeding back the matching result to said user terminal further comprises the steps of:
storing the charging reservation information of the user terminal to the power supply equipment selected by the user terminal; and
and the management platform receives and stores the charging reservation information of the user terminal.
24. The charge management method according to claim 19, wherein the step of obtaining the power supply device selected by the user terminal by the management platform further comprises the following steps:
the management platform feeds back the charging requirement of the using end to the providing end of the power supply equipment selected by the using end;
the management platform judges whether the providing terminal agrees to provide the charging service; and
when the providing terminal does not agree to provide the charging service, the management platform prompts the using terminal to reselect the power supply equipment.
25. The charge management method according to claim 1, further comprising the steps of: the management platform provides charging reservation service authorization to the providing terminal.
26. The charge management method of claim 25, further comprising the steps of:
receiving the charging reservation information of the user terminal;
sending the charging reservation information of the user terminal to the providing terminal;
judging whether the providing terminal agrees to provide charging service;
when the providing terminal does not agree to provide the charging service, the charging reservation information of the using terminal is sent to the other providing terminal; and
and when the providing terminal agrees to provide the charging service, storing the charging reservation information of the using terminal to the power supply equipment of the providing terminal.
27. The charge management method according to claim 1, further comprising the steps of: the power supply equipment automatically logs in the management platform and stores installation environment information to the management platform.
28. The charge management method according to claim 27, further comprising the steps of:
the power supply equipment detects and acquires installation environment information;
the power supply equipment logs in the management platform;
the power supply equipment judges whether the management platform allows login;
when the management platform allows the power supply equipment to log in, the power supply equipment communicates with the management platform, and the power supply equipment is identified as a normal working state;
when the management platform does not allow the power supply equipment to log in, the power supply equipment can repeatedly send login messages to the management platform until the login is successful;
the power supply equipment sends installation environment information to the management platform; and
the management platform stores installation environment information of the power supply equipment.
29. The charge management method according to any one of claims 1 to 28, wherein the power supply device supplies power in a wired manner or in a wireless manner.
30. The charge management method according to claim 1, further comprising the steps of:
searching the providing end; and
and matching the using end with the providing end, wherein the management platform searches the providing end according to the charging requirement of the using end, and then the management platform matches the using end according to the searched providing end.
31. The charge management method of claim 30, wherein before the step of searching the providing terminal, further comprising the steps of: and acquiring the geographical position information of the user terminal.
32. The charge management method of claim 30, wherein before the step of searching the providing terminal, further comprising the steps of: and acquiring the information of the required electric quantity of the user terminal.
33. The charge management method according to claim 31 or 32, wherein after the step of matching the using terminal with the providing terminal, further comprising the step of: and providing the geographical position information of the providing terminal.
34. The charge management method of claim 30, further comprising the steps of: and managing the process of the charging transaction between the providing terminal and the using terminal, wherein the management platform manages the process of the charging transaction between the providing terminal and the using terminal through a transaction identification code.
35. The charge management method according to claim 34, further comprising, after the step of managing the process of the providing side and the using side charge transactions, the step of: the fee is paid.
36. The charge management method of claim 35, further comprising the step of, after the step of paying the fee: the user terminal pays a fee to the management platform; and the management platform pays the fee to the provider.
37. The charge management method of claim 35, wherein after the step of paying the fee, further comprising the step of: and evaluating the transaction, wherein the providing end evaluates the using end through the management platform, and the using end evaluates the providing end through the management platform.
38. The charge management method of claim 37, wherein after the step of evaluating the transaction, further comprising the step of: an award, wherein the management platform awards the provider of the provider or the user of the consumer, respectively.
CN201710327885.XA 2016-06-17 2017-05-11 Charging management system for electric automobile and management method thereof Active CN107521356B (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN201610436580 2016-06-17
CN2016104365808 2016-06-17

Publications (2)

Publication Number Publication Date
CN107521356A CN107521356A (en) 2017-12-29
CN107521356B true CN107521356B (en) 2021-01-08

Family

ID=60748606

Family Applications (2)

Application Number Title Priority Date Filing Date
CN201611263303.8A Active CN107527224B (en) 2016-06-17 2016-12-30 Energy management system and management method thereof
CN201710327885.XA Active CN107521356B (en) 2016-06-17 2017-05-11 Charging management system for electric automobile and management method thereof

Family Applications Before (1)

Application Number Title Priority Date Filing Date
CN201611263303.8A Active CN107527224B (en) 2016-06-17 2016-12-30 Energy management system and management method thereof

Country Status (1)

Country Link
CN (2) CN107527224B (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108528243A (en) * 2018-04-02 2018-09-14 重庆冠昂科技有限公司 A kind of new-energy automobile smart charge control system
CN110399991B (en) * 2018-04-20 2022-08-09 比亚迪股份有限公司 Charging reservation method and system, vehicle machine, mobile terminal and electronic equipment
CN108986321A (en) * 2018-06-12 2018-12-11 广东电网有限责任公司 A kind of method that charging pile opens charging
CN108832682B (en) * 2018-06-26 2021-10-15 蔚来(安徽)控股有限公司 Power distribution system, capacity sharing system, intermediate node, terminal, method and equipment
CN108955710A (en) * 2018-07-26 2018-12-07 浙江吉利新能源商用车有限公司 A kind of charging pile navigation methods and systems
CN109547627A (en) * 2018-09-29 2019-03-29 东莞市趣电智能科技有限公司 Charging demand for electric vehicles matches service system, computer readable storage medium

Family Cites Families (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4927016B2 (en) * 2008-03-31 2012-05-09 トヨタ自動車株式会社 Navigation system and hybrid vehicle equipped with the same
CN102009625B (en) * 2010-11-02 2012-04-11 电子科技大学 Charging reservation and navigation system for electric vehicle
CN102522786A (en) * 2011-11-23 2012-06-27 鸿富锦精密工业(深圳)有限公司 Charge control system and charge control method of electric vehicle
CN103630840A (en) * 2012-08-20 2014-03-12 低碳动能开发股份有限公司 A secondary battery active cloud power supply management system
CN104008611B (en) * 2013-08-15 2017-01-11 曹松伟 Self-service type small charging and switching equipment
CN104636808A (en) * 2014-12-12 2015-05-20 冯高华 Charging pile sharing system
CN104574676A (en) * 2015-01-23 2015-04-29 北京国网普瑞特高压输电技术有限公司 Electric automobile charging management method based on mobile terminal
CN104978793B (en) * 2015-07-14 2017-08-29 邹伟刚 Charging charging method, server, socket and charging charging system
CN105150868B (en) * 2015-08-24 2017-10-27 国网北京市电力公司 The querying method and device of electric power car charging service
CN105575000B (en) * 2015-10-29 2019-05-21 盐城市惠众新能源科技有限公司 The system and method powered to electric power vehicle
CN105406536B (en) * 2015-12-07 2018-01-12 湖南深拓智能设备股份有限公司 A kind of intelligent mobile charging system and method using internet
CN105449796A (en) * 2016-01-13 2016-03-30 陕西充电网络运营有限公司 Electric automobile charge centralized charging management system and method
CN105576755A (en) * 2016-01-13 2016-05-11 陕西充电网络运营有限公司 Centralized billing management system and method for electromobile charging

Also Published As

Publication number Publication date
CN107521356A (en) 2017-12-29
CN107527224B (en) 2021-06-25
CN107527224A (en) 2017-12-29

Similar Documents

Publication Publication Date Title
CN107521356B (en) Charging management system for electric automobile and management method thereof
CN107221083B (en) Unattended electric automobile charging system and use method thereof
CN109849726B (en) Charging system for charging an electric vehicle and method for authorizing charging of an electric vehicle from a charging station
US20180118045A1 (en) Vehicle Charger Network
US11913801B2 (en) Universal automated system for identifying, registering and verifying the existence, location and characteristics of electric and other power outlets by random users and for retrieval and utilization of such parametric data and outlets by all users
US11183001B2 (en) Electric vehicle charging station host definable pricing
KR101900959B1 (en) Charging system, kiosk, and method of supplying current to a power storage device
US20190089024A1 (en) Method for coordinating a charging operation of a piloted motor vehicle, storage medium, mobile terminal device, and server apparatus
US20120173292A1 (en) Reservable electric vehicle charging groups
US20140266004A1 (en) Electric vehicle charging system
CN105225520A (en) A kind of parking management method, Apparatus and system
EP3944557A1 (en) Device and method for wireless communication
CN111971199A (en) Method for reserving a charging station and charging system
CN105844549A (en) Parking stall integrated management system and method
RU2658348C1 (en) Device, method, mobile terminal and computer software for supplying users with electric energy
KR101319312B1 (en) Method for billing electric charge for a wireless charging vehicle and apparatus thereof
KR101169550B1 (en) System and Method for Recharging of Electric Car
JP2014127074A (en) Parking lot management and electric vehicle charging management system
WO2013123988A2 (en) System and method for consumption metering and transfer control
CN107369124B (en) Vehicle management method, server, vehicle and system
KR20120019491A (en) Service method for rent electric motorcar battery pack charging
AU2016102358A4 (en) Reservable electric vehicle charging groups
US20230365021A1 (en) Electric vehicle charging systems and methods
US20240166078A1 (en) Information management system and information management method
WO2021108516A1 (en) A universal automated system for identifying, registering and verifying the existence, location and characteristics of electric and other power outlets by random users and for retrieval and utilization of such parametric data and outlets by all users

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant