TWI825406B - A movable charging device management system - Google Patents

Abstract

A movable charging device management system and method are provided. A power collection platform analyzes the power supply data of the power supply center. An integrated unit records and stores the power supply data. A user center provides the charging demand data of multiple users. A transaction unit matches the charging demand data with the power supply data or for further bargaining, and sends them to the mobile charging device when the purchase is established. This application solves the problems of low charging efficiency of traditional movable charging station, high charging cost and low green power charging audience.

Description

Mobile charging device management system

This application relates to the field of power supply technology, and specifically to a mobile charging device management system.

Green electricity means that in the process of producing electricity, its carbon dioxide emissions are zero or close to zero, because it has a lower impact on the environment than electricity produced by other methods (such as thermal power generation). The main sources of green electricity are solar energy, wind power, biomass energy, geothermal energy, etc. From a global perspective, traditional green power trading and use still need to be improved.

In recent years, the oil crisis, severe shortage of non-renewable resources, and environmental pollution have been extremely serious. It is an inevitable trend for the country to develop electric vehicle charging and swapping services and accelerate the construction of charging and swapping networks and Internet of Vehicles platforms. Today's charging stations generally have a large number of charging piles. They charge electric vehicles at the same time, which can easily lead to overload conditions, which will have a serious impact on the load and voltage of the distribution network. On the other hand, when users use charging piles, the security of transaction data transmission and storage is also an issue that needs to be solved urgently. When users need to charge their electric vehicles, they cannot meet the charging requirements nearby. The inability to complete the charging work conveniently and quickly is also a current drawback. In order to meet the requirements of direct power purchase (market-based power purchase) deviation assessment and orderly charging, make full use of energy storage devices such as mobile charging vehicles to improve power utilization and charging efficiency, absorb green energy, reduce charging costs, and achieve green supply. Maximizing the benefits of the charging station system is an urgent need to study how to charge electric vehicles.

In view of the shortcomings of the existing technology, this application discloses a mobile charging device management system and method, which are used to solve the problems of low charging efficiency of traditional mobile charging stations, high charging costs, and lack of audience for green electricity charging. This application is realized through the following technical solutions: This application provides a mobile charging device management system, including a power collection platform (2), a green power platform (3) and a user center (4); the power collection platform (2) collects data from the power supply center (1) Obtain the types of power supply data and perform category analysis and total calculation. The power supply data is transmitted to the comprehensive unit (5) of the green power platform (3). The comprehensive unit (5) records and stores the power supply data, and The comprehensive unit (5) negotiates internally and sends it to the transaction unit (6); the user center (4) collects the charging demand data of multiple users through the collection unit (9) and sends it to the transaction unit (6) for purchase matching or purchase negotiation, and When the purchase is established, the result is sent to the mobile charging platform (8). The mobile charging platform (8) determines based on the time when the at least two mobile charging devices arrive at the vehicle matching the user, so as to dispatch the mobile charging device in the best position to the vehicle. The matched user's vehicle is charged, that is, the one with the fastest arrival time (the one closest to the user's vehicle) is dispatched. The mobile charging device) goes to charge the user's vehicle, and the central processing unit (13) determines whether to start charging the mobile charging device.

Among them, the power supply data includes one or both of commercial power or green power.

Among them, the charging demand data collected by the collection unit (9) is transmitted to the preprocessing unit (10), so that the charging demand data can be classified and processed immediately and then sent to the transaction unit (6).

Among them, the transaction unit (6) distributes the charging demand data and power supply data, and sends them to the mobile charging platform (8) to dispatch the mobile charging device in the best position to charge the matching user's vehicle.

Among them, the mobile charging platform (8) and the user center (4) are interconnected through the wireless transceiver unit (11).

Among them, the mobile charging platform (8) sends the charging status and the remaining power of the current mobile charging device to the integration unit (3). The integration unit (3) stores the current information and determines whether to start charging the mobile charging device.

Among them, the charging demand data obtained by the user center (4) through the collection unit (9) includes the location of each user, and the user center sends the location of each user to the supply and demand unit (12) through the wireless transceiver unit (11). ), so that the supply and demand unit (12) determines the location of the currently assigned user, and at least two mobile charging devices of the mobile charging platform (8) send their locations to the central processing unit (13) through the wireless transceiver unit (11) , causing the central processing unit (13) to calculate based on the locations of the at least two mobile charging devices and each user, to obtain the arrival time of each mobile charging device and determine whether to make a reservation.

Among them, the power supply center (1) interacts with one or more green power supply data to integrate different green power types.

Among them, the transaction unit (6) is connected to the judgment unit (14), and the judgment unit (14) is used to display the result of the user's selection of power supply data, identify the power supply data, and determine the type of power supply data.

Among them, if the type of power supply data is commercial power, it is directly transmitted to the mobile charging platform (8); if the type of power supply data is green electricity, it is transmitted to the evaluation unit (7), and the evaluation unit (7) selects the proportion of green electricity charging according to the user. Points are awarded and green certificates are issued to users.

Among them, the evaluation unit (7) stores the user's points and sends them to the pre-processing unit (10) for point accumulation. In one embodiment, the pre-processing unit (10) performs the evaluation on the user after the points reach the green certificate point limit. Power exchange.

Among them, the green certificate is a green energy certificate, which is an electronic certificate issued by the green power platform (3) to the green power consumed by the user and has a unique power code identification for redeeming the power supply data.

Among them, the collection unit (9) associates the user's initial data with the points data, and performs matching extraction, labeling and classification. In one embodiment, it connects and adapts the smart contract to establish an individualized and highly matching information library.

Among them, a centralized monitoring unit runs in the green power platform (3), and the centralized monitoring unit performs security checks on the data of the green power platform (3).

The purpose of this application and solving its technical problems can also be further achieved by adopting the following technical measures.

According to a mobile charging device management method provided by this application, it includes the following steps: obtaining the type of power supply data and performing category analysis and total calculation, recording and storing the power supply data, and sending it to the transaction unit after internal negotiation in the comprehensive unit ; The user center collects the charging demand data of multiple users, which includes the location of each user, classifies the charging demand data and sends it to the transaction unit; the transaction unit distributes the charging demand data and power supply data, and Displays the result of the user's selection of power supply data; the mobile charging platform and the user center are interconnected through a wireless transceiver unit, and the user center sends the location of each user to the supply and demand unit through the wireless transceiver unit, allowing the supply and demand unit to determine the location of the currently allocated user. location, and determine whether to make a reservation; compare the charging situation with the remaining power information of the current mobile charging device and store the current information, and finally determine whether to charge the mobile charging device.

Among them, in the method, if the type of power supply data is commercial power, it is directly transmitted to the mobile charging platform; if the type of power supply data is green electricity, it is transmitted to the evaluation unit. The evaluation unit gives points according to the proportion of green electricity charging selected by the user and issues The green certificate is given to the user and transmitted to the mobile charging platform.

In the method, at least two mobile charging devices of the mobile charging platform send their positions to the central processing unit through the wireless transceiver unit, so that the central processing unit calculates the positions of the at least two mobile charging devices and each user. ,by Obtain the arrival time of each mobile charging device and determine whether to make a reservation.

Among them, the mobile charging device can be a mobile charging car.

The beneficial effects of this application are:

In the past, most power supply centers concentrated on a single mains power supply, but this application realizes the integration of multi-modal green power supply types, merges multiple green power generation types into a power supply center and intelligently analyzes them through the power collection platform, solving the problem of multiple green power supply problems. Resource utilization and charging and storage issues.

This application collects, classifies and organizes the charging needs of multiple users, and allocates the mobile charging device closest to the current user through the transaction unit to improve the efficiency of detection and matching. The mobile charging platform sends the respective positions of the at least two mobile charging devices to the user center through the wireless transceiver unit, so as to provide the user with the position reference of the mobile charging devices and reasonably judge the arrival time of the charging devices, determine whether advance reservation is needed, and save money. It improves charging efficiency while increasing human resources, and solves the problem that mobile charging devices cannot achieve optimal charging matching.

The judgment unit verifies the validity and integrity of the transaction, which greatly improves the convenience, matching and trust integrity of charging, so that each charging follows the best interests of the user and the mobile charging device dispatched by the mobile charging platform. The wireless transceiver unit is used to communicate between users and the best mobile charging device, ensuring the safety of data collection, power transmission and power storage for both parties, and each charging transaction can be recorded through the pre-processing unit.

This application uses green energy as charging power, which not only reduces charging costs, but also establishes a green certificate points processing system for current users to ensure users’ green power. Points accumulation and redemption. On this basis, the orderly management of the green power platform can be achieved, which can fully meet the preference assessment of mains power and green power and encourage users to choose cleaner green power sources. By making full use of mobile charging platforms, users can improve charging utilization and maximize the benefits of mobile charging vehicles. The mobile charging device management system of the present application has excellent power supply transaction effect and strong practicability. It solves the shortcomings of existing traditional mobile charging stations such as low charging efficiency, high charging cost, and lack of audience for green electricity charging, and is suitable for promotion and use.

1:Power supply center

2:Power collection platform

3: Green electricity platform

4:User Center

5: Comprehensive unit

6: Transaction unit

7: Evaluation unit

8: Mobile charging platform

9: Collection center

10: Preprocessing unit

11: Wireless transceiver unit

12: Supply and demand unit

13:Central processing unit

14: Judgment unit

In order to more clearly explain the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are only for the purpose of describing the embodiments or the prior art. For some embodiments of the application, those of ordinary skill in the art can also obtain other embodiments based on these drawings without exerting creative efforts. Figure 1 is a schematic diagram of the internal framework system of the application; Figure 2 is a schematic diagram of the internal framework system of the application; Principle step diagram of the mobile charging device management method.

The technical solutions and advantages will become clearer. The technical solutions in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are part of the embodiments of the present application, not All examples. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of this application.

In this embodiment, FIG. 1 is a schematic diagram of the internal frame system of the present application. In one embodiment of the present application, a mobile charging device management system as shown in Figure 1 is disclosed, including a power collection platform 2, a green power platform 3 and a user center 4. The power collection platform 2 obtains power supply data from the power supply center 1. Category analysis and total calculation are carried out. The power supply data includes one or both of mains power or green power.

In one embodiment of the present application, green power means green power, which mainly refers to power generation equipment manufacturing enterprises (the energy used in green power production is renewable natural resources), which includes: wind power equipment factories and various component manufacturing factories ( Such as blades, generators, gearboxes, towers, hydraulic systems, control systems, etc.), photovoltaic power generation system manufacturers (such as solar cells, batteries, controllers, etc.), geothermal power generation equipment manufacturing companies (such as generator sets, monitoring instruments, Drilling systems, etc.), tidal power generation equipment factories, and straw gasification gas supply power generation equipment manufacturing companies, etc. Power supply center 1 meets the integration of different green power types through multiple green power supply data interactions.

In one embodiment of the present application, most power supply centers in the past concentrated on a single mains power supply, while this application realizes the integration of multi-modal green power supply types, merging multiple green power generation types into a power supply center and through the power collection platform Intelligent analysis solves the problems of utilization of various green power supply resources and charging and storage.

In one embodiment of the present application, the power supply data is transmitted to the comprehensive unit 5 of the green power platform 3. The comprehensive unit 5 records and stores the power supply data, and sends it to the transaction unit 6 after internal negotiation in the comprehensive unit 5. The user center 4 collects the charging demand data of multiple users through the collection unit 9. The charging demand data includes the location of each user and is transmitted to the preprocessing unit 10 for instant classification and processing of the charging demand data. After processing, it is sent to the transaction unit 6. The collection unit 9 associates the user's initial data with the points data, performs matching extraction, labeling and classification, connects and adapts the smart contract, and establishes an individualized and highly matching information database.

In one embodiment of the present application, the transaction unit 6 distributes the charging demand data and power supply data, and sends them to the mobile charging platform 8 to dispatch the mobile charging device at the best location to charge the matching user's vehicle (please wait for a moment). Explain further). The transaction unit 6 is connected to the judgment unit 14. The judgment unit 14 is used to display the result of the user's selection of power supply data, identify the power supply data, and determine the type of the power supply data.

In an embodiment of the present application, the judgment unit 14 verifies the validity and completeness of the transaction, which greatly improves the convenience, matching and trust integrity of charging, so that each charging follows the requirements of the user and mobile charging. Platform 8 dispatches mobile charging devices for maximum benefit.

In an embodiment of the present application, if the type of power supply data is commercial power, it is directly transmitted to the mobile charging platform 8; if the type of power supply data is green electricity, it is transmitted to the evaluation unit 7. The evaluation unit 7 selects green power charging according to the user's choice. Points are awarded in proportion and green certificates are issued to users. The green certificate is a green energy certificate, which is an electronic certificate issued by the green power platform 3 to the green power consumed by users and has a unique power code identification for redeeming power supply data.

In an embodiment of the present application, the evaluation unit 7 stores the user's points and sends them to the preprocessing unit 10 for accumulation of points. The preprocessing unit 10 redeems the user for electricity after the points reach the green certificate point limit.

In an embodiment of the present application, the mobile charging platform 8 and the user center 4 are interconnected through the wireless transceiver unit 11. The user center 4 sends the location of each user to the supply and demand unit 12 through the wireless transceiver unit 11, so that the supply and demand unit 12 determines According to the currently assigned user's position, at least two mobile charging devices on the mobile charging platform 8 send their positions to the central processing unit 13 through the wireless transceiver unit 11, so that the central processing unit 13 can determine the position of each user based on the at least two mobile charging devices. Calculate to obtain the arrival time of each mobile charging device and determine whether to make a reservation. Thereby, the mobile charging platform 8 determines based on the time when the at least two mobile charging devices arrive at the vehicle that matches the user, and dispatches the one with a faster arrival time, that is, the mobile charging device closest to the user's vehicle, to the vehicle. The user's vehicle is charged.

In an embodiment of the present application, the mobile charging platform 8 sends the charging status and the remaining power of the current mobile charging device to the integration unit 3. The integration unit 3 stores the current information and determines whether to charge the mobile charging device.

In one embodiment of the present application, the wireless transceiver unit 11 is used to communicate with the user and the best mobile charging device, ensuring the safety of data collection, power transmission and power storage for both parties, and each charging transaction can be pre-processed Unit 10 performs data logging.

This application collects, sorts and organizes the charging needs of multiple users, and allocates the mobile charging device closest to the current user through the transaction unit 6 to improve the efficiency of detection and matching. Please refer to Figure 1 as well. The mobile charging platform 8 sends the respective positions of the at least two mobile charging devices to the user center 4 through the wireless transceiver unit 11, so as to provide the user with the position reference of the mobile charging devices and reasonably determine the mobile charging device. The arrival time of the electric device is used to determine whether an appointment is needed in advance, saving human resources while improving charging efficiency, and solving the problem that mobile charging devices cannot achieve optimal charging matching.

In an embodiment of the present application, the comprehensive unit 5 of the green power platform 3 has the advantages of high reliability, fast adjustment speed, and elastic resource matching, and can solve the problem of various types and multi-faceted requirements of power supply data. Effectively promote the matching of user needs, and effectively analyze and process massive data from users and mobile charging platforms 8.

In one embodiment of the present application, a centralized monitoring unit runs in the green power platform 3 , and the centralized monitoring unit performs security checks on the data of the green power platform 3 . The centralized monitoring unit runs a security anti-virus module and a security inspection module. The security inspection module specifically performs security inspection on the data in the storage area by calling the security anti-virus module.

In one embodiment of the present application, the security check module is used to save and update user data and viruses, and send the updated user data and viruses to the security anti-virus module. The security anti-virus module is used to real-time monitor through the green electricity platform 3. Transmitted data content, and compare the monitored data content with the transaction content in the user database to detect whether there is a virus in the data content. If a virus is detected in the data content, clear the data content and re-store the data. . If no virus is detected in the data content, the data is stored directly.

In one embodiment of the present application, the antivirus of the security antivirus module innovatively integrates five leading antivirus engines to provide full-time and comprehensive virus protection. It not only has excellent detection and killing capabilities, but also can immediately defend against new viruses and Trojans. . Achieve efficient protection of the backend database of Green Power Platform 3 to prevent data loss and virus intrusion Cause data errors, thereby avoiding the situation where data errors occur in the accumulation of user power points, causing points to be cleared and points cannot be redeemed.

In one embodiment of the present application, a mobile charging device management method as shown in Figure 2 is disclosed, which includes the following steps: obtaining the type of power supply data and performing category analysis and total calculation, recording and storing the power supply data, and The comprehensive unit 5 internally negotiates prices and sends them to the trading unit; the user center collects the charging demand data of multiple users, classifies the charging demand data and sends it to the trading unit; the trading unit distributes the charging demand data and power supply data, and Display the results of the user's selection of power supply data; the mobile charging platform and the user center are interconnected through the wireless transceiver unit to determine the location of the currently assigned user and determine whether to make a reservation; compare the charging situation with the remaining power information of the current mobile charging device and store the current information , and finally determine whether to charge the mobile charging device.

In one embodiment of the present application, if the type of power supply data is commercial power, it is directly transmitted to the mobile charging platform; if the type of power supply data is green electricity, it is transmitted to the evaluation unit. The evaluation unit gives the user the green power according to the proportion selected by the user. Points are collected and a green certificate is issued to the user and transferred to the mobile charging platform.

In one embodiment of the present application, the power supply data is transmitted to the comprehensive unit of the green power platform. The comprehensive unit records and stores the power supply data, and sends it to the trading unit after internal negotiation in the comprehensive unit.

In one embodiment of the present application, the mobile charging platform and the user center are interconnected through the wireless transceiver unit 11. The user center sends the location of each user to the supply and demand unit 12 through the wireless transceiver unit 11, so that the supply and demand unit 12 determines the currently allocated user. The position of at least two mobile charging devices of the mobile charging platform 8 is sent to the central processing unit 13 through the wireless transceiver unit 11, so that the central processing unit 13 calculates based on the positions of the at least two mobile charging devices and each user. Obtain the arrival time of each mobile charging device and determine whether to make a reservation.

In an embodiment of the present application, the mobile charging device may be a mobile charging vehicle.

This application uses green energy as charging power, which not only reduces charging costs, but also establishes a green certificate points processing system for current users to ensure users' accumulation and redemption of green power points. On this basis, the orderly management of the green power platform 3 can be realized, which can fully meet the preference assessment of mains power and green power and encourage users to choose cleaner green power. By making full use of the mobile charging platform 8, the user's charging utilization rate is improved and the benefits of the mobile charging device are maximized.

In summary, the mobile charging device management system of this application has excellent power supply transaction effect and strong practicability. It solves the shortcomings of existing traditional mobile charging stations such as low charging efficiency, high charging cost, and lack of audience for green electricity charging, and is suitable for promotion and use.

The above embodiments are only used to illustrate the technical solutions of the present application, but are not intended to limit them. Although the present application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that they can still modify the technical solutions described in the foregoing embodiments. Modify the recorded technical solution, or make equivalent replacements for some of the technical features; However, these modifications or substitutions do not cause the essence of the corresponding technical solution to deviate from the spirit and scope of the technical solution of each embodiment of the present application.

1:Power supply center

2:Power collection platform

3: Green electricity platform

4:User Center

5: Comprehensive unit

6: Transaction unit

7: Evaluation unit

8: Mobile charging platform

9: Collection unit

10: Preprocessing unit

11: Wireless transceiver unit

12: Supply and demand unit

13:Central processing unit

14: Judgment unit

Claims (5)

A mobile charging device management system, which includes: a power collection platform, a green power platform and a user center; the power collection platform obtains a type of power supply data from a power supply center and performs category analysis and total calculation. The data is transmitted to a comprehensive unit of the green power platform, which records and stores the power supply data, and sends it to a trading unit after internal negotiation in the comprehensive unit; the user center collects multiple users through a collection unit A charging demand data is provided to the transaction unit to provide purchase negotiation, and when the purchase is established, the result is sent to a mobile charging platform to dispatch a mobile charging device at the best location to charge the matching user's vehicle, and through a The central processing unit determines whether to start charging the mobile charging device. The user center sends the location of each user to a supply and demand unit through a wireless transceiver unit, so that the supply and demand unit determines the location of the currently assigned user. At least two mobile charging devices on the charging platform send their positions to the central processing unit through the wireless transceiver unit, so that the central processing unit calculates according to the positions of the at least two mobile charging devices and each user to obtain each mobile charging device. The time when the device arrives and determines whether to make a reservation. For example, in the mobile charging device management system of Item 1 of the patent application, the power supply data includes one or both of commercial power or green power. For example, the mobile charging device management system of Item 1 of the patent scope is applied for, wherein the transaction unit conducts trading and distribution of the charging demand data and the power supply data, and sends them to the mobile charging platform to dispatch the mobile charging device at the best location. Charge the matching user’s vehicle; The mobile charging platform sends the charging status and the current remaining power of the mobile charging device to the comprehensive unit, which stores the current information and determines whether to start charging the mobile charging device. For example, in the mobile charging device management system of Item 1 of the patent application, the power supply center interacts with one or more green power supply data to integrate different green power types. For example, if the mobile charging device management system of item 2 of the patent scope is applied for, if the type of power supply data is commercial power, it will be directly transmitted to the mobile charging platform; if the type of power supply data is green electricity, it will be transmitted to an evaluation unit. The evaluation unit gives points according to the proportion of green electricity charging selected by the user, and issues a green certificate to the user; the evaluation unit stores the user's points and sends them to a preprocessing unit for point accumulation, and the preprocessing unit After the points reach the point limit of the green certificate, the user will be redeemed for electricity; and the green certificate is a green energy certificate, which is the unique code identification of the electricity issued by the green electricity platform to the user for redeeming the power supply data. electronic voucher.

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