TWM615177U - Mobile charging device management system - Google Patents
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Abstract
本申請涉及一種移動式充電裝置管理系統,電力收集平台分析供電中心的供電數據,綜合單元對供電數據進行記錄和儲存;用戶中心提供多個用戶的充電需求數據;交易單元將充電需求數據和供電數據進行配對或是供進一步議價,並購買成立時發送至移動充電平台,令其派遣最佳位置的移動充電車對匹配的用戶的車輛進行充電,本申請解決了傳統移動充電站充電效率低,充電成本高,綠電充電不受眾等問題。 This application relates to a mobile charging device management system. The power collection platform analyzes the power supply data of the power supply center, and the integrated unit records and stores the power supply data; the user center provides the charging demand data of multiple users; the transaction unit combines the charging demand data and power supply The data is paired or for further negotiation, and sent to the mobile charging platform when the purchase is established, so that it can send the mobile charging car in the best position to charge the vehicle of the matched user. This application solves the low charging efficiency of the traditional mobile charging station. The charging cost is high, and the green battery charging is not a problem for the audience.
Description
本申請涉及供電技術領域,具體涉及一種移動式充電裝置管理系統。 This application relates to the field of power supply technology, and in particular to a mobile charging device management system.
綠電指的是在生產電力的過程中,它的二氧化碳排放量為零或趨近於零,因相較於其他方式(如火力發電)所生產的電力,對環境的衝擊影響較低。綠電的主要來源為太陽能、風力、生質能、地熱等。從全球範圍看,傳統的綠色電力交易與使用還有待完善。 Green power refers to the zero or close to zero carbon dioxide emissions in the process of producing electricity, 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, and geothermal energy. From a global perspective, traditional green power trading and use still need to be improved.
近年來,石油危機、不可再生資源嚴重短缺、環境污染等形勢異常嚴峻,開展電動汽車充換電業務,加快建設充換電網絡和車聯網平台是國家發展的必然趨勢。現今的充電站一般帶有大量的充電樁,它們在同時對電動車輛充電,容易引發超負荷的情況,從而對配電網的負荷、電壓等造成嚴重影響。另一方面,用戶在使用充電樁的同時,交易數據的傳輸與存儲安全性也是亟待解決的問題。用戶在電動車需要充電時,無法滿足就近充電,不能方便快捷的完成充電工作也是當下存在的弊端。為滿足直購電(市場化購電)偏差考核和有序充電的要求,充分利用移動 充電裝置等儲能裝置,提高電量的利用率和充電效率,吸納綠色能源,降低充電成本,實現綠色供能充電站系統利益最大化,是對電動車如何充電而迫切需要研究的方法。 In recent years, the oil crisis, severe shortage of non-renewable resources, and environmental pollution have been extremely severe. Carrying out the charging and swapping business of electric vehicles and accelerating the construction of charging and swapping networks and car networking platforms are inevitable trends in national development. Today's charging stations generally have a large number of charging piles, which charge electric vehicles at the same time, which is easy to cause overload, which will seriously affect 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 urgent problem to be solved. When the electric vehicle needs to be charged, the user cannot meet the nearby charging requirement, and cannot complete the charging work conveniently and quickly, which is also the current drawback. In order to meet the requirements for deviation assessment and orderly charging of direct power purchase (market-based power purchase) Charging devices and other energy storage devices to improve the utilization and charging efficiency of electricity, absorb green energy, reduce charging costs, and maximize the benefits of the green energy charging station system are methods that urgently need to be studied on how to charge electric vehicles.
針對現有技術的不足,本申請公開了一種移動式充電裝置管理系統,用於解決傳統移動充電站充電效率低,充電成本高,綠電充電不受眾等問題。 In view of the shortcomings of the prior art, this application discloses a mobile charging device management system, which is used to solve the problems of low charging efficiency of traditional mobile charging stations, high charging costs, and insufficient green power charging.
本申請通過以下技術方案予以實現: This application is realized through the following technical solutions:
本申請提供一種移動式充電裝置管理系統,包括電力收集平台(2)、綠電平台(3)和用戶中心(4); 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);
電力收集平台(2)從供電中心(1)獲取供電數據的種類並進行類別分析和總量計算,供電數據經傳輸至綠電平台(3)的綜合單元(5),綜合單元(5)對供電數據進行記錄和儲存,經內部議價後發送至交易單元(6); The power collection platform (2) obtains the types of power supply data from the power supply center (1) and performs category analysis and total calculation. The power supply data is transmitted to the integrated unit (5) of the green power platform (3), and the integrated unit (5) pairs The power supply data is recorded and stored, and sent to the transaction unit (6) after internal negotiation;
用戶中心(4)通過採集單元(9)收集多個用戶的充電需求數據至交易單元(6)進行購買匹配或提供購買議價,並在購買成立時將結果發送至移動充電平台(8),以派遣最佳位置的移動充電裝置對匹配的用戶的車輛進行充電,以及通過中心處理單元(13)判斷是否啟動對移動充電裝置的充電作業。 The user center (4) collects the charging demand data of multiple users through the collection unit (9) to the transaction unit (6) for purchase matching or provides purchase negotiation, and sends the result to the mobile charging platform (8) when the purchase is established. The mobile charging device in the best position is dispatched to charge the vehicle of the matched user, and the central processing unit (13) determines whether to start the charging operation for the mobile charging device.
其中,供電數據包括市電或綠電中的一種或兩種。 Among them, the power supply data includes one or both of mains power and green power.
其中,採集單元(9)收集的充電需求數據被傳輸至預處理單元(10),以即時對充電需求數據進行分類處理後發送至 交易單元(6)。 Among them, the charging demand data collected by the collecting unit (9) is transmitted to the preprocessing unit (10) to immediately classify the charging demand data and then send it to Transaction unit (6).
其中,交易單元(6)將充電需求數據和供電數據進行分配,併發送至移動充電平台(8)派遣最佳位置的移動充電裝置對匹配的用戶的車輛進行充電。 Among them, the transaction unit (6) distributes the charging demand data and the power supply data, and sends them to the mobile charging platform (8) to dispatch a mobile charging device in the best position to charge the vehicle of the matched user.
其中,移動充電平台(8)與用戶中心(4)通過無線收發單元(11)進行互聯。 Among them, the mobile charging platform (8) and the user center (4) are interconnected through a wireless transceiver unit (11).
其中,移動充電平台(8)將充電情況和當前移動充電裝置的剩餘電量發送至綜合單元(3),綜合單元(3)存儲當前資訊並判斷是否啟動對移動充電裝置的充電作業。 Among them, the mobile charging platform (8) sends the charging status and the current remaining power of the mobile charging device to the integrated unit (3), and the integrated unit (3) stores the current information and determines whether to start the charging operation of the mobile charging device.
其中,用戶中心(4)通過供需單元(12)確定當前分配用戶的位置,通過中心處理單元(13)獲取移動充電裝置到達的時間並判斷是否進行預約。 Among them, the user center (4) determines the location of the currently allocated user through the supply and demand unit (12), obtains the arrival time of the mobile charging device through the central processing unit (13) and determines whether to make a reservation.
其中,供電中心(1)通過一種或多種綠電供電數據交互,用於融合不同綠電種類。 Among them, the power supply center (1) interacts with one or more types of green power supply data to integrate different types of green power.
其中,交易單元(6)連接判斷單元(14),判斷單元(14)用於顯示用戶選擇供電數據的結果,並對供電數據進行識別,判斷供電數據的種類。 Wherein, the transaction unit (6) is connected to the judging unit (14), and the judging 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.
其中,供電數據的種類若為市電則直接傳輸至移動充電平台(8);供電數據的種類若為綠電則傳輸到評估單元(7)對用戶選取綠電充電的比例並進行積分並頒發綠證。 Among them, if the type of power supply data is commercial power, it will be directly transmitted to the mobile charging platform (8); if the type of power supply data is green power, it will be transmitted to the evaluation unit (7). certificate.
其中,評估單元(7)將用戶的積分進行存儲併發送至預處理單元(10)進行積分累積,在一實施例中,預處理單元 (10)在積分達到綠證積分限值後對用戶進行電力兌換。 Wherein, the evaluation unit (7) stores and sends the user's points to the preprocessing unit (10) for point accumulation. In one embodiment, the preprocessing unit (10) After the points reach the limit of the green card points, the users will be exchanged for electricity.
其中,綠證為綠能源證,是綠電平台(3)對用戶所消費的綠色電力頒發的具有兌換供電數據的電力唯一代碼標識的電子憑證。 Among them, the green certificate is a green energy certificate, which is an electronic certificate issued by a green power platform (3) for green power consumed by a user with a unique power code identification for redeeming power supply data.
其中,採集單元(9)對用戶初始數據與積分數據的關聯,並配對提取、標注和分類,在一實施例中,對接適配智能合約,建立個體化、可高度匹配化的資訊庫。 Among them, the collection unit (9) associates the user's initial data with the point data, and pair extraction, labeling and classification. In one embodiment, the smart contract is docked and adapted to establish an individualized and highly matched information database.
其中,綠電平台(3)中運行有集中監控單元,集中監控單元對綠電平台(3)的數據進行安全檢查。 Among them, a centralized monitoring unit runs in the green power platform (3), and the centralized monitoring unit performs a security check on the data of the green power platform (3).
本申請的目的與解決其技術問題還可採用以下技術措施進一步來實現。 The purpose of this application and the solution of its technical problems can be further achieved by the following technical measures.
依據本申請提供的一種移動式充電裝置管理方法,包括以下步驟: A management method of a mobile charging device provided according to the present application includes the following steps:
獲取供電數據的種類並進行類別分析和總量計算,對供電數據進行記錄和儲存,經內部議價後發送至交易單元; Obtain the type of power supply data, perform category analysis and total calculation, record and store the power supply data, and send it to the transaction unit after internal negotiation;
用戶中心收集多個用戶的充電需求數據,並對充電需求數據進行分類處理後發送至交易單元; The user center collects the charging demand data of multiple users, classifies the charging demand data and sends it to the transaction unit;
交易單元將充電需求數據和供電數據進行分配,並顯示用戶選擇供電數據的結果; The transaction unit distributes the charging demand data and the power supply data, and displays the result of the user's selection of the power supply data;
移動充電平台與用戶中心通過無線收發單元進行互聯,確定當前分配用戶的位置,並判斷是否進行預約; The mobile charging platform and the user center are interconnected through the wireless transceiver unit to determine the location of the current assigned user and determine whether to make an appointment;
對比充電情況和當前移動充電裝置的剩餘電量資訊 並存儲當前資訊,最終判斷是否對移動充電裝置進行充電處理。 Compare the charging status and the current remaining battery information of the mobile charging device And store the current information, and finally determine whether to charge the mobile charging device.
其中,方法中,供電數據的種類若為市電則直接傳輸至移動充電平台;供電數據的種類若為綠電則傳輸到評估單元對用戶選取綠電充電的比例並進行積分並頒發綠證,傳輸至移動充電平台。 Among them, in the method, 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 power, it will be transmitted to the evaluation unit to select the green power charging ratio for the user and score points and issue a green certificate. To the mobile charging platform.
其中,方法中,供電數據經傳輸至綠電平台的綜合單元,綜合單元對供電數據進行記錄和儲存,經內部議價後發送至交易單元。 Among them, in the method, the power supply data is transmitted to the integrated unit of the green power platform, and the integrated unit records and stores the power supply data, and sends it to the transaction unit after internal negotiation.
其中,方法中,移動充電平台與用戶中心通過無線收發單進行互聯,用戶中心通過供需單元確定當前分配用戶的位置,通過中心處理單元獲取移動充電裝置到達的時間並判斷是否進行預約。 Among them, in the method, the mobile charging platform and the user center are interconnected through wireless receipt and dispatch. The user center determines the location of the current allocated user through the supply and demand unit, obtains the arrival time of the mobile charging device through the central processing unit, and determines whether to make an appointment.
其中,移動充電裝置可為移動充電車。 Among them, the mobile charging device may be a mobile charging vehicle.
本申請的有益效果為: The beneficial effects of this application are:
以往的供電中心多集中於單一市電供電,而本申請實現對多模態的綠電供電種類融合,將多種綠電發電種類合併為供電中心並通過電力採集平台智能分析,解決了多種綠電供電資源利用以及充電存儲的問題。 In the past, power supply centers mostly 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 the power collection platform to solve a variety of green power supply Resource utilization and charging and storage issues.
本申請通過採集的多個用戶的充電需求並進行分類並整理,通過交易單元分配最距離當前用戶最近的移動充電裝置,提高檢出和匹配的效率。為用戶提供移動充電裝置的位置參考並合理判斷充電裝置到達的時長,確定是否需要提前預約,節約人 力資源的同時提高充電效率,解決了移動充電裝置無法實現最佳充電匹配的問題。 In this application, the charging requirements of multiple users are collected, classified and sorted, and the mobile charging device closest to the current user is allocated through the transaction unit to improve the efficiency of detection and matching. Provide users with a reference for the location of the mobile charging device and reasonably judge the length of time the charging device arrives, and determine whether it needs to make an appointment in advance, saving people It also improves the charging efficiency and solves the problem that mobile charging devices cannot achieve optimal charging matching.
由判斷單元來驗證交易的有效性、完整性,極大的提高了充電的便捷度、匹配度和信任完整度,使得每次充電都遵循保證用戶和移動充電平台派遣的移動充電裝置的最大利益。採用無線收發單元互通用戶和最佳的移動充電裝置,保證了雙方數據採集、電量傳輸及用電存儲的安全性,並且每次充電交易都可以通過預處理單元進行數據記錄。 The judging unit verifies the validity and completeness of the transaction, which greatly improves the convenience, matching and trust integrity of charging, so that each charge follows the best interests of the mobile charging device dispatched by the user and the mobile charging platform. The wireless transceiver unit is used to communicate with users and the best mobile charging device to ensure the safety of data collection, power transmission and power storage for both parties, and each charging transaction can be recorded by the preprocessing unit.
本申請使用綠色能源作為充電電能,不但降低充電成本,而且為當前用戶建立綠證積分處理系統,保障用戶的綠電積分累積以及兌換。在此基礎上,實現對綠電平台的有序管理,能夠充分滿足市電和綠電的偏好考核和鼓勵用戶選擇更加清潔的綠色電源。通過充分利用移動充電平台,提高用戶充電的利用率,實現移動式充電車的利益最大化。 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 realized, which can fully meet the preference assessment of the mains and green power and encourage users to choose cleaner green power sources. By making full use of the mobile charging platform, the utilization rate of user charging is improved, and the benefits of mobile charging vehicles are maximized.
本申請的移動式充電裝置管理系統的供電交易效果極佳,實用性強,解決了現有傳統移動充電站充電效率低,充電成本高,綠電充電不受眾等弊端,適合推廣使用。 The mobile charging device management system of the present application has excellent power supply transaction effects and strong practicability, and solves the disadvantages of the existing traditional mobile charging stations, such as low charging efficiency, high charging costs, and low green power charging, and is suitable for popularization and use.
1:供電中心 1: Power supply center
2:電力收集平台 2: Electricity collection platform
3:綠電平台 3: Green Power Platform
4:用戶中心 4: User Center
5:綜合單元 5: Comprehensive unit
6:交易單元 6: Transaction unit
7:評估單元 7: Evaluation unit
8:移動充電平台 8: Mobile charging platform
9:採集中心 9: Collection center
10:預處理單元 10: Pretreatment unit
11:無線收發單元 11: Wireless transceiver unit
12:供需單元 12: Supply and demand unit
13:中心處理單元 13: Central processing unit
14:判斷單元 14: Judgment unit
為了更清楚地說明本申請實施例或現有技術中的技術方案,下面將對實施例或現有技術描述中所需要使用的附圖作簡單地介紹,顯而易見地,下面描述中的附圖僅僅是本申請的一些實施例,對於本領域普通技術人員來講,在不付出創造性勞動 的前提下,還可以根據這些附圖獲得其他的實施例 In order to more clearly explain the technical solutions in the embodiments of the present application or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the drawings in the following description are merely present Some examples of the application, for those of ordinary skill in the art, do not pay creative work Under the premise of, other embodiments can also be obtained according to these drawings
圖1是本申請的內部框架系統示意圖; Figure 1 is a schematic diagram of the internal framework system of the present application;
圖2是一種移動式充電裝置管理方法的原理步驟圖。 Figure 2 is a diagram of the principle steps of a mobile charging device management method.
技術方案和優點更加清楚,下面將結合本申請實施例中的附圖,對本申請實施例中的技術方案進行清楚、完整地描述,顯然,所描述的實施例是本申請一部分實施例,而不是全部的實施例。基於本申請中的實施例,本領域普通技術人員在沒有作出創造性勞動前提下所獲得的所有其他實施例,都屬於本申請保護的範圍。 The technical solutions and advantages are more clear. The following will clearly and completely describe the technical solutions in the embodiments of the present application 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 work shall fall within the protection scope of this application.
本實施例中,圖1為本申請的內部框架系統示意圖。於本申請的一實施例中,公開如圖1所示的移動式充電裝置管理系統,包括電力收集平台2、綠電平台3和用戶中心4,電力收集平台2從供電中心1獲取供電數據的種類並進行類別分析和總量計算,供電數據包括市電或綠電中的一種或兩種。
In this embodiment, FIG. 1 is a schematic diagram of the internal framework system of this application. In an embodiment of the present application, a mobile charging device management system as shown in FIG. 1 is disclosed, including a
於本申請的一實施例中,綠電即綠色電源,主要指發電設備製造企業(綠色電力生產使用的能源是可再生的自然資源),它包括:風力發電設備廠以及各零部件製造廠(如葉片、發電機、齒輪箱、塔架、液壓系統、控制系統等)、光伏發電系統製造廠(如太陽能電池、蓄電池、控制器等)、地熱發電設備製造企業(如發電機組、監測儀器、鑽井系統等)、潮汐發電設備廠以及秸稈氣化供氣發電設備製造企業等。供電中心1通過多種綠電供電
數據交互,滿足不同綠電種類融合。
In an embodiment of the present application, green power is 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 parts manufacturing factories ( Such as blades, generators, gearboxes, towers, hydraulic systems, control systems, etc.), photovoltaic power generation system manufacturing plants (such as solar cells, batteries, controllers, etc.), and geothermal power generation equipment manufacturing companies (such as generator sets, monitoring instruments, etc.) Drilling systems, etc.), tidal power generation equipment plants, and straw gasification and gas supply power generation equipment manufacturers.
於本申請的一實施例中,以往的供電中心多集中於單一市電供電,而本申請實現對多模態的綠電供電種類融合,將多種綠電發電種類合併為供電中心並通過電力採集平台智能分析,解決了多種綠電供電資源利用以及充電存儲的問題。 In an embodiment of the present application, most of the previous power supply centers concentrated on a single mains power supply, and this application realizes the integration of multi-modal green power supply types, combining multiple types of green power generation into a power supply center and through the power acquisition platform Intelligent analysis solves the problems of utilization of a variety of green power supply resources and charging and storage.
於本申請的一實施例中,供電數據經傳輸至綠電平台3的綜合單元5,綜合單元5對供電數據進行記錄和儲存,經內部議價後發送至交易單元6。用戶中心4通過採集單元9收集多個用戶的充電需求數據,傳輸至預處理單元10即時對充電需求數據進行分類處理後發送至交易單元6。採集單元9對用戶初始數據與積分數據的關聯,並配對提取、標注和分類,對接適配智能合約,建立個體化、可高度匹配化的資訊庫。
In an embodiment of the present application, the power supply data is transmitted to the
於本申請的一實施例中,交易單元6將充電需求數據和供電數據進行分配,併發送至移動充電平台8派遣最佳位置的移動充電裝置對匹配的用戶的車輛進行充電。交易單元6連接判斷單元14,判斷單元14用於顯示用戶選擇供電數據的結果,並對供電數據進行識別,判斷供電數據的種類。
In an embodiment of the present application, the
於本申請的一實施例中,由判斷單元14來驗證交易的有效性、完整性,極大的提高了充電的便捷度、匹配度和信任完整度,使得每次充電都遵循保證用戶和移動充電平台8派遣的移動充電裝置的最大利益。
In an embodiment of the present application, the judging
於本申請的一實施例中,供電數據的種類若為市電
則直接傳輸至移動充電平台8;供電數據的種類若為綠電則傳輸到評估單元7對用戶選取綠電充電的比例並進行積分並頒發綠證。綠證為綠能源證,是綠電平台3對用戶所消費的綠色電力頒發的具有兌換供電數據的電力唯一代碼標識的電子憑證。
In an embodiment of the present application, if the type of power supply data is mains
Then it is directly transmitted to the
於本申請的一實施例中,評估單元7將用戶的積分進行存儲併發送至預處理單元10進行積分累積,預處理單元10在積分達到綠證積分限值後對用戶進行電力兌換。
In an embodiment of the present application, the
於本申請的一實施例中,移動充電平台8與用戶中心4通過無線收發單元11進行互聯,用戶中心4通過供需單元12確定當前分配用戶的位置,通過中心處理單元13獲取移動充電裝置到達的時間並判斷是否進行預約。
In an embodiment of the present application, the
於本申請的一實施例中,移動充電平台8將充電情況和當前移動充電裝置的剩餘電量發送至綜合單元3,綜合單元3存儲當前資訊並判斷是否對移動充電裝置進行充電處理。
In an embodiment of the present application, the
於本申請的一實施例中,採用無線收發單元11互通用戶和最佳的移動充電裝置,保證了雙方數據採集、電量傳輸及用電存儲的安全性,並且每次充電交易都可以通過預處理單元10進行數據記錄。
In an embodiment of the present application, the
本申請通過採集的多個用戶的充電需求並進行分類並整理,通過交易單元6分配最距離當前用戶最近的移動充電裝置,提高檢出和匹配的效率。為用戶提供移動充電裝置的位置參考並合理判斷充電裝置到達的時長,確定是否需要提前預約,節
約人力資源的同時提高充電效率,解決了移動充電裝置無法實現最佳充電匹配的問題。
In this application, the charging requirements of multiple users are collected, classified and sorted, and the mobile charging device closest to the current user is allocated through the
於本申請的一實施例中,綠電平台3的綜合單元15具備可靠性高、調整速度快、資源匹配彈性伸縮等優勢,能解決供電數據的多種類、多方面要求的問題。有效地推進用戶需求的匹配度,有效分析和處理用戶和移動充電平台8的海量數據。
In an embodiment of the present application, the integrated unit 15 of the green power platform 3 has the advantages of high reliability, fast adjustment speed, and resource matching elastic scaling, and can solve the problems of various types and multiple requirements of power supply data. Effectively promote the matching degree of user needs, and effectively analyze and process the massive data of users and the
於本申請的一實施例中,綠電平台3中運行有集中監控單元,集中監控單元對綠電平台3的數據進行安全檢查。集中監控單元中運行有安全殺毒模組與安全檢查模組,安全檢查模組具體通過調用安全殺毒模組對存儲區域的數據進行安全檢查。 In an embodiment of the present application, a centralized monitoring unit runs in the green power platform 3, and the centralized monitoring unit performs a security check on the data of the green power platform 3. A security antivirus module and a security check module run in the centralized monitoring unit, and the security check module specifically performs a security check on the data in the storage area by calling the security antivirus module.
於本申請的一實施例中,安全檢查模組用於保存和更新用戶數據以及病毒,並將更新的用戶數據和病毒發送給安全殺毒模組,安全殺毒模組用於即時監測通過綠電平台3傳輸的數據內容,並將監測到的數據內容與用戶數據庫中的交易內容進行比較,以檢測數據內容中是否存在病毒,如果檢測到數據內容中存在病毒,則清除數據內容並重新進行數據存儲。如果檢測到數據內容中不存在病毒,則直接進行數據存儲。 In an 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 antivirus module, and the security antivirus module is used for real-time monitoring through the green electricity platform 3 The 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.
於本申請的一實施例中,安全殺毒模組的殺毒創新性地整合五大領先防殺引擎,提供全時全面的病毒防護,不但查殺能力出色,而且能第一時間防禦新出現的病毒木馬。實現對綠電平台3後臺資料庫的高效防護,防止數據丟失以及因病毒入侵造成數據出現錯誤的情況,從而避免出現用戶電力積分累積出現數 據錯誤造成積分清零以及積分不能兌換的情況。 In an embodiment of the present application, the antivirus of the security antivirus module innovatively integrates five leading anti-virus engines to provide full-time and comprehensive virus protection. Not only does it have excellent anti-virus capabilities, but it can also defend against newly emerging virus Trojan horses in the first place. . Realize the efficient protection of the back-end database of the Green Power Platform 3 to prevent data loss and data errors due to virus intrusion, thereby avoiding the occurrence of accumulated user power points According to the error, the points are cleared and the points cannot be redeemed.
於本申請的一實施例中,公開如圖2的一種移動式充電裝置管理方法,包括以下步驟: In an embodiment of the present application, a mobile charging device management method as shown in FIG. 2 is disclosed, including the following steps:
獲取供電數據的種類並進行類別分析和總量計算,對供電數據進行記錄和儲存,經內部議價後發送至交易單元; Obtain the type of power supply data, perform category analysis and total calculation, record and store the power supply data, and send it to the transaction unit after internal negotiation;
用戶中心收集多個用戶的充電需求數據,並對充電需求數據進行分類處理後發送至交易單元; The user center collects the charging demand data of multiple users, classifies the charging demand data and sends it to the transaction unit;
交易單元將充電需求數據和供電數據進行分配,並顯示用戶選擇供電數據的結果; The transaction unit distributes the charging demand data and the power supply data, and displays the result of the user's selection of the power supply data;
移動充電平台與用戶中心通過無線收發單元進行互聯,確定當前分配用戶的位置,並判斷是否進行預約; The mobile charging platform and the user center are interconnected through the wireless transceiver unit to determine the location of the current assigned user and determine whether to make an appointment;
對比充電情況和當前移動充電裝置的剩餘電量資訊並存儲當前資訊,最終判斷是否對移動充電裝置進行充電處理。 Compare the charging situation with the current remaining power information of the mobile charging device and store the current information, and finally determine whether to charge the mobile charging device.
於本申請的一實施例中,供電數據的種類若為市電則直接傳輸至移動充電平台;供電數據的種類若為綠電則傳輸到評估單元對用戶選取綠電充電的比例並進行積分並頒發綠證,傳輸至移動充電平台。 In an embodiment of the present application, 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 power, it will be transmitted to the evaluation unit. The user selects the proportion of green power charging, points it and awards it. The green certificate is transmitted to the mobile charging platform.
於本申請的一實施例中,供電數據經傳輸至綠電平台的綜合單元,綜合單元對供電數據進行記錄和儲存,經內部議價後發送至交易單元。 In an embodiment of the present application, the power supply data is transmitted to the integrated unit of the green power platform, and the integrated unit records and stores the power supply data, and sends it to the transaction unit after internal negotiation.
於本申請的一實施例中,移動充電平台與用戶中心通過無線收發單元11進行互聯,用戶中心通過供需單元確定當前
分配用戶的位置,通過中心處理單元獲取移動充電裝置到達的時間並判斷是否進行預約
In an embodiment of the present application, the mobile charging platform and the user center are interconnected through the
其中,移動充電裝置可為移動充電車。 Among them, the mobile charging device may be a mobile charging vehicle.
本申請使用綠色能源作為充電電能,不但降低充電成本,而且為當前用戶建立綠證積分處理系統,保障用戶的綠電積分累積以及兌換。在此基礎上,實現對綠電平台3的有序管理,能夠充分滿足市電和綠電的偏好考核和鼓勵用戶選擇更加清潔的綠色電源。通過充分利用移動充電平台8,提高用戶充電的利用率,實現移動式充電車的利益最大化。
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 3 can be realized, which can fully meet the preference assessment of city power and green power and encourage users to choose cleaner green power sources. By making full use of the
綜上,本申請的移動式充電裝置管理系統的供電交易效果極佳,實用性強,解決了現有傳統移動充電站充電效率低,充電成本高,綠電充電不受眾等弊端,適合推廣使用。 In summary, the mobile charging device management system of the present application has excellent power supply transaction effects and strong practicability. It solves the disadvantages of the existing traditional mobile charging stations, such as low charging efficiency, high charging costs, and low green power charging, and is suitable for popularization.
以上實施例僅用以說明本申請的技術方案,而非對其限制;儘管參照前述實施例對本申請進行了詳細的說明,本領域的普通技術人員應當理解:其依然可以對前述各實施例所記載的技術方案進行修改,或者對其中部分技術特徵進行等同替換;而這些修改或者替換,並不使相應技術方案的本質脫離本申請各實施例技術方案的精神和範圍。 The above embodiments are only used to illustrate the technical solutions of the present application, not 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 compare the previous embodiments. The recorded technical solutions are modified, or some of the technical features are equivalently replaced; and these modifications or replacements do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of the present application.
1:供電中心 1: Power supply center
2:電力收集平台 2: Electricity collection platform
3:綠電平台 3: Green Power Platform
4:用戶中心 4: User Center
5:綜合單元 5: Comprehensive unit
6:交易單元 6: Transaction unit
7:評估單元 7: Evaluation unit
8:移動充電平台 8: Mobile charging platform
9:採集單元 9: Acquisition unit
10:預處理單元 10: Pretreatment unit
11:無線收發單元 11: Wireless transceiver unit
12:供需單元 12: Supply and demand unit
13:中心處理單元 13: Central processing unit
14:判斷單元 14: Judgment unit
Claims (10)
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Cited By (2)
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TWI795296B (en) * | 2022-05-23 | 2023-03-01 | 潔能氏新能源股份有限公司 | Green energy matching system and the method thereof |
TWI825406B (en) * | 2021-04-07 | 2023-12-11 | 黃坤元 | A movable charging device management system |
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TWI825406B (en) * | 2021-04-07 | 2023-12-11 | 黃坤元 | A movable charging device management system |
TWI795296B (en) * | 2022-05-23 | 2023-03-01 | 潔能氏新能源股份有限公司 | Green energy matching system and the method thereof |
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