CN115085340A - Charging control method and device and computer readable storage medium - Google Patents
Charging control method and device and computer readable storage mediumDownload PDFInfo
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/007—Regulation of charging or discharging current or voltage
- H02J7/00712—Regulation of charging or discharging current or voltage the cycle being controlled or terminated in response to electric parameters
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60L—PROPULSION 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
- B60L53/00—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
- B60L53/60—Monitoring or controlling charging stations
- B60L53/62—Monitoring or controlling charging stations in response to charging parameters, e.g. current, voltage or electrical charge
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60L—PROPULSION 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
- B60L53/00—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
- B60L53/60—Monitoring or controlling charging stations
- B60L53/63—Monitoring or controlling charging stations in response to network capacity
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/42—Methods or arrangements for servicing or maintenance of secondary cells or secondary half-cells
- H01M10/44—Methods for charging or discharging
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J3/00—Circuit arrangements for AC mains or AC distribution networks
- H02J3/26—Arrangements for eliminating or reducing asymmetry in polyphase networks
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0029—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0047—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with monitoring or indicating devices or circuits
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J2310/00—The network for supplying or distributing electric power characterised by its spatial reach or by the load
- H02J2310/40—The network being an on-board power network, i.e. within a vehicle
- H02J2310/48—The network being an on-board power network, i.e. within a vehicle for electric vehicles [EV] or hybrid vehicles [HEV]
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T90/00—Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02T90/10—Technologies relating to charging of electric vehicles
- Y02T90/12—Electric charging stations
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Abstract
Translated fromChinese
Description
Translated fromChinese技术领域technical field
本申请涉及充电控制技术领域,具体涉及一种充电控制方法、装置及计算机可读存储介质。The present application relates to the technical field of charging control, and in particular, to a charging control method, a device, and a computer-readable storage medium.
背景技术Background technique
近年来,随着电动汽车产业快速发展迅速,电动汽车的充电设备配置也在不断提升,目前现有的充电桩一般通过三相电源提供电能,从而避免充电设备在供电高峰期间,出现供电不足的问题。In recent years, with the rapid development of the electric vehicle industry, the configuration of charging equipment for electric vehicles is also constantly improving. At present, the existing charging piles generally provide electric energy through three-phase power supply, so as to avoid the problem of insufficient power supply of the charging equipment during the peak period of power supply. question.
然而,现有的三相电源在向充电桩提供电能时,可能会出现负载不平衡,从而导致使得整个供电系统在使用时出现过载的问题,影响了使用。However, when the existing three-phase power supply provides electric power to the charging pile, the load may be unbalanced, thereby causing the problem of overloading the entire power supply system during use, which affects the use.
发明内容SUMMARY OF THE INVENTION
本申请实施例提供一种充电控制方法、装置及计算机可读存储介质,可以避免在充电时,可能会出现负载不平衡,从而使得整个供电系统出现供电过载的问题。Embodiments of the present application provide a charging control method, a device, and a computer-readable storage medium, which can avoid a load imbalance that may occur during charging, thereby causing the problem of power supply overload in the entire power supply system.
第一方面,本申请实施例提供一种充电控制方法,包括:In a first aspect, an embodiment of the present application provides a charging control method, including:
获取多相电源中每个分相电源的可用供电容量;Obtain the available power supply capacity of each split-phase power supply in the multi-phase power supply;
根据每个分相电源的可用供电容量,实时确定每个分相电源的供电状态,其中,供电状态包括快充状态、慢充状态和延迟等待充电状态,快充状态时,相应的分相电源以第一供电输出功率向用电设备充电,慢充状态时,相应的分相电源以第二供电输出功率向用电设备充电,延迟等待充电状态时,相应的分相电源停止向用电设备充电;According to the available power supply capacity of each split-phase power supply, the power supply status of each split-phase power supply is determined in real time, wherein the power supply status includes fast charging status, slow charging status and delayed waiting charging status. Charge the electrical equipment with the first power supply output power. In the slow charging state, the corresponding split-phase power supply charges the electrical equipment with the second power supply output power. When the charging state is delayed, the corresponding split-phase power supply stops charging the electrical equipment. Charge;
接收客户端发送充电信号;Receive the charging signal sent by the client;
根据充电信号,确定目标分相电源以及目标分相电源的供电状态,其中,目标分相电源为多相电源中客户所选择的分相电源;Determine the target split-phase power supply and the power supply status of the target split-phase power source according to the charging signal, wherein the target split-phase power source is the split-phase power source selected by the customer in the multi-phase power supply;
根据目标分相电源的供电状态引导客户进行充电,若目标分相电源的供电状态为快充状态,则以第一供电输出功率向用电设备充电;否则,则向客户提供多相电源中的其余分相电源的供电状态信息,并引导客户做出充电选择。Guide the customer to charge according to the power supply status of the target split-phase power supply. If the power supply status of the target split-phase power supply is in the fast charging state, the first power supply output power is used to charge the electrical equipment; otherwise, the customer is provided with the multi-phase power supply. The power supply status information of the remaining split-phase power supplies, and guide customers to make charging choices.
第二方面,本申请实施例还提供一种充电控制装置,包括:In a second aspect, an embodiment of the present application further provides a charging control device, including:
获取单元,用于获取多相电源中每个分相电源的可用供电容量;an acquisition unit for acquiring the available power supply capacity of each split-phase power supply in the multi-phase power supply;
第一确定单元,用于根据每个分相电源的可用供电容量,实时确定每个分相电源的供电状态,其中,供电状态包括快充状态、慢充状态和延迟等待充电状态,快充状态时,相应的分相电源以第一供电输出功率向用电设备充电,慢充状态时,相应的分相电源以第二供电输出功率向用电设备充电,延迟等待充电状态时,相应的分相电源停止向用电设备充电;The first determining unit is configured to determine the power supply status of each split-phase power supply in real time according to the available power supply capacity of each split-phase power supply, wherein the power supply status includes a fast charging status, a slow charging status, a delayed waiting charging status, and a fast charging status When charging, the corresponding split-phase power supply charges the electrical equipment with the first power supply output power. In the slow charging state, the corresponding split-phase power supply charges the electrical equipment with the second power supply output power. The phase power supply stops charging the electrical equipment;
接收单元,用于接收客户端发送充电信号;a receiving unit, used for receiving the charging signal sent by the client;
第二确定单元,用于根据充电信号,确定目标分相电源以及目标分相电源的供电状态,其中,目标分相电源为多相电源中客户所选择的分相电源;The second determining unit is configured to determine the target split-phase power supply and the power supply state of the target split-phase power source according to the charging signal, wherein the target split-phase power source is the split-phase power source selected by the customer in the multi-phase power supply;
引导单元,用于根据目标分相电源的供电状态引导客户进行充电,若目标分相电源的供电状态为快充状态,则以第一供电输出功率向用电设备充电;否则,则向客户提供多相电源中的其余分相电源的供电状态信息,并引导客户做出充电选择。The guiding unit is used to guide the customer to charge according to the power supply state of the target split-phase power supply. If the power supply state of the target split-phase power supply is in the fast charging state, the first power supply output power is used to charge the electrical equipment; otherwise, it is provided to the customer. Power supply status information of the remaining split-phase power supplies in the multi-phase power supply, and guide customers to make charging choices.
第三方面,本申请实施例还提供一种计算机可读存储介质,计算机可读存储介质存储有多条指令,指令适于处理器进行加载,以执行本申请实施例所提供的任一种充电控制方法中的步骤。In a third aspect, the embodiments of the present application further provide a computer-readable storage medium, where the computer-readable storage medium stores a plurality of instructions, and the instructions are suitable for the processor to load, so as to execute any charging method provided by the embodiments of the present application. Steps in the control method.
在本申请中,可以通过确定多相电源中各个分相电源的可用供电容量,来确定多相电源中每个分相电源的供电状态,在需要进行充电时,通过接收客户端发送的充电信号,确定目标分相电源的供电状态,并根据目标分相电源的供电状态,引导客户进行充电。由此,可以避免多相电源中的各个分相电源在供电使用时,出现某一分相电源出现负载较大,从而导致整个多相电源出现负载不平衡的问题,进而避免了整个供电系统出现供电过载的问题。In this application, the power supply status of each split-phase power source in the multi-phase power source can be determined by determining the available power supply capacity of each split-phase power source in the multi-phase power source, and when charging is required, the charging signal sent by the client can be received by receiving the charging signal. , determine the power supply status of the target split-phase power supply, and guide the customer to charge according to the power supply status of the target split-phase power supply. In this way, it can be avoided that when each split-phase power supply in the multi-phase power supply is used for power supply, a certain split-phase power supply has a large load, which leads to the problem of unbalanced load of the entire multi-phase power supply, thereby avoiding the occurrence of the entire power supply system. The problem of power overload.
附图说明Description of drawings
为了更清楚地说明本申请实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。In order to illustrate the technical solutions in the embodiments of the present application more clearly, the following briefly introduces the drawings that are used in the description of the embodiments. Obviously, the drawings in the following description are only some embodiments of the present application. For those skilled in the art, other drawings can also be obtained from these drawings without creative effort.
图1a是本申请实施例提供的充电控制方法的场景示意图;FIG. 1a is a schematic diagram of a scene of a charging control method provided by an embodiment of the present application;
图1b是本申请实施例提供的充电控制方法的流程示意图;FIG. 1b is a schematic flowchart of a charging control method provided by an embodiment of the present application;
图2a是本申请实施例提供的充电控制方法应用在终端场景中的一种流程示意图;FIG. 2a is a schematic flowchart of the application of the charging control method provided by the embodiment of the present application in a terminal scenario;
图2b是本申请实施例提供的充电控制方法应用在终端场景中的另一种流程示意图;FIG. 2b is another schematic flowchart of the application of the charging control method provided by the embodiment of the present application in a terminal scenario;
图3是本申请实施例提供的充电控制装置的第一种结构示意图;FIG. 3 is a first structural schematic diagram of a charging control device provided by an embodiment of the present application;
图4是本申请实施例提供的终端的结构示意图。FIG. 4 is a schematic structural diagram of a terminal provided by an embodiment of the present application.
具体实施方式Detailed ways
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本申请保护的范围。The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. Obviously, the described embodiments are only a part of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by those skilled in the art without creative work fall within the protection scope of the present application.
目前,现有的充电桩的电源一般采用三相电源进行供电,三相电源在使用时,由于各个分相电源的负载不同或连接的充电桩数量不同,可能导致在使用时,某个分相电源的负载超过其本身的额定负载,从而导致了各个分相电源之间负载不均衡,进而造成整个供电系统出现过载现象,而剩下的分相电源能力也得不到发挥,使得整个供电能力得不到充分利用。At present, the power supply of the existing charging piles is generally powered by a three-phase power supply. When the three-phase power supply is in use, due to the different loads of each split-phase power supply or the different number of connected charging piles, it may cause a certain split-phase power supply during use. The load of the power supply exceeds its own rated load, which leads to an unbalanced load among the various split-phase power supplies, which in turn causes the entire power supply system to appear overloaded, and the remaining split-phase power supply capacity cannot be utilized, making the entire power supply capacity. underutilized.
因此,本申请实施例提供一种充电控制方法、装置及计算机可读存储介质。Therefore, the embodiments of the present application provide a charging control method, an apparatus, and a computer-readable storage medium.
其中,该电子设备可以为终端、服务器等设备。其中,终端可以为手机、平板电脑、智能蓝牙设备、笔记本电脑、或者个人电脑(Personal Computer,PC)等设备;服务器可以是单一服务器,也可以是由多个服务器组成的服务器集群。Wherein, the electronic device may be a terminal, a server and other devices. The terminal may be a mobile phone, a tablet computer, an intelligent Bluetooth device, a notebook computer, or a personal computer (Personal Computer, PC) and other devices; the server may be a single server, or a server cluster composed of multiple servers.
在一些实施例中,可以由多个电子设备或者,可以集成在多个服务器中,由多个服务器来实现本申请的充电控制方法。In some embodiments, the charging control method of the present application may be implemented by multiple electronic devices or may be integrated in multiple servers.
例如,参考图1a,该电子设备用于获取多相电源中每个分相电源的可用供电容量;根据每个分相电源的可用供电容量,实时确定每个分相电源的供电状态,其中,供电状态包括快充状态、慢充状态和延迟等待充电状态,快充状态时,相应的分相电源以第一供电输出功率向用电设备充电,慢充状态时,相应的分相电源以第二供电输出功率向用电设备充电,延迟等待充电状态时,相应的分相电源停止向用电设备充电;接收客户端发送充电信号;根据充电信号,确定目标分相电源以及目标分相电源的供电状态,其中,目标分相电源为多相电源中客户所选择的分相电源;根据目标分相电源的供电状态引导客户进行充电,若目标分相电源的供电状态为快充状态,则以第一供电输出功率向用电设备充电;否则,则向客户提供多相电源中的其余分相电源的供电状态信息,并引导客户做出充电选择。For example, referring to Fig. 1a, the electronic device is used to obtain the available power supply capacity of each split-phase power supply in the multi-phase power supply; according to the available power supply capacity of each split-phase power supply, the power supply status of each split-phase power supply is determined in real time, wherein, The power supply state includes fast charging state, slow charging state and delayed waiting charging state. In the fast charging state, the corresponding split-phase power supply charges the electrical equipment with the first power supply output power. In the slow charging state, the corresponding split-phase power supply uses the first power supply output power. 2. The output power of the power supply charges the electrical equipment, and when the charging state is delayed, the corresponding split-phase power supply stops charging the electrical equipment; receives the charging signal sent by the client; determines the target split-phase power supply and the target split-phase power supply according to the charging signal. Power supply status, in which the target split-phase power supply is the split-phase power supply selected by the customer in the multi-phase power supply; the customer is guided to charge according to the power supply status of the target split-phase power supply. The first power supply output power charges the electrical equipment; otherwise, the power supply status information of the remaining split-phase power supplies in the multi-phase power supply is provided to the customer, and the customer is guided to make a charging choice.
以下分别进行详细说明。需说明的是,以下实施例的序号不作为对实施例优选顺序的限定。Each of them will be described in detail below. It should be noted that the serial numbers of the following embodiments are not intended to limit the preferred order of the embodiments.
在本实施例中,提供了一种充电控制方法,如图1b所示,该充电控制方法的具体流程可以如下:In this embodiment, a charging control method is provided. As shown in FIG. 1b, the specific process of the charging control method may be as follows:
110、获取多相电源中每个分相电源的可用供电容量。110. Obtain the available power supply capacity of each split-phase power supply in the multi-phase power supply.
其中,多相电源中包括多个分相电源,多相电源是指将多个分相电源并在一起,采用多相供电的方式对供电设备进行供电。分相电源可以为多相电源中确定的一个单相电源。单相电源用于单相供电,其中,单相供电的技术是指线路上不同变电所供电的区段接触网电压相位相同,线路上无电分相环节的牵引供电方式。例如,在本申请实施例中,多相电源可以为三相电源,三相电源采用三相供电的方式进行供电,三相电源包括三个分相电源。Among them, the multi-phase power supply includes a plurality of split-phase power supplies, and the multi-phase power supply refers to combining a plurality of split-phase power supplies together to supply power to the power supply equipment by means of multi-phase power supply. The split-phase power supply may be a single-phase power supply determined in the multi-phase power supply. Single-phase power supply is used for single-phase power supply. Among them, the technology of single-phase power supply refers to the traction power supply mode in which the voltage phase of the catenary in the section powered by different substations on the line is the same, and there is no power-splitting link on the line. For example, in the embodiment of the present application, the multi-phase power supply may be a three-phase power supply, the three-phase power supply is powered by a three-phase power supply, and the three-phase power supply includes three split-phase power supplies.
可用供电容量可以表征分相电源的使用情况,其中,可用供电容量越高,表征分相电源的使用情况越空闲,与分相电源连接的、处于工作状态下的供电设备越少,可用供电容量越低,表征分相电源的使用情况越繁忙,与分相电源连接的、处于工作状态下的供电设备越多。The available power supply capacity can characterize the use of the split-phase power supply. The higher the available power supply capacity, the more idle the use of the split-phase power supply is. The lower it is, the busier the use of the split-phase power supply is, and the more power supply devices are connected to the split-phase power supply and are in working state.
比如,在本申请实施例中,每个分相电源均可以连接多个供电设备,例如,分相电源包括a相电源、b相电源和c相电源,供电设备包括供电设备q1、…、供电设备q9时,a相电源可以电连接供电设备q1~q3,b相电源可以电连接供电设备q4~q6,c相电源可以电连接供电设备q7~q9。其中,在本申请实施例中,为了方便控制各个供电设备,其中,供电设备q1~q3可以分别通过第一开关与a相电源连接,供电设备q4~q6可以分别通过第二开关与b相电源连接,供电设备q7~q9可以分别通过第三开关与c相电源连接。其中,当供电设备q1和q2均处于工作状态时,此时a相电源的可用供电容量低,当供电设备q1处于工作状态时,此时a相电源的可用供电容量较高,供电设备q4~q9处于空闲状态时,b相电源和c相电源的可用供电容量高。For example, in the embodiment of the present application, each split-phase power supply can be connected to multiple power supply devices. For example, the split-phase power supply includes a-phase power supply, b-phase power supply, and c-phase power supply, and the power supply devices include power supply devices q1, . . . When the device is q9, the a-phase power supply can be electrically connected to the power supply devices q1-q3, the b-phase power supply can be electrically connected to the power supply devices q4-q6, and the c-phase power supply can be electrically connected to the power supply devices q7-q9. Among them, in the embodiment of the present application, in order to facilitate the control of each power supply device, the power supply devices q1 to q3 can be connected to the a-phase power supply through the first switch, respectively, and the power supply devices q4 to q6 can be respectively connected to the b-phase power supply through the second switch. connection, the power supply devices q7 to q9 can be respectively connected to the c-phase power supply through the third switch. Among them, when the power supply equipment q1 and q2 are both in the working state, the available power supply capacity of the a-phase power supply is low at this time. When the power supply device q1 is in the working state, the available power supply capacity of the a-phase power supply is relatively high at this time. When q9 is in an idle state, the available power supply capacity of the b-phase power supply and the c-phase power supply is high.
120、根据每个分相电源的可用供电容量,实时确定每个分相电源的供电状态,其中,供电状态包括快充状态、慢充状态和延迟等待充电状态,快充状态时,相应的分相电源以第一供电输出功率向用电设备充电,慢充状态时,相应的分相电源以第二供电输出功率向用电设备充电,延迟等待充电状态时,相应的分相电源停止向用电设备充电。120. Determine the power supply status of each split-phase power supply in real time according to the available power supply capacity of each split-phase power supply, wherein the power supply status includes a fast charging status, a slow charging status, and a delayed waiting charging status. The phase power supply charges the electrical equipment with the first power supply output power. In the slow charging state, the corresponding split-phase power supply charges the electrical equipment with the second power supply output power. When the charging state is delayed, the corresponding split-phase power supply stops charging the electrical equipment. Electric device charging.
其中,分相电源的供电状态是指根据分相电源的可用供电容量的大小,确定分相电源是可以进行快充、慢充还是延迟等待充电的状态。The power supply state of the split-phase power supply refers to determining whether the split-phase power supply can perform fast charging, slow charging, or delayed waiting for charging according to the size of the available power supply capacity of the split-phase power supply.
其中,在本申请实施例中,获取多相电源中每个分相电源的可用供电容量的方法可以包括:Wherein, in the embodiment of the present application, the method for obtaining the available power supply capacity of each split-phase power supply in the multi-phase power supply may include:
确定多相电源中的每个分相电源;Identify each split-phase power source in the polyphase power source;
获取每个分相电源的已用电流和额定电流。Obtain the used and rated current of each split-phase power supply.
根据分相电源的已用电流和额定电流,得到分相电源的供电可用容量。According to the used current and rated current of the split-phase power supply, the available power supply capacity of the split-phase power supply is obtained.
其中,额定电流是指分相电源在额定电压下,按照额定功率运行时的电流。其中,额定电流可以为预先设定的电流,额定电流可以通过预先在充电控制装置中输入分相电源的额定电流的方法进行获取,也可以根据服务器发送的分相电源信息中确定分相电源的额定电流的方法进行获取。Among them, the rated current refers to the current of the split-phase power supply under the rated voltage and the rated power. The rated current can be a preset current, and the rated current can be obtained by inputting the rated current of the split-phase power supply in the charging control device in advance, or the split-phase power supply information can be determined according to the split-phase power supply information sent by the server. The method of rated current is obtained.
已用电流是指分相电源中已经使用的电流量,其中,已用电流可以通过电流检测元器件获取,比如,在一些实施例中,已用电流可以根据电连接在分相电源输出端的电流互感器和与电流互感器连接功率测控器获取得到,其中,电流互感器是依据电磁感应原理将一次侧大电流转换成二次侧小电流来测量的仪器;已用电流也可以根据检测分相电源的电压和已用电容来进行获取,其中,已用供电容量是指分相电源中已经使用的供电容量。The used current refers to the amount of current that has been used in the split-phase power supply, wherein the used current can be obtained through a current detection component. For example, in some embodiments, the used current can be based on the current that is electrically connected to the output terminal of the split-phase power supply. It can be obtained from the transformer and the power measurement and control device connected to the current transformer. Among them, the current transformer is an instrument that converts the large current on the primary side into a small current on the secondary side according to the principle of electromagnetic induction to measure; the used current can also be phase-separated according to the detection The voltage of the power supply and the used capacitance are obtained, wherein the used power supply capacity refers to the power supply capacity that has been used in the split-phase power supply.
其中,在确定多相电源中各个分相电源的电流量时,可以根据各个分相电源的使用时间以及检测的电流量进行确定,例如,当多相电源为三相电源时,充电控制装置中的充电控制模块可以根据三相电源中各个分相电源的使用时间以及使用情况,分别对各个分相电源的已用电流进行统计,从而获得多相电源每一分相电源的电流量。Wherein, when determining the current amount of each split-phase power supply in the multi-phase power supply, it can be determined according to the use time of each split-phase power supply and the detected current amount. For example, when the multi-phase power supply is a three-phase power supply, the charging control device The charging control module of the three-phase power supply can count the used current of each split-phase power supply according to the usage time and usage of each split-phase power supply in the three-phase power supply, so as to obtain the current amount of each split-phase power supply of the multi-phase power supply.
供电容量=电流*电压,在多相电源的各个分相电源的电路中,电压的变化通常较小,因此可以通过检测电流的方式来确定已用供电容量的大小,并根据已用供电容量的大小,确定可用供电容量,从而可以更加简便的确定出分相电源的使用情况。Power supply capacity = current * voltage, in the circuit of each split-phase power supply of a multi-phase power supply, the voltage change is usually small, so the size of the used power supply capacity can be determined by detecting the current, and according to the used power supply capacity. Size, determine the available power supply capacity, so that the use of split-phase power can be more easily determined.
其中,在本申请实施例中,根据分相电源的已用电流和额定电流,得到分相电源的供电可用容量的方法可以包括:Wherein, in the embodiment of the present application, according to the used current and rated current of the split-phase power supply, the method for obtaining the power supply available capacity of the split-phase power supply may include:
根据已用电流和额定电流,确定可用电流;According to the used current and rated current, determine the available current;
根据额定电流和可用电流,确定分相电源的供电可用率;According to the rated current and available current, determine the power supply availability rate of the split-phase power supply;
根据供电可用率,确定分相电源的可用供电容量。According to the power supply availability rate, the available power supply capacity of the split-phase power supply is determined.
其中,可用电流可以是指分相电源中还可以使用的电流,可用电流可以根据已用电流和额定电流求取得到。比如,在一些实施例中,在检测得到已用电流后,可以根据公式“供电容量=电流*电压”,获取分相电源的已用供电容量,然后再根据公式“可用供电容量=额定供电容量-已用供电容量”,得到分相电源的可用供电容量,然后再根据“供电容量=电流*电压”,确定分相电源的可用电流。Among them, the available current may refer to the current that can be used in the split-phase power supply, and the available current can be obtained according to the used current and the rated current. For example, in some embodiments, after the used current is detected, the used power supply capacity of the split-phase power supply can be obtained according to the formula "power supply capacity=current*voltage", and then the used power supply capacity of the split-phase power supply can be obtained according to the formula "available power supply capacity=rated power supply capacity" -Used power supply capacity", get the available power supply capacity of the split-phase power supply, and then determine the available current of the split-phase power supply according to "power supply capacity = current * voltage".
供电可用率可以用于表征分相电源中可用率,即通过已用电流和额定电流确定出可以用电流,在根据可用电流和额定电流确定出供电可用率,其中,供电可用率,根据公式“供电容量=电流*电压”以及多相电源的各个分相电源的电路中电压的变化通常较小,因此,可以通过供电可用率表征可用供电容量。比如,在一些实施例中,在获取到可用电流后,可以根据公式“可用电流量/额定电流量*100%=供电可用率”求取供电可用率。The power supply availability rate can be used to characterize the availability rate in the split-phase power supply, that is, the available current is determined by the used current and the rated current, and the power supply availability rate is determined according to the available current and the rated current. Among them, the power supply availability rate, according to the formula " Power supply capacity=current*voltage" and the variation of the voltage in the circuit of each split-phase power supply of the multi-phase power supply is usually small, so the available power supply capacity can be characterized by the power supply availability rate. For example, in some embodiments, after the available current is obtained, the power supply availability rate can be obtained according to the formula "available current amount/rated current amount*100%=power supply availability rate".
例如,在本申请实施例中,当多相电源为三相电源,且三相电源包括a相电源、b相电源和c相电源时,为了确定三相电源中每一分相电源的供电可用率,可以分别确定a相电源、b相电源和c相电源的额定电流,然后可以通过三相功率测控器和电流互感器分别测量a相电源、b相电源和c相电源的已用电流,并根据“供电容量=电流*电压”和“可用供电容量=额定供电容量-已用供电容量”,得到a相电源、b相电源和c相电源的可用电流,最后通过a相电源、b相电源和c相电源的可用电流和a相电源、b相电源和c相电源的额定电流,分别根据公式:For example, in the embodiment of the present application, when the multi-phase power supply is a three-phase power supply, and the three-phase power supply includes a-phase power supply, b-phase power supply, and c-phase power supply, in order to determine that the power supply of each split-phase power supply in the three-phase power supply is available The rated current of the a-phase power supply, the b-phase power supply and the c-phase power supply can be determined respectively, and then the used current of the a-phase power supply, the b-phase power supply and the c-phase power supply can be measured respectively through the three-phase power monitoring and control device and the current transformer. And according to "power supply capacity = current * voltage" and "available power supply capacity = rated power supply capacity - used power supply capacity", the available currents of a-phase power supply, b-phase power supply and c-phase power supply are obtained, and finally through a-phase power supply, b-phase power supply The available current of the power supply and the c-phase power supply and the rated current of the a-phase power supply, the b-phase power supply and the c-phase power supply, respectively, according to the formula:
a相电源的可用电流/a相电源的额定电流*100%=a相电源的供电可用率;The available current of the a-phase power supply / the rated current of the a-phase power supply * 100% = the power supply availability rate of the a-phase power supply;
b相电源的可用电流/b相电源的额定电流*100%=b相电源的供电可用率;Available current of b-phase power supply/rated current of b-phase power supply*100%=power supply availability rate of b-phase power supply;
c相电源的可用电流/c相电源的额定电流*100%=c相电源的供电可用率;The available current of the c-phase power supply / the rated current of the c-phase power supply * 100% = the power supply availability rate of the c-phase power supply;
求取得到a相电源的供电可用率、b相电源的供电可用率和c相电源的供电可用率,从而确定多相电源中各个分相电源的使用情况。Obtain the power supply availability rate of the a-phase power supply, the power supply availability rate of the b-phase power supply, and the power supply availability rate of the c-phase power supply, so as to determine the usage of each split-phase power supply in the multi-phase power supply.
其中,在一些实施例中,当分相电源中可用供电容量充足时,分相电源可以通过供电设备进行快速充电,分相电源处于快充状态;Wherein, in some embodiments, when the available power supply capacity in the split-phase power supply is sufficient, the split-phase power supply can be rapidly charged by the power supply device, and the split-phase power supply is in a fast-charging state;
当分相电源中可用供电容量较为充足时,分相电源可以通过供电设备进行低功率的状态下的慢速充电,分相电源处于慢充状态;When the available power supply capacity in the split-phase power supply is relatively sufficient, the split-phase power supply can perform slow charging in a low-power state through the power supply equipment, and the split-phase power supply is in a slow charging state;
当分相电源中可用供电容量紧张时,分相电源无法通过供电设备进行充电,需等待与分相电源连接的其他供电设备停止供电使用后,才能使用,分相电源处于延迟等待充电状态。When the available power supply capacity in the split-phase power supply is tight, the split-phase power supply cannot be charged through the power supply equipment, and it can only be used after other power supply equipment connected to the split-phase power supply stops supplying power. The split-phase power supply is in a state of delay waiting for charging.
其中,在本申请实施例中,根据每个分相电源的可用供电容量,确定每个分相电源的供电状态的方法可以包括:Wherein, in the embodiment of the present application, according to the available power supply capacity of each split-phase power supply, the method for determining the power supply state of each split-phase power supply may include:
将可用供电容量分别与预设的第一阈值和第二阈值进行比对,其中,第一阈值大于第二阈值;comparing the available power supply capacity with a preset first threshold and a second threshold, wherein the first threshold is greater than the second threshold;
若可用供电容量大于第一阈值,则确定分相电源的供电状态为快充状态;If the available power supply capacity is greater than the first threshold, it is determined that the power supply state of the split-phase power supply is a fast charging state;
若可用供电容量在第一阈值和第二阈值之间,则确定分相电源的供电状态为慢充状态;If the available power supply capacity is between the first threshold and the second threshold, determining that the power supply state of the split-phase power supply is a slow charging state;
若可用供电容量小于第二阈值,则确定分相电源的供电状态为延迟等待充电状态。If the available power supply capacity is less than the second threshold, it is determined that the power supply state of the split-phase power supply is a delayed waiting charging state.
其中,第一阈值和第二阈值均可以为人为设定的阈值,例如,在一些实施例中,第一阈值可以为30%,第二阈值可以为10%,当分相电源的供电可用率大于30%时,则表明分相电源的可用供电容量充足,分相电源可以通过供电设备进行快速充电,当分相电源的供电可用率处于10%~30%之间时,则表明分相电源的处于使用的高峰期,可用供电容量较为充足,分相电源可以通过供电设备进行低功率的慢速充电,当分相电源的供电可用率小于10%时,则表明分相电源的可用供电容量紧张,当前无法进行充电使用。此外,第一阈值和第二阈值在进行设定时,也需考虑到分相电源的使用情况,比如,分相单元的电压按相线对零线AC220V,电压值超出±15%设置过电压和欠电压停机保护。Wherein, both the first threshold and the second threshold may be artificially set thresholds. For example, in some embodiments, the first threshold may be 30%, and the second threshold may be 10%. When the power supply availability rate of the split-phase power supply is greater than When it is 30%, it indicates that the available power supply capacity of the split-phase power supply is sufficient, and the split-phase power supply can be quickly charged through the power supply equipment. When the power supply availability of the split-phase power supply is between 10% and 30%, it indicates that the split-phase power supply is in During the peak period of use, the available power supply capacity is relatively sufficient, and the split-phase power supply can perform low-power slow charging through the power supply equipment. When the power supply availability rate of the split-phase power supply is less than 10%, it indicates that the available power supply capacity of the split-phase power supply is tight. Can not be used for charging. In addition, when setting the first threshold and the second threshold, it is also necessary to consider the use of the split-phase power supply. For example, the voltage of the split-phase unit is AC220V according to the phase line to the neutral line, and the voltage value exceeds ±15% to set the overvoltage and undervoltage shutdown protection.
供电输出功率是指单位时间内供电设备所能提供的能量,供电输出功率越大,供电设备的充电速度越快,当供电输出功率为零时,供电设备不进行工作使用。其中,为了稳定方便的进行充电使用,可以对供电设备的供电输出功率进行确定,例如,当分相电源处于快充状态时,供电设备的供电输出功率最大,当分相电源处于慢充状态时,供电设备的供电输出功率较大,当分相电源处于延迟等待充电状态时,供电设备的供电输出功率为零。The power supply output power refers to the energy that the power supply equipment can provide per unit time. The greater the power supply output power, the faster the charging speed of the power supply equipment. When the power supply output power is zero, the power supply equipment does not work. Among them, for stable and convenient charging, the power supply output power of the power supply equipment can be determined. For example, when the split-phase power supply is in the fast charging state, the power supply output power of the power supply device is the largest, and when the split-phase power supply is in the slow charging state, the power supply The power supply output power of the equipment is relatively large. When the split-phase power supply is in the state of delay waiting for charging, the power supply output power of the power supply equipment is zero.
其中,第一供电输出功率可以为目标分相电源和供电设备以快充的供电输出功率进行供电。当目标分相电源的可用供电容量充足时,供电设备可以以大功率进行快速充电。The first power supply output power may supply power for the target split-phase power supply and the power supply device with the power supply output power of fast charging. When the available power supply capacity of the target split-phase power supply is sufficient, the power supply equipment can be quickly charged with high power.
第二供电输出功率可以为目标分相电源和供电设备以慢充的供电输出功率进行供电。当目标分相电源的可用供电容量紧张时,为了保证多相电源的负载平衡,故可以采用第二供电输出功率进行输出,即第二供电输出功率为供电设备在慢充状态下的输出功率,其中,第二供电输出功率小于第一供电输出功率。The second power supply output power may supply power to the target split-phase power supply and the power supply device with the slow-charging power supply output power. When the available power supply capacity of the target split-phase power supply is tight, in order to ensure the load balance of the multi-phase power supply, the second power supply output power can be used for output, that is, the second power supply output power is the output power of the power supply equipment in the slow charging state, Wherein, the second power supply output power is smaller than the first power supply output power.
130、接收客户端发送充电信号。130. Receive a charging signal sent by the client.
其中,充电信号可以为用户的充电请求信号,充电信号可以由用户在客户端进行操作后直接生成并发送的信号,也可以是由客户端发送至服务器,再由服务器发送的信号。The charging signal may be a user's charging request signal, and the charging signal may be a signal directly generated and sent by the user after an operation on the client terminal, or a signal sent by the client terminal to the server, and then sent by the server.
其中,在一些实施例中,用户在需要使用供电设备进行充电时,可以通过扫描供电设备上的二维码或在手机的客户端内进行供电设备的选择操作,从而以远程操作控制等方式,由用户的客户端向控制终端发送充电请求信号。Among them, in some embodiments, when the user needs to use the power supply device for charging, the user can scan the QR code on the power supply device or select the power supply device in the client of the mobile phone, so as to control the power supply through remote operation and other methods. The charging request signal is sent by the user's client to the control terminal.
140、根据充电信号,确定目标分相电源以及目标分相电源的供电状态,其中,目标分相电源为多相电源中客户所选择的分相电源。140. Determine the target split-phase power supply and the power supply state of the target split-phase power source according to the charging signal, wherein the target split-phase power source is the split-phase power source selected by the customer in the multi-phase power supply.
其中,充电信号可以包括设备信息,其中,设备信息可以包括供电设备的型号、编号等信息。The charging signal may include device information, where the device information may include information such as the model and serial number of the power supply device.
供电设备用于向用电设备进行充电,比如,在一些实施例中,当供电设备可以为充电桩,多个供电设备可以构成群充充电桩,用电设备可以为电动汽车,其中,电动汽车在需要充电时,可以选中群充充电桩中的某一充电桩进行充电。The power supply device is used to charge the electrical device. For example, in some embodiments, when the power supply device can be a charging pile, a plurality of power supply devices can form a group charging pile, and the electrical device can be an electric vehicle, wherein the electric vehicle When charging is required, one of the charging piles in the group charging pile can be selected for charging.
供电设备是指将要用于进行供电或用户选定将要供电使用的供电设备,例如,在本申请实施例中,当要使用供电设备q7时,可以确定供电设备q7为供电设备。而供电设备的设备信息可以包括供电设备的型号以及与供电设备对应连接的目标分相电源。The power supply device refers to the power supply device to be used for power supply or selected by the user to supply power. For example, in the embodiment of the present application, when the power supply device q7 is to be used, the power supply device q7 may be determined as the power supply device. The device information of the power supply device may include the model of the power supply device and the target split-phase power supply corresponding to the power supply device.
目标分相电源是指将用于向供电设备提供电能的分相电源,确定目标分相电源是指根据供电设备的使用情况,确定所使用或将要使用的分相电源,并将该分相电源记作目标分相电源。例如,当要使用供电设备q7时,可以确定目标分相电源为c相电源。The target split-phase power supply refers to the split-phase power supply that will be used to provide electrical energy to the power supply equipment. Determining the target split-phase power supply refers to determining the split-phase power supply used or to be used according to the usage of the power supply equipment, and applying the split-phase power supply. Recorded as the target split-phase power supply. For example, when the power supply device q7 is to be used, it can be determined that the target split-phase power supply is the c-phase power supply.
其中,在一些实施例中,当充电信号直接由客户端发送时,充电信号中所包含的设备信息可以包括所选择供电设备的型号信息以及与供电设备对应的目标分相电源的信息。当充电信号由客户端发送至云端,再由云端发送的信号时,客户端根据用户的操作所发送的充电请求可以包括所选择供电设备的型号信息,在发送至云端中后,根据云端中预存的供电设备与分相电源的关联关系表,可以确定出目标分相电源的信息,并将供电设备的型号信息和目标分相电源的信息一起作为充电信号发送。Wherein, in some embodiments, when the charging signal is directly sent by the client, the device information included in the charging signal may include model information of the selected power supply device and information of the target split-phase power supply corresponding to the power supply device. When the charging signal is sent by the client to the cloud, and then sent by the cloud, the charging request sent by the client according to the user's operation may include the model information of the selected power supply device. The correlation table between the power supply equipment and the split-phase power supply can determine the information of the target split-phase power supply, and send the model information of the power supply equipment and the information of the target split-phase power supply together as a charging signal.
在接收到充电信号后,可以根据目标分相电源的信息确定目标分相电源的当前使用状态。例如,在一些实施例中,充电控制装置实时获取多相电源中各个分相电源的使用情况,在接收到充电信号后,可以根据充电信号中的目标分相电源的信息确定目标分相电源的供电状态。After receiving the charging signal, the current use state of the target split-phase power source can be determined according to the information of the target split-phase power source. For example, in some embodiments, the charging control device acquires the usage of each split-phase power source in the multi-phase power source in real time, and after receiving the charging signal, can determine the target split-phase power source according to the information of the target split-phase power source in the charging signal. Power status.
例如,在本申请实施例中,当供电设备为充电桩时,用户可以先登录到手机上安装的客户端,然后通过客户端扫描充电桩上的二维码进行充电请求,并将充电请求发送至服务器,服务器充电请求操作生成包含有充电桩信息以及与充电桩连接的目标分相电源信息的充电信号,并通过无线传输等方式将充电信号发送至充电控制装置中,充电控制装置在接收到充电信号后,根据充电信号中所记载的充电桩信息和目标分相电源信息,确定与充电桩连接的目标分相电源。For example, in the embodiment of the present application, when the power supply device is a charging pile, the user can first log in to the client installed on the mobile phone, then scan the QR code on the charging pile through the client to make a charging request, and send the charging request To the server, the server charging request operation generates a charging signal containing the charging pile information and the target split-phase power supply information connected to the charging pile, and sends the charging signal to the charging control device through wireless transmission. After the charging signal is received, the target split-phase power supply connected to the charging pile is determined according to the charging pile information and the target split-phase power supply information recorded in the charging signal.
150、根据目标分相电源的供电状态引导客户进行充电,若目标分相电源的供电状态为快充状态,则以第一供电输出功率向用电设备充电;否则,则向客户提供多相电源中的其余分相电源的供电状态信息,并引导客户做出充电选择。150. Guide the customer to charge according to the power supply state of the target split-phase power supply. If the power supply state of the target split-phase power supply is in the fast charging state, charge the electrical equipment with the first power supply output power; otherwise, provide the customer with a multi-phase power supply The power supply status information of the remaining split-phase power supplies in the system, and guide customers to make charging choices.
其中,当目标分相电源的供电状态为快充状态,用户可以使用目标分相电源以第一供电输出功率向用电设备充电。Wherein, when the power supply state of the target split-phase power supply is a fast charging state, the user can use the target split-phase power supply to charge the electrical device with the first power supply output power.
其中,在本申请实施例中,若目标分相电源的供电状态为慢充状态,则向客户端发送目标分相电源的供电状态信息以及多相电源中处于快充状态的分相电源的信息,以使客户根据客户端,做出第一充电选择。In the embodiment of the present application, if the power supply state of the target split-phase power supply is in the slow charging state, the power supply status information of the target split-phase power supply and the information of the split-phase power supply in the fast charging state in the multi-phase power supply are sent to the client , so that the customer can make the first charging choice according to the customer.
第一充电选择为用户根据需要选择供电设备进行供电或供电设备进行供电。第一充电选择信息是客户端在接收供电状态信息以及供电设备的信息后,响应于用户的选择操作生成的。The first charging selection is that the user selects a power supply device to supply power or a power supply device to supply power according to needs. The first charging selection information is generated by the client in response to a user's selection operation after receiving the power supply status information and the information of the power supply device.
其中,在本申请实施例中,若第一充电选择为选择目标分相电源以第二供电输出功率向用电设备充电,则接收客户端反馈的第一充电选择信息,其中,第一充电选择信息为客户端根据客户的第一充电选择生成的信息;Wherein, in the embodiment of the present application, if the first charging selection is to select the target split-phase power supply to charge the electrical equipment with the second power supply output power, the first charging selection information fed back by the client is received, wherein the first charging selection The information is information generated by the client according to the first charging selection of the client;
根据第一充电选择信息,得到第一调整信号和第一充电控制信号;obtaining a first adjustment signal and a first charging control signal according to the first charging selection information;
向与目标分相电源连接的供电设备发送第一调整信号,以将所述供电设备的供电输出功率调整为第二供电输出功率;sending a first adjustment signal to the power supply device connected to the target split-phase power supply, so as to adjust the power supply output power of the power supply device to the second power supply output power;
向目标分相电源发送第一充电控制信号,以使目标分相电源通过供电设备向用电设备充电。A first charging control signal is sent to the target split-phase power source, so that the target split-phase power source charges the electrical device through the power supply device.
其中,第二供电输出功率可以为供电设备在慢充状态下的输出功率。在一些实施例中,当供电状态为慢充状态时,可以通过降低供电输出功率的方式保证多相电源的负载平衡。The second power supply output power may be the output power of the power supply device in a slow charging state. In some embodiments, when the power supply state is the slow charging state, the load balance of the multi-phase power supply can be ensured by reducing the output power of the power supply.
同时,为了方便用户更快的进行充电,也可以向客户端发送供电设备信息,使得用户可以通过选择供电设备进行快速充电。At the same time, in order to facilitate the user to charge faster, the power supply device information can also be sent to the client, so that the user can quickly charge by selecting the power supply device.
其中,第一充电选择信息可以为用户通过客户端选择继续使用供电设备进行慢速充电的信息。第一充电选择信息可以是基于用户在客户端上点击继续充电后,根据用户的点击操作生成的,充电控制装置中的充电控制模块可以直接接收由客户端直接发送的第一充电选择信息,也可以接收由客户端先发送至服务器,再由服务器发送的第一充电选择信息。充电控制装置中的充电控制模块在接收到第一充电选择信息后,可以根据第一充电选择信息,生成调整信号和充电控制信号。The first charging selection information may be information that the user selects through the client to continue using the power supply device to perform slow charging. The first charging selection information may be generated based on the user's click operation after the user clicks on the client to continue charging, and the charging control module in the charging control device may directly receive the first charging selection information directly sent by the client, or The first charging selection information sent by the client first to the server and then sent by the server can be received. After receiving the first charging selection information, the charging control module in the charging control device can generate the adjustment signal and the charging control signal according to the first charging selection information.
其中,调整信号用于调整供电输出功率,第一调整信号是基于目标分相电源的供电状态生成的,调整信号可以为PWM波(脉冲宽度调制,Pulse width modulation wave),比如,当目标分相电源处于慢充状态下时,可以直接向供电设备发送第一调整信号,使得供电设备调整至慢充时的供电输出功率,并在调整完供电输出功率后,发送第一充电控制信号,使得目标分相电源向供电设备供电。The adjustment signal is used to adjust the output power of the power supply, the first adjustment signal is generated based on the power supply state of the target split-phase power supply, and the adjustment signal can be a PWM wave (pulse width modulation, Pulse width modulation wave). When the power supply is in the slow charging state, the first adjustment signal can be directly sent to the power supply device, so that the power supply device adjusts to the power supply output power during slow charging, and after adjusting the power supply output power, the first charging control signal is sent, so that the target The split-phase power supply supplies power to the power supply equipment.
其中,充电控制信号用于控制目标分相电源向供电设备供电。例如,在本申请实施例中,第一充电控制信号可以通过控制目标分相电源和供电设备之间电路的导通来控制目标分相电源向供电设备供电。The charging control signal is used to control the target split-phase power supply to supply power to the power supply device. For example, in this embodiment of the present application, the first charging control signal may control the target split-phase power supply to supply power to the power supply device by controlling the conduction of the circuit between the target split-phase power supply and the power supply device.
若第一充电选择为选择多相电源中处于快充状态的分相电源向用电设备充电,则接收客户端反馈的第一充电选择信息,其中,第一充电选择信息为客户端根据客户的第一充电选择生成的信息;If the first charging selection is to select the split-phase power supply in the fast-charging state among the multi-phase power supplies to charge the electrical equipment, the first charging selection information fed back by the client is received, wherein the first charging selection information is the client's request according to the customer's information generated by the first charging selection;
根据第一充电选择信息,确定第一待充分相电源以及第二充电控制信号;According to the first charging selection information, determine the first to-be-sufficient phase power supply and the second charging control signal;
向第一待充分相电源发送第二充电控制信号,以使与第一待充分相电源连接的供电设备向用电设备充电。A second charging control signal is sent to the first to-be-sufficient phase power supply, so that the power supply device connected to the first to-be-sufficient phase power supply charges the electrical device.
其中,当第一充电选择为用户选择其他处于快充状态的分相电源进行充电时,第一充电选择信息可以包括用户在客户端上选择的快充状态的分相电源的信息,第一待充分相电源可以为根据用户在客户端上选择的快充状态的分相电源的信息确定的。Wherein, when the first charging selection is that the user selects another split-phase power supply in a fast charging state for charging, the first charging selection information may include information on the split-phase power supply in the fast charging state selected by the user on the client, and the first charging selection information The sufficient phase power supply may be determined according to the information of the split-phase power supply in the fast charging state selected by the user on the client.
第二充电控制信号可以为控制处于快充状态的分相电源通过供电设备向用电设备充电的信号。The second charging control signal may be a signal for controlling the split-phase power supply in the fast charging state to charge the electrical device through the power supply device.
其中,在本申请实施例中,若目标分相电源的供电状态为延迟等待充电状态,则向客户端发送目标分相电源的供电状态信息以及多相电源中处于快充状态和慢充状态的分相电源的信息,以使客户根据客户端,做出第二充电选择。Among them, in the embodiment of the present application, if the power supply state of the target split-phase power supply is the delayed waiting charging state, the power supply status information of the target split-phase power supply and the multi-phase power supply in the fast charging state and the slow charging state are sent to the client. The information of the split-phase power supply, so that the customer can make the second charging choice according to the customer.
当目标分相电源的供电状态为延迟等待充电状态的信息时,为了保证多相电源的负载平衡,供电设备暂时不能进行供电操作,故可以采用供电输出功率为零的供电输出功率进行输出,直接目标多相电源有可用供电容量。When the power supply status of the target split-phase power supply is the information of the delayed waiting state of charging, in order to ensure the load balance of the multi-phase power supply, the power supply equipment cannot perform power supply operation temporarily, so the power supply output power with zero power supply output power can be used for output, directly The target polyphase power supply has available supply capacity.
其中,多相电源中处于快充状态和慢充状态的分相电源的信息包括与快充状态和慢充状态的分相电源的连接的供电设备,通过供电设备可以进行快速充电或慢速充电。即与快充状态和慢充状态的分相电源的连接的供电设备可以采用第一供电输出功率或第二供电输出功率进行充电。在一些实施例中,当供电状态为延迟等待充电状态时,为了保证多相电源的负载平衡以及方便用户更快的进行充电,可以向客户端发送与快充状态和慢充状态的分相电源的连接的供电设备信息,用户可以通过客户端选择继续使用处于延迟等待的供电设备等待一段时间后进行充电,也可以通过选择与快充状态和慢充状态的分相电源进行快速充电或慢速。Among them, the information of the split-phase power supply in the fast charging state and the slow charging state in the multi-phase power supply includes the power supply equipment connected to the split-phase power supply in the fast charging state and the slow charging state, and fast charging or slow charging can be performed through the power supply device. . That is, the power supply equipment connected to the split-phase power supply in the fast charging state and the slow charging state can be charged with the first power supply output power or the second power supply output power. In some embodiments, when the power supply state is in the state of delay waiting for charging, in order to ensure the load balance of the multi-phase power supply and facilitate the user to charge more quickly, the split-phase power supply with the fast charging state and the slow charging state may be sent to the client The connected power supply equipment information, the user can choose to continue to use the power supply equipment in the delayed waiting state to wait for a period of time to charge through the client, or to perform fast charging or slow charging by selecting the split-phase power supply in the fast charging state and the slow charging state. .
其中,在本申请实施例中,若第二充电选择为选择目标分相电源停止向用电设备充电,则接收客户端反馈的第二充电选择信息,其中,第二充电选择信息为客户端根据客户的第二充电选择生成的信息;Among them, in the embodiment of the present application, if the second charging selection is to select the target split-phase power supply to stop charging the electrical equipment, the second charging selection information fed back by the client is received, wherein the second charging selection information is based on the client information generated by the customer's second charging selection;
根据第二充电选择信息,得到第二调整信号;obtaining a second adjustment signal according to the second charging selection information;
向与目标分相电源连接的供电设备发送第二调整信号,以停止向用电设备充电。A second adjustment signal is sent to the power supply equipment connected to the target split-phase power supply to stop charging the electrical equipment.
其中,第二充电选择为用户根据需要选择供电设备进行供电或供电设备进行供电。第二充电选择信息是客户端在接收目标分相电源的供电状态信息以及多相电源中处于快充状态和慢充状态的分相电源的信息后,响应于用户的选择操作生成的。The second charging selection is that the user selects a power supply device to supply power or a power supply device to supply power according to needs. The second charging selection information is generated by the client in response to the user's selection operation after receiving the power supply status information of the target split-phase power supply and the information of the split-phase power supply in the fast charging state and the slow charging state in the multi-phase power supply.
其中,第二调整信号用于调整供电输出功率,第二调整信号是基于目标分相电源的供电状态生成的,调整信号可以为PWM波(脉冲宽度调制,Pulse width modulationwave),比如,当目标分相电源处于延迟等待充电状态下时,可以直接向供电设备发送第二调整信号,使得供电设备的输出功率调整至零,并在调整完供电输出功率后,发送第二充电控制信号,使得目标分相电源在有可用供电容量后向供电设备供电。The second adjustment signal is used to adjust the output power of the power supply, the second adjustment signal is generated based on the power supply state of the target split-phase power supply, and the adjustment signal can be a PWM wave (pulse width modulation, Pulse width modulation wave). When the phase power supply is in the state of delay waiting for charging, the second adjustment signal can be sent directly to the power supply equipment, so that the output power of the power supply equipment is adjusted to zero, and after the adjustment of the power supply output power, the second charging control signal is sent, so that the target points The phase power supplies power to the power supply equipment when there is available power supply capacity.
若第二充电选择为选择多相电源处于慢充状态的分相电源向用电设备充电,则接收客户端反馈的第二充电选择信息,其中,第二充电选择信息为客户端根据客户的第二充电选择生成的信息;If the second charging selection is to select the split-phase power supply with the multi-phase power supply in the slow charging state to charge the electrical equipment, the second charging selection information fed back by the client is received, wherein the second charging selection information is the client according to the customer's first charging selection information. 2. Information generated by charging selection;
根据第二充电选择信息,确定第二待充分相电源、第一调整信号和第一充电控制信号;According to the second charging selection information, determine the second to-be-sufficient phase power supply, the first adjustment signal and the first charging control signal;
向与第二待充分相电源连接的供电设备发送第一调整信号,以将所述供电设备的供电输出功率调整为第二供电输出功率;sending a first adjustment signal to the power supply device connected to the second to-be-sufficient phase power supply, so as to adjust the power supply output power of the power supply device to the second power supply output power;
向第二待充分相电源发送第一充电控制信号,以使与第二待充分相电源连接的供电设备向用电设备充电。A first charging control signal is sent to the second to-be-sufficient-phase power source, so that the power supply device connected to the second to-be-sufficient phase power source charges the electrical device.
其中,当第二充电选择为用户选择其他处于慢充状态的分相电源进行充电时,第而充电选择信息可以包括用户在客户端上选择的慢充状态的分相电源的信息,第二待充分相电源可以为根据用户在客户端上选择的快充状态的分相电源的信息确定的。Wherein, when the second charging selection is that the user selects another split-phase power supply in a slow charging state for charging, the second charging selection information may include information on the split-phase power supply in a slow charging state selected by the user on the client, and the second charging selection information The sufficient phase power supply may be determined according to the information of the split-phase power supply in the fast charging state selected by the user on the client.
若第二充电选择为选择多相电源中处于快充状态的分相电源向用电设备充电,则接收客户端反馈的第二充电选择信息,其中,第二充电选择信息为客户端根据客户的第二充电选择生成的信息;If the second charging selection is to select the split-phase power supply in the fast charging state among the multi-phase power supplies to charge the electrical equipment, the second charging selection information fed back by the client is received, wherein the second charging selection information is based on the client's information generated by the second charging selection;
根据第二充电选择信息,确定第一待充分相电源以及第二充电控制信号;determining the first to-be-sufficient phase power supply and the second charging control signal according to the second charging selection information;
向第一待充分相电源发送第二充电控制信号,以使与第一待充分相电源连接的供电设备向用电设备充电。A second charging control signal is sent to the first to-be-sufficient phase power supply, so that the power supply device connected to the first to-be-sufficient phase power supply charges the electrical device.
其中,当第二充电选择为用户选择其他处于快充状态的分相电源进行充电时,第二充电选择信息可以包括用户在客户端上选择的快充状态的分相电源的信息,第二待充分相电源可以为根据用户在客户端上选择的快充状态的分相电源的信息确定的。由上可知,本申请实施例可以通过确定多相电源中各个分相电源的可用供电容量,来确定多相电源中每个分相电源的供电状态,在需要进行充电时,通过接收客户端发送的充电信号,确定供电设备以及与供电设备连接的目标分相电源的供电状态,若供电状态为快充状态,则可以使用供电设备进行快速充电,若供电状态为慢充状态或延迟等待充电状态,则可以使用供电设备进行慢速充电或等待有闲余可供供电容量后进行充,也可以向用户推荐其他处于快充状态的供电设备或处于慢充状态的供电设备进行供电。由此,可以避免多相电源中的各个分相电源在供电使用时,出现某一分相电源出现负载较大,从而导致整个多相电源出现负载不平衡的问题,进而避免了整个供电系统出现供电过载的问题。Wherein, when the second charging selection is that the user selects another split-phase power supply in a fast charging state for charging, the second charging selection information may include information on the split-phase power supply in the fast charging state selected by the user on the client; The sufficient phase power supply may be determined according to the information of the split-phase power supply in the fast charging state selected by the user on the client. It can be seen from the above that in this embodiment of the present application, the power supply status of each split-phase power supply in the multi-phase power supply can be determined by determining the available power supply capacity of each split-phase power supply in the multi-phase power supply, and when charging is required, the data is sent by the receiving client. The charging signal of the power supply device determines the power supply state of the power supply device and the target split-phase power supply connected to the power supply device. If the power supply state is the fast charging state, the power supply device can be used for fast charging. If the power supply state is the slow charging state or the delayed waiting charging state , you can use the power supply device for slow charging or wait until there is spare power supply capacity before charging, or you can recommend other power supply devices in the fast charging state or power supply devices in the slow charging state to supply power to the user. In this way, it can be avoided that when each split-phase power supply in the multi-phase power supply is used for power supply, a certain split-phase power supply has a large load, which leads to the problem of unbalanced load of the entire multi-phase power supply, thereby avoiding the occurrence of the entire power supply system. The problem of power overload.
根据上述实施例所描述的方法,以下将作进一步详细说明。According to the methods described in the above embodiments, further detailed description will be given below.
在本实施例中,将以充电控制为例,对本申请实施例的方法进行详细说明。In this embodiment, the method of the embodiment of the present application will be described in detail by taking charging control as an example.
如图2a和2b所示,一种充电控制方法具体流程如下:As shown in Figures 2a and 2b, the specific flow of a charging control method is as follows:
201、用户使用客户端扫描充电桩上的二维码,获取得到充电桩的设备信息以及与充电桩连接的分相电源的分相电源信息。201. The user scans the two-dimensional code on the charging pile by using the client terminal, and obtains the equipment information of the charging pile and the split-phase power supply information of the split-phase power supply connected to the charging pile.
其中,用户从群充充电桩中选择一个充电桩,通过扫描充电桩上的二维码图像,从而在客户端中确定充电桩的设备信息以及与充电桩连接的分相电源的分相电源信息。Among them, the user selects a charging pile from the group of charging piles, and scans the QR code image on the charging pile to determine the equipment information of the charging pile and the split-phase power supply information of the split-phase power supply connected to the charging pile in the client. .
202、客户端将获取得到分相电源信息发送至服务器,并由服务器通过无线通讯的方式发送至充电控制装置中的充电控制模块。202 , the client sends the obtained information about the split-phase power supply to the server, and the server sends the obtained information to the charging control module in the charging control device by means of wireless communication.
其中,客户端在获取得到分相电源信息后,通过4G网络或5G网络等无线传输方式将分相电源信息发送至服务器,服务器再通过4G网络或5G网络等无线传输方式将分相电源信息发送充电控制装置中的充电控制模块。Among them, after obtaining the split-phase power supply information, the client sends the split-phase power supply information to the server through wireless transmission methods such as 4G network or 5G network, and the server sends the split-phase power supply information through wireless transmission methods such as 4G network or 5G network. The charging control module in the charging control device.
203、充电控制装置中的充电控制模块在接收到分相电源信息后,根据分相电源信息确定分相电源以及分相电源的供电可用率。203. After receiving the split-phase power supply information, the charging control module in the charging control device determines the split-phase power supply and the power supply availability rate of the split-phase power supply according to the split-phase power supply information.
其中,充电控制装置中的充电控制模块根据分相电源信息,确定分相电源以及分相电源的已用电流和额定电流,并根据已用电流和额定电流计算得到分相电源的供电可用率。The charging control module in the charging control device determines the used current and rated current of the split-phase power supply and the split-phase power supply according to the information of the split-phase power supply, and calculates the power supply availability rate of the split-phase power supply according to the used current and the rated current.
204、充电控制装置中的充电控制模块根据供电可用率,确定分相电源的供电状态,并根据分相电源的供电状态向客户端发送分相电源的供电状态信息。204. The charging control module in the charging control device determines the power supply status of the split-phase power supply according to the power supply availability rate, and sends the power supply status information of the split-phase power supply to the client according to the power supply status of the split-phase power supply.
其中,当供电可用率大于30%时,确定该分相电源的供电的可用电容量充足,当供电可用率在10%~30%之间时,确定该分相电源的供电的可用电容量较为充足,当供电可用率小于10%时,确定该分相电源的供电的可用电容量紧张。Among them, when the power supply availability rate is greater than 30%, it is determined that the available capacity of the power supply of the split-phase power supply is sufficient, and when the power supply availability rate is between 10% and 30%, the available power of the power supply of the split-phase power supply is determined. The capacity is relatively sufficient. When the power supply availability rate is less than 10%, it is determined that the available capacity of the power supply of the split-phase power supply is tight.
在确定分相电源的供电状态后,充电控制装置中的充电控制模块根据分相电源的供电状态向客户端发送分相电源的供电状态信息。After determining the power supply status of the split-phase power supply, the charging control module in the charging control device sends the power supply status information of the split-phase power supply to the client according to the power supply status of the split-phase power supply.
205、客户端在接收到分相电源的供电状态信息后:205. After the client receives the power supply status information of the split-phase power supply:
若分相电源的供电状态信息为可用电容量充足,则使用与分相电源连接的充电桩充电;If the power supply status information of the split-phase power supply indicates that the available electric capacity is sufficient, use the charging pile connected to the split-phase power supply to charge;
若分相电源的供电状态信息为可用电容量高峰或紧张时,则在客户端中展示继续在该充电桩充电、其他充电桩充电和不充电的操作按钮,其中,与其他充电桩连接的分相电源的供电状态信息为可用电容量充足。If the power supply status information of the split-phase power supply is when the available power capacity is peak or is tight, the operation buttons to continue charging at this charging pile, charging other charging piles and not charging are displayed in the client terminal. The power supply status information of the split-phase power supply is that the available electric capacity is sufficient.
其中,当客户点击“继续在该充电桩充电”的操作按钮时,则使用与该分相电源连接的充电桩进行充电;当客户点击“其他充电桩充电”的操作按钮时,则使用与供电状态信息为可用电容量充足的分相电源连接的其他充电桩进行充电;当客户点击“不充电”的操作按钮时,则充电不成功。Among them, when the customer clicks the operation button of "continue to charge at this charging pile", the charging pile connected to the split-phase power supply is used for charging; when the customer clicks the operation button of "charging at other charging piles", it is used and power supply The status information is for charging other charging piles connected to the split-phase power supply with sufficient capacity; when the customer clicks the "not charging" operation button, the charging is unsuccessful.
由上可知,本申请实施例可以通过待使用的充电桩确定与充电桩连接的分相电源,并根据确定的分相电源,获取分相电源的已用电流和额定电流,从而得到分相电源的供电可用率,在根据分相电源的供电可用率确定分相电源的使用状态,从而调整与分相电源连接的充电桩的供电输出功率,避免分相电源在使用时,分相电源的负载超过其额定负载,从而导致整个三相电源在使用时出现负载不平衡的问题,同时,在确定分相电源后,用户也可以根据使用需要,去选择分相电源处于快充状态下的其他充电桩进行充电,从而更进一步地使得三相电源中,各个分相电源的负载趋于平衡状态。由此,可以避免三相电源中的各个分相电源在供电使用时,避免出现某一分相电源出现负载较大,从而导致整个三相电源出现负载不平衡的问题,进而避免了整个供电系统出现供电过载的问题。It can be seen from the above that the embodiment of the present application can determine the split-phase power supply connected to the charging pile through the charging pile to be used, and obtain the used current and rated current of the split-phase power supply according to the determined split-phase power supply, thereby obtaining the split-phase power supply. The power supply availability rate of the split-phase power supply is determined according to the power supply availability rate of the split-phase power supply, so as to adjust the power supply output power of the charging pile connected to the split-phase power supply, so as to avoid the load of the split-phase power supply when the split-phase power supply is in use. Exceeding its rated load, resulting in the problem of unbalanced load when the entire three-phase power supply is in use. At the same time, after determining the split-phase power supply, the user can also choose other charging that the split-phase power supply is in the fast charging state according to the needs of use. The piles are charged, thereby further making the load of each split-phase power supply in the three-phase power supply tend to be in a balanced state. In this way, it can be avoided that when each split-phase power supply in the three-phase power supply is used for power supply, a certain split-phase power supply has a large load, which leads to the problem of unbalanced load of the entire three-phase power supply, thereby avoiding the entire power supply system. There is a power supply overload problem.
为了更好地实施以上方法,本申请实施例还提供一种充电控制装置,该充电控制装置具体可以集成在电子设备中,该电子设备可以为终端、服务器等设备。其中,终端可以为手机、平板电脑、智能蓝牙设备、笔记本电脑、个人电脑等设备;服务器可以是单一服务器,也可以是由多个服务器组成的服务器集群。In order to better implement the above method, an embodiment of the present application further provides a charging control apparatus, which may be specifically integrated in an electronic device, and the electronic device may be a terminal, a server, or the like. The terminal may be a mobile phone, a tablet computer, an intelligent Bluetooth device, a notebook computer, a personal computer, etc.; the server may be a single server, or a server cluster composed of multiple servers.
比如,在本实施例中,将以充电控制装置具体集成在电子设备为例,对本申请实施例的方法进行详细说明。For example, in this embodiment, the method of the embodiment of the present application will be described in detail by taking the example that the charging control device is specifically integrated in the electronic device.
例如,如图3所示,该充电控制装置可以包括:For example, as shown in FIG. 3, the charging control device may include:
获取单元301,用于获取多相电源中每个分相电源的可用供电容量;an obtaining
第一确定单元302,用于根据每个分相电源的可用供电容量,实时确定每个分相电源的供电状态,其中,供电状态包括快充状态、慢充状态和延迟等待充电状态,快充状态时,相应的分相电源以第一供电输出功率向用电设备充电,慢充状态时,相应的分相电源以第二供电输出功率向用电设备充电,延迟等待充电状态时,相应的分相电源停止向用电设备充电;The first determining
接收单元303,用于接收客户端发送充电信号;a receiving
第二确定单元304,用于根据充电信号,确定目标分相电源以及目标分相电源的供电状态,其中,目标分相电源为多相电源中客户所选择的分相电源;The
引导单元305,用于根据目标分相电源的供电状态引导客户进行充电,若目标分相电源的供电状态为快充状态,则以第一供电输出功率向用电设备充电;否则,则向客户提供多相电源中的其余分相电源的供电状态信息,并引导客户做出充电选择。The guiding
在本申请一些实施例中,获取单元301还具体用于:In some embodiments of the present application, the obtaining
确定多相电源中的每个分相电源;Identify each split-phase power source in the polyphase power source;
获取每个分相电源的已用电流和额定电流;Obtain the used current and rated current of each split-phase power supply;
根据分相电源的已用电流和额定电流,得到分相电源的供电可用容量。According to the used current and rated current of the split-phase power supply, the available power supply capacity of the split-phase power supply is obtained.
在本申请一些实施例中,获取单元301还具体用于:In some embodiments of the present application, the obtaining
根据已用电流和额定电流,确定可用电流;According to the used current and rated current, determine the available current;
根据额定电流和可用电流,确定分相电源的供电可用率;According to the rated current and available current, determine the power supply availability rate of the split-phase power supply;
根据供电可用率,确定分相电源的可用供电容量。According to the power supply availability rate, the available power supply capacity of the split-phase power supply is determined.
在本申请一些实施例中,第一确定单元302还具体用于:In some embodiments of the present application, the first determining
将可用供电容量分别与预设的第一阈值和第二阈值进行比对,其中,第一阈值大于第二阈值;comparing the available power supply capacity with a preset first threshold and a second threshold, wherein the first threshold is greater than the second threshold;
若可用供电容量大于第一阈值,则确定分相电源的供电状态为快充状态;If the available power supply capacity is greater than the first threshold, it is determined that the power supply state of the split-phase power supply is a fast charging state;
若可用供电容量在第一阈值和第二阈值之间,则确定分相电源的供电状态为慢充状态;If the available power supply capacity is between the first threshold and the second threshold, determining that the power supply state of the split-phase power supply is a slow charging state;
若可用供电容量小于第二阈值,则确定分相电源的供电状态为延迟等待充电状态。If the available power supply capacity is less than the second threshold, it is determined that the power supply state of the split-phase power supply is a delayed waiting charging state.
在本申请一些实施例中,引导单元305还具体用于:In some embodiments of the present application, the guiding
若目标分相电源的供电状态为慢充状态,则向客户端发送目标分相电源的供电状态信息以及多相电源中处于快充状态的分相电源的信息,以使客户根据客户端,做出第一充电选择。If the power supply status of the target split-phase power supply is in the slow charging state, the power supply status information of the target split-phase power supply and the information of the split-phase power supply in the fast charging state in the multi-phase power supply are sent to the client, so that the client can make The first charging option is displayed.
在本申请一些实施例中,引导单元305还具体用于:In some embodiments of the present application, the guiding
若第一充电选择为选择目标分相电源以第二供电输出功率向用电设备充电,则接收客户端反馈的第一充电选择信息,其中,第一充电选择信息为客户端根据客户的第一充电选择生成的信息;If the first charging selection is to select the target split-phase power supply to charge the electrical device with the second power supply output power, the first charging selection information fed back by the client is received, wherein the first charging selection information is the client's first charging selection information according to the customer's first charging selection Information generated by charging selection;
根据第一充电选择信息,得到第一调整信号和充电控制信号;obtaining a first adjustment signal and a charging control signal according to the first charging selection information;
向与目标分相电源连接的供电设备发送第一调整信号,以将所述供电设备的供电输出功率调整为第二供电输出功率;sending a first adjustment signal to the power supply device connected to the target split-phase power supply, so as to adjust the power supply output power of the power supply device to the second power supply output power;
向目标分相电源发送充电控制信号,以使目标分相电源通过供电设备向用电设备充电。A charging control signal is sent to the target split-phase power source, so that the target split-phase power source charges the electrical device through the power supply device.
在本申请一些实施例中,引导单元305还具体用于:In some embodiments of the present application, the guiding
若目标分相电源的供电状态为延迟等待充电状态,则向客户端发送目标分相电源的供电状态信息以及多相电源中处于快充状态和慢充状态的分相电源的信息,以使客户根据客户端,做出第二充电选择。If the power supply status of the target split-phase power supply is in the state of delay waiting for charging, the power supply status information of the target split-phase power supply and the information of the split-phase power supply in the fast charging state and the slow charging state in the multi-phase power supply are sent to the client, so that the customer can Based on the client, a second charging selection is made.
在本申请一些实施例中,引导单元305还具体用于:In some embodiments of the present application, the guiding
若第二充电选择为选择目标分相电源停止向用电设备充电,则接收客户端反馈的第二充电选择信息,其中,第二充电选择信息为客户端根据客户的第二充电选择生成的信息;If the second charging selection is to select the target split-phase power supply to stop charging the electrical equipment, receive the second charging selection information fed back by the client, where the second charging selection information is information generated by the client according to the second charging selection of the client ;
根据第二充电选择信息,得到第二调整信号;obtaining a second adjustment signal according to the second charging selection information;
向与目标分相电源连接的供电设备发送第二调整信号,以停止向用电设备充电。A second adjustment signal is sent to the power supply equipment connected to the target split-phase power supply to stop charging the electrical equipment.
具体实施时,以上各个单元可以作为独立的实体来实现,也可以进行任意组合,作为同一或若干个实体来实现,以上各个单元的具体实施可参见前面的方法实施例,在此不再赘述。During specific implementation, the above units can be implemented as independent entities, or can be arbitrarily combined to be implemented as the same or several entities. The specific implementation of the above units can refer to the previous method embodiments, which will not be repeated here.
由上可知,本实施例的充电控制装置由获取单元301,用于获取多相电源中每个分相电源的可用供电容量;由第一确定单元302,用于根据每个分相电源的可用供电容量,实时确定每个分相电源的供电状态,其中,供电状态包括快充状态、慢充状态和延迟等待充电状态,快充状态时,相应的分相电源以第一供电输出功率向用电设备充电,慢充状态时,相应的分相电源以第二供电输出功率向用电设备充电,延迟等待充电状态时,相应的分相电源停止向用电设备充电;由接收单元303,用于接收客户端发送充电信号;由第二确定单元304,用于根据充电信号,确定目标分相电源以及目标分相电源的供电状态,其中,目标分相电源为多相电源中客户所选择的分相电源;由引导单元305,用于根据目标分相电源的供电状态引导客户进行充电,若目标分相电源的供电状态为快充状态,则以第一供电输出功率向用电设备充电;否则,则向客户提供多相电源中的其余分相电源的供电状态信息,并引导客户做出充电选择。由此,本申请实施例可以避免在充电时,可能会出现负载不平衡,从而使得整个供电系统出现供电过载的问题。It can be seen from the above that in the charging control device of this embodiment, the
本申请实施例还提供一种电子设备,该电子设备可以为终端、服务器等设备。其中,终端可以为手机、平板电脑、智能蓝牙设备、笔记本电脑、个人电脑,等等;服务器可以是单一服务器,也可以是由多个服务器组成的服务器集群,等等。An embodiment of the present application further provides an electronic device, where the electronic device may be a terminal, a server, or the like. The terminal may be a mobile phone, a tablet computer, a smart Bluetooth device, a notebook computer, a personal computer, etc.; the server may be a single server, or a server cluster composed of multiple servers, and the like.
在一些实施例中,该充电控制装置还可以集成在多个电子设备中,比如,充电控制装置可以集成在多个服务器中,由多个服务器来实现本申请的充电控制方法。In some embodiments, the charging control apparatus may also be integrated in multiple electronic devices, for example, the charging control apparatus may be integrated in multiple servers, and the charging control method of the present application may be implemented by multiple servers.
在本实施例中,将以本实施例的电子设备是终端为例进行详细描述,比如,如图4所示,其示出了本申请实施例所涉及的终端的结构示意图,具体来讲:In this embodiment, a detailed description will be given by taking the electronic device of this embodiment as a terminal as an example. For example, as shown in FIG. 4 , which shows a schematic structural diagram of a terminal involved in this embodiment of the present application, specifically:
该终端可以包括一个或者一个以上处理核心的处理器401、一个或一个以上计算机可读存储介质的存储器402、电源403、输入模块404以及通信模块405等部件。本领域技术人员可以理解,图4中示出的SSS结构并不构成对终端的限定,可以包括比图示更多或更少的部件,或者组合某些部件,或者不同的部件布置。其中:The terminal may include a
处理器401是该终端的控制中心,利用各种接口和线路连接整个终端的各个部分,通过运行或执行存储在存储器402内的软件程序和/或模块,以及调用存储在存储器402内的数据,执行终端的各种功能和处理数据。在一些实施例中,处理器401可包括一个或多个处理核心;在一些实施例中,处理器401可集成应用处理器和调制解调处理器,其中,应用处理器主要处理操作系统、用户界面和应用程序等,调制解调处理器主要处理无线通信。可以理解的是,上述调制解调处理器也可以不集成到处理器401中。The
存储器402可用于存储软件程序以及模块,处理器401通过运行存储在存储器402的软件程序以及模块,从而执行各种功能应用以及数据处理。存储器402可主要包括存储程序区和存储数据区,其中,存储程序区可存储操作系统、至少一个功能所需的应用程序(比如声音播放功能、图像播放功能等)等;存储数据区可存储根据终端的使用所创建的数据等。此外,存储器402可以包括高速随机存取存储器,还可以包括非易失性存储器,例如至少一个磁盘存储器件、闪存器件、或其他易失性固态存储器件。相应地,存储器402还可以包括存储器控制器,以提供处理器401对存储器402的访问。The
终端还包括给各个部件供电的电源403,在一些实施例中,电源403可以通过电源管理系统与处理器401逻辑相连,从而通过电源管理系统实现管理充电、放电、以及功耗管理等功能。电源403还可以包括一个或一个以上的直流或交流电源、再充电系统、电源故障检测电路、电源转换器或者逆变器、电源状态指示器等任意组件。The terminal also includes a
该终端还可包括输入模块404,该输入模块404可用于接收输入的数字或字符信息,以及产生与用户设置以及功能控制有关的键盘、鼠标、操作杆、光学或者轨迹球信号输入。The terminal may also include an
该终端还可包括通信模块405,在一些实施例中通信模块405可以包括无线模块,终端可以通过该通信模块405的无线模块进行短距离无线传输,从而为用户提供了无线的宽带互联网访问。比如,该通信模块405可以用于帮助用户收发电子邮件、浏览网页和访问流式媒体等。The terminal may further include a
尽管未示出,终端还可以包括显示单元等,在此不再赘述。具体在本实施例中,终端中的处理器401会按照如下的指令,将一个或一个以上的应用程序的进程对应的可执行文件加载到存储器402中,并由处理器401来运行存储在存储器402中的应用程序,从而实现各种功能,如下:Although not shown, the terminal may also include a display unit and the like, which will not be described herein again. Specifically, in this embodiment, the
获取多相电源中每个分相电源的可用供电容量;Obtain the available power supply capacity of each split-phase power supply in the multi-phase power supply;
根据每个分相电源的可用供电容量,实时确定每个分相电源的供电状态,其中,供电状态包括快充状态、慢充状态和延迟等待充电状态,快充状态时,相应的分相电源以第一供电输出功率向用电设备充电,慢充状态时,相应的分相电源以第二供电输出功率向用电设备充电,延迟等待充电状态时,相应的分相电源停止向用电设备充电;According to the available power supply capacity of each split-phase power supply, the power supply status of each split-phase power supply is determined in real time, wherein the power supply status includes fast charging status, slow charging status and delayed waiting charging status. Charge the electrical equipment with the first power supply output power. In the slow charging state, the corresponding split-phase power supply charges the electrical equipment with the second power supply output power. When the charging state is delayed, the corresponding split-phase power supply stops charging the electrical equipment. Charge;
接收客户端发送充电信号;Receive the charging signal sent by the client;
根据充电信号,确定目标分相电源以及目标分相电源的供电状态,其中,目标分相电源为多相电源中客户所选择的分相电源;Determine the target split-phase power supply and the power supply status of the target split-phase power source according to the charging signal, wherein the target split-phase power source is the split-phase power source selected by the customer in the multi-phase power supply;
根据目标分相电源的供电状态引导客户进行充电,若目标分相电源的供电状态为快充状态,则以第一供电输出功率向用电设备充电;否则,则向客户提供多相电源中的其余分相电源的供电状态信息,并引导客户做出充电选择。Guide the customer to charge according to the power supply status of the target split-phase power supply. If the power supply status of the target split-phase power supply is in the fast charging state, the first power supply output power is used to charge the electrical equipment; otherwise, the customer is provided with the multi-phase power supply. The power supply status information of the remaining split-phase power supplies, and guide customers to make charging choices.
在一些实施例中,还提出一种计算机程序产品,包括计算机程序或指令,该计算机程序或指令被处理器执行时实现上述任一种充电控制方法中的步骤。In some embodiments, a computer program product is also provided, which includes a computer program or instructions, and when the computer program or instructions are executed by a processor, implements the steps in any one of the above charging control methods.
以上各个操作的具体实施可参见前面的实施例,在此不再赘述。For the specific implementation of the above operations, reference may be made to the foregoing embodiments, and details are not described herein again.
本领域普通技术人员可以理解,上述实施例的各种方法中的全部或部分步骤可以通过指令来完成,或通过指令控制相关的硬件来完成,该指令可以存储于一计算机可读存储介质中,并由处理器进行加载和执行。Those of ordinary skill in the art can understand that all or part of the steps in the various methods of the above-mentioned embodiments can be completed by instructions, or by instructions that control relevant hardware, and the instructions can be stored in a computer-readable storage medium, and loaded and executed by the processor.
为此,本申请实施例提供一种计算机可读存储介质,其中存储有多条指令,该指令能够被处理器进行加载,以执行本申请实施例所提供的任一种充电控制方法中的步骤。To this end, the embodiments of the present application provide a computer-readable storage medium, in which a plurality of instructions are stored, and the instructions can be loaded by a processor to execute steps in any charging control method provided by the embodiments of the present application .
其中,该存储介质可以包括:只读存储器(ROM,Read Only Memory)、随机存取记忆体(RAM,Random Access Memory)、磁盘或光盘等。Wherein, the storage medium may include: a read only memory (ROM, Read Only Memory), a random access memory (RAM, Random Access Memory), a magnetic disk or an optical disk, and the like.
根据本申请的一个方面,提供了一种计算机程序产品或计算机程序,该计算机程序产品或计算机程序包括计算机指令,该计算机指令存储在计算机可读存储介质中。According to one aspect of the present application, there is provided a computer program product or computer program comprising computer instructions stored in a computer readable storage medium.
由于该存储介质中所存储的指令,可以执行本申请实施例所提供的任一种充电控制方法中的步骤,因此,可以实现本申请实施例所提供的任一种充电控制方法所能实现的有益效果,详见前面的实施例,在此不再赘述。Since the instructions stored in the storage medium can execute the steps in any charging control method provided by the embodiments of the present application, it is possible to realize the steps that can be realized by any charging control methods provided by the embodiments of the present application. For the beneficial effects, refer to the foregoing embodiments for details, which will not be repeated here.
以上对本申请实施例所提供的一种充电控制方法、装置及计算机可读存储介质进行了详细介绍,本文中应用了具体个例对本申请的原理及实施方式进行了阐述,以上实施例的说明只是用于帮助理解本申请的方法及其核心思想;同时,对于本领域的技术人员,依据本申请的思想,在具体实施方式及应用范围上均会有改变之处,综上所述,本说明书内容不应理解为对本申请的限制。The charging control method, device and computer-readable storage medium provided by the embodiments of the present application have been described in detail above. The principles and implementations of the present application are described with specific examples. The descriptions of the above embodiments are only It is used to help understand the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there will be changes in the specific embodiments and application scope. In summary, this specification The content should not be construed as a limitation on this application.
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Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105896693A (en)* | 2016-05-17 | 2016-08-24 | 中能易电新能源技术有限公司 | Charging circuit, charging method and device of intelligent AC charging pile |
| WO2017154760A1 (en)* | 2016-03-09 | 2017-09-14 | 日本電気株式会社 | Charging facility guidance system, charging facility guidance method, and program storage medium |
| CN114368309A (en)* | 2022-01-20 | 2022-04-19 | 西安艾润物联网技术服务有限责任公司 | Electric vehicle charging resource scheduling method, system, equipment and storage medium |
| CN114523860A (en)* | 2020-11-23 | 2022-05-24 | 长城汽车股份有限公司 | Charging control method and device, electronic equipment and readable storage medium |
| CN114552605A (en)* | 2022-01-26 | 2022-05-27 | 西安祥泰软件设备系统有限责任公司 | Charging resource scheduling method, system, equipment, medium and intelligent load switch |
- 2022
- 2022-08-04CNCN202210933598.4Apatent/CN115085340A/enactivePending
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2017154760A1 (en)* | 2016-03-09 | 2017-09-14 | 日本電気株式会社 | Charging facility guidance system, charging facility guidance method, and program storage medium |
| CN105896693A (en)* | 2016-05-17 | 2016-08-24 | 中能易电新能源技术有限公司 | Charging circuit, charging method and device of intelligent AC charging pile |
| CN114523860A (en)* | 2020-11-23 | 2022-05-24 | 长城汽车股份有限公司 | Charging control method and device, electronic equipment and readable storage medium |
| CN114368309A (en)* | 2022-01-20 | 2022-04-19 | 西安艾润物联网技术服务有限责任公司 | Electric vehicle charging resource scheduling method, system, equipment and storage medium |
| CN114552605A (en)* | 2022-01-26 | 2022-05-27 | 西安祥泰软件设备系统有限责任公司 | Charging resource scheduling method, system, equipment, medium and intelligent load switch |
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