TWI866648B - Service management methods and systems for a battery enery station - Google Patents

Abstract

Service management methods and systems for a battery energy station, suitable for an electronic device used to manage at least one battery energy station. First, it is determined whether the battery energy station can be connected to the electronic device through a network. When the battery energy station can be connected to the electronic device through the network, it is determined whether at least one maintenance operation corresponding to the battery energy station is completed. When the maintenance operation corresponding to the battery energy station is completed, the electronic device causes the battery energy station to be in a service-providing state to allow the battery energy station to perform a battery exchange operation

Description

Battery energy station service management method and system

The present invention relates to a service management method and system for a battery energy station, and in particular to a method and system for determining the service status of a corresponding battery energy station according to the network connection status of the battery energy station and the execution results of maintenance operations.

In recent years, with the rise of environmental awareness and the advancement of electric vehicle technology, the development of electric vehicles powered by electricity to replace traditional vehicles powered by fossil fuels has gradually become an important goal in the automotive field, making electric vehicles more and more popular. In order to improve the range of electric vehicles and the willingness to use them, many countries or cities have begun to plan to set up charging stations and battery energy stations in public places to provide electric cars and/or electric motorcycles with charging or battery exchange, making the use of electric vehicles more convenient.

Encouraged by the government's subsidy policy, many people have also begun to try to buy and use electric vehicles as a means of transportation. Generally speaking, traditional fuel vehicles are refueled when the gasoline is almost used up. Since the refueling time is short, the time spent on refueling will not affect the user's overall driving plan. However, for electric vehicles, there are technological limitations in the battery supply and charging of the vehicle. When riding an electric vehicle, the user must always pay attention to the battery status of the vehicle so that it can be charged in time before the battery power is used up.

Since the installation of electric vehicle charging stations/battery energy stations is not very popular at present, when users need to charge or exchange batteries for their vehicles, such as electric cars or electric motorcycles, they must stop the vehicle and open the mobile phone application to find nearby electric vehicle charging stations/battery energy stations. Therefore, how to ensure the information of electric vehicle charging stations/battery energy stations, such as the correct operation status, will become a matter of great concern to users.

Therefore, the purpose of the present invention is to provide a service management method and system that can overcome the above problems.

Therefore, the service management method of the battery energy station of the present invention is applicable to an electronic device for managing at least one battery energy station. First, it is determined whether the battery energy station can be connected to the electronic device through a network. When the battery energy station can be connected to the electronic device through the network, it is determined whether at least one operation of the corresponding battery energy station is completed. When the operation of the corresponding battery energy station is completed, the electronic device causes the battery energy station to be in a service-providing state to allow the battery energy station to perform a battery exchange operation.

In some embodiments, when the battery energy station cannot be connected to the electronic device through the network, or the maintenance operation of the corresponding battery energy station is not completed, the processing unit causes the battery energy station to be in a state where it cannot provide service to stop the battery energy station from performing the battery exchange operation.

In some embodiments, the maintenance operation includes a database query operation, and the processing unit determines whether the maintenance operation of the corresponding battery energy station is completed by the processing unit submitting a database query request corresponding to the battery energy station to a network service server through the network, and determining whether the electronic device receives a response to the database query request from the network service server. When the electronic device receives the response to the database query request from the network service server, the processing unit determines that the maintenance operation of the corresponding battery energy station is completed.

In some embodiments, when the electronic device has not received the response to the corresponding database query request from the network service server, the processing unit determines that the maintenance operation of the corresponding battery energy station has not been completed, and re-submits the database query request of the corresponding battery energy station to the network service server through the network within a predetermined period of time, and determines whether the response to the corresponding database query request is received from the network service server.

In some embodiments, when the electronic device does not receive the response to the database query request from the network service server after the predetermined period of time, the processing unit generates an abnormal notification, or transmits an abnormal notification to a mobile device of the corresponding administrator via the network.

Another object of the present invention is to provide an electronic device suitable for managing at least one battery energy station.

Therefore, the service management system of the battery energy station of the present invention is applicable to an electronic device for managing at least one battery energy station, which stores and charges a plurality of batteries. The service management system of the battery energy station includes at least a network connection unit and a processing unit for connecting to a network. The processing unit determines whether the network connection unit can be used to connect to the battery energy station through the network. When the network connection unit can be used to connect to the battery energy station through the network, it determines whether at least one operation of the corresponding battery energy station is completed. When the operation of the corresponding battery energy station is completed, the battery energy station is placed in a service-providing state to allow the battery energy station to perform a battery exchange operation.

In some embodiments, when the battery energy station cannot be connected to the electronic device through the network, or the maintenance operation of the corresponding battery energy station is not completed, the processing unit causes the battery energy station to be in a state where it cannot provide service to stop the battery energy station from performing the battery exchange operation.

In some embodiments, the maintenance operation includes a database query operation, and the processing unit determines whether the maintenance operation of the corresponding battery energy station is completed by the processing unit submitting a database query request corresponding to the battery energy station to a network service server through the network, and determining whether the electronic device receives a response to the database query request from the network service server. When the electronic device receives the response to the database query request from the network service server, the processing unit determines that the maintenance operation of the corresponding battery energy station is completed.

In some embodiments, when the electronic device has not received the response to the corresponding database query request from the network service server, the processing unit determines that the maintenance operation of the corresponding battery energy station has not been completed, and re-submits the database query request of the corresponding battery energy station to the network service server through the network within a predetermined period of time, and determines whether the response to the corresponding database query request is received from the network service server.

In some embodiments, when the electronic device does not receive the response to the database query request from the network service server after the predetermined period of time, the processing unit generates an abnormal notification, or transmits an abnormal notification to a mobile device of the corresponding administrator via the network.

The above method of the present invention can exist in the form of program code. When the program code is loaded and executed by a machine, the machine becomes a device for implementing the present invention.

The effect of the present invention is that through the service management method and system of the battery energy station of this case, the service status of the corresponding battery energy station can be determined according to the network connection status of the battery energy station and the execution results of the maintenance operation, so as to provide correct available information of the battery energy station according to the automatic detection mechanism, so as to reduce the inconvenience of users when performing charging/battery replacement operations when using electric vehicles.

Figure 1 shows a service management system of a battery energy station according to an embodiment of the present invention. The service management system 100 of the battery energy station according to an embodiment of the present invention can be applied to an electronic device, such as a server. As shown in Figure 1, the service management system 100 of the battery energy station includes at least a network connection unit 110 and a processing unit 120. The network connection unit 110 can be connected to a network, so that the electronic device has a network connection capability. In some embodiments, the network can be a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network. The processing unit 120 can control the operation of all hardware and software in the electronic device, and execute the service management method of the battery energy station of this case, the details of which will be explained later. In some embodiments, the service management system 100 of the battery energy station may further include a storage unit (not shown in the figure) for storing relevant information of the battery energy station under its management, such as the location of the energy station, and relevant status of the batteries in the corresponding battery energy station, such as the number of batteries, the battery power, etc.

FIG. 2 shows a service management system for a battery energy station according to another embodiment of the present invention. The service management system 100 for the battery energy station according to the embodiment of the present invention includes a remote server 400 and at least one battery energy station 200. It should be noted that the remote server 400 can be an electronic device and has similar components as shown in FIG. 1, which will not be described in detail here. The remote server 400 can be connected to and manage at least one battery energy station 200 through a network 300, such as a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network. It should be noted that in some embodiments, the remote server 400 can simultaneously manage other battery energy stations located at the same location or at different locations. The battery energy station 200 has a plurality of batteries that can be provided to at least one electrical device, such as an electric motorcycle or an electric car.

FIG. 3 shows a battery energy station according to an embodiment of the present invention. The battery energy station 200 according to an embodiment of the present invention may be an electronic device. As shown in FIG. 3 , the battery energy station 200 at least includes a battery storage system 210, an energy module 220, a network connection unit 230, and a processing unit 240. The battery storage system 210 has a specific mechanism (not shown in the figure) that can store a plurality of batteries 212 and selectively lock or release the batteries 212. The battery energy station 200 can provide batteries to at least one electrical device, such as an electric motorcycle or an electric car. The energy module 220 can be electrically coupled to a power grid (not shown in the figure) to obtain a total current to supply electricity to the battery energy station, and charge the batteries 212 according to the signal of the processing unit 240. It must be explained that the battery storage system 210 can include a charging module corresponding to each battery 212, and the aforementioned charging module has an upper current limit and/or a lower current limit to charge the corresponding battery 212. It is worth noting that in some embodiments, the energy module 220 can actively detect the total current supplied by the power grid to the battery energy station 200, and notify the processing unit 240 of the corresponding total current information. The network connection unit 230 can be connected to a network, so that the battery energy station 200 has a network connection capability. In some embodiments, the network can be a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network, etc. The processing unit 240 can control the operation of all hardware and software in the battery energy station 200, and cooperate with the remote server to execute the service management method of the battery energy station of this case, the details of which will be described later.

FIG4 shows a service management method of a battery energy station according to an embodiment of the present invention. The service management method of a battery energy station according to an embodiment of the present invention is applicable to an electronic device, such as a server for managing at least one battery energy station.

First, as in step S410, it is determined whether the battery energy station can be connected to the electronic device through a network, such as a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network. In other words, it is determined whether the battery energy station can be connected to the electronic device through the network. When the battery energy station cannot be connected to the electronic device through the network (No in step S420), as in step S430, the electronic device causes the battery energy station to be in a state where it cannot provide service, so as to stop the battery energy station from performing a battery exchange operation. It should be noted that in a normal battery exchange operation, users can obtain/exchange batteries through the battery energy station. When the battery energy station can be connected to the electronic device through the network (Yes in step S420), as in step S440, it is determined whether at least one maintenance operation of the corresponding battery energy station is completed. It is worth noting that in some embodiments, the maintenance operation can be a database query operation. In some embodiments, the maintenance operation can be a restart operation of the battery energy station. It must be explained that the maintenance operation of the corresponding battery energy station can be designed according to different needs and applications, and the present invention is not limited to this. When the maintenance operation of the corresponding battery energy station is not completed (No in step S450), as in step S430, the electronic device causes the battery energy station to be in a state where it cannot provide service, so as to stop the battery energy station from performing a battery exchange operation. It should be noted that in some embodiments, when the electronic device causes the battery energy station to be in a state where it cannot provide service, the user cannot retrieve the battery energy station through the application, or the state of the corresponding battery energy station is displayed as being unable to provide service. When the maintenance operation of the corresponding battery energy station is completed (Yes in step S450), as in step S460, the electronic device causes the battery energy station to be in a state where it can provide service, so as to allow the battery energy station to perform a battery exchange operation.

FIG. 5 shows a method for determining whether a maintenance operation of a corresponding battery energy station is completed according to an embodiment of the present invention. The method for determining whether a maintenance operation of a corresponding battery energy station is completed according to an embodiment of the present invention is applicable to an electronic device, such as a server for managing at least one battery energy station. In this embodiment, the maintenance operation of the corresponding battery energy station is a database query operation.

First, as in step S510, the electronic device submits a database query request corresponding to the battery energy station to a web service server through a network, such as a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network. Then, as in step S520, it is determined whether the electronic device receives a response corresponding to the database query request from the web service server. When the electronic device does not receive the response corresponding to the database query request from the web service server (no in step S530), the process ends. In some embodiments, when the response is not received, the electronic device determines that the maintenance operation of the corresponding battery energy station has not been completed. When the electronic device receives the response corresponding to the database query request from the network service server (yes in step S530), as in step S540, the electronic device determines that the maintenance operation of the corresponding battery energy station is completed.

FIG. 6 shows a method for determining whether a maintenance operation of a corresponding battery energy station is completed according to another embodiment of the present invention. The method for determining whether a maintenance operation of a corresponding battery energy station is completed according to an embodiment of the present invention is applicable to an electronic device, such as a server for managing at least one battery energy station. In this embodiment, the maintenance operation of the corresponding battery energy station is a database query operation.

First, as in step S610, the electronic device submits a database query request corresponding to the battery energy station to a network service server through a network, such as a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network. Then, as in step S620, it is determined whether the electronic device receives a response corresponding to the database query request from the network service server. When the electronic device receives the response corresponding to the database query request from the network service server (yes in step S630), as in step S640, the electronic device determines that the maintenance operation of the corresponding battery energy station is completed. When the electronic device does not receive the response to the database query request from the network service server (No in step S630), as in step S650, the electronic device determines that the maintenance operation of the corresponding battery energy station has not been completed, and as in step S660, it re-submits the database query request of the corresponding battery energy station to the network service server through the network within a predetermined period of time, and returns to step S620 to determine whether the response to the database query request is received from the network service server.

FIG. 7 shows a method for determining whether a maintenance operation of a corresponding battery energy station is completed according to another embodiment of the present invention. The method for determining whether a maintenance operation of a corresponding battery energy station is completed according to an embodiment of the present invention is applicable to an electronic device, such as a server for managing at least one battery energy station. In this embodiment, the maintenance operation of the corresponding battery energy station is a database query operation.

First, as in step S710, the electronic device submits a database query request corresponding to the battery energy station to a network service server through a network, such as a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network. Then, as in step S720, it is determined whether the electronic device receives a response corresponding to the database query request from the network service server. When the electronic device receives the response corresponding to the database query request from the network service server (yes in step S730), as in step S740, the electronic device determines that the maintenance operation of the corresponding battery energy station is completed. When the electronic device does not receive the response to the database query request from the network service server (No in step S730), as in step S750, the electronic device determines that the maintenance operation of the corresponding battery energy station has not been completed. Then, as in step S760, it is determined whether a predetermined period of time, such as 10 minutes, has passed since the determination that the maintenance operation of the corresponding battery energy station has not been completed. When it has not exceeded the predetermined period of time (No in step S760), as in step S770, the database query request of the corresponding battery energy station is re-issued to the network service server through the network within the predetermined period of time, and the process returns to step S720 to determine whether the response to the database query request has been received from the network service server. When the predetermined time is exceeded (Yes in step S760), an abnormal notification is generated, or an abnormal notification is sent to a mobile device of the corresponding manager via the network, as in step S780. It is worth noting that in some embodiments, the maintenance operation of the corresponding battery energy station can be attempted three times within 10 minutes. When the maintenance operation cannot be completed within the predetermined time, an abnormal notification can be generated and the manager is notified to handle it in time.

Therefore, through the service management method and system of the battery energy station of this case, the service status of the corresponding battery energy station can be determined according to the network connection status of the battery energy station and the execution results of the maintenance operation, thereby providing correct available information of the battery energy station based on the automatic detection mechanism to reduce the inconvenience of users when performing charging/battery replacement operations when using electric vehicles.

The method of the present invention, or a specific form or part thereof, may exist in the form of program code. The program code may be contained in a physical medium, such as a floppy disk, an optical disk, a hard disk, or any other machine-readable (such as computer-readable) storage medium, or a computer program product that is not limited to an external form, wherein when the program code is loaded and executed by a machine, such as a computer, the machine becomes an apparatus for participating in the present invention. The program code may also be transmitted through some transmission medium, such as wires or cables, optical fibers, or any transmission type, wherein when the program code is received, loaded and executed by a machine, such as a computer, the machine becomes an apparatus for participating in the present invention. When implemented on a general-purpose processing unit, the program code combines with the processing unit to provide a unique device that operates similarly to an application-specific logic circuit.

However, the above is only an example of the implementation of the present invention, and it should not be used to limit the scope of the implementation of the present invention. All simple equivalent changes and modifications made according to the scope of the patent application of the present invention and the content of the patent specification are still within the scope of the patent of the present invention.

100: Service management system of battery energy station 110: Network connection unit 120: Processing unit 200: Battery energy station 210: Battery storage system 212: Battery 220: Energy module 230: Network connection unit 240: Processing unit 300: Network 400: Remote server S410, S420, S430, S440, S450, S460: Steps S510, S520, S530, S540: Steps S610, S620, S630, S640, S650, S660: Steps S710, S720, S730, S740, S750, S760, S770, S780: Step

Other features and functions of the present invention will be clearly presented in the implementation method of the reference figures, wherein: FIG. 1 is a schematic diagram illustrating an implementation example of the service management system of the battery energy station of the present invention; FIG. 2 is a schematic diagram illustrating another implementation form of the service management system; FIG. 3 is a schematic diagram illustrating a battery energy station of the present invention; FIG. 4 is a flow chart illustrating the service management method of the battery energy station of the present invention; FIG. 5 is a flow chart illustrating the method of the present invention for determining the completion of the maintenance work of the corresponding battery energy station; FIG. 6 is a flow chart illustrating another method of the present invention for determining the completion of the maintenance work of the corresponding battery energy station; and FIG. 7 is a flow chart illustrating another method of the present invention for determining the completion of the maintenance work of the corresponding battery energy station.

S410, S420, S430, S440, S450, S460: Steps

Claims (10)

A service management method for a battery energy station is applicable to an electronic device for managing at least one battery energy station, wherein the battery energy station stores and charges a plurality of batteries, and the service management method comprises the following steps: Determining whether the battery energy station can be connected to the electronic device via a network; When the battery energy station can be connected to the electronic device via the network, determining whether at least one operation of the corresponding battery energy station is completed; and When the maintenance operation of the corresponding battery energy station is completed, the electronic device causes the battery energy station to be in a service-providing state to allow the battery energy station to perform a battery exchange operation. The service management method of the battery energy station as described in claim 1 further includes that when the battery energy station cannot be connected to the electronic device through the network, or the corresponding maintenance operation of the battery energy station is not completed, the electronic device causes the battery energy station to be in a state where it cannot provide service, so as to stop the battery energy station from performing the battery exchange operation. The service management method of the battery energy station as described in claim 1, wherein the maintenance operation includes a database query operation, and the method for determining whether the maintenance operation of the corresponding battery energy station is completed includes the following steps: The electronic device submits a database query request corresponding to the battery energy station to a network service server through the network; Determine whether the electronic device receives a response corresponding to the database query request from the network service server; and When the electronic device receives the response corresponding to the database query request from the network service server, the electronic device determines that the maintenance operation of the corresponding battery energy station is completed. The service management method of the battery energy station as described in claim 3 further includes the following steps: When the electronic device does not receive the response to the corresponding database query request from the network service server, the electronic device determines that the maintenance operation of the corresponding battery energy station has not been completed; and The electronic device re-submits the database query request of the corresponding battery energy station to the network service server through the network within a predetermined period of time, and determines whether the response to the corresponding database query request is received from the network service server. The service management method of the battery energy station as described in claim 4 further includes that when the electronic device does not receive the response to the corresponding database query request from the network service server after the predetermined period of time, the electronic device generates an abnormal notification, or transmits an abnormal notification to a mobile device of the corresponding manager through the network. A service management system for a battery energy station is applicable to an electronic device for managing at least one battery energy station, wherein the battery energy station stores and charges a plurality of batteries. The service management system comprises: a network connection unit for connecting to a network; and a processing unit for determining whether the network connection unit can be used to connect to the battery energy station through the network. When the network connection unit can be used to connect to the battery energy station through the network, determining whether at least one operation of the corresponding battery energy station is completed. When the operation of the corresponding battery energy station is completed, the battery energy station is placed in a service-providing state to allow the battery energy station to perform a battery exchange operation. A service management system for a battery energy station as described in claim 6, wherein, when the battery energy station cannot be connected to the electronic device through the network, or the corresponding maintenance operation of the battery energy station is not completed, the processing unit causes the battery energy station to be in a state where it cannot provide service, so as to stop the battery energy station from executing the battery exchange operation. A service management system for a battery energy station as described in claim 6, wherein the maintenance operation includes a database query operation, and the processing unit determines whether the maintenance operation of the corresponding battery energy station is completed by the processing unit submitting a database query request corresponding to the battery energy station to a network service server through the network, and determining whether the electronic device receives a response to the database query request from the network service server, and when the electronic device receives the response to the database query request from the network service server, the processing unit determines that the maintenance operation of the corresponding battery energy station is completed. A service management system for a battery energy station as described in claim 8, wherein, when the electronic device has not received the response to the corresponding database query request from the network service server, the processing unit determines that the maintenance operation of the corresponding battery energy station has not been completed, and re-submits the database query request of the corresponding battery energy station to the network service server through the network within a predetermined period of time, and determines whether the response to the corresponding database query request has been received from the network service server. A service management system for a battery energy station as described in claim 9, wherein, when the electronic device does not receive the response to the corresponding database query request from the network service server after the predetermined period of time, the processing unit generates an abnormal notification, or transmits an abnormal notification to a mobile device of the corresponding manager via the network.