CN107732996A

CN107732996A - The control system and method for charging equipment

Info

Publication number: CN107732996A
Application number: CN201610701469.7A
Authority: CN
Inventors: 王林祥; 赵皎平; 王银波
Original assignee: Xian Irain IoT Technology Service Co Ltd
Current assignee: Xian Irain IoT Technology Service Co Ltd
Priority date: 2016-08-22
Filing date: 2016-08-22
Publication date: 2018-02-23

Abstract

The invention discloses a kind of control system of charging equipment, including charging equipment, intelligent controller, network router and cloud platform；The charging equipment is connected with the intelligent controller, and the intelligent controller is communicated by the network router with the cloud platform；The intelligent controller is uploaded to the cloud platform by the charge parameter of the charging equipment got, by the network router, and the cloud platform controls the working condition of the charging equipment according to the charge parameter.The invention also discloses a kind of control method of charging equipment.The present invention improves the efficiency and convenience that the control system of charging equipment is charged to electric vehicle.

Description

Control system and method of charging equipment

Technical Field

The invention relates to the technical field of charging management of charging equipment, in particular to a control system and a control method of the charging equipment.

Background

At present, electric vehicles have become one of important vehicles, and accordingly the number of charging devices has increased. For example, after the operator needs to connect the electric vehicle with charging to the charging device, the operator controls the charging device to perform charging operation of corresponding electric quantity through a button preset on the charging device according to the requirement of the customer. Disconnecting the electric vehicle from the charging device after the charging is completed, and charging the customer for a charging fee, and the like. Therefore, labor force is increased, charging efficiency is reduced, and charging of the electric vehicle is not convenient enough.

Disclosure of Invention

The invention mainly aims to provide a control system and a control method of charging equipment, and aims to improve the efficiency and convenience of the control system of the charging equipment for charging an electric vehicle.

In order to achieve the above object, the present invention provides a control system for a charging device, including a charging device, an intelligent controller, a network router, and a cloud platform; the charging equipment is connected with the intelligent controller, and the intelligent controller is communicated with the cloud platform through the network router;

the intelligent controller uploads the acquired charging parameters of the charging equipment to the cloud platform through the network router, and the cloud platform controls the working state of the charging equipment according to the charging parameters.

Preferably, the control system of the charging device further includes a terminal, the terminal communicates with the intelligent controller through the network router, and the terminal is configured to send a request for obtaining a charging parameter to the intelligent controller, so that the intelligent controller feeds back a corresponding charging parameter based on the request; or,

the terminal is communicated with the cloud platform to obtain the charging parameters uploaded by the intelligent controller from the cloud platform.

Preferably, the control system of the charging device further comprises a third party platform, and the third party platform communicates with the cloud platform;

and the third party platform is used for receiving charging expense information sent by the intelligent controller through the network router by the cloud platform, executing corresponding fee deduction operation according to the charging expense information, uploading fee deduction success information to the cloud platform, and controlling the charging equipment to charge by the cloud platform according to the fee deduction success information.

Preferably, the control system of the charging device further comprises an operation and maintenance platform, and the operation and maintenance platform is communicated with the cloud platform;

the operation and maintenance platform is used for acquiring the charging parameters of the charging equipment from the cloud platform, matching the charging parameters with preset parameter indexes, and when the charging setting is determined to have a fault according to a matching result, remotely repairing the charging equipment according to the fault.

Preferably, the intelligent controller is arranged inside the charging device and connected with a main control module preset in the charging device to acquire charging parameters of the charging device; or the intelligent controller is an external device of the charging device and is used for acquiring the charging parameters of the charging device.

Preferably, the charging device includes a contact charging module that charges an electric vehicle to be charged after being in wired connection with the electric vehicle; and/or the presence of a gas in the gas,

the charging equipment comprises a non-contact charging module, the non-contact charging module is in wireless connection with the electric vehicle to be charged, and the charging equipment charges the electric vehicle after receiving a charging instruction.

In addition, to achieve the above object, the present invention also provides a control method of a charging device, including:

after a charging device is connected with an electric vehicle to be charged, acquiring charging parameters of the charging device through an intelligent controller;

and uploading the charging parameters to a cloud platform through a network router, so that the cloud platform can analyze the charging parameters and control the charging equipment to execute corresponding operations according to an analysis result.

Preferably, the charging parameters include charging fee information and fee deduction success information, and after the charging device is connected with the electric vehicle to be charged, the acquiring of the charging parameters of the charging device through the intelligent controller includes:

after a charging device is connected with an electric vehicle to be charged, acquiring the amount of charge to be charged of the electric vehicle to be charged through the intelligent controller, and determining charging expense information according to the amount of charge to be charged;

the charging expense information is sent to a third-party platform so that the third-party platform can execute corresponding fee deduction operation, and fee deduction success information is sent to the cloud platform when fee deduction is successful;

the third party platform executes corresponding fee deduction operation, which comprises the following steps:

and the third party platform exchanges the member points corresponding to the electric vehicle to be charged into charging fees according to a preset point exchange rule.

Preferably, the control method of the charging apparatus further includes:

a receiving terminal sends an inquiry request for acquiring charging parameters to the intelligent controller, and the intelligent controller is controlled to acquire corresponding charging parameters based on the inquiry request and feed the charging parameters back to the terminal; or,

and receiving a request sent by a terminal to the cloud platform for acquiring the charging parameters uploaded by the intelligent controller, and controlling the cloud platform to feed the charging parameters back to the terminal according to the request.

Preferably, the control method of the charging apparatus further includes:

receiving an acquisition request for acquiring the charging parameters sent by an operation and maintenance platform to the cloud platform, controlling the cloud platform to feed back the corresponding charging parameters to the operation and maintenance platform according to the acquisition request, and allowing the operation and maintenance platform to remotely repair the charging equipment according to the faults when the operation and maintenance platform determines that the charging equipment has the faults according to the charging parameters.

The control system of the charging equipment comprises the charging equipment, an intelligent controller, a network router and a cloud platform, wherein the charging equipment is connected with the intelligent controller, and the intelligent controller is communicated with the cloud platform through the network router. The intelligent controller uploads the acquired charging parameters of the charging equipment to the cloud platform through the network router, so that the cloud platform controls the working state of the charging equipment according to the charging parameters without excessive intervention of workers, intelligent management is achieved, and the efficiency and convenience of charging the electric vehicle by a control system of the charging equipment are improved.

Drawings

Fig. 1 is a schematic flow chart of a control system of a charging device according to a first embodiment of the present invention;

fig. 2 is a schematic flow chart of a control system of a charging device according to a second embodiment of the present invention;

fig. 3 is a schematic flowchart of a control system of a charging device according to a third embodiment of the present invention;

fig. 4 is a schematic flowchart of a control system of a charging device according to a fourth embodiment of the present invention;

fig. 5 is a schematic flow chart of a fifth embodiment of the control system of the charging device according to the present invention;

FIG. 6 is a schematic diagram of a control system of a charging device according to a preferred embodiment of the present invention;

fig. 7 is a functional block diagram illustrating a control method of a charging device according to an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, there is shown a first embodiment of a control system of a charging apparatus of the present invention. The control system of the charging device of this embodiment includes a charging device 10, an intelligent controller 20, a network router 30, and a cloud platform 40; the charging device 10 is connected to the intelligent controller 20, and the intelligent controller 20 communicates with the cloud platform 40 through the network router 30. The intelligent controller 20 uploads the acquired charging parameters of the charging device 10 to the cloud platform 40 through the network router 30, and the cloud platform 40 controls the working state of the charging device 10 according to the charging parameters.

In an embodiment, the intelligent controller 20 is disposed inside the charging device 10, and is connected to a main control module preset in the charging device 10 to obtain the charging parameters of the charging device 10. When the intelligent controller 20 is arranged inside the charging device 10, information interaction is directly performed with the main control module, and charging parameters of the charging device 10 are collected. Of course, the charging device 10 may also communicate with the charging device 10 through a preset data communication protocol to acquire the charging parameters of the charging device 10.

In another embodiment, the intelligent controller 20 is an external device of the charging device 10, and is configured to obtain the charging parameters of the charging device 10. When the intelligent controller 20 is an external device of the charging device, the intelligent controller 20 communicates with the charging device 10 through a preset data communication protocol to acquire charging parameters of the charging device 10. The intelligent controller 20 in this embodiment may be an independent device, or may be a component inside the charging device 10, and although there are two forms, the purpose is to perform communication connection with the charging device 10 to acquire charging parameters of the charging device 10.

In this embodiment, the manner in which the intelligent controller 20 collects the charging parameters of the charging device 10 includes real-time collection or timing collection, and preferably, the intelligent controller 20 collects the charging parameters of the charging device 10 in real time after the charging device 10 is turned on. The charging parameters comprise charging electric quantity information, charging speed, charging expense information, fee deduction success information and the like.

Further, the charging device 10 is provided with a charging button, and the charging button is used for receiving a charging instruction triggered by a user to start or close a charging operation after the contact type charging module is connected with the electric vehicle to be charged.

In order to improve the intelligence of the charging device, in this embodiment, when the charging device 10 receives a charging instruction triggered by a user based on an automatic charging button of the charging device 10, relevant information prompting the user to insert a charging card/bank card is output, and a payment password is input based on a keyboard preset by the charging device 10 to perform payment. Or outputting a code scanning interface for the user to pay by scanning the code. After the charging fee is paid, the charging device 10 determines the required charging amount according to the paid amount, and then the intelligent controller 20 uploads information such as a charging instruction, the charging amount, the charging speed of the charging device 10, and the like to the cloud platform 40. When receiving the information such as the charging instruction, the charging amount, and the charging speed, the cloud platform 40 may control the charging device 10 to start charging. It can be understood that, during the charging process of the charging device 10 controlled by the cloud platform 40, according to the charging electric quantity information required by the electric vehicle and the charging speed of the charging device 10, the actually required charging time can be calculated, then the charging time of the charging device 10 is monitored, and when the charging time is reached, the charging device 10 can be controlled to stop charging.

In addition, the charging device 10 may also feed back the charging fee information to the terminal based on the charging request sent by the receiving terminal, so that the terminal displays the interface information related to the payment based on the charging fee information, and the user inputs the designated amount of money to pay. After the charging fee is paid, the charging device 10 determines the required charging amount according to the paid amount, and then the intelligent controller 20 uploads the charging related information to the cloud platform 40, so that the cloud platform 40 controls the charging device 10 to charge.

It can be understood that the charging device 10, the intelligent controller 20, and the network router 30 constitute an offline system, and in an actual application process, a plurality of such offline systems interact with the cloud platform 40, so as to realize control of the cloud platform 40 over a plurality of charging devices 10.

According to the embodiment of the invention, the intelligent controller 20 uploads the acquired charging parameters of the charging equipment 10 to the cloud platform 40 through the network router 30, so that the cloud platform 40 controls the working state of the charging equipment 10 according to the charging parameters without excessive intervention of workers, intelligent management is realized, and the efficiency and convenience of charging the electric vehicle by the control system of the charging equipment 10 are improved.

Further, a second embodiment of the control system of the charging device according to the present invention is provided, in which the control system of the charging device further includes a terminal, in an embodiment, as shown in fig. 2, the terminal 50 communicates with the intelligent controller 20 through the network router 30, and the terminal 50 is configured to send a request for obtaining a charging parameter to the intelligent controller 20, so that the intelligent controller 20 feeds back a corresponding charging parameter based on the request.

In this embodiment, the type of the terminal may be set according to actual needs, for example, the terminal includes a mobile phone or a tablet computer. When the terminal 50 communicates with the intelligent controller 20 through the network router 30, the intelligent controller 20 may receive a request for obtaining the charging parameters, which is sent by the terminal 50 within a preset distance through a World Wide Web (Web) page or an Application (APP), and collect corresponding charging parameters from the charging device 10 according to the request and feed the charging parameters back to the terminal 50. That is, the terminal 50 in the same lan as the intelligent controller 20 can access the charging device 10 through two modes, i.e., WEB page login and terminal APP login, to query the charging parameters of the charging device 10.

Specifically, the terminal 50 first sends a request for acquiring the charging parameter to the network router 30, then the network router 30 routes the request for acquiring the charging parameter to the intelligent controller 20, and the intelligent controller 20 collects the charging parameter corresponding to the request from the charging device 10 according to the received request and feeds the collected charging parameter back to the terminal 50. The user who needs to know the charging condition of the electric vehicle can perform corresponding query through the terminal 50, and the convenience of acquiring the charging parameters is improved.

In another embodiment, as shown in fig. 3, the terminal 50 communicates with the cloud platform 40 to obtain the charging parameters from the cloud platform 40 based on the uploading of the intelligent controller 20.

In this embodiment, when the terminal 50 is in communication connection with the cloud platform 40, the intelligent controller 20 may receive a charging parameter query request sent by the cloud platform 40 based on the terminal 50, collect charging parameters corresponding to the query request from the charging device 10, and feed back the collected charging parameters to the cloud platform 40, so that the cloud platform 40 forwards the charging parameters to the terminal 50. That is, the various online terminals 50, i.e., the various terminals 50 in the wide area network, may also access the charging device 10 through two modes, i.e., WEB page login and terminal APP login, to query the charging parameters of the charging device 10.

Specifically, the terminal 50 sends an inquiry request of the charging parameter to the cloud platform 40 based on a WEB page or APP, the cloud platform 40 forwards the inquiry request to the network router 30, and the network router 30 routes the inquiry request to the intelligent controller 20. When receiving the query request, the intelligent controller 20 acquires the charging parameters corresponding to the query request from the charging device 10, and feeds the acquired charging parameters back to the cloud platform 40, so that the cloud platform 40 forwards the charging parameters to the terminal 50. The inquiry request includes an inquiry instruction of the remaining power of the charging device 10, an inquiry instruction of the charging speed of the charging device 10, and the like. The user who needs to know the charging condition of the electric vehicle can quickly inquire the charging condition through the terminal 50, and the charging parameter acquisition efficiency is improved.

Further, as shown in fig. 4, a third embodiment of the control system of the charging device of the present invention is proposed, in which the control system of the charging device further includes a third party platform 60, and the third party platform 60 communicates with the cloud platform 40; the third party platform 60 is configured to receive charging cost information sent by the intelligent controller 20 through the network router 30, the cloud platform 40 executes a corresponding fee deduction operation according to the charging cost information, and uploads fee deduction success information to the cloud platform 40, so that the cloud platform 40 controls the charging device 10 to charge according to the fee deduction success information.

In this embodiment, the third-party platform 60 may be a shopping mall, a treasure house, or the like, and provides a member point preference to the vehicle owner, or a third-party application platform capable of paying a charging fee. When the third party platform 60 is in communication connection with the cloud platform 40, since the charging fee is paid online, the charging fee information includes account information and specific charging fee, where the account information may be a bank card number and a password, or an account and a password of a social application (such as a pay bank account number and a pay password). The third party platform 60 verifies account information in the charging cost information before receiving the charging cost information sent by the cloud platform through the network router 30 based on the intelligent controller 20, and executes a fee deduction operation when the account information is verified to be correct. If the fee deduction is successful, fee deduction success information is fed back to the cloud platform 40, so that the cloud platform 40 controls the charging device 10 to charge.

Further, after the fee deduction is successful, the third party platform 60 may also perform a credit in the account, such as adding 10 credits, and receive the fee deduction operation of the account next time, and use the 10 credits to deduct the corresponding charging fee.

It should be noted that the third party platform 60 and the intelligent controller 20 may also directly perform information interaction with the intelligent controller 20 without performing information forwarding through the cloud platform 40, that is, the intelligent controller 20 may communicate with the third party platform 60 through the network router 30.

In this embodiment, the interconnection and intercommunication between the charging device 10 and the third party platform 60 (such as an online payment system and a member score system) and the linkage management can be realized through the platform interface, so that the third party platform 60 not only can realize the online payment of the charging fee, but also can realize the charging score, and the intelligence and flexibility of the control of the charging device 10 are improved.

Further, as shown in fig. 5, a fourth embodiment of the control system of the charging device of the present invention is proposed, in which the control system of the charging device further includes an operation and maintenance platform 70, and the operation and maintenance platform 70 communicates with the cloud platform 40; the operation and maintenance platform 70 is configured to obtain the charging parameters of the charging device 10 from the cloud platform 40, match the charging parameters with preset parameter indexes, and perform remote repair on the charging device 10 according to a fault when it is determined that the charging device has a fault according to a matching result.

In this embodiment, when the operation and maintenance platform 70 is in communication connection with the cloud platform 40, the operation and maintenance platform 70 may acquire the charging parameters acquired by the intelligent controller 20 based on the charging device 10 from the cloud platform 40, detect the acquired charging parameters, feed back the detection result to the cloud platform 40, and forward the detection result to the intelligent controller 20 by the cloud platform 40.

Specifically, the operation and maintenance platform 70 matches the charging parameter with a preset parameter index, determines that the charging device 10 has a fault when the charging parameter is not matched with the preset parameter index, and feeds back alarm information to the cloud platform 40, and the cloud platform 40 forwards the alarm information to the intelligent controller 30, so that the intelligent controller 30 outputs the alarm information to prompt a user. At this time, the operation and maintenance platform 70 may also determine the type of the fault according to the matching result of the charging parameter and the preset parameter index, and perform remote repair on the charging device 10 according to the type of the fault.

It should be noted that the operation and maintenance platform 70 and the intelligent controller 20 may also directly perform information interaction with the intelligent controller 20 without performing information forwarding through the cloud platform 40, that is, the intelligent controller 20 may communicate with the operation and maintenance platform 70 through the network router 30.

In this embodiment, the operation and maintenance platform 70 may obtain the charging parameter of any offline charging device 10 through the cloud platform 40, detect the obtained charging parameter, and finally feed back the detection result to the intelligent controller 20 through the cloud platform 40. When it is determined that the charging device has a preset fault according to the matching result of the charging parameter and the preset parameter index, for example, when the charging device belongs to a software fault which can be remotely repaired, the charging device 10 is remotely repaired according to the preset fault. The data basis is provided for maintenance and repair of the charging device 10, and the fault in the charging device 10 can be remotely diagnosed and repaired, so that the intelligence and flexibility of control of the charging device 10 are improved, and the safety of use of the charging device 10 is realized.

Further, the charging apparatus 10 may be in contact connection with an electric vehicle to be charged, charging the electric vehicle; alternatively, the charging device 10 may perform a contactless connection with an electric vehicle to be charged, and charge the electric vehicle. In one embodiment, the charging device 10 includes a contact charging module that charges an electric vehicle to be charged after wired connection with the electric vehicle. In another embodiment, the charging device 10 includes a non-contact charging module, and the non-contact charging module wirelessly connects to an electric vehicle to be charged, and the charging device 10 charges the electric vehicle after receiving a charging instruction.

Further, the charging device 10 further includes a display screen, and the display screen is configured to display a charging state of the charging device 10, charging alarm information, or a charging guide.

For example, before charging device 10 performs charging, charging device 10 may display a charging guide on a display screen to prompt a user how to use charging device 10; during the charging process of the charging device 10, the charging device 10 may display the charging status on a display screen, so that a user can obtain the charging condition of the charging device 10 at this time; when the charging device 10 malfunctions, the charging device 10 displays corresponding charging warning information according to the malfunction to prompt a user, thereby improving convenience in use of the charging device 10.

Correspondingly, as shown in fig. 7, a first embodiment of a control method of a charging apparatus of the present invention is proposed. The control method of the charging apparatus of this embodiment includes:

step S10, after the charging equipment is connected with the electric vehicle to be charged, the charging parameters of the charging equipment are obtained through the intelligent controller;

in this embodiment, the control method of the charging device is applied to the control system of the charging device, after the charging device is connected with the electric vehicle to be charged in a contact or non-contact manner, the intelligent controller uploads the acquired charging parameters of the charging device to the cloud platform through the network router, and the cloud platform controls the working state of the charging device according to the charging parameters. For example, the charging device is controlled to start charging, stop charging, display charging information, or perform an alarm, etc., according to the analysis result.

In an embodiment, the intelligent controller is disposed inside the charging device and connected to a main control module preset in the charging device to obtain charging parameters of the charging device. When the intelligent controller is arranged inside the charging equipment, the intelligent controller directly performs information interaction with the main control module and collects charging parameters of the charging equipment. Of course, the charging device may also communicate with the charging device through a preset data communication protocol to acquire the charging parameters of the charging device.

In another embodiment, the intelligent controller is an external device of the charging device, and is configured to obtain charging parameters of the charging device. When the intelligent controller is an external device of the charging device, the intelligent controller and the charging device are communicated through a preset data communication protocol to acquire charging parameters of the charging device.

In this embodiment, the manner that the intelligent controller acquires the charging parameters of the charging device includes real-time acquisition or timing acquisition, and preferably, the intelligent controller acquires the charging parameters of the charging device in real time after the charging device is turned on. The charging parameters comprise charging electric quantity information, charging speed, charging expense information, fee deduction success information and the like.

And step S20, uploading the charging parameters to a cloud platform through a network router, so that the cloud platform can analyze the charging parameters, and controlling the charging equipment to execute corresponding operations according to the analysis result.

The charging equipment is provided with a charging button, and the charging button is used for receiving a charging instruction triggered by a user to start or close charging operation after the charging equipment is connected with the electric vehicle to be charged.

In order to improve the intelligence of the charging device, in this embodiment, when the charging device receives a charging instruction triggered by a user based on an automatic charging button of the charging device, the charging device outputs related information prompting the user to insert a charging card/a bank card, and inputs a payment password for payment based on a keyboard preset by the charging device. Or outputting a code scanning interface for the user to pay by scanning the code. After charging fee payment is completed, the charging equipment determines the required charging electric quantity according to the paid amount, and then the intelligent controller uploads information such as a charging instruction, the charging electric quantity and the charging speed of the charging equipment to the cloud platform. When receiving information such as a charging instruction, charging electric quantity and charging speed, the cloud platform can control the charging equipment to start charging. Specifically, the cloud platform analyzes the charging parameters and controls the charging equipment to execute corresponding operations according to the analysis result. For example, the charging device is controlled to start charging, stop charging, display charging information, or perform an alarm according to the analysis result.

It can be understood that, in the charging process of the charging device of the cloud platform system, the actually required charging time can be calculated according to the charging electric quantity information required by the electric vehicle and the charging speed of the charging device, then the charging time of the charging device is monitored, and when the charging time reaches, the charging device can be controlled to stop charging.

The charging device may also feed back the charging fee information to the terminal based on the charging request sent by the receiving terminal, so that the terminal displays the relevant interface information for payment based on the charging fee information, and the user inputs the specified amount of money for payment. After charging fee payment is completed, the charging equipment determines the required charging electric quantity according to the paid amount of money, and then the intelligent controller uploads charging related information to the cloud platform so that the cloud platform can control the charging equipment to charge.

It can be understood that the charging device, the intelligent controller and the network router equivalently form an offline system, and in an actual application process, a plurality of offline systems interact with the cloud platform, so that the cloud platform controls a plurality of charging devices.

For example, as shown in fig. 6, when the vehicle owner drives to the charging station, if the charging mode of the charging device 10 is contact charging, the vehicle owner manually connects the charging wire of the charging device 10 to the charging interface of the electric vehicle, and presses the charging button on the charging device 10 to trigger the charging command. Then, a charging card or a bank card is inserted based on a charging fee payment module preset in the charging device 10, and a payment password is input based on a preset keyboard area, or scanning payment is performed in a code scanning area of the charging device 10. The intelligent controller 20 collects account information, password information and the like in the payment information, uploads the account information, the password information and the like to the third party platform 60 through the network router 30, and executes corresponding fee deduction operation after the information is successfully verified by the third party platform 60. When the fee deduction is successful, the third party platform 60 feeds back fee deduction success information to the intelligent controller 20 associated with the charging device 10. At this time, the intelligent controller 20 collects charging parameters such as charging electric quantity information, a charging instruction, and a charging speed of the charging device 10 of the vehicle, and forwards the collected charging parameters to the cloud platform 40 through the network router 20, and the cloud platform 40 can control the charging device 10 to start charging when receiving the charging parameters such as the charging instruction, the charging electric quantity, and the charging speed. Since the charging amount and the charging speed are known, the cloud platform 40 can calculate the charging time according to the charging amount and the charging speed, and monitor the charging time in real time, and when the charging time arrives, control the charging device 10 to stop charging.

In an embodiment, when receiving a charging parameter query request sent by a terminal within a preset distance through a WEB page (terminal 1 in fig. 6) or an APP (terminal 2 in fig. 6), the intelligent controller 20 collects charging parameters corresponding to the query request from the charging device 10, and feeds back the collected charging parameters to the terminal (terminal 1 or terminal 2) through the network router 30.

In another embodiment, when receiving a charging parameter query request sent by the cloud platform 40 based on a terminal (terminal a or terminal B in fig. 6), the intelligent controller 20 acquires a charging parameter corresponding to the query request from the charging device 10, and feeds back the acquired charging parameter to the cloud platform 40 through the network router 30, so that the cloud platform 40 forwards the charging parameter to the terminal (terminal a or terminal B).

Further, the intelligent controller 20 sends the acquired charging parameters to the operation and maintenance platform 40 through the network router 30 (the operation and maintenance platform 40 may be a 24-hour operation and maintenance platform) so that the operation and maintenance platform 40 detects the acquired charging parameters, and feeds back the detection result to the intelligent controller 20. When the charging parameter is not matched with the preset parameter index, the operation and maintenance platform 40 feeds back alarm information to the intelligent controller 20, so that the intelligent controller 20 outputs the alarm information; and when the detection result is a preset fault, the operation and maintenance platform 40 remotely repairs the charging equipment 10.

In the embodiment, after the charging equipment is connected with the electric vehicle to be charged, the charging parameters of the charging equipment are acquired through the intelligent controller, and the charging parameters are uploaded to the cloud platform through the network router so as to be analyzed by the cloud platform, and the charging equipment is controlled to execute corresponding operations according to the analysis result. And the staff is not required to intervene too much, so that intelligent management is realized, and the efficiency and the convenience of charging the electric vehicle by the control system of the charging equipment are improved.

Further, a second embodiment of the control method of the charging apparatus of the present invention is proposed based on the first embodiment of the control method of the charging apparatus described above, in which the above-described step S10 includes: after a charging device is connected with an electric vehicle to be charged, acquiring the amount of charge to be charged of the electric vehicle to be charged through the intelligent controller, and determining charging expense information according to the amount of charge to be charged;

In this embodiment, the charging parameters include charging fee information, fee deduction success information, and the like, and the third-party platform may be a shopping mall, a treasure-washing net, and the like, and provides a member point preference for a vehicle owner, or a third-party application platform capable of performing charging fee payment. After the charging device is connected with the electric vehicle to be charged, the intelligent controller may obtain a quantity of electricity to be charged of the electric vehicle to be charged, for example, a current electric quantity of the electric vehicle to be charged may be obtained first, and then the quantity of electricity to be charged may be obtained according to a total electric quantity capacity and the current electric quantity of the electric vehicle to be charged. According to the preset mapping relation between the electric quantity and the charge, the charging charge information can be determined according to the charge amount to be charged.

When the third-party platform is in communication connection with the cloud platform, because the charging fee is paid online, the charging fee information includes account information and specific charging fee, wherein the account information may be a bank card number and a password, or an account and a password of a social application (such as a pay bank account number and a pay password). When receiving charging expense information sent by the cloud platform through the network router based on the intelligent controller, the third-party platform verifies account information in the charging expense information, and executes fee deduction operation when the account information is verified to be correct. And if the fee deduction is successful, feeding back fee deduction success information to the cloud platform so that the cloud platform can control the charging equipment to charge.

In the process of charging fee payment, the third party platform may exchange the member points corresponding to the electric vehicle to be charged for charging fees according to a preset point exchange rule, for example, 1 point may be exchanged for 1 yuan, or 100 points may be exchanged for 5 degrees of electricity, and the like. Further, after the fee deduction is successful, the third-party platform may also perform point deduction in the account, for example, add 10 points, and receive the fee deduction operation of the account next time, and use the 10 points to deduct the corresponding charging fee.

It should be noted that the third-party platform and the intelligent controller may also directly perform information interaction with the intelligent controller without performing information forwarding through the cloud platform, that is, the intelligent controller may communicate with the third-party platform through the network router.

The interconnection and intercommunication of the charging equipment and a third-party platform (such as an online payment system and a member score system) and linkage management can be realized through the platform interface, so that the third-party platform can realize online payment of charging cost and charging score, and the intelligence and flexibility of charging equipment control are improved.

Further, based on the first embodiment of the control method of the charging device, a third embodiment of the control method of the charging device according to the present invention is provided, where the control method of the charging device further includes:

The type of the terminal can be set according to actual needs, for example, the terminal includes a mobile phone or a tablet computer. In an embodiment, when the terminal communicates with the intelligent controller through the network router, the intelligent controller may receive a request for acquiring the charging parameters, which is sent by the terminal within a preset distance through a World Wide Web (Web) page or an Application (APP), and collect the corresponding charging parameters from the charging device according to the request and feed the charging parameters back to the terminal. That is to say, a terminal in the same local area network as the intelligent controller can access the charging device through two modes of WEB page login or terminal APP login to query the charging parameters of the charging device.

Specifically, the terminal sends a request for acquiring the charging parameters to the network router, then the network router routes the request for acquiring the charging parameters to the intelligent controller, and the intelligent controller acquires the charging parameters corresponding to the request from the charging equipment according to the received request and feeds the acquired charging parameters back to the terminal. The user who needs to know the charging condition of the electric vehicle can perform corresponding query through the terminal, and the convenience of acquiring the charging parameters is improved.

In another embodiment, when the terminal is in communication connection with the cloud platform, the intelligent controller may receive a charging parameter query request sent by the cloud platform based on the terminal, collect charging parameters corresponding to the query request from the charging device, and feed the collected charging parameters back to the cloud platform, so that the cloud platform forwards the charging parameters to the terminal. That is to say, various online terminals, that is, various terminals in the wide area network, may also access the charging device through two modes, namely, a WEB page login mode or a terminal APP login mode, to query the charging parameters of the charging device.

Specifically, the terminal sends a query request of the charging parameters to the cloud platform based on a WEB page or an APP, the cloud platform forwards the query request to the network router, and the network router routes the query request to the intelligent controller. When receiving the query request, the intelligent controller collects charging parameters corresponding to the query request from the charging equipment, and feeds the collected charging parameters back to the cloud platform, so that the cloud platform can forward the charging parameters to the terminal. The inquiry request includes an inquiry instruction of the remaining capacity of the charging device, an inquiry instruction of the charging speed of the charging device, and the like. The user who needs to know the charging condition of the electric vehicle can quickly inquire the charging condition through the terminal, and the charging parameter acquisition efficiency is improved.

Further, based on the first, second or third embodiment of the control method of the charging device, a fourth embodiment of the control method of the charging device of the present invention is provided, in which the control method of the charging device further includes: receiving an acquisition request for acquiring the charging parameters sent by an operation and maintenance platform to the cloud platform, controlling the cloud platform to feed back the corresponding charging parameters to the operation and maintenance platform according to the acquisition request, and allowing the operation and maintenance platform to remotely repair the charging equipment according to the faults when the operation and maintenance platform determines that the charging equipment has the faults according to the charging parameters.

In this embodiment, when the operation and maintenance platform is in communication connection with the cloud platform, the operation and maintenance platform may acquire the charging parameters acquired by the intelligent controller based on the charging device from the cloud platform, detect the acquired charging parameters, feed back the detection result to the cloud platform, and forward the detection result to the intelligent controller by the cloud platform.

Specifically, when the operation and maintenance platform sends an acquisition request for acquiring the charging parameters to the cloud platform, the cloud platform queries and feeds the corresponding charging parameters back to the operation and maintenance platform according to the acquisition request. The operation and maintenance platform matches the charging parameters with preset parameter indexes, when the charging parameters are not matched with the preset parameter indexes, the charging equipment is determined to have faults, alarm information is fed back to the cloud platform, the cloud platform forwards the alarm information to the intelligent controller, the intelligent controller outputs the alarm information, and a user is prompted. At the moment, the operation and maintenance platform can also determine the type of the fault according to the matching result of the charging parameters and the preset parameter indexes, and remotely repair the charging equipment according to the fault type.

It should be noted that the operation and maintenance platform and the intelligent controller may also directly perform information interaction with the intelligent controller without performing information forwarding through the cloud platform, that is, the intelligent controller may communicate with the operation and maintenance platform through the network router.

In this embodiment, the operation and maintenance platform may obtain the charging parameter of any off-line charging device through the cloud platform, detect the obtained charging parameter, and finally feed back the detection result to the intelligent controller through the cloud platform. When the charging equipment is determined to have a preset fault according to the matching result of the charging parameters and the preset parameter indexes, for example, when the charging equipment belongs to a software fault which can be remotely repaired, the charging equipment is remotely repaired according to the preset fault. The method and the device provide data basis for maintenance and repair of the charging equipment, can remotely diagnose and repair faults in the charging equipment, improve the intelligence and flexibility of control of the charging equipment, and realize the safety of use of the charging equipment.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The control system of the charging equipment is characterized by comprising the charging equipment, an intelligent controller, a network router and a cloud platform; the charging equipment is connected with the intelligent controller, and the intelligent controller is communicated with the cloud platform through the network router;

2. The control system of the charging device according to claim 1, further comprising a terminal, wherein the terminal communicates with the intelligent controller through the network router, and the terminal is configured to send a request for obtaining the charging parameters to the intelligent controller, so that the intelligent controller feeds back the corresponding charging parameters based on the request; or,

3. The control system of a charging device according to claim 1, further comprising a third party platform in communication with the cloud platform;

4. The control system of the charging device according to claim 1, further comprising an operation and maintenance platform, the operation and maintenance platform being in communication with the cloud platform;

5. The control system of the charging device according to claim 1, wherein the intelligent controller is disposed inside the charging device and connected to a main control module preset in the charging device to obtain the charging parameters of the charging device; or the intelligent controller is an external device of the charging device and is used for acquiring the charging parameters of the charging device.

6. The control system of the charging apparatus according to any one of claims 1 to 5, wherein the charging apparatus includes a contact charging module that charges an electric vehicle to be charged after making a wired connection with the electric vehicle; and/or the presence of a gas in the gas,

7. A control method of a charging apparatus, characterized by comprising:

8. The method for controlling the charging device according to claim 7, wherein the charging parameters include charging cost information and fee deduction success information, and the obtaining of the charging parameters of the charging device through the intelligent controller after the charging device is connected with the electric vehicle to be charged comprises:

9. The control method of a charging apparatus according to claim 7, characterized in that the control method of a charging apparatus further comprises:

10. The control method of the charging apparatus according to any one of claims 7 to 9, characterized in that the control method of the charging apparatus further comprises: