CN113895280A - Electric vehicle service platform and charging pile equipment parameter remote configuration method - Google Patents

Abstract

The invention discloses an electric vehicle charging service platform and a charging pile equipment parameter remote configuration method, which are characterized in that equipment parameters in a charging pile operation monitoring process are configured through a remote monitoring and configuration page, and configuration parameters are issued to a charging pile remote configuration service module of a data acquisition service module; the charging pile remote configuration service assembles the configuration parameters to form a parameter configuration message, and sends the parameter configuration message to the front gateway, and the front gateway sends the parameter configuration message to the charging pile; after receiving the configuration message, the electric vehicle charging pile configures the parameters of the charging pile equipment, sends the parameter configuration result to the charging pile remote configuration service module through the front gateway for decryption and analysis, and then displays the execution results of various configuration parameters on a remote monitoring and configuration interface. The invention can remotely control the starting and stopping of the charging pile, remotely acquire the real-time running state of the charging facility, and also can configure the data acquisition frequency of the charging facility, thereby reducing the pressure on the data transmission and processing of the electric automobile service platform.

Description

Electric vehicle service platform and charging pile equipment parameter remote configuration method

Technical Field

The invention relates to the technical field of electric vehicle data acquisition, in particular to a remote configuration method for parameters of an electric vehicle service platform and charging pile equipment.

Background

With the improvement of the life quality of people, the number of newly added automobiles increases year by year in the present year, and the environmental and energy crisis also increased. The electric automobile is driven by electric energy, has the advantages of cleanness and high efficiency, can effectively reduce exhaust emission and petroleum dependence, has remarkable energy-saving and emission-reducing effects, and can improve economic benefits and social benefits. In recent years, various policies have been promulgated from various countries around the world to support the technical research of electric vehicles and promote the development of the industry. Monitoring to electric automobile fills electric pile running state helps helping fortune dimension personnel to know the condition that electric automobile charges in real time, ensures the facility safety and stability operation that charges, satisfies user's the demand of charging. At present, most monitoring of electric vehicle charging facilities is limited to on-site monitoring of equipment by operation and maintenance personnel, and the operation and maintenance personnel need to acquire real-time operation information of the equipment from a monitoring device of the equipment on site. This has a number of limitations:

(1) the monitoring of the operation and maintenance personnel on the charging facilities can only monitor and acquire the state of a small number of charging facilities on the spot, and cannot acquire the operation data of a plurality of charging facilities.

(2) The existing charging facility monitoring device lacks a remote communication function, and operation and maintenance personnel need to know the operating state of the charging facility on site, so that the operation and maintenance cost is increased.

(3) The existing charging facility acquisition device lacks a man-machine interaction function, operation and maintenance personnel cannot configure the frequency of charging facility data acquisition, and cannot remotely start and stop the charging pile, so that the charging pile cannot be controlled in real time to ensure the safety of the charging facility.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an electric vehicle service platform and a charging pile equipment parameter remote configuration method, and solves the problems that the operation data of a plurality of charging facilities cannot be acquired during the monitoring of the existing electric vehicle charging facilities, and the charging piles cannot be started, stopped and configured remotely.

In order to achieve the above purpose, the invention adopts the following technical scheme: an electric vehicle service platform comprising: the system comprises a remote configuration and monitoring page module, a data acquisition service module and a front gateway module;

the remote configuration and monitoring page module is used for configuring parameters of electric automobile charging pile equipment, configuring the serial number of a remote start-stop or restart charging pile, and displaying an execution result and operation data of the electric automobile charging pile;

the data acquisition service module is used for forming a control message or a parameter configuration message according to the parameters of the electric vehicle charging pile equipment and the number of the remote start-stop or restart charging pile sent by the remote configuration and monitoring page module, sending the message to the front gateway module, decrypting and analyzing an execution result returned by the front gateway module, and sending the decrypted execution result to the remote configuration and monitoring page module for display;

the front gateway module is used for sending the control message or the parameter configuration message sent by the data acquisition service module to the electric vehicle charging pile or sending the received execution result and/or the operation data sent by the electric vehicle charging pile to the charging pile data acquisition processing service module.

Further, the data collection service module comprises: the charging pile remote start-stop service module, the charging pile remote configuration service module and the charging pile data acquisition and processing service module are arranged in the charging pile remote start-stop system;

the charging pile remote start-stop service module is used for assembling to form a control message of a start, stop or restart command according to the number of the remote start-stop or restart charging pile issued by the remote configuration and monitoring page module, issuing the control message to the front gateway module, decrypting and analyzing an execution result returned by the front gateway module, and then sending the decrypted result to the remote configuration and monitoring page module for display;

the charging pile remote configuration service module is used for assembling according to configuration parameters of electric vehicle charging pile equipment issued by the remote configuration and monitoring page module to form a parameter configuration message, issuing the parameter configuration message to the front gateway module, decrypting and analyzing an execution result returned by the front gateway module, and then sending the decrypted execution result to the remote configuration and monitoring page module for display;

the charging pile data acquisition and processing service module is used for decrypting and analyzing the charging pile operation data sent by the front gateway module and sending the charging pile operation data to the remote configuration and monitoring page module for display.

Furthermore, the control message and the parameter configuration message in the data acquisition service module are encrypted and then sent to the front gateway module through the message queue.

Further, the parameters of the electric vehicle charging pile device comprise one or more of the following combinations: the method comprises the steps of heartbeat cycle, retransmission cycle of received system abnormal transactions, real-time data frequency monitoring in the charging process of equipment, real-time data frequency monitoring in the non-charging process of equipment, alarm, fault full information uploading frequency, position and clock information uploading frequency, ammeter bottom value uploading frequency, SIM network information uploading frequency and equipment operation information uploading frequency.

Furthermore, the electric vehicle charging pile has a remote communication function, corresponding starting, stopping or restarting is executed according to the received control message, or parameters of the charging pile are configured according to the received parameter configuration message, and an execution result and/or charging pile operation data are uploaded to the front gateway module.

A remote configuration method for equipment parameters of an electric vehicle charging pile comprises the following steps:

configuring equipment parameters in the charging pile operation monitoring process to obtain configuration parameters;

assembling the configuration parameters to form a parameter configuration message;

and configuring the parameters of the charging pile equipment according to the received parameter configuration message.

Further, the parameter configuration message is encrypted and then issued through a message queue.

Further, the parameters of the electric vehicle charging pile device comprise one or more of the following combinations: the method comprises the steps of heartbeat cycle, retransmission cycle of received system abnormal transactions, real-time data frequency monitoring in the charging process of equipment, real-time data frequency monitoring in the non-charging process of equipment, alarm, fault full information uploading frequency, position and clock information uploading frequency, ammeter bottom value uploading frequency, SIM network information uploading frequency and equipment operation information uploading frequency.

Furthermore, the electric vehicle charging pile has a remote communication function, and executes corresponding starting, stopping or restarting according to the received control message, or configures parameters of the charging pile according to the received parameter configuration message, and uploads an execution result and/or charging pile operation data.

The invention achieves the following beneficial effects: the operation and maintenance personnel can remotely control the starting and stopping of the charging pile through the acquisition monitoring interface of the electric automobile service platform, remotely acquire the real-time running state of the charging facility, and also can configure the data acquisition frequency of the charging facility through the acquisition monitoring interface, thereby reducing the pressure on the data transmission and processing of the electric automobile service platform. The method has great significance for solving the problem of data acquisition of the electric automobile charging facility, ensuring the safety of the charging facility, lightening the burden of operation and maintenance personnel and promoting the large-scale use of the electric automobile.

Drawings

FIG. 1 is a diagram of an electric vehicle service platform architecture according to an embodiment of the present invention;

fig. 2 is a flowchart of a remote charging pile device parameter configuration method in an embodiment of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1:

as shown in fig. 1, an electric vehicle service platform includes: the system comprises a remote configuration and monitoring page module, a data acquisition service module and a front gateway module;

the remote configuration and monitoring page module is used for configuring parameters of electric automobile charging pile equipment, configuring the number of a remote start-stop or restart charging pile and displaying an execution result and operation data of the electric automobile charging pile;

the parameters of the electric automobile charging pile equipment comprise: the method comprises the steps of a heartbeat cycle, a received system abnormal transaction retransmission cycle, a device charging process real-time monitoring data frequency, a device non-charging process real-time monitoring data frequency, an alarm, a fault full information uploading frequency, a position and clock information uploading frequency, an ammeter bottom value uploading frequency, an SIM network information uploading frequency and a device operation information uploading frequency;

the data acquisition service module comprises: the charging pile remote start-stop service module, the charging pile remote configuration service module and the charging pile data acquisition and processing service module are arranged in the charging pile remote start-stop system;

the charging pile remote start-stop service module is used for assembling according to the number of the remote start-stop or restart charging pile issued by the remote configuration and monitoring page module to form a control message of a start, stop or restart command, encrypting the control message and issuing the encrypted control message to the front gateway module by adopting an MQ message queue;

the charging pile remote configuration service module is used for assembling according to the configuration parameters of the electric vehicle charging pile equipment issued by the remote configuration and monitoring page module to form a parameter configuration message, encrypting the parameter configuration message and issuing the encrypted parameter configuration message to the front gateway module by adopting an MQ message queue;

the charging pile data acquisition and processing service module is used for decrypting and analyzing the charging pile execution result and the operation data sent by the front gateway module and sending the charging pile execution result and the operation data to the remote configuration and monitoring page module for display;

the front gateway module is used for sending the control message or the parameter configuration message sent by the data acquisition service module to the electric vehicle charging pile or sending the received execution result and/or the operation data sent by the electric vehicle charging pile to the charging pile data acquisition processing service module; the information is transmitted to the electric vehicle charging pile through a TCP/IP remote communication protocol, and a specific communication mode can adopt 4G wireless communication;

the electric vehicle charging pile has a remote communication function, executes corresponding starting, stopping or restarting according to the received control message, or configures charging pile data acquisition parameters according to the received parameter configuration message, and uploads an execution result and/or charging pile operation data to the front gateway module;

through the remote start-stop to the facility that charges in batches, can reduce the manpower and materials input to the on-the-spot operation and maintenance of equipment in a large number. Some important parameters of the charging pile equipment in the operation process need to be configured in the automatic operation and maintenance process, and operation and maintenance personnel can configure the parameters of the equipment in batches according to different conditions of regions, equipment type manufacturers and the like, so that the remote configuration of mass equipment is realized.

The messages of the start-stop and start-stop execution results are as follows:

table 1 start/stop control command downlink data message

Table 2 uplink data message of start/stop control command execution result

The remote restart message is as follows:

table 3 remote restart issuing equipment data message

Table 4 remote restart upload execution command result message

Table 5 parameter configuration uplink data

Table 6 parameter configuration downlink data

Example 2:

as shown in fig. 2, a method for remotely configuring parameters of an electric vehicle charging pile device includes the steps of:

the equipment parameters in the charging pile operation monitoring process are configured through a remote monitoring and configuration page, and the configuration parameters are issued to a charging pile remote configuration service module of the data acquisition service module;

the charging pile remote configuration service assembles the configuration parameters to form a parameter configuration message, and sends the parameter configuration message to the front gateway, and the front gateway sends the parameter configuration message to the charging pile;

after receiving the parameter configuration message, the electric vehicle charging pile configures the parameters of the charging pile equipment, sends the parameter configuration result to the charging pile remote configuration service module through the front gateway for decryption and analysis, and then displays the execution results of various configuration parameters on a remote monitoring and configuration interface.

And the parameter configuration message is encrypted and then sent to the preposed gateway module through a message queue.

The parameters of the electric automobile charging pile equipment comprise one or more of the following combinations: the method comprises the steps of heartbeat cycle, retransmission cycle of received system abnormal transactions, real-time data frequency monitoring in the charging process of equipment, real-time data frequency monitoring in the non-charging process of equipment, alarm, fault full information uploading frequency, position and clock information uploading frequency, ammeter bottom value uploading frequency, SIM network information uploading frequency and equipment operation information uploading frequency.

The electric vehicle charging pile has a remote communication function, corresponding starting, stopping or restarting is executed according to the received control message, or parameters of the charging pile are configured according to the received parameter configuration message, and an execution result and/or charging pile operation data are uploaded to the front gateway module.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides an electric automobile service platform which characterized in that: the method comprises the following steps: the system comprises a remote configuration and monitoring page module, a data acquisition service module and a front gateway module;

the remote configuration and monitoring page module is used for configuring parameters of electric automobile charging pile equipment, configuring the serial number of a remote start-stop or restart charging pile, and displaying an execution result and operation data of the electric automobile charging pile;

the data acquisition service module is used for forming a control message or a parameter configuration message according to the parameters of the electric vehicle charging pile equipment and the number of the remote start-stop or restart charging pile sent by the remote configuration and monitoring page module, sending the message to the front gateway module, decrypting and analyzing an execution result returned by the front gateway module, and sending the decrypted execution result to the remote configuration and monitoring page module for display;

the front gateway module is used for sending the control message or the parameter configuration message sent by the data acquisition service module to the electric vehicle charging pile or sending the received execution result and/or the operation data sent by the electric vehicle charging pile to the charging pile data acquisition processing service module.

2. The electric vehicle service platform of claim 1, wherein: the data acquisition service module comprises: the charging pile remote start-stop service module, the charging pile remote configuration service module and the charging pile data acquisition and processing service module are arranged in the charging pile remote start-stop system;

the charging pile remote start-stop service module is used for assembling to form a control message of a start, stop or restart command according to the number of the remote start-stop or restart charging pile issued by the remote configuration and monitoring page module, issuing the control message to the front gateway module, decrypting and analyzing an execution result returned by the front gateway module, and then sending the decrypted result to the remote configuration and monitoring page module for display;

the charging pile remote configuration service module is used for assembling according to configuration parameters of electric vehicle charging pile equipment issued by the remote configuration and monitoring page module to form a parameter configuration message, issuing the parameter configuration message to the front gateway module, decrypting and analyzing an execution result returned by the front gateway module, and then sending the decrypted execution result to the remote configuration and monitoring page module for display;

the charging pile data acquisition and processing service module is used for decrypting and analyzing the charging pile operation data sent by the front gateway module and sending the charging pile operation data to the remote configuration and monitoring page module for display.

3. The electric vehicle service platform according to claim 1 or 2, wherein: and the control message and the parameter configuration message in the data acquisition service module are encrypted and then sent to the front gateway module through the message queue.

4. The electric vehicle service platform of claim 1, wherein: the parameters of the electric automobile charging pile equipment comprise one or more of the following combinations: the method comprises the steps of heartbeat cycle, retransmission cycle of received system abnormal transactions, real-time data frequency monitoring in the charging process of equipment, real-time data frequency monitoring in the non-charging process of equipment, alarm, fault full information uploading frequency, position and clock information uploading frequency, ammeter bottom value uploading frequency, SIM network information uploading frequency and equipment operation information uploading frequency.

5. The electric vehicle service platform of claim 1, wherein: the electric vehicle charging pile has a remote communication function, corresponding starting, stopping or restarting is executed according to the received control message, or parameters of the charging pile are configured according to the received parameter configuration message, and an execution result and/or charging pile operation data are uploaded to the front gateway module.

6. A remote configuration method for equipment parameters of an electric vehicle charging pile is characterized by comprising the following steps: the method comprises the following steps:

configuring equipment parameters in the charging pile operation monitoring process to obtain configuration parameters;

assembling the configuration parameters to form a parameter configuration message;

and configuring the parameters of the charging pile equipment according to the received parameter configuration message.

7. The electric vehicle charging pile equipment parameter remote configuration method according to claim 6, characterized by comprising the following steps: and the parameter configuration message is encrypted and then issued through a message queue.

8. The electric vehicle charging pile equipment parameter remote configuration method according to claim 6, characterized by comprising the following steps: the parameters of the electric automobile charging pile equipment comprise one or more of the following combinations: the method comprises the steps of heartbeat cycle, retransmission cycle of received system abnormal transactions, real-time data frequency monitoring in the charging process of equipment, real-time data frequency monitoring in the non-charging process of equipment, alarm, fault full information uploading frequency, position and clock information uploading frequency, ammeter bottom value uploading frequency, SIM network information uploading frequency and equipment operation information uploading frequency.

9. The electric vehicle charging pile equipment parameter remote configuration method according to claim 6, characterized by comprising the following steps: the electric vehicle charging pile has a remote communication function, corresponding starting, stopping or restarting is executed according to the received control message, or parameters of the charging pile are configured according to the received parameter configuration message, and an execution result and/or charging pile operation data are uploaded.

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