CN110154818B - Automatic code binding method and system for multiple charging terminals and power control device - Google Patents

Abstract

The invention discloses a code automatic binding method, a system and a power control device of a multi-charging terminal, wherein the method comprises the following steps: the power control device receives identification information automatically transmitted by a plurality of charging terminals; the power control device creates a plurality of pieces of pairing information of identification information and device codes of the power control device; the power control device sends the pairing information to the server so that the power control device and/or the server stores the pairing information. According to the invention, the identification information is automatically sent by the plurality of charging terminals, so that the power control device and the plurality of charging terminals automatically complete the pairing process, the pairing accuracy is improved, the manual operation links are reduced, and the labor cost is saved.

Description

Automatic code binding method and system for multiple charging terminals and power control device

Technical Field

The invention relates to the technical field of electric vehicle charging, in particular to a code automatic binding method of multiple charging terminals, a code automatic binding system of the multiple charging terminals and a power control device.

Background

At present, in order to improve the utilization rate of the power of the charging pile, the charging pile at present is generally designed into a main power cabinet and provided with a plurality of charging terminals. And then the charging terminal is connected with the main power cabinet through a wire. However, sometimes the main power cabinet and the charging terminals are not produced by one manufacturer, even if the main power cabinet and the charging terminals are produced by the same manufacturer, a plurality of charging terminals and the power cabinet cannot be connected in advance and well paired before leaving a factory, so that errors cannot occur in transportation and field installation, and otherwise, the phenomenon that charging cannot be performed occurs. If the field is installed and then the pairing is carried out, the requirement on field personnel can be high, and if the field personnel make mistakes, the phenomenon that charging cannot be carried out can also be caused.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a method, a system and a power control device for automatically binding codes of multiple charging terminals, wherein the multiple charging terminals automatically send identification information to automatically complete the pairing process of the multiple charging terminals and the power control device, so that the pairing accuracy is effectively ensured, the condition that charging equipment cannot be charged when manual pairing is wrong is avoided, manual operation links are reduced, and the labor cost is effectively saved.

In order to solve the above technical problem, according to an aspect of the present invention, there is provided a code automatic binding method for multiple charging terminals, including that a power control device receives identification information automatically transmitted from multiple charging terminals;

the power control device creates a plurality of pairing information of the identification information and a device code of the power control device;

the power control device sends the pairing information to a server, so that the power control device and/or the server stores the pairing information.

Further, the identification information includes: the terminal codes and the communication port identifications of the charging terminals;

the pairing information comprises the corresponding relation of each terminal code, the communication port identification and the device code; and

the step of the power control device sending the pairing information to a server so that the power control device and/or the server stores the pairing information comprises:

the power control device stores the corresponding relation of the device code, the communication port identification and the terminal code; and/or

And the power control device sends the corresponding relation between the device code and the terminal code to the server so that the server stores the corresponding relation between the device code and the terminal code.

Further, the method further comprises:

a target power control device receives a first target terminal code sent by the server and inquires a target communication port identifier corresponding to the first target terminal code, wherein the target power control device is one of the power control devices corresponding to the first target terminal code sent to the server by a user, the first target terminal code is the terminal code of a target charging terminal, and the target charging terminal is the charging terminal selected by the user from the charging terminals;

and the target power control device sends a charging instruction to the target charging terminal through a target communication port corresponding to the target communication port identification, so that the target charging terminal is charged.

Further, the method further comprises:

the target power control device receives a target communication port identification sent by the server, and sends a charging instruction to a target charging terminal through a target communication port corresponding to the target communication port identification so as to charge the target charging terminal;

the target charging terminal is the charging terminal selected by a user in the plurality of charging terminals, the target power control device is the power control device corresponding to a first target terminal code sent to the server by the user in the plurality of power control devices, and the first target terminal code is the terminal code of the target charging terminal; the target communication port identifier is the communication port identifier corresponding to the first target terminal code in the plurality of communication port identifiers.

Further, the identification information further includes location information; and

the code automatic binding method of the multi-charging terminal further comprises the following steps:

the power control device creates a corresponding relation between a plurality of terminal codes and a plurality of pieces of position information and sends the corresponding relation to the server so that the server stores the corresponding relation between the terminal codes and the position information, inquires target position information corresponding to a second target terminal code after receiving a positioning request sent by a user, and sends the target position information to the user;

wherein the second target terminal code is a terminal code included in the positioning request among the plurality of terminal codes.

According to still another aspect of the present invention, there is provided a power control apparatus for coded auto-binding of a multi-charging terminal, including:

the receiving module is used for receiving the identification information automatically sent by the plurality of charging terminals;

a creation module for creating a plurality of pairing information of the identification information and a device code of the power control device;

a sending module, configured to send the pairing information to a server, so that the power control apparatus and/or the server stores the pairing information.

Further, the identification information includes: the terminal codes and the communication port identifications of the charging terminals; the pairing information comprises the corresponding relation of each terminal code, the communication port identification and the device code; and

the sending module comprises:

a storage unit, configured to store a correspondence between the device code, the communication port identifier, and the terminal code; and/or

A sending unit, configured to send the correspondence between the device code and the terminal code to the server, so that the server stores the correspondence between the device code and the terminal code.

Further, the receiving module is further configured to receive a first target terminal code sent by the server to a target power control device;

the power control apparatus further includes:

the query module is used for querying the target communication port identification corresponding to the first target terminal code; and

the sending module is further configured to send a charging instruction to the target charging terminal through a target communication port corresponding to the target communication port identifier, so that the target charging terminal is charged;

the target power control devices correspond to the first target terminal codes sent to the server by the users in the plurality of power control devices, the first target terminal codes are the terminal codes of the target charging terminals, and the target charging terminals are the charging terminals selected by the users in the plurality of charging terminals.

Further, the receiving module is further configured to receive a target communication port identifier sent by the server to a target power control device; the sending module is further configured to send a charging instruction to a target charging terminal through a target communication port corresponding to the target communication port identifier, so that the target charging terminal is charged;

the target charging terminal is the charging terminal selected by a user in the plurality of charging terminals, the target power control device is the power control device corresponding to a first target terminal code sent to the server by the user in the plurality of power control devices, and the first target terminal code is the terminal code of the target charging terminal; the target communication port identifier is the communication port identifier corresponding to the first target terminal code in the plurality of communication port identifiers.

Further, the identification information further includes location information; and

the creating module is further configured to create a corresponding relationship between the plurality of terminal codes and the plurality of location information, and send the corresponding relationship to the server, so that the server stores the corresponding relationship between the plurality of terminal codes and the plurality of location information, and after receiving a positioning request sent by a user, queries target location information corresponding to a second target terminal code, and sends the target location information to the user;

wherein the second target terminal code is a terminal code included in the positioning request among the plurality of terminal codes.

According to still another aspect of the present invention, there is provided a coded automatic binding system for multiple charging terminals, including: the system comprises a power control device, a server and a plurality of charging terminals;

the charging terminals are respectively connected to the power control device and used for sending identification information to the power control device;

the power control device is also connected with the server and used for receiving a plurality of identification information, creating a plurality of pairing information of the identification information and the device code of the power control device and sending the pairing information to the server;

the power control device and/or the server stores the pairing information.

Further, the identification information includes: the terminal codes and the communication port identifications of the charging terminals;

the pairing information comprises each terminal code, the communication port identifier and the device code; and

the power control device stores the corresponding relation of the device code, the communication port identification and the terminal code; and/or

And the power control device sends the corresponding relation between the device code and the terminal code to the server, and the server stores the corresponding relation between the device code and the terminal code.

The server is further configured to receive a charging request sent by a user, query a target device code corresponding to a first target terminal code from the plurality of device codes, and send the first target terminal code to a target power control device corresponding to the target device code from the plurality of power control devices, where the charging request includes the first target terminal code of a target charging terminal selected by the user from the plurality of charging terminals;

the target power control device is further configured to receive the first target terminal code sent by the server, query a target communication port identifier corresponding to the first target terminal code among the plurality of communication port identifiers, and send a charging instruction to the target charging terminal through a target communication port corresponding to the target communication port identifier;

and the target charging terminal is used for receiving the charging instruction and charging.

Further, the server is further configured to receive a charging request sent by a user, query a target communication port identifier corresponding to the first target terminal code in the plurality of communication port identifiers and a target device code corresponding to the first target terminal code in the plurality of device codes, and send the target communication port identifier to a target power control device corresponding to the target device code in the plurality of power control devices, where the charging request includes the first target terminal code of a target charging terminal selected by the user in the plurality of charging terminals;

the target power control device is further configured to receive the target communication port identifier sent by the server, and send a charging instruction to the target charging terminal through a target communication port corresponding to the target communication port identifier;

and the target charging terminal is used for receiving the charging instruction and charging.

Further, the identification information further includes location information;

the power control device is also used for creating a corresponding relation between a plurality of terminal codes and a plurality of position information and sending the corresponding relation to the server;

the server is further used for storing the corresponding relation between the terminal codes and the position information, inquiring target position information corresponding to a second target terminal code after receiving a positioning request sent by a user, and sending the target position information to the user;

wherein the second target terminal code is a terminal code included in the positioning request among the plurality of terminal codes.

Compared with the prior art, the invention has obvious advantages and beneficial effects. By means of the technical scheme, the code automatic binding method, the system and the power control device of the multi-charging terminal can achieve considerable technical progress and practicability, have wide industrial utilization value and at least have the following advantages:

(1) The identification information is automatically sent by the plurality of charging terminals to complete the pairing process of the plurality of charging terminals and the power control device, so that the occurrence of pairing errors in the manual pairing process is effectively avoided, and the pairing accuracy is ensured;

(2) The identification information is automatically sent by the plurality of charging terminals to complete the pairing process of the plurality of charging terminals and the power control device, so that the manual operation link is reduced, the labor cost is effectively saved, and the equipment installation speed is increased;

(3) The corresponding relation between the terminal codes of the plurality of charging terminals and the position information is stored through the server, when the charging terminals break down or need to be maintained, the installation positions of the charging terminals can be inquired only by inputting the terminal codes of the charging terminals remotely, and the maintenance efficiency of the charging terminals is greatly improved.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a flowchart of an encoding automatic binding method for a multi-charging terminal according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a charging control of a multi-charging terminal according to an embodiment of the present invention;

fig. 3 is a flowchart of charging control of a multi-charging terminal according to another embodiment of the present invention;

FIG. 4 is a schematic block diagram of a power control apparatus according to an embodiment of the present invention;

FIG. 5 is a schematic block diagram of a power control apparatus according to another embodiment of the present invention;

FIG. 6 is a schematic block diagram of a power control apparatus according to yet another embodiment of the present invention;

fig. 7 is a schematic structural diagram of an encoding automatic binding system of a multi-charging terminal according to an embodiment of the present invention.

Detailed Description

To further illustrate the technical means and effects of the present invention for achieving the predetermined object, the following detailed description will be given to specific embodiments and effects of a method, a system and a power control device for code auto-binding of multiple charging terminals according to the present invention with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1, an automatic code binding method for a multi-charging terminal according to an embodiment of the present invention includes:

step S11: the plurality of charging terminals automatically transmit the identification information to the power control device.

Specifically, after the plurality of charging terminals and the power control device are installed and powered on, the plurality of charging terminals respectively send identification information of the plurality of charging terminals to the power control device. In one embodiment, the identification information includes: and the terminal codes and the communication port identifications of the charging terminals. The corresponding terminal code is stored in the charging terminal at the production stage of the charging terminal, and the communication port identification can be the address of the communication port or the port number of the communication port.

Step S12: the power control device receives the plurality of identification information and creates pairing information of the plurality of identification information and a device code of the power control device.

Specifically, after the power control device receives identification information sent by each charging terminal, pairing information of each identification information and a device code of the power control device is created, wherein the pairing information is a corresponding relation of each terminal code, a communication port identifier and the device code.

Step S13: the power control device sends pairing information to a server so that the power control device and/or the server stores the pairing information.

Specifically, after the power control device completes creation of the pairing information, the pairing information is sent to the server, and then the pairing information is stored.

In one embodiment, the power control device stores a correspondence of the device code, the communication port identification, and the terminal code, and the server stores a correspondence of the device code and the terminal code.

In another embodiment, the power control device does not store any correspondence, and the server stores the correspondence of the device code, the communication port identification, and the terminal code.

According to the storage case of this embodiment, when the user makes a charging selection, the method further includes the steps shown in fig. 2, including:

step S21: the server receives a charging request sent by a user.

Specifically, when a user needs to perform charging, the user may adopt the APP to perform code scanning charging, at this time, the APP may send a charging request of the user to the server, where the sent charging request at least includes a terminal code (i.e., a first target terminal code) of a charging terminal (i.e., a target charging terminal) selected by the user.

Step S22: the server queries a target device code corresponding to the first target terminal code and sends the first target terminal code to a target power control device corresponding to the target device code.

Specifically, after receiving the first target terminal code, the server queries a target device code corresponding to the first target terminal code from the correspondence between the device code and the terminal code stored in the server, and then sends the first target terminal code to a power control device (i.e., a target power control device) corresponding to the target device code.

Step S23: the target power control device receives the first target terminal code and inquires the target communication port identification corresponding to the first target terminal code.

Specifically, after the target power control device receives a first target terminal code sent by the server, the communication port identifier corresponding to the first target terminal code (i.e., the target communication port identifier) is queried in the correspondence relationship between the device code, the communication port identifier and the terminal code stored in the target power control device.

Step S24: and the target power control device sends a charging instruction to a target communication port corresponding to the target communication port identification.

Step S25: and the target charging terminal carries out charging after receiving the charging instruction.

Specifically, after the target charging terminal receives a charging instruction sent by the power control device through its communication port (i.e., target communication port), charging is performed according to the charging instruction.

In another embodiment, only the correspondence of the device code, the communication port identification, and the terminal code may be stored in the server, and the power control device does not store the pairing information.

According to the storage case of this embodiment, when the user makes a charging selection, the method further includes the steps shown in fig. 3, including:

step S31: the server receives a charging request sent by a user.

Specifically, when the user needs to charge, the user may adopt the APP to perform code scanning charging, at this time, the APP may send the charging request of the user to the server, and the sent charging request at least includes a terminal code (i.e., a first target terminal code) of a charging terminal (i.e., a target charging terminal) selected by the user.

Step S32: the server queries a target communication port identifier and a target device code corresponding to the first target terminal code.

Specifically, after receiving the first target terminal code, the server queries a target device code and a target communication port identifier corresponding to the first target terminal code from a correspondence relationship among device codes, terminal codes and communication port identifiers stored in the server.

Step S33: and the server sends the target communication port identification to the target power control device corresponding to the target device code.

Step S34: and the target power control device sends a charging instruction to a target communication port corresponding to the target communication port identification.

Step S35: and the charging terminal carries out charging after receiving the charging instruction.

Specifically, after the target charging terminal receives a charging instruction sent by the power control device through its communication port (i.e., target communication port), charging is performed according to the charging instruction.

In an embodiment, the identification information sent by the charging terminal further includes location information, that is, a location where the charging terminal is installed. The power control device further creates a correspondence between the position information of each charging terminal and the terminal code, and transmits the correspondence between the plurality of position information and the terminal code information to the server, so that the server stores the correspondence between the plurality of position information and the terminal code.

When the charging terminal needs to be maintained or has a fault and needs to be maintained, the terminal code (namely, the second target terminal code) of the charging terminal is remotely input and is sent to the server, for example, the terminal code is sent to the server through a mobile phone APP or a computer program, after the server receives the terminal code, the server inquires the corresponding relation between a plurality of pieces of position information stored in the server and the terminal code, the received position information (namely, the target position information) corresponding to the terminal code, and then the position information is sent to a user.

And the user can go to the position to maintain or repair the charging terminal after receiving the position information.

In one embodiment, a method for automatic pairing and automatic identification of an unattended charging terminal and a power cabinet (i.e., a power control device) is provided.

The whole binding process of the method is automatically finished by the charging terminal, the power cabinet and the cloud (namely the server).

When the charging terminal and the power cabinet are produced, any code according with the code definition is pasted on the charging terminal and the power cabinet, a scanning gun is used for scanning the any code, the code on the equipment is input to the charging terminal and/or a control panel in the power cabinet for storage, the charging terminal and the power cabinet can be freely installed and randomly paired, and after the charging terminal and the power cabinet are installed and powered on, the system starts the automatic pairing process.

Specifically, each charging terminal automatically reports its code (i.e., terminal code) to the power cabinet through its communication port (i.e., communication port), and the power cabinet receives the terminal code received by each communication port to form a corresponding list of the communication port code (i.e., communication port identifier), the power cabinet code (device code), and the terminal code.

There are two ways to store the above list.

The first method is as follows:

the power cabinet control board stores the corresponding relation shown in the table 1, uploads the corresponding relation shown in the table 2 to the cloud, and stores the corresponding relation in the cloud.

TABLE 1

TABLE 2

The second method comprises the following steps:

the power cabinet does not store any corresponding relation, reports the corresponding relation as described in table 3 to the cloud, and stores the corresponding relation in the cloud.

TABLE 3

Corresponding to the two storage modes, the method also has two processing modes in the process of selecting charging by the user.

The first method is as follows:

the user scans the code for charging, the APP that scans the code reports the terminal code (namely, the first target terminal code) to the cloud, if BB002, the cloud finds BB002 in the charging terminal codes in numerous lists, after finding, the power cabinet code (namely, the target device code) that BB002 corresponds is AA12345, the cloud issues a command to the power cabinet that AA12345 corresponds, someone needs to use the charging terminal that BB002 corresponds to charge, then the power cabinet receives the command issued by the cloud, searches the list that the power cabinet stores, find No. 2 communication port (namely, the target communication port) that BB002 corresponds, then the power cabinet can issue a charging instruction to the charging terminal that BB002 corresponds through No. 2 communication port.

The second method comprises the following steps:

the user scans codes and charges, then the code scanning APP reports the terminal codes (namely the first target terminal codes) to the cloud, if BB002 exists, the cloud needs to search the terminal codes BB002 in a plurality of lists, after the BB002 is found, a communication port of 2 is obtained, the power cabinet codes are AA12345, then only a command needs to be sent to the power cabinet corresponding to the AA12345, and the power cabinet sends a charging command to the charging terminal corresponding to the BB002 through a No. 2 communication port.

An embodiment of the present invention further provides a power control apparatus, as shown in fig. 4, the apparatus including: a receiving module 1, a creating module 2 and a sending module 3.

The receiving module 1 is used for receiving identification information automatically sent by a plurality of charging terminals; the creating module 2 is used for creating a plurality of pieces of identification information and pairing information of device codes of the power control devices; the sending module 3 is configured to send the pairing information to the server, so that the power control apparatus and/or the server stores the pairing information.

Specifically, after the plurality of charging terminals and the power control device are installed and powered on, the receiving module 1 receives the identification information of the plurality of charging terminals, which is sent by the plurality of charging terminals to the power control device, respectively. In one embodiment, the identification information includes: and the terminal codes and the communication port identifications of the charging terminals. The corresponding terminal code is stored in the charging terminal at the production stage of the charging terminal, and the communication port identification can be the address of the communication port or the port number of the communication port. After the receiving module 1 receives the identification information sent by each charging terminal, the creating module 2 creates pairing information of each identification information and the device code of the power control device, wherein the pairing information is the corresponding relation of each terminal code, the communication port identifier and the device code.

Further, the sending module 3 includes: a storage unit and/or a transmission unit.

The storage unit is used for storing the corresponding relation among the device code, the communication port identifier and the terminal code; the sending unit is used for sending the corresponding relation between the device code and the terminal code to the server so that the server stores the corresponding relation between the device code and the terminal code.

Specifically, after the power control device completes creation of the pairing information, the pairing information is sent to the server, and then the pairing information is stored.

In one embodiment, as shown in fig. 5, the sending module 3 includes a storage unit 31 and a sending unit 32, wherein the storage unit 31 stores the correspondence of the device code, the communication port identifier and the terminal code, and the sending unit 32 sends the correspondence of the storage device code and the terminal code to the server, so that the server stores the correspondence of the device code and the terminal code.

In another embodiment, as shown in fig. 6, the sending module 3 includes a sending unit 32, and the sending unit 32 is configured to send the correspondence of the device code, the communication port identifier, and the terminal code to the server, so that the server stores the correspondence of the device code, the communication port identifier, and the terminal code.

In one embodiment, as shown in fig. 4, the power control apparatus further includes a query module 4. The receiving module 1 of the power control device is also used for receiving a first target terminal code sent by the server to the target power control device; the query module 4 is used for querying a target communication port identifier corresponding to the first target terminal code; the sending module 3 is further configured to send a charging instruction to the target charging terminal through the target communication port corresponding to the target communication port identifier, so that the target charging terminal is charged; the target power control device is a power control device corresponding to a first target terminal code sent to the server by a user from the plurality of power control devices, the first target terminal code is a terminal code of a target charging terminal, and the target charging terminal is a charging terminal selected by the user from the plurality of charging terminals.

Specifically, when the user needs to charge, the user may adopt the APP to perform code scanning charging, at this time, the APP may send the charging request of the user to the server, and the sent charging request at least includes a terminal code (i.e., a first target terminal code) of a charging terminal (i.e., a target charging terminal) selected by the user. After receiving the first target terminal code, the server queries a target device code corresponding to the first target terminal code from the correspondence between the device code and the terminal code stored in the server, and then sends the first target terminal code to a power control device (i.e., a target power control device) corresponding to the target device code. When the receiving module 1 receives the first target terminal code sent by the server, the querying module 4 queries the communication port identifier (i.e. the target communication port identifier) corresponding to the first target terminal code in the correspondence relationship between the device code, the communication port identifier and the terminal code stored in the receiving module. And the sending module 3 sends a charging instruction to the target charging terminal through the target communication port corresponding to the target communication port identifier, and after receiving the charging instruction sent by the power control device, the target charging terminal carries out charging according to the charging instruction.

In another embodiment, the receiving module 1 of the power control apparatus is further configured to receive a target communication port identifier sent by the server to the target power control apparatus; the sending module 3 is further configured to send a charging instruction to the target charging terminal through the target communication port corresponding to the target communication port identifier, so that the target charging terminal is charged; the target charging terminal is a charging terminal selected by a user in the plurality of charging terminals, the target power control device is a power control device corresponding to a first target terminal code sent to the server by the user in the plurality of power control devices, and the first target terminal code is a terminal code of the target charging terminal; the target communication port identification is a communication port identification corresponding to the first target terminal code in the plurality of communication port identifications.

Specifically, when the user needs to charge, the user may adopt the APP to perform code scanning charging, at this time, the APP may send the charging request of the user to the server, and the sent charging request at least includes a terminal code (i.e., a first target terminal code) of a charging terminal (i.e., a target charging terminal) selected by the user. After receiving the first target terminal code, the server queries a target device code and a target communication port identifier corresponding to the first target terminal code in the correspondence of the device code, the terminal code and the communication port identifier stored in the server. And the server sends the target communication port identification to the target power control device corresponding to the target device code. The receiving module 1 receives a target communication port identifier sent by the server, and after receiving the target communication port identifier, the sending module 3 sends a charging instruction to a target communication port corresponding to the target communication port identifier. After the target charging terminal receives the charging instruction sent by the power control device through the communication port (namely, the target communication port), the charging is carried out according to the charging instruction.

In an embodiment, the identification information further comprises location information; the creating module 2 is further configured to create a corresponding relationship between the plurality of terminal codes and the plurality of location information, and send the corresponding relationship to the server, so that the server stores the corresponding relationship between the plurality of terminal codes and the plurality of location information, and after receiving a positioning request sent by a user, queries target location information corresponding to a second target terminal code, and sends the target location information to the user; the second target terminal code is a terminal code included in the positioning request in the plurality of terminal codes.

Specifically, the identification information sent by the charging terminal further includes location information, that is, the location where the charging terminal is installed. The power control device further creates a correspondence between the position information of each charging terminal and the terminal code, and transmits a plurality of correspondences between the position information and the terminal code information to the server, so that the server stores the plurality of correspondences between the position information and the terminal code.

When the charging terminal needs to be maintained or has a fault and needs to be maintained, the terminal code (namely, the second target terminal code) of the charging terminal is remotely input and is sent to the server, for example, the terminal code is sent to the server through a mobile phone APP or a computer program, after the server receives the terminal code, the server inquires the corresponding relation between a plurality of pieces of position information stored in the server and the terminal code, the received position information (namely, the target position information) corresponding to the terminal code, and then the position information is sent to a user.

An embodiment of the present invention further provides an automatic code binding system for multiple charging terminals, as shown in fig. 7, the system includes: power control device 20, server 10, and a plurality of charging terminals 30.

The plurality of charging terminals 30 are respectively connected to the power control device 20, and are configured to transmit identification information to the power control device 20; the power control device 20 is further connected to the server 10, and configured to receive the plurality of identification information and create pairing information of the plurality of identification information and the device code of the power control device 20, and send the pairing information to the server 10; the power control device 20 and/or the server 10 stores the pairing information.

Specifically, after the plurality of charging terminals 30 are installed with the power control device 20 and powered on, the plurality of charging terminals 30 transmit the identification information of the plurality of charging terminals 30 to the power control device 20, respectively. In one embodiment, the identification information includes: a terminal code and a communication port identification of each charging terminal 30. The corresponding terminal code is stored in the charging terminal 30 at the stage of production of the charging terminal 30, and the communication port identification may be an address of the communication port or a port number of the communication port.

After receiving the identification information sent by each charging terminal 30, the power control device 20 creates pairing information between each identification information and the device code of the power control device 20, where the pairing information is a corresponding relationship between each terminal code, the communication port identifier, and the device code, and after the power control device 20 creates the pairing information, the pairing information is sent to the server 10, and then the pairing information is stored.

In one embodiment, the power control device 20 stores the correspondence of device code, communication port identification, and terminal code, and the server 10 stores the correspondence of device code and terminal code.

According to the storage case of this embodiment, the server 10 is also configured to receive a charging request sent by the user when the user makes a charging selection.

Specifically, when the user needs to perform charging, the user may use the APP to perform code scanning charging, at this time, the APP sends a charging request of the user to the server 10, and the sent charging request at least includes a terminal code (i.e., a first target terminal code) of the charging terminal 30 (i.e., a target charging terminal) selected by the user, and sends the terminal code (i.e., the first target terminal code) to the server 10.

After receiving the first target terminal code, the server 10 queries the target device code corresponding to the first target terminal code from the correspondence between the device code and the terminal code stored therein, and further transmits the first target terminal code to the power control device 20 (i.e., the target power control device) corresponding to the target device code.

When the power control device 20 receives the first target terminal code sent by the server 10, it will query the communication port identifier corresponding to the first target terminal code (i.e. the target communication port identifier) in the correspondence relationship between the device code, the communication port identifier and the terminal code stored therein, and further send a charging instruction to the target communication port corresponding to the target communication port identifier.

The charging terminal 30 selected by the user receives a charging command transmitted from the power control device 20 through its communication port (i.e., the target communication port), and then charges in accordance with the charging command.

In another embodiment, only the correspondence of the device code, the communication port identification, and the terminal code may be stored in the server 10, and the power control device 20 does not store the pairing information.

According to the storage situation of this embodiment, when the user selects charging, the user will use APP to perform code scanning charging, at this time, the APP will send the charging request of the user to the server 10, and the sent charging request at least includes the terminal code (i.e. the first target terminal code) of the charging terminal 30 (i.e. the target charging terminal) selected by the user and sends the terminal code (i.e. the first target terminal code) to the server 10.

Specifically, after receiving the first target terminal code, the server 10 queries the target device code and the target communication port identifier corresponding to the first target terminal code from the correspondence relationship among the device code, the terminal code, and the communication port identifier stored therein. The server 10 transmits the target communication port identification to the target device encoding the corresponding power control device 20 (i.e., the target power control device). And the power control device 20 sends a charging instruction to the target communication port corresponding to the target communication port identification. After the charging terminal 30 (i.e., the target charging terminal) selected by the user receives the charging instruction transmitted from the power control device 20 through its communication port (i.e., the target communication port), the charging is performed according to the charging instruction.

In an embodiment, the identification information sent by the charging terminal further includes location information, that is, a location where the charging terminal is installed. The power control device further creates a correspondence between the position information of each charging terminal and the terminal code, and transmits the correspondence between the plurality of position information and the terminal code information to the server, so that the server stores the correspondence between the plurality of position information and the terminal code.

When the charging terminal needs to be maintained or has a fault and needs to be maintained, the terminal code (namely, the second target terminal code) of the charging terminal is remotely input and is sent to the server, for example, the terminal code is sent to the server through a mobile phone APP or a computer program, after the server receives the terminal code, the server inquires the corresponding relation between a plurality of pieces of position information stored in the server and the terminal code, the received position information (namely, the target position information) corresponding to the terminal code, and then the position information is sent to a user.

And the user can go to the position to maintain or repair the charging terminal after receiving the position information.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A code automatic binding method of a multi-charging terminal is characterized by comprising the following steps:

the method comprises the steps that a power control device receives identification information automatically sent by a plurality of charging terminals, wherein the identification information comprises terminal codes and communication port identifications of the charging terminals;

the power control device creates a plurality of pieces of pairing information of the identification information and a device code of the power control device, wherein the pairing information comprises a corresponding relation among the terminal codes, the communication port identification and the device code;

the power control device stores the corresponding relation of the device code, the communication port identification and the terminal code; and/or

And the power control device sends the corresponding relation between the device code and the terminal code to a server so that the server stores the corresponding relation between the device code and the terminal code.

2. The coded auto-binding method for multi-charging terminals according to claim 1, wherein the method further comprises:

a target power control device receives a first target terminal code sent by the server and inquires a target communication port identifier corresponding to the first target terminal code, wherein the target power control device is one of the power control devices corresponding to the first target terminal code sent by a user to the server, the first target terminal code is the terminal code of a target charging terminal, and the target charging terminal is the charging terminal selected by the user from the charging terminals;

and the target power control device sends a charging instruction to the target charging terminal through a target communication port corresponding to the target communication port identification, so that the target charging terminal is charged.

3. The coded auto-binding method for multi-charging terminals according to claim 1, wherein the method further comprises:

the target power control device receives a target communication port identification sent by the server, and sends a charging instruction to a target charging terminal through a target communication port corresponding to the target communication port identification so as to charge the target charging terminal;

the target charging terminal is the charging terminal selected by a user in the plurality of charging terminals, the target power control device is the power control device corresponding to a first target terminal code sent to the server by the user in the plurality of power control devices, and the first target terminal code is the terminal code of the target charging terminal; the target communication port identifier is the communication port identifier corresponding to the first target terminal code in the plurality of communication port identifiers.

4. The encoded automatic binding method of a multi-charging terminal according to claim 1, wherein the identification information further includes location information; and

the method further comprises the following steps:

the power control device creates a corresponding relation between a plurality of terminal codes and a plurality of pieces of position information and sends the corresponding relation to the server so that the server stores the corresponding relation between the terminal codes and the position information, inquires target position information corresponding to a second target terminal code after receiving a positioning request sent by a user, and sends the target position information to the user;

wherein the second target terminal code is a terminal code included in the positioning request among a plurality of terminal codes.

5. A power control apparatus, wherein code for multi-charging terminal auto-binding comprises:

the receiving module is used for receiving identification information automatically sent by a plurality of charging terminals, wherein the identification information comprises a terminal code and a communication port identification of each charging terminal;

a creating module, configured to create pairing information of a plurality of pieces of identification information and a device code of the power control device, where the pairing information includes a correspondence relationship between each of the terminal codes, the communication port identifiers, and the device code;

a sending module, configured to send the pairing information to a server, so that the power control apparatus and/or the server stores the pairing information;

wherein the sending module comprises:

a storage unit, configured to store a correspondence between the device code, the communication port identifier, and the terminal code; and/or

A sending unit, configured to send the correspondence between the device code and the terminal code to the server, so that the server stores the correspondence between the device code and the terminal code.

6. The power control apparatus of claim 5, wherein the receiving module is further configured to receive a first target terminal code sent by the server to a target power control apparatus;

the power control apparatus further includes:

the query module is used for querying the target communication port identification corresponding to the first target terminal code; and

the sending module is further configured to send a charging instruction to a target charging terminal through a target communication port corresponding to the target communication port identifier, so that the target charging terminal is charged;

the target power control devices correspond to the first target terminal codes sent to the server by the users in the plurality of power control devices, the first target terminal codes are the terminal codes of the target charging terminals, and the target charging terminals are the charging terminals selected by the users in the plurality of charging terminals.

7. The power control apparatus of claim 5, wherein the receiving module is further configured to receive a target communication port identifier sent by the server to a target power control apparatus; the sending module is further configured to send a charging instruction to a target charging terminal through a target communication port corresponding to the target communication port identifier, so that the target charging terminal is charged;

the target charging terminal is the charging terminal selected by a user in the plurality of charging terminals, the target power control device is the power control device corresponding to a first target terminal code sent to the server by the user in the plurality of power control devices, and the first target terminal code is the terminal code of the target charging terminal; the target communication port identifier is the communication port identifier corresponding to the first target terminal code in the plurality of communication port identifiers.

8. A multi-charging-terminal code automatic binding system is characterized by comprising: the power control apparatus, the server, and the plurality of charging terminals according to any one of claims 5 to 7;

the charging terminals are respectively connected to the power control device and used for sending identification information to the power control device;

the power control device is also connected with the server and used for receiving a plurality of identification information, creating a plurality of pairing information of the identification information and the device code of the power control device and sending the pairing information to the server;

the power control device and/or the server stores the pairing information.

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