CN116278922A

CN116278922A - Charging control method, device and system

Info

Publication number: CN116278922A
Application number: CN202310333988.2A
Authority: CN
Inventors: 何佳佳; 张金泰; 徐良
Original assignee: Chongqing Changan Automobile Co Ltd
Current assignee: Chongqing Changan Automobile Co Ltd
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-06-23

Abstract

The invention relates to a charging control method, a device and a system, which relate to the technical field of charging and comprise the following steps: under the condition that the first Bluetooth module is successfully connected with a second Bluetooth module in the vehicle, the connection information is sent to the second Bluetooth module through the first Bluetooth module, so that the second Bluetooth module pushes the connection information to a mobile terminal of a user through a vehicle communication module in the vehicle; receiving a charging instruction sent by a second Bluetooth module through a first Bluetooth module, wherein the charging instruction is sent to the second Bluetooth module by a mobile terminal through a mobile phone communication module and a vehicle communication module; and sending a charging instruction to the control module through the first Bluetooth module, and controlling the charging pile to charge the vehicle through the control module. According to the invention, the Bluetooth of the charging pile is used for carrying out short-distance communication with the vehicle Bluetooth, and under the condition that the charging pile does not need to be provided with a communication module, the vehicle communication module is used for realizing remote control of vehicle charging by a user, so that the control requirement on the charging pile is met, and the user experience is improved.

Description

Charging control method, device and system

Technical Field

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

Background

With the development of new energy vehicle technology, the electric automobile has higher and higher conservation in the market, and in order to keep the vehicle endurance, public charging piles can not meet the requirements, and more electric automobile users install private charging piles on parking spaces. The charging pile can be fixed on the wall or the ground, the input end of the charging pile is connected with an alternating current power grid, and the standard charging gun head of the output end is matched with a charging port on the electric automobile to charge the electric automobile.

At present, charging stake needs to be authorized the back and can start charging, and charging stake uses the mode of punching the card or bluetooth communication to carry out the authentication management that charges generally, and wherein, the user is punched the card and is started charging and is charged stake bluetooth and on-vehicle bluetooth communication's mode and only can realize the charge control in the short distance, can't carry out real-time information interaction with remote terminal user, leads to charge control inconvenient, influences user and charges experience and feel.

Disclosure of Invention

One of the purposes of the invention is to provide a charging control method, so as to solve the problems that in the prior art, charging authentication can be completed only in a short distance, so that charging control is inconvenient and user experience is affected; the second purpose is to provide a charging control device; and a third object is to provide a charging control system.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the charging control method is applied to a charging pile, and the charging pile is pre-configured with a first Bluetooth module and a control module, and the method can comprise the following steps:

under the condition that the first Bluetooth module is successfully connected with a second Bluetooth module in a vehicle, sending connection information to the second Bluetooth module through the first Bluetooth module, so that the second Bluetooth module pushes the connection information to a mobile terminal of a user through a vehicle communication module in the vehicle;

receiving a charging instruction sent by the second Bluetooth module through the first Bluetooth module, wherein the charging instruction is sent to the second Bluetooth module by the mobile terminal through a mobile phone communication module and a vehicle communication module;

and sending the charging instruction to the control module through the first Bluetooth module, and controlling the charging pile to charge the vehicle through the control module.

According to the technical means, the charging pile is in communication with the Bluetooth connection of the vehicle, the communication module in the vehicle is utilized to realize data interaction between the mobile terminal and the charging pile, so that a user can remotely control the charging pile to charge the vehicle, short-distance communication is realized by utilizing the Bluetooth of the charging pile and the Bluetooth of the vehicle under the existing charging pile and vehicle structure, remote communication between the mobile terminal of the user and the charging pile is realized by utilizing the communication module of the vehicle, and the charging function of remotely controlling the vehicle by utilizing the existing communication module of the vehicle is realized under the condition that the charging pile does not need to be configured, thereby checking charging information of the charging pile in real time, meeting control requirements on the charging pile and improving user experience.

Further, before the first bluetooth module is connected with the second bluetooth module in the vehicle successfully, the method further includes:

issuing a bluetooth detection instruction to the first bluetooth module through the control module;

according to the detection instruction, detecting a connection request sent by a Bluetooth device in a preset range through the first Bluetooth module; the Bluetooth equipment comprises vehicle Bluetooth and mobile phone Bluetooth;

transmitting the detected Bluetooth address corresponding to the Bluetooth device to the control module through the first Bluetooth module;

and comparing the Bluetooth address with a pre-stored vehicle-mounted Bluetooth address through the control module, and controlling the first Bluetooth module to be connected with the second Bluetooth module when the Bluetooth equipment is determined to be authorized vehicle-mounted Bluetooth.

According to the technical means, the authorized vehicle Bluetooth is connected with the charging pile Bluetooth through comparing the detected Bluetooth equipment addresses, so that the safety of starting charging is ensured, short-distance communication can be realized through Bluetooth, and short-distance control charging is facilitated.

Further, after the bluetooth address corresponding to the detected bluetooth device is sent to the control module through the first bluetooth module, the method further includes:

Comparing a Bluetooth address with a prestored mobile phone Bluetooth address when the Bluetooth equipment is determined not to be a vehicle Bluetooth through the control module, and controlling the first Bluetooth module to be connected with a third Bluetooth module in the mobile terminal when the Bluetooth equipment is determined to be an authorized mobile phone Bluetooth;

and sending prompt information to the third Bluetooth module through the first Bluetooth module, wherein the prompt information is used for prompting that the third Bluetooth module is successfully connected with the first Bluetooth module, and notifying that the third Bluetooth module is connected with the first Bluetooth module by vehicle-mounted Bluetooth for remote monitoring.

According to the technical means, through comparing the detected Bluetooth equipment address, the authorized mobile phone Bluetooth is connected with the charging pile Bluetooth, the safety of starting charging is guaranteed, and the charging pile can not be remotely controlled to charge because the mobile phone Bluetooth and the charging pile Bluetooth can only interact with each other, so that a user is informed of changing the mobile phone Bluetooth into the vehicle-mounted Bluetooth, and charging control is realized.

Further, the charging pile is preconfigured with an NFC module, and after the detected bluetooth address corresponding to the bluetooth device is sent to the control module through the first bluetooth module, the charging pile further includes:

When the Bluetooth device is determined to be not authorized according to the Bluetooth address through the control module, reading card swiping information of the NFC module and controlling the charging pile to charge the vehicle;

and storing the Bluetooth address corresponding to the Bluetooth device.

According to the technical means, under the condition that Bluetooth equipment is not authorized, the NFC module is used for charging control, the charging pile is guaranteed to flexibly charge a vehicle, and the Bluetooth equipment address is stored, so that the connection charging is judged according to the Bluetooth address when the Bluetooth equipment is charged next time, and NFC is not required to be used.

judging whether the request time length of the connection request exceeds a preset time length or not by the control module when the unauthorized Bluetooth equipment of the Bluetooth equipment and the card swiping information are illegal;

if yes, rejecting the connection request of the Bluetooth equipment.

According to the technical means, when all detected equipment does not meet the authorized connection requirement, connection of the Bluetooth equipment is refused, so that safety of charging of the charging pile is protected, and the condition that charging is out of control due to illegal equipment connection is avoided.

Further, before the control module issues the bluetooth detection instruction to the first bluetooth module, the method further includes:

scanning a connection request sent by Bluetooth equipment within a preset range through the first Bluetooth module, and sending the connection request to the control module;

determining, by the control module, a category of the bluetooth device according to whether the connection request includes a vehicle identifier;

if yes, the Bluetooth equipment is vehicle-mounted Bluetooth;

otherwise, the Bluetooth device is a mobile phone Bluetooth.

According to the technical means, after Bluetooth connection, only the carrying information in the connection request needs to be processed, the Bluetooth type is determined according to the vehicle identification, and the detected type of the Bluetooth equipment is simply, conveniently and efficiently determined, so that charging control is further realized.

A charging control method applied to a vehicle preconfigured with a second bluetooth module and a vehicle communication module, the method may include:

receiving connection information sent by a first Bluetooth module through the second Bluetooth module under the condition that the second Bluetooth module is successfully connected with the first Bluetooth module in the charging pile;

pushing the connection information to a mobile terminal of a user through the vehicle communication module;

Receiving a charging instruction sent by the vehicle communication module through the second Bluetooth module, wherein the charging instruction is sent to the vehicle communication module through the mobile terminal through the mobile phone communication module;

and sending the charging instruction to the first Bluetooth module through the second Bluetooth module, so that the first Bluetooth module sends the charging instruction to a control module in the charging pile to control the charging pile to charge the vehicle.

According to the technical means, under the existing vehicle structure, the charging pile does not need to be provided with the communication module, and the existing communication module of the vehicle is utilized to realize the function of remotely controlling the vehicle charging by a user, so that the user can monitor the charging pile in real time, the control requirement on the charging pile is met, and the user experience is improved.

Further, before the second bluetooth module receives the connection information sent by the first bluetooth module, the connection method further includes:

receiving prompt information sent by a third Bluetooth module through the second Bluetooth module under the condition that the second Bluetooth module is successfully connected with the third Bluetooth module in the mobile terminal, wherein the prompt information is used for prompting that the third Bluetooth module is successfully connected with the first Bluetooth module, and notifying that the vehicle-mounted Bluetooth is replaced to be connected with the first Bluetooth module so as to remotely monitor the charging pile;

And controlling the second Bluetooth module to be connected with the first Bluetooth module according to the prompt information.

According to the technical means, under the condition that the mobile phone Bluetooth is connected with the charging pile Bluetooth, the prompting information sent by the mobile phone Bluetooth is received, the vehicle-mounted Bluetooth is controlled to be connected with the charging pile Bluetooth, and the remote charging control of the charging pile by the user mobile terminal is realized through the vehicle-mounted Bluetooth and the vehicle communication module.

Further, the vehicle is preconfigured with a charging module, and the pushing the connection information to the mobile terminal of the user through the vehicle communication module includes:

transmitting the connection information transmitted by the first Bluetooth module to the charging module through the second Bluetooth module;

and sending the connection information to the vehicle communication module through the charging module, so that the vehicle communication module sends the connection information to the mobile phone communication module through the cloud platform and pushes the connection information to the mobile terminal of the user.

According to the technical means, the vehicle communication module is utilized to realize remote communication between the user mobile terminal and the charging pile, and the existing communication module of the vehicle is utilized to realize remote control of the vehicle charging function of the user under the condition that the charging pile does not need to be provided with the communication module.

A charging control device applied to a charging pile, the charging pile being preconfigured with a first bluetooth module and a control module, the device comprising:

the first sending module is used for sending connection information to the second Bluetooth module through the first Bluetooth module under the condition that the first Bluetooth module is successfully connected with the second Bluetooth module in the vehicle, so that the second Bluetooth module pushes the connection information to a mobile terminal of a user through a vehicle communication module in the vehicle;

the first receiving module is used for receiving a charging instruction sent by the second Bluetooth module through the first Bluetooth module, wherein the charging instruction is sent to the second Bluetooth module through the mobile terminal through the mobile phone communication module and the vehicle communication module;

and the first control module is used for sending the charging instruction to the control module through the first Bluetooth module and controlling the charging pile to charge the vehicle through the control module.

A charge control device applied to a vehicle, the vehicle being preconfigured with a second bluetooth module and a vehicle communication module, the device comprising:

the second receiving module is used for receiving the connection information sent by the first Bluetooth module through the second Bluetooth module under the condition that the second Bluetooth module is successfully connected with the first Bluetooth module in the charging pile;

The second sending module is used for pushing the connection information to the mobile terminal of the user through the vehicle communication module;

the third receiving module is used for receiving a charging instruction sent by the vehicle communication module through the second Bluetooth module, wherein the charging instruction is sent to the vehicle communication module through the mobile terminal through the mobile phone communication module;

and the third sending module is used for sending the charging instruction to the first Bluetooth module through the second Bluetooth module so that the first Bluetooth module sends the charging instruction to the control module in the charging pile to control the charging pile to charge the vehicle.

The charging control system comprises a charging pile, a vehicle and a mobile terminal, wherein the charging pile is in communication connection with the vehicle through Bluetooth, the vehicle is in communication with the mobile terminal through a cloud platform, the charging pile comprises a first Bluetooth module, a control module and an NFC module, the vehicle comprises a second Bluetooth module, a vehicle communication module and a charging module, the mobile terminal comprises a third Bluetooth module and a mobile phone communication module,

the charging pile is used for sending connection information to the second Bluetooth module through the first Bluetooth module under the condition that the first Bluetooth module is successfully connected with the second Bluetooth module in the vehicle, so that the second Bluetooth module pushes the connection information to a mobile terminal of a user through a vehicle communication module in the vehicle, and receives a charging instruction sent by the second Bluetooth module through the first Bluetooth module, wherein the charging instruction is sent to the second Bluetooth module through a mobile phone communication module and the vehicle communication module by the mobile terminal, sends the charging instruction to the control module through the first Bluetooth module, and controls the charging pile to charge the vehicle through the control module;

The vehicle is used for receiving connection information sent by the first Bluetooth module through the second Bluetooth module under the condition that the second Bluetooth module is successfully connected with the first Bluetooth module in the charging pile, pushing the connection information to a mobile terminal of a user through the vehicle communication module, and receiving a charging instruction sent by the vehicle communication module through the second Bluetooth module, wherein the charging instruction is sent to the vehicle communication module through the mobile terminal, and the charging instruction is sent to the first Bluetooth module through the second Bluetooth module, so that the first Bluetooth module sends the charging instruction to a control module in the charging pile to control the charging pile to charge the vehicle;

the mobile terminal is used for receiving the connection information through a vehicle communication module in the vehicle, and sending the charging instruction to the vehicle communication module through the mobile phone communication module so as to control the charging pile to charge the vehicle.

The invention has the beneficial effects that:

(1) According to the invention, under the existing structure, the short-distance communication is realized by utilizing the Bluetooth of the charging pile and the vehicle-mounted Bluetooth, the remote communication between the user mobile terminal and the charging pile is realized by utilizing the vehicle communication module, and under the condition that the charging pile does not need to be provided with the communication module, the remote control vehicle charging function of the user is realized by utilizing the existing communication module of the vehicle, so that the user can remotely check the charging information of the charging pile in real time, control the charging condition of the vehicle, meet the charging control requirement of the user on the charging pile in various scenes, and improve the user experience.

(2) The charging control method and the charging control system provided by the invention can ensure that the intelligent mobile terminal can monitor and control the charging process on the basis of not increasing the system cost, a communication module with higher cost is not required to be configured in the charging pile, the cost performance is high, and the popularization is convenient.

Drawings

Fig. 1 is a flowchart of a charging control method according to an embodiment of the present invention;

FIG. 2 is a second flowchart illustrating a charging control method according to an embodiment of the present invention;

FIG. 3 is a third flowchart illustrating a charge control method according to an embodiment of the present invention;

FIG. 4 is a flowchart of a charging control method according to an embodiment of the present invention;

FIG. 5 is a flowchart illustrating steps of another charge control method according to an embodiment of the present invention;

fig. 6 is an interaction diagram of a charging control method according to an embodiment of the present invention;

FIG. 7 is a second flowchart of a charging control method according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a charging control device according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of another charge control device according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a charging control system according to an embodiment of the present invention.

Detailed Description

Further advantages and effects of the present invention will become readily apparent to those skilled in the art from the disclosure herein, by referring to the accompanying drawings and the preferred embodiments. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention. It should be understood that the preferred embodiments are presented by way of illustration only and not by way of limitation.

Referring to fig. 1, which shows one of the step flowcharts of the charging control method provided by the embodiment of the present invention, the charging pile applied to the charging control system shown in fig. 10 is preconfigured with a first bluetooth module and a control module, and the method may include:

step 101, under the condition that the first Bluetooth module is successfully connected with a second Bluetooth module in a vehicle, sending connection information to the second Bluetooth module through the first Bluetooth module, so that the second Bluetooth module pushes the connection information to a mobile terminal of a user through a vehicle communication module in the vehicle.

In the embodiment of the invention, the charging pile is pre-configured with the first Bluetooth module and the control module so as to enable the charging pile to communicate with the vehicle Bluetooth or the mobile phone Bluetooth, thereby realizing the plug and play function of the charging pile and the electric automobile, and in order to meet the functions of starting charging, suspending charging and the like of the charging pile electrically connected with the electric automobile through the mobile terminal, and monitoring charging information such as current, voltage, charging electric quantity and the like when the charging pile charges the whole automobile in real time, the vehicle communication module of the vehicle and the second Bluetooth module of the vehicle are utilized as intermediate equipment in the embodiment, the information interaction between the vehicle and the mobile terminal is realized, and the interaction of internal information is realized between the first Bluetooth module of the charging pile and the second Bluetooth module of the vehicle. According to the embodiment, under the condition that the charging pile does not need to be provided with the communication module, the charging is monitored and controlled on line through the connection mode of the first Bluetooth module of the charging pile and the second Bluetooth module of the vehicle, and the user experience is improved.

It should be noted that, the charging pile in this embodiment is not configured with a communication module, and the charging pile includes a control module, a first bluetooth module and an NFC module. The electric automobile's charging module is connected through charging cable and charging stake during operation to when authorizing to charge, through charging cable transmission current, first bluetooth module can be the PCBA board of integrated bluetooth function, is used for short distance wireless communication.

Specifically, the first bluetooth module searches whether bluetooth equipment exists in a peripheral preset range in real time, if a connection request sent by the bluetooth equipment is detected, the bluetooth MAC address is transmitted to the charging pile control module, the first bluetooth module receives a control signal sent by the control module, connection with the peripheral bluetooth equipment is established or refused, and bidirectional data transmission can be performed between the first bluetooth module and bluetooth for establishing connection. In this embodiment, when the first bluetooth module is successfully connected with the second bluetooth module in the vehicle, connection information is sent to the second bluetooth module, so that the second bluetooth module pushes the connection information to the mobile terminal of the user through the vehicle communication module in the vehicle.

It should be noted that, when the purpose of online charging control is achieved in this embodiment, the most critical step is to make the first bluetooth module in the charging pile and the second bluetooth module in the vehicle be in communication connection, thereby regard the charging pile and the vehicle as a whole, and achieve interaction with the mobile terminal, after the connection is established between the two bluetooth, the second bluetooth module in the vehicle receives the information of successful connection, and transmits the information of successful connection to the charging module in the vehicle, the charging module sends the information of successful connection between the vehicle bluetooth and the charging pile to the vehicle communication module, the vehicle communication module sends the connection information to the cloud platform, the cloud platform pushes the received information to the mobile phone communication module, and the mobile phone communication module pushes the information to the mobile terminal of the user, for example, the mobile terminal of the user ejects the "vehicle bluetooth is successfully connected with the charging pile", and the information of the charging pile can be monitored and controlled by the APP "to the user.

In the embodiment of the invention, the charging pile is in Bluetooth connection communication with the vehicle, and the communication module in the vehicle is utilized to realize the data interaction between the mobile terminal and the charging pile, so that a user can remotely control the charging pile to charge the vehicle through the mobile terminal.

Step 102, receiving a charging instruction sent by a second Bluetooth module through the first Bluetooth module, wherein the charging instruction is sent to the second Bluetooth module through the mobile terminal, the mobile terminal and the vehicle communication module.

In the embodiment of the invention, under the condition that the first Bluetooth module in the charging pile is connected with the second Bluetooth module of the vehicle, the mobile terminal can only send the charging instruction for controlling the charging pile to the vehicle communication module through the mobile phone communication module, the vehicle communication module is utilized to forward the charging instruction to the second Bluetooth module of the vehicle through the charging module in the vehicle, and the charging instruction sent by the second Bluetooth module is received through the first Bluetooth module, wherein the charging instruction is sent to the second Bluetooth module through the mobile phone communication module and the vehicle communication module by the mobile terminal.

It should be noted that, the mobile terminal includes a mobile phone communication module, and the mobile phone communication module is used for carrying out two-way data interaction with the cloud platform, transmits the information transmitted through the cloud platform to the mobile phone APP, and transmits the charging instruction of the user to the cloud platform, so that the cloud platform sends the charging instruction of the mobile phone communication module to the vehicle communication module, and then sends the charging instruction to the second Bluetooth module through the vehicle communication module. The mobile phone APP is configured to display information transmitted by the mobile phone communication module, receive a charging instruction of a user, and transmit the charging instruction to the mobile phone communication module, which is of course only specific for illustration, and in an actual use process, the mobile terminal may further include other user devices, which are not described in detail herein.

In this embodiment, the vehicle communication module is utilized to send the received charging instruction of the user to the second bluetooth module, and the charging pile is in communication with the connection of the second bluetooth module through the first bluetooth module, so that the charging instruction of the user can be received, the vehicle charging function of the user can be remotely controlled, and the charging pile can be controlled in real time, and the user experience can be improved.

And step 103, sending a charging instruction to a control module through the first Bluetooth module, and controlling the charging pile to charge the vehicle through the control module.

In the embodiment of the invention, the control module of the charging pile is used for controlling the charging pile to charge the vehicle, wherein the control module is in communication connection with the first Bluetooth module, the charging pile sends a charging instruction to the control module through the first Bluetooth module, the charging pile is controlled to charge the vehicle through the control module, and particularly, the control module controls the charging cable to be electrically connected with the vehicle charging module of the electric vehicle, and when the charging is authorized, the charging pile transmits current to the vehicle under the guidance of the control module of the charging pile to charge the vehicle.

According to the charging control method provided by the embodiment of the invention, under the condition that the first Bluetooth module is successfully connected with the second Bluetooth module in the vehicle, connection information is sent to the second Bluetooth module through the first Bluetooth module, so that the second Bluetooth module pushes the connection information to the mobile terminal of a user through the vehicle communication module in the vehicle, and a charging instruction sent by the second Bluetooth module is received through the first Bluetooth module, wherein the charging instruction is sent to the second Bluetooth module through the mobile terminal through the mobile phone communication module and the vehicle communication module, the charging instruction is sent to the control module through the first Bluetooth module, and the charging pile is controlled by the control module to charge the vehicle. According to the invention, under the existing structure, the Bluetooth of the charging pile and the vehicle Bluetooth are utilized to realize short-distance communication, the vehicle communication module is utilized to realize remote communication between the user mobile terminal and the charging pile, and under the condition that the charging pile does not need to be provided with the communication module, the existing communication module of the vehicle is utilized to realize remote control of the vehicle charging function of the user, so that the user can remotely monitor the charging pile in real time, control the charging condition of the vehicle, meet the charging control requirement of the charging pile in each scene of the user, promote the user experience, and ensure that the intelligent mobile terminal can monitor and control the charging process without configuring a communication module with higher cost in the charging pile, thereby being convenient to popularize.

A second embodiment of the present invention relates to a charge control method which is substantially the same as the charge control method provided in the first embodiment of the present invention, and differs therefrom in that, referring to fig. 2, it includes:

step 104, issuing a bluetooth detection instruction to the first bluetooth module through the control module.

Specifically, after the charging pile control module detects that the charging cable is electrically connected with the vehicle charging module correctly, in order to realize that the control module in the charging pile controls the first Bluetooth module in the charging pile to search for a connection request of peripheral Bluetooth equipment, the charging pile sends a Bluetooth detection instruction to the first Bluetooth module through the control module so that the first Bluetooth module searches for the peripheral Bluetooth equipment according to the Bluetooth detection instruction, and the charging pile is connected with the short-distance Bluetooth equipment in an authorized mode.

Step 105, detecting a connection request sent by a Bluetooth device within a preset range through a first Bluetooth module according to a detection instruction; the Bluetooth equipment comprises vehicle Bluetooth and mobile phone Bluetooth.

In this embodiment, according to the detection instruction, the connection request sent by the bluetooth device within the preset range is detected by the first bluetooth module, so as to search whether the bluetooth device exists in the periphery in real time, if yes, the MAC address of the bluetooth device is transmitted to the charging pile control module, and the control module is connected with the instruction to establish or reject the connection with the peripheral bluetooth, and further, bidirectional data transmission can be performed between the bluetooth device and the bluetooth device for which connection is established.

It should be noted that, the functions of the first bluetooth module include detecting whether there are bluetooth devices around the search, establishing or rejecting connection with the surrounding bluetooth, and performing data transmission with the bluetooth devices that establish the connection. Bluetooth equipment in a detection preset range comprises vehicle-mounted Bluetooth and mobile phone Bluetooth, and the following two application scenes exist.

Scene one: when the first Bluetooth module and the vehicle-mounted Bluetooth realize the aim of online charging control, the first Bluetooth module in the charging pile is connected with the second Bluetooth module in the vehicle, so that the charging pile and the electric vehicle are integrated, and the existing communication module of the vehicle is utilized to realize the function of remotely controlling the vehicle charging by a user;

scene II: the first Bluetooth module and the mobile phone Bluetooth can be independently connected with a third Bluetooth module in the mobile terminal, so that a basic short-distance vehicle charging function is realized.

And step 106, transmitting the detected Bluetooth address corresponding to the Bluetooth device to the control module through the first Bluetooth module.

In this embodiment, the control module in the charging pile can receive the information transmitted by the first bluetooth module, so as to determine whether the bluetooth device is an authorized device, thereby ensuring the safety of charging the vehicle by the charging pile, and the charging pile sends the detected bluetooth address corresponding to the bluetooth device to the control module through the first bluetooth module, so that the control module compares the bluetooth address detected by the periphery provided by the first bluetooth module with the bluetooth address of the bluetooth device stored in advance therein.

And 107, comparing the Bluetooth address with a pre-stored vehicle Bluetooth address through a control module, and controlling the first Bluetooth module to be connected with the second Bluetooth module when the Bluetooth device is determined to be authorized vehicle Bluetooth.

It should be noted that, in this embodiment, the bluetooth address is compared with the pre-stored vehicle bluetooth address by the control module, if the comparison is successful, the bluetooth address is approved to be legal for charging, and a connection instruction is sent, so that the bluetooth module is agreed to establish connection with the bluetooth device, and if the comparison is unsuccessful, the bluetooth address of the bluetooth device is suspended to the control module.

Specifically, the control module in the charging pile compares the received Bluetooth address with a pre-stored vehicle-mounted Bluetooth address, judges whether the Bluetooth is authorized vehicle-mounted Bluetooth, and if so, controls the first Bluetooth module to be connected with the second Bluetooth module.

Compared with the prior art, on the basis of the beneficial effects brought by the first embodiment, the method and the device can connect the authorized vehicle Bluetooth with the charging pile Bluetooth by comparing the detected Bluetooth equipment addresses, so that the safety of starting charging is ensured; and can realize short-range communication through bluetooth, the short-range control of being convenient for charges.

Further, referring to fig. 3, fig. 3 is a third flowchart of a step of the charge control method according to the embodiment of the present invention, and further includes:

and step 108, comparing the Bluetooth address with a prestored mobile phone Bluetooth address by the control module when the Bluetooth device is determined not to be the vehicle Bluetooth, and controlling the first Bluetooth module to be connected with a third Bluetooth module in the mobile terminal when the Bluetooth device is determined to be the authorized mobile phone Bluetooth.

Step 109, sending prompt information to the third bluetooth module through the first bluetooth module, wherein the prompt information is used for prompting that the third bluetooth module is successfully connected with the first bluetooth module, and notifying that the third bluetooth module is replaced to be connected with the first bluetooth module in order to remotely monitor the charging pile.

It should be noted that in the above steps 108-109, after the control module in the charging pile compares the bluetooth address received by the control module with the pre-stored vehicle bluetooth address, when it is determined that the bluetooth device is not the vehicle bluetooth, the control module compares the bluetooth address with the pre-stored bluetooth address of the mobile phone, if the bluetooth device is authorized to bluetooth the mobile phone, controls the first bluetooth module to be connected with the third bluetooth module in the mobile terminal, so as to realize short-distance charging. And, because only can short distance control through bluetooth connection between cell-phone bluetooth and the stake of charging, for promoting user's experience of charging, send prompt message to third bluetooth module through first bluetooth module for the suggestion third bluetooth module is connected successfully with first bluetooth module, and it is connected first bluetooth module with remote monitoring to inform to change for on-vehicle bluetooth and fills the stake.

Specifically, the charging pile is preconfigured with an NFC module, and step 108 further includes:

firstly, reading card swiping information of an NFC module and controlling a charging pile to charge a vehicle when the Bluetooth device is determined not to be authorized according to a Bluetooth address through a control module;

second, the bluetooth address corresponding to the bluetooth device is stored.

It should be noted that in the above steps, when the control module determines that the bluetooth device is not the authorized vehicle bluetooth or the authorized mobile phone bluetooth, the control module reads the card swiping information at the NFC module, if an authorized NFC card that the charging pile gives along with the pile is used, the NFC information read by the control module is consistent with the memory information, the user who swipes the card is considered to be a legal user, and controls the charging pile to charge the vehicle, and meanwhile, the control module stores the bluetooth address that is successfully connected to the corresponding position of the charging pile control module. Under this kind of scene, fill electric pile and can charge to the electric automobile, saved the bluetooth address of peripheral connection bluetooth equipment simultaneously, when charging next time, need not to punch the card, confirm that bluetooth equipment is authorized bluetooth equipment according to the bluetooth address of storage, further control charges.

Specifically, step 108 further includes, after transmitting the detected bluetooth address corresponding to the bluetooth device to the control module through the first bluetooth module:

judging whether the request time length of the connection request exceeds the preset time length or not when the control module determines that the Bluetooth equipment is unauthorized and the card swiping information is illegal;

if yes, rejecting the connection request of the Bluetooth device.

In this embodiment, the charging pile compares the NFC information transmitted by the NFC module with the memory information through the control module, if the NFC information is inconsistent, the card swiping information is illegal, the control module in the charging pile determines whether the request time for receiving the peripheral bluetooth exceeds the preset duration, and if no approval of the legal user is available, the connection request of the peripheral bluetooth device is refused.

It should be noted that, the preset duration may be 30s,1min, etc. preset according to the device of the charging pile, which is not limited herein, and the embodiment determines, through the control module, whether the request duration of the connection request exceeds the preset duration when determining that the bluetooth device is unauthorized and the card swiping information is illegal, and if yes, refuses the connection request of the bluetooth device. When all detected equipment does not meet the authorized connection requirement, the connection of the Bluetooth equipment is refused, so that the safety of charging of the charging pile is protected, and the condition that the charging is out of control due to illegal equipment connection is avoided.

Further, before the control module issues the bluetooth detection instruction to the first bluetooth module in step 104, the method further includes:

the method comprises the steps that a connection request sent by Bluetooth equipment in a preset range is scanned through a first Bluetooth module, the connection request is sent to a control module, and the category of the Bluetooth equipment is determined through the control module according to whether the connection request comprises a vehicle identifier or not; if yes, the Bluetooth equipment is vehicle Bluetooth; otherwise, the Bluetooth device is a mobile phone Bluetooth.

In order to enable those skilled in the art to more clearly understand the above-mentioned charge control method, referring to fig. 4, a flowchart of the charge control method according to an embodiment of the present invention is described as an example,

s201, the first Bluetooth module scans connection requests sent by Bluetooth devices within a preset range.

And S202, sending a connection request to a control module in the charging pile.

S203, judging whether a vehicle identifier exists in the connection request.

S204, determining the vehicle-mounted Bluetooth device.

S205, determining the Bluetooth device as the mobile phone.

Preferably, the request information of the mobile phone bluetooth is that after the charging pile control module reads the bluetooth address, the request information is regulated in the calibration of the first bluetooth module, 1 frame of identification information is repeated within 10ms after the sent vehicle-mounted bluetooth, and if the 1 frame of identification information is received, the bluetooth is considered to be the vehicle-mounted bluetooth.

Referring to fig. 5, a flowchart illustrating steps of another charge control method according to an embodiment of the present invention is applied to a vehicle of the charge control system shown in fig. 10, where the vehicle is preconfigured with a second bluetooth module and a vehicle communication module, and the method may include:

step 301, receiving, by the second bluetooth module, connection information sent by the first bluetooth module, under the condition that the second bluetooth module is successfully connected with the first bluetooth module in the charging pile.

In the embodiment of the invention, the vehicle comprises a vehicle charging module, a second Bluetooth module and a vehicle communication module. The vehicle charging module is used for being electrically connected with a charging cable of the charging pile and receiving the transmitted electric energy; the second Bluetooth module is used for sending a connection signal to the first Bluetooth module of the charging pile, and after being connected with the first Bluetooth module of the charging pile, the second Bluetooth module carries out bidirectional information transfer with the first Bluetooth module of the charging pile; the vehicle communication module is used for carrying out bidirectional data interaction with the vehicle charging module and also is used for carrying out bidirectional data interaction with the cloud platform, namely, the vehicle communication module can realize the communication between the vehicle and the user mobile terminal.

Specifically, under the condition that the second Bluetooth module is successfully connected with the first Bluetooth module in the charging pile, the connection information sent by the first Bluetooth module is received through the second Bluetooth module, the connection is established between the two Bluetooth modules, and the vehicle Bluetooth module receives the connection success information.

Step 302, pushing the connection information to the mobile terminal of the user through the vehicle communication module.

In this embodiment, the vehicle is preconfigured with a charging module, and step 302 pushes the connection information to the mobile terminal of the user through the vehicle communication module may specifically include the following steps:

firstly, transmitting the connection information transmitted by the first Bluetooth module to a charging module through a second Bluetooth module;

and secondly, the connection information is sent to the vehicle communication module through the charging module, so that the vehicle communication module sends the connection information to the mobile phone communication module through the cloud platform and pushes the connection information to the mobile terminal of the user.

Step 303, receiving a charging instruction sent by the vehicle communication module through the second bluetooth module, wherein the charging instruction is sent to the vehicle communication module through the mobile terminal by the mobile phone communication module.

The charging pile is charged to the electric automobile through the APP, the charging state of the charging pile is monitored, the charging pile is remotely controlled through operation in the APP, the vehicle receives a charging instruction sent by the vehicle communication module through the second Bluetooth module, and the charging instruction is sent to the vehicle communication module through the mobile terminal through the mobile phone communication module.

The embodiment utilizes the vehicle communication module to realize the function of external long-distance communication, and can utilize the existing vehicle communication module to realize the online function under the condition that the charging pile does not need to be provided with the communication module; and in combination with the cloud platform and the mobile terminal, a user can control the charging pile by using the mobile terminal in a charging control system with high cost performance, so that the user satisfaction is improved.

Step 304, the charging instruction is sent to the first bluetooth module through the second bluetooth module, so that the first bluetooth module sends the charging instruction to the control module in the charging pile to control the charging pile to charge the vehicle.

In this embodiment, the vehicle sends the charging instruction sent by the user of the mobile terminal to the first bluetooth module in the charging pile through the second bluetooth module, and the first bluetooth module sends the charging instruction to the control module in the charging pile, so that the control module controls the charging pile to charge the vehicle.

Specifically, step 301 further includes, before the second bluetooth module receives the connection information sent by the first bluetooth module, under the condition that the second bluetooth module is successfully connected with the first bluetooth module in the charging pile:

under the condition that the second Bluetooth module is successfully connected with a third Bluetooth module in the mobile terminal, receiving prompt information sent by the third Bluetooth module through the second Bluetooth module, wherein the prompt information is used for prompting that the third Bluetooth module is successfully connected with the first Bluetooth module and notifying that the vehicle-mounted Bluetooth is connected with the first Bluetooth module for remote monitoring of the charging pile;

In the above step, when the control module in the charging pile determines that the bluetooth device is not the vehicle bluetooth, the bluetooth address is compared with the pre-stored bluetooth address of the mobile phone, and if the bluetooth is authorized, the second bluetooth module is connected with the third bluetooth module in the mobile terminal. Because only can short distance control through bluetooth connection between cell-phone bluetooth and the stake of charging, for promoting user experience that charges, receive the prompt message that third bluetooth module sent through the second bluetooth module for the suggestion third bluetooth module is connected successfully with first bluetooth module, notifies to change and connects first bluetooth module with remote monitoring for on-vehicle bluetooth and charge the stake.

According to the charging control method provided by the embodiment of the invention, under the condition that the second Bluetooth module is successfully connected with the first Bluetooth module in the charging pile, the second Bluetooth module is used for receiving the connection information sent by the first Bluetooth module, the vehicle communication module is used for pushing the connection information to the mobile terminal of the user, and the second Bluetooth module is used for receiving the charging instruction sent by the vehicle communication module, wherein the charging instruction is sent to the vehicle communication module by the mobile terminal through the mobile phone communication module, and the second Bluetooth module is used for sending the charging instruction to the first Bluetooth module, so that the first Bluetooth module is used for sending the charging instruction to the control module in the charging pile to control the charging pile to charge the vehicle. According to the invention, under the existing structure, the Bluetooth of the charging pile and the vehicle Bluetooth are utilized to realize short-distance communication, the vehicle communication module is utilized to realize remote communication between the user mobile terminal and the charging pile, and under the condition that the charging pile does not need to be provided with the communication module, the existing communication module of the vehicle is utilized to realize remote control of the vehicle charging function of the user, so that the user can remotely monitor the charging condition of the charging pile in real time, the charging control requirement of the user on the charging pile in various scenes is met, the user experience is improved, the intelligent mobile terminal can monitor and control the charging process on the basis of not increasing the system cost, the communication module with higher cost does not need to be arranged in the charging pile, the cost performance is high, and the charging pile charging system is convenient to popularize.

In order to enable those skilled in the art to more clearly understand the flow of the charge control method disclosed in the above embodiment of the present invention, referring to fig. 6, an interaction diagram of the charge control method provided in the embodiment of the present invention is described as an example.

S401, the first Bluetooth module sends Bluetooth connection information.

S402, the second Bluetooth module receives and transmits connection information.

S403, the vehicle communication module receives and transmits the connection information.

S404, the mobile phone communication module receives and transmits the connection information.

S405, the third bluetooth module receives the connection information.

S406, the third Bluetooth module sends a charging instruction.

S407, the mobile phone communication module receives and transmits the charging instruction.

S408, the vehicle communication module receives and transmits a charging instruction.

S409, the second Bluetooth module receives and sends a charging instruction.

S410, the first Bluetooth module receives and sends a charging instruction.

S411, the control module receives the charging instruction and controls the charging pile to charge the vehicle.

It should be noted that, under the condition that the first bluetooth module is successfully connected with the second bluetooth module in the vehicle, the connection information is sent to the second bluetooth module through the first bluetooth module, the second bluetooth module pushes the connection information to the mobile terminal of the user through the vehicle communication module in the vehicle, the mobile terminal receives the charging instruction sent by the second bluetooth module through the first bluetooth module, the mobile terminal sends the charging instruction to the second bluetooth module through the mobile phone communication module and the vehicle communication module, the charging instruction is sent to the control module through the first bluetooth module, and the charging pile is controlled by the control module to charge the vehicle. In the embodiment, the charging pile and the vehicle interact through Bluetooth, and when the charging pile and the vehicle are used as a whole, the communication module of the vehicle interacts with the mobile phone communication module of the mobile terminal, so that the purpose that a user remotely controls the charging pile at the mobile terminal is achieved.

In order to enable those skilled in the art to more clearly understand the specific flow of the charge control method disclosed in the first to third embodiments of the present invention, a second flowchart of the charge control method provided in the embodiment of the present invention will be described with reference to fig. 7.

S501, the charging pile is electrically connected to the vehicle.

S502, scanning Bluetooth connection requests.

Specifically, according to the detection instruction, the first bluetooth module detects a connection request sent by bluetooth equipment within a preset range, so as to search whether bluetooth equipment exists in the periphery in real time, if yes, the MAC address of the bluetooth equipment is transmitted to the charging pile control module, and the connection with the peripheral bluetooth is established or refused by the instruction of the control module, and further, bidirectional data transmission can be performed between the bluetooth module and the bluetooth module which establishes connection.

S503, sending the Bluetooth address to the control module.

Specifically, the charging pile sends the detected bluetooth address corresponding to the bluetooth device to the control module through the first bluetooth module, so that the control module compares the peripheral detected bluetooth address provided by the first bluetooth module with the bluetooth address of the bluetooth device stored in the peripheral detected bluetooth address.

S504, whether the Bluetooth is vehicle Bluetooth.

S505, whether the vehicle Bluetooth is authorized.

In this embodiment, the bluetooth address is compared with a pre-stored vehicle bluetooth address by the control module, if the comparison is successful, the bluetooth address is approved to be legal for charging, and a connection instruction is sent out, and then step 506 is performed, and the bluetooth module is agreed to establish connection with the bluetooth device, and if the bluetooth module is not authorized vehicle bluetooth, step 507 is performed.

S506, the vehicle-mounted Bluetooth receives the connection success information.

S507, whether the mobile phone Bluetooth is authorized.

In this embodiment, when it is determined that the bluetooth device is not authorized bluetooth, the control module compares the bluetooth address with a pre-stored bluetooth address of the mobile phone, and when it is determined that the bluetooth device is authorized bluetooth of the mobile phone, controls the first bluetooth module to be connected with a third bluetooth module in the mobile terminal.

S508, the charging pile Bluetooth sends information to the mobile phone Bluetooth.

In this embodiment, after the control module in the charging pile compares the bluetooth address received by the control module with the pre-stored vehicle bluetooth address, when it is determined that the bluetooth device is not the vehicle bluetooth, the control module compares the bluetooth address with the pre-stored mobile phone bluetooth address, if the mobile phone bluetooth is authorized, the control module controls the first bluetooth module to be connected with the third bluetooth module in the mobile terminal, so as to realize short-distance charging.

S509, reading NFC card swiping information.

S510, judging whether the method is legal or not.

S511, controlling charging.

In this embodiment, when the control module determines that the bluetooth device is not the authorized vehicle bluetooth or the authorized mobile phone bluetooth, the control module reads card swiping information at the NFC module, if an authorized NFC card that the charging pile gives along with the pile is used, the NFC information read by the control module is consistent with the memory information, the user who swipes the card is considered to be a legal user, and controls the charging pile to charge the vehicle, and meanwhile, the control module stores a bluetooth address that is successfully connected to a corresponding position of the charging pile control module.

S512, whether the request is overtime.

S513, the bluetooth connection is denied.

S514, pushing to the user.

And S515, transmitting the result to the charging module.

S516, sending the message to the vehicle communication module.

S517, sending the cloud platform.

S518, sending the message to the mobile phone communication module.

S519, push to the user.

S520, controlling charging.

It should be noted that, in this embodiment, the second bluetooth module in the vehicle receives the information of successful connection, and transmits the information of successful connection to the charging module in the vehicle, and then the charging module sends the information of successful connection between the vehicle bluetooth and the charging pile to the vehicle communication module, and the vehicle communication module is used to send the connection information to the cloud platform, and the cloud platform pushes the received information to the mobile phone communication module, which pushes the information to the mobile terminal of the user, for example, the mobile terminal of the user ejects the information of "successful connection between the vehicle bluetooth and the charging pile", and the APP monitors and controls the charging pile "to the user.

In the embodiment of the invention, the charging pile Bluetooth and the vehicle-mounted Bluetooth are utilized to realize short-distance communication, the vehicle communication module is utilized to realize remote communication between the user mobile terminal and the charging pile, and the existing communication module of the vehicle is utilized to realize the remote control of the vehicle charging function of the user under the condition that the charging pile does not need to be provided with the communication module, so that the user can remotely monitor the charging pile in real time, control the charging condition of the vehicle, meet the charging control requirement of the charging pile under each scene of the user, promote the user experience, realize the monitoring and control of the intelligent mobile terminal on the charging process on the basis of not increasing the system cost, and the charging pile is not required to be provided with the communication module with higher cost, has high cost performance and is convenient to popularize.

Referring to fig. 8, a schematic structural diagram of a charging control device according to an embodiment of the present invention is shown, and the charging control device is applied to a charging pile, as shown in fig. 8, and the device may include:

a first sending module 601, configured to send connection information to a second bluetooth module through the first bluetooth module when the first bluetooth module is successfully connected with the second bluetooth module in the vehicle, so that the second bluetooth module pushes the connection information to a mobile terminal of a user through a vehicle communication module in the vehicle;

the first receiving module 602 is configured to receive, by using the first bluetooth module, a charging instruction sent by the second bluetooth module, where the charging instruction is sent by the mobile terminal to the second bluetooth module through a mobile phone communication module and a vehicle communication module;

the first control module 603 is configured to send the charging instruction to the control module through the first bluetooth module, and control the charging pile to charge the vehicle through the control module.

Further, the charging control device further includes:

the instruction sending module is used for sending a blue tooth detection instruction to the first Bluetooth module through the control module;

The detection module is used for detecting a connection request sent by the Bluetooth equipment within a preset range through the first Bluetooth module according to the detection instruction; the Bluetooth equipment comprises vehicle Bluetooth and mobile phone Bluetooth;

the address sending module is used for sending the detected Bluetooth address corresponding to the Bluetooth device to the control module through the first Bluetooth module;

and the second control module is used for comparing the Bluetooth address with a pre-stored vehicle-mounted Bluetooth address through the control module, and controlling the first Bluetooth module to be connected with the second Bluetooth module when the Bluetooth equipment is determined to be authorized vehicle-mounted Bluetooth.

Further, the charging control device further includes:

the third control module is used for comparing the Bluetooth address with a prestored mobile phone Bluetooth address when the Bluetooth equipment is determined not to be the vehicle-mounted Bluetooth through the control module, and controlling the first Bluetooth module to be connected with a third Bluetooth module in the mobile terminal when the Bluetooth equipment is determined to be the authorized mobile phone Bluetooth;

the prompting module is used for sending prompting information to the third Bluetooth module through the first Bluetooth module, wherein the prompting information is used for prompting that the third Bluetooth module is successfully connected with the first Bluetooth module, and notifying that the third Bluetooth module is connected with the first Bluetooth module through vehicle-mounted Bluetooth is replaced so as to remotely monitor the charging pile.

Further, the charging control device further includes:

the reading module is used for reading card swiping information of the NFC module and controlling the charging pile to charge the vehicle when the Bluetooth device is determined not to be authorized according to the Bluetooth address through the control module;

and the storage module is used for storing the Bluetooth address corresponding to the Bluetooth device.

Further, the charging control device further includes:

the judging module is used for judging whether the request duration of the connection request exceeds the preset duration or not when the control module determines that the Bluetooth equipment is unauthorized and the card swiping information is illegal;

and the refusing request module is used for refusing the connection request of the Bluetooth equipment if yes.

Further, the charging control device further includes:

the sending request module is used for scanning a connection request sent by the Bluetooth equipment within a preset range through the first Bluetooth module and sending the connection request to the control module;

the determining module is used for determining the category of the Bluetooth equipment according to whether the connection request comprises the vehicle identifier or not through the control module;

the first module is used for judging whether the Bluetooth equipment is a vehicle Bluetooth or not if yes;

And the second module is used for judging that the Bluetooth equipment is a mobile phone Bluetooth if not.

Referring to fig. 9, a schematic structural diagram of a charging control device according to an embodiment of the present invention is shown, and the charging control device is applied to a vehicle, as shown in fig. 9, and may include:

the second receiving module 701 is configured to receive, by using the second bluetooth module, connection information sent by the first bluetooth module when the second bluetooth module is successfully connected with the first bluetooth module in the charging pile;

the second sending module 702 is configured to push the connection information to a mobile terminal of a user through the vehicle communication module;

a third receiving module 703, configured to receive, through the second bluetooth module, a charging instruction sent by the vehicle communication module, where the charging instruction is sent by the mobile terminal to the vehicle communication module through a mobile phone communication module;

and a third sending module 704, configured to send the charging instruction to the first bluetooth module through the second bluetooth module, so that the first bluetooth module sends the charging instruction to a control module in the charging pile to control the charging pile to charge the vehicle.

Further, the device further comprises:

the second prompting module is used for receiving prompting information sent by the third Bluetooth module through the second Bluetooth module under the condition that the second Bluetooth module is successfully connected with the third Bluetooth module in the mobile terminal, wherein the prompting information is used for prompting that the third Bluetooth module is successfully connected with the first Bluetooth module and notifying that the third Bluetooth module is replaced to be connected with the first Bluetooth module by vehicle-mounted Bluetooth so as to remotely monitor the charging pile;

and the control module is used for controlling the second Bluetooth module to be connected with the first Bluetooth module according to the prompt information.

Further, the second transmitting module 702 includes:

the first sending sub-module is used for sending the connection information sent by the first Bluetooth module to the charging module through the second Bluetooth module;

and the second sending sub-module is used for sending the connection information to the vehicle communication module through the charging module, so that the vehicle communication module sends the connection information to the mobile phone communication module through the cloud platform and pushes the connection information to the mobile terminal of the user.

The embodiment of the application provides a charging control system, referring to fig. 10, the charging control system comprises a charging pile, a vehicle and a mobile terminal, wherein the charging pile is connected with the vehicle through bluetooth communication, the vehicle is communicated with the mobile terminal through a cloud platform, the charging pile comprises a first bluetooth module, a control module and an NFC module, the vehicle comprises a second bluetooth module, a vehicle communication module and a charging module, the mobile terminal comprises a third bluetooth module and a mobile phone communication module,

The specific implementation method of the charging control system provided in this embodiment may refer to the content of the charging control method provided in this embodiment, which is not described herein.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In this specification, each embodiment is described in a related manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

The above embodiments are merely preferred embodiments for fully explaining the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present invention, and are intended to be within the scope of the present invention.

Claims

1. A charging control method, applied to a charging pile, the charging pile being preconfigured with a first bluetooth module and a control module, the method comprising:

2. The charge control method according to claim 1, wherein, in the case where the first bluetooth module is successfully connected to a second bluetooth module in a vehicle, before transmitting connection information to the second bluetooth module through the first bluetooth module, further comprising:

3. The charging control method according to claim 2, wherein after the detected bluetooth device corresponding bluetooth address is transmitted to the control module through the first bluetooth module, further comprising:

4. The charging control method according to claim 2, wherein the charging pile is preconfigured with an NFC module, and after the detected bluetooth address corresponding to the bluetooth device is sent to the control module through the first bluetooth module, the charging pile further includes:

And storing the Bluetooth address corresponding to the Bluetooth device.

5. The method according to claim 4, wherein after the detected bluetooth address of the bluetooth device is sent to the control module through the first bluetooth module, the method further comprises:

if yes, rejecting the connection request of the Bluetooth equipment.

6. The method according to claim 2, wherein before the issuing, by the control module, the bluetooth detection instruction to the first bluetooth module, the method further comprises:

if yes, the Bluetooth equipment is vehicle-mounted Bluetooth;

otherwise, the Bluetooth device is a mobile phone Bluetooth.

7. A charging control method, characterized by being applied to a vehicle that is preconfigured with a second bluetooth module and a vehicle communication module, the method comprising:

8. The charging control method according to claim 7, wherein, in the case that the second bluetooth module is successfully connected to the first bluetooth module in the charging post, before receiving the connection information sent by the first bluetooth module through the second bluetooth module, the charging control method further comprises:

9. The charge control method according to claim 7, wherein the vehicle is preconfigured with a charging module, and the pushing the connection information to the mobile terminal of the user through the vehicle communication module includes:

10. A charging control device, characterized in that it is applied to a charging pile, said charging pile being preconfigured with a first bluetooth module and a control module, said device comprising:

11. A charge control device, characterized by being applied to a vehicle that is preconfigured with a second bluetooth module and a vehicle communication module, the device comprising:

12. The charging control system is characterized by comprising a charging pile, a vehicle and a mobile terminal, wherein the charging pile is in communication connection with the vehicle through Bluetooth, the vehicle is in communication with the mobile terminal through a cloud platform, the charging pile comprises a first Bluetooth module, a control module and an NFC module, the vehicle comprises a second Bluetooth module, a vehicle communication module and a charging module, the mobile terminal comprises a third Bluetooth module and a mobile phone communication module,