CN111343234B - Method for improving utilization rate of off-grid charging pile, storage medium and electronic equipment - Google Patents

Abstract

The invention provides a method for improving utilization rate of off-grid charging piles, a storage medium and electronic equipment, wherein the method comprises the following steps: responding to the off-network state signal of the current charging pile, and determining registration information of a mobile terminal corresponding to the current charging pile; issuing a communication request signal to the mobile terminal according to the registration information of the mobile terminal, wherein the communication request signal is used for requesting to establish communication connection between the current charging pile and the mobile terminal; and acquiring a passing request signal fed back by the mobile terminal, and receiving charging state data of the current charging pile forwarded by the mobile terminal, wherein the charging state data comprises registration information of the mobile terminal. According to the scheme, when the charging pile is offline, the mobile terminal can be established and the communication connection between the charging piles can be established, and the charging state data of the charging pile can be sent to the operator platform through the mobile terminal, so that the operator platform can monitor the charging process. Therefore, the influence of the offline of the charging pile on the charging process can be avoided, and the utilization rate of the offline charging pile is improved.

Description

Method for improving utilization rate of off-grid charging pile, storage medium and electronic equipment

Technical Field

The invention relates to the technical field of new energy vehicle charging, in particular to a method for improving utilization rate of off-grid charging piles, a storage medium and electronic equipment.

Background

Along with the state vigorously develops the new forms of energy industry, new energy automobile has the trend of replacing traditional fuel car gradually, in order to satisfy growing demand for charging, the charging station, fill electric pile and emerge like spring bamboo shoot behind the rain. At present, the charging process of an electric vehicle is shown in fig. 1, a user needing to be charged sends a charging request to an operator platform 200 through a mobile terminal 100, the user requests to use a charging pile 300 to charge the electric vehicle, the operator platform 200 sends an instruction of starting charging to the corresponding charging pile 300, the charging pile 300 charges the electric vehicle after being started, in the charging process, charging data is sent to the operator platform 200, the operator platform 200 monitors the charging process according to the data sent by the charging pile 300 and generates a charging bill after the charging is finished, the operator platform 200 sends the charging bill to the mobile terminal 100, and after the mobile terminal 100 finishes the charging process according to the charging bill payment.

In the charging process, the charging pile belongs to traditional IOT (Internet of things) equipment, and the equipment has the advantages that the network condition is uncertain greatly, most of the charging piles communicate with an operator platform by using a telecom operator flow SIM card, and the network quality of the telecom operator is influenced by various factors and uncertain greatly. Moreover, the charging pile belongs to long-time uninterrupted working equipment, and high voltage and high current in the charging process easily cause communication function module faults. Because above-mentioned problem often can appear leaving the net the condition in electric pile often fills. In case fill electric pile and appear the phenomenon of leaving the net, then the operator platform can stop this use of filling electric pile, causes to fill the utilization ratio reduction of electric pile, brings the waste of social resource. Although the charging pile in the prior art can be charged by a user through manual starting, data recorded in all charging processes under the scene are stored in the local charging pile, the storage space of the charging pile is limited, the number of vehicles for manual starting charging must be limited, the charging pile still cannot provide charging service when the storage space is full, and the utilization rate of the charging pile is reduced.

Moreover, if charging pile after charging is completed leads to charging state and bill information being unable to be returned to operator platform in time due to off-line, operator platform leads to that charging process can not be ended normally due to unable perception of charging information, unable normal generation of charging information, bill information and the like, and most likely leads to that electric vehicle can not start charging process again and affects normal use of electric vehicle.

Disclosure of Invention

The embodiment of the invention aims to provide a method, a storage medium and electronic equipment for improving the utilization rate of off-grid charging piles, and aims to solve the technical problem that in the prior art, the charging piles cannot be normally charged in an off-grid state, so that the utilization rate of the charging piles is low, or the charging process cannot be normally finished, so that an electric automobile cannot be normally started for next charging.

Therefore, the invention provides a method for improving the utilization rate of off-grid charging piles, which comprises the following steps:

responding to an off-network state signal of a current charging pile, and determining registration information of a mobile terminal corresponding to the current charging pile;

issuing a communication request signal to the mobile terminal according to the registration information of the mobile terminal, wherein the communication request signal is used for requesting to establish communication connection between the current charging pile and the mobile terminal;

and acquiring a passing request signal fed back by the mobile terminal, and receiving the charging state data of the current charging pile forwarded by the mobile terminal, wherein the charging state data comprises registration information of the mobile terminal.

Optionally, the method for improving the utilization rate of the off-grid charging pile further includes the following steps:

if the current charging pile is judged to finish the current charging process according to the charging state data forwarded by the mobile terminal, generating a bill to be paid according to the charging state data;

and sending a charging end signal and the bill to be paid to the mobile terminal.

Optionally, the method for improving the utilization rate of the off-grid charging pile, in response to the off-grid state signal of the current charging pile, before the step of determining the registration information of the mobile terminal corresponding to the current charging pile, includes:

if the interval between the moment when the current charging pile sends charging state data last time and the current moment is larger than a set threshold value, generating an off-network state signal of the current charging pile; or the like, or, alternatively,

and receiving the off-network state signal of the current charging pile sent by the mobile terminal.

Optionally, the method for improving the utilization rate of the off-grid charging pile further includes, after receiving the off-grid state signal of the current charging pile sent by the mobile terminal: generating an order number associated with the mobile terminal, and sending the order number to the mobile terminal;

in the step of receiving the charging state data of the current charging pile forwarded by the mobile terminal: the charging state data further comprises the order number.

Based on the same invention concept, the invention also provides a method for improving the utilization rate of the off-grid charging pile, which comprises the following steps:

acquiring a communication request signal sent by an operator platform, wherein the communication request signal is used for requesting to establish communication connection with a current charging pile;

sending a passing request signal to the operator platform, wherein the passing request signal is used for indicating permission to establish communication connection with the current charging pile;

sending a connection request signal to the current charging pile, and establishing communication connection with the current charging pile after the current charging pile feeds back a permission signal, wherein the connection request signal comprises registration information of a mobile terminal;

and receiving charging state data sent by the current charging pile and forwarding the charging state data to the operator platform, wherein the charging state data comprises the registration information.

Optionally, the method for improving the utilization rate of the off-grid charging pile further includes the following steps:

and receiving a charging end signal and a bill to be paid sent by the operator platform.

Optionally, the method for improving the utilization rate of the off-network charging pile further includes, before the communication request signal sent by the operator platform is obtained, the following steps:

and sending the off-network state signal of the current charging pile to the operator platform.

Optionally, the method for improving the utilization rate of the off-grid charging pile, after the step of sending a request signal to the operator platform, where the request signal is used to indicate permission to establish communication connection with the current charging pile, further includes: receiving an order number sent by the operator platform;

and sending to the current charging pile: the connection request signal also comprises the order number;

in the step of receiving the charging state data sent by the current charging pile and forwarding the charging state data to the operator platform: the charging state data further comprises the order number.

Based on the same invention concept, the invention also provides a method for improving the utilization rate of the off-grid charging pile, which comprises the following steps:

if a connection request signal sent by a mobile terminal is received when the current charging process is not started, analyzing registration information and an order number in the connection request signal;

feeding back a permission signal to the mobile terminal to establish a communication connection with the mobile terminal;

and sending charging state data to the mobile terminal, wherein the charging state data comprises the registration information and the order number.

Optionally, the method for improving the utilization rate of the off-grid charging pile further includes the following steps:

if a connection request signal sent by a mobile terminal is received in the current charging process, analyzing registration information in the connection request signal;

if the registration information is consistent with the registration information of the mobile terminal starting the current charging process, feeding back an admission signal to the mobile terminal to establish communication connection with the mobile terminal;

and sending charging state data to the mobile terminal, wherein the charging state data comprises the registration information.

Based on the same inventive concept, the invention also provides a computer-readable storage medium, wherein the storage medium stores program instructions, and the computer reads the program instructions and then executes the method for improving the utilization rate of the off-grid charging pile in any one of the above adaptive schemes.

Based on the same inventive concept, the invention further provides electronic equipment which comprises at least one processor and at least one memory, wherein program instructions are stored in the at least one memory, and the at least one processor reads the program instructions and then executes the method for improving the utilization rate of the off-grid charging pile in any one of the adaptation schemes.

Compared with the prior art, the technical scheme provided by the invention at least has the following beneficial effects:

according to the method for improving the utilization rate of the off-network charging pile, the storage medium and the electronic equipment, when the communication connection between the charging pile and the operator platform is disconnected, the communication connection between the mobile terminal and the charging pile can be established, and as the communication connection between the mobile terminal and the operator platform is stable, the charging state data of the charging pile can be sent to the operator platform through the mobile terminal, so that the operator platform can monitor the charging process. Thereby can avoid filling the influence of electric pile off-line to the charging process, thereby off-line charging pile can continue to charge for electric vehicle in addition and has improved the off-line utilization ratio of filling the electric pile.

Drawings

FIG. 1 is a schematic diagram illustrating a communication relationship in a charging process of an electric vehicle in the prior art;

fig. 2 is a flowchart of a method for improving the utilization rate of off-grid charging piles applied to an operator platform according to an embodiment of the present invention;

fig. 3 is a flowchart of a method for improving the utilization rate of an off-grid charging pile applied to a mobile terminal according to an embodiment of the present invention;

fig. 4 is a flowchart of a method for improving the utilization rate of an off-grid charging pile according to an embodiment of the present invention;

fig. 5 is a flowchart of a method for improving the utilization rate of off-grid charging piles in the charging piles according to another embodiment of the present invention;

fig. 6 is a schematic diagram of a hardware connection relationship of an electronic device according to an embodiment of the present invention;

fig. 7 is a schematic diagram of a hardware connection relationship of an electronic device according to another embodiment of the present invention;

FIG. 8 is a diagram illustrating a hardware connection relationship of an electronic device according to another embodiment of the invention;

fig. 9 is a schematic diagram of a communication connection relationship among the charging pile, the mobile terminal, and the operator platform according to the embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or assembly referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, the schemes in the following embodiments of the present invention may be combined according to actual needs as long as they do not conflict with each other.

The key point of the present invention is that when the charging pile is off-network, data transmission with the operator platform can be implemented by using the network of the mobile terminal, so that the off-line charging pile can also provide charging service. The invention is therefore based on the following basic situation: the communication state of the mobile terminal is obviously better than that of the communication module of the charging pile, so that the mobile terminal can ensure that a request for charging operation can be initiated. Specifically, under the condition that the charging pile is off the network due to network module failure or abnormal communication link of the charging pile, the charging pile firstly transmits charging state data to the mobile terminal, and then the mobile terminal sends related information to the operator platform through the preloaded running program. After the operator platform receives the relevant data, the charging operation can be continuously monitored, and the abnormal condition of the charging operation caused by off-grid is eliminated. Therefore, the implementation process of the invention is illustrated by the improvement in three aspects of the operator platform, the mobile terminal and the charging pile respectively.

Example 1

The embodiment provides a method for improving utilization rate of off-grid charging piles, which can be applied to an operator platform, and as shown in fig. 2, the method comprises the following steps:

s101: and responding to the off-network state signal of the current charging pile, and determining the registration information of the mobile terminal corresponding to the current charging pile. The mobile terminal is loaded with an application program, charging can be requested from an operator platform through the application program, the mobile terminal first needs to complete necessary information to complete registration, and the registration information generally includes a mobile phone number, user personal information, vehicle information of an electric vehicle and the like. Therefore, when the electric vehicle is charged by using the current charging pile, the registration letter of the mobile terminal of the owner of the electric vehicle is necessarily associated with the current charging pile. If the mobile terminal requests to use the offline charging pile for charging when the current charging pile is in an offline state, the information such as the pile number of the charging pile and the like sent by the mobile terminal and the registration information of the mobile terminal can be directly related. If the current charging pile is suddenly off-line in the charging process, the information of the charging pile can be determined by using the historical charging state information sent by the current charging pile, and the information of the mobile terminal is obtained when charging is requested. Therefore, in any case, when the charging pile is offline, the operator platform can quickly acquire the registration information of the mobile terminal corresponding to the current charging pile.

S102: and issuing a communication request signal to the mobile terminal according to the registration information of the mobile terminal, wherein the communication request signal is used for requesting to establish communication connection between the current charging pile and the mobile terminal. The operator platform may send the relevant information required for establishing the communication connection to the mobile terminal. For example, if the current situation belongs to offline of the charging pile in the charging process, the current charging process is already in an ongoing state, the current charging pile already grasps charging information required in the current charging process and can also determine registration information of the mobile terminal requesting charging, and at this moment, the operator platform only needs to issue a request communication signal to prompt the mobile terminal to send the registration information to the current charging pile so as to enable the current charging pile to judge whether to permit communication.

S103: and acquiring a passing request signal fed back by the mobile terminal, and receiving the charging state data of the current charging pile forwarded by the mobile terminal, wherein the charging state data comprises registration information of the mobile terminal. If the mobile terminal feeds back the passing request signal and successfully establishes communication connection with the current charging pile, the mobile terminal can receive charging state data sent by the current charging pile and then forwards the charging state data to the operator platform. The operation after the operator platform acquires the charge state data may be performed with reference to the prior art.

Through the above scheme of this embodiment, when filling the communication connection disconnection between electric pile and the operator platform, can establish mobile terminal and fill the communication connection between the electric pile, because the communication connection between mobile terminal and the operator platform is very stable, fill the state of charge data of electric pile and can send to the operator platform via mobile terminal, supply the operator platform to monitor charging process. Thereby can avoid filling the influence of electric pile off-line to the charging process, thereby off-line charging pile can continue to charge for electric vehicle in addition and has improved the off-line utilization ratio of filling the electric pile.

Further, in the above scheme, the method may further include the following steps:

and S104, if the current charging pile is judged to finish the current charging process according to the charging state data forwarded by the mobile terminal, generating a bill to be paid according to the charging state data. That is to say, the operator platform can normally monitor the life cycle of the current charging process according to the charging state data sent by the mobile terminal, and can obtain the bill to be paid in the current charging process according to the preset bill generation flow (the flow is the same as the flow of generating the bill by sending data through the charging pile in the prior art) after the current charging process is finished.

And S105, sending a charging end signal and the bill to be paid to the mobile terminal.

Therefore, through above-mentioned scheme, even if fill electric pile and appear leaving the net trouble, do not influence the generation of current charging process payment information yet, as long as the user that charges carries out normal payment according to waiting to pay the bill and just can normally accomplish this and charge, can not influence the next charging of its charging vehicle.

In the above scheme, according to different application scenarios, the off-network state signal may be obtained in the following two ways:

scenario one: fill electric pile at present and normally opened current charging process, but the off-line condition has appeared in the in-process of charging, and whether this moment operator's platform can judge the off-line according to the time node of the current electric pile data of filling of receiving, promptly: and if the interval between the moment when the current charging pile sends the charging state data last time and the current moment is larger than a set threshold value, generating an off-network state signal of the current charging pile. The charging pile sends data to the operator platform according to a specific period, so that the receiving time of the data of two adjacent times is consistent with the specific period, and if the operator platform does not receive the data sent by the charging pile within the time exceeding the set threshold value, it can be judged that the charging pile is offline.

Scenario two: the charging pile is in an off-line state currently, the mobile terminal can request the operator platform to use the off-line charging pile to charge the electric vehicle, and at the moment, the mobile terminal can send a notification signal which is sent to the operator platform to prompt the operator platform that the charging pile is in the off-line state. At this time, the off-network state signal of the current charging pile sent by the mobile terminal can be directly received.

As described above, if the situation is scenario two, the mobile terminal requests the operator platform to use the offline charging pile to start charging, then in this scenario:

after step S101, the method further includes: and generating an order number associated with the mobile terminal, and sending the order number to the mobile terminal.

In step S103, the charging state data in the charging state data of the current charging pile forwarded by the mobile terminal is received, where the charging state data further includes the order number.

For each charging process, the order number corresponding to the current charging process is required to be available for normal charging, and therefore, the operator platform needs to allocate the order number to the charging process to be started. Data generated in subsequent charging processes need to be bound with the order number, so that a large number of charging processes performed together can be distinguished.

Example 2

The embodiment provides a method for improving utilization rate of off-grid charging piles, which can be applied to a mobile terminal, and as shown in fig. 3, the method comprises the following steps:

s201: and acquiring a communication request signal sent by an operator platform, wherein the communication request signal is used for requesting to establish communication connection with the current charging pile. When a communication request signal sent by an operator platform is received, it is indicated that the current charging pile is off-grid, the off-grid state can be determined by the operator platform through self monitoring, or can be actively sent to the operator platform by a mobile terminal, and the fact that the operator platform allows the offline charging pile to continue to provide charging service but needs the mobile terminal to feed back a permission signal is also indicated by the received communication request signal.

S202: sending a passing request signal to the operator platform, wherein the passing request signal is used for indicating permission to establish communication connection with the current charging pile;

s203: and sending a connection request signal to the current charging pile, and establishing communication connection with the current charging pile after the current charging pile feeds back a permission signal, wherein the connection request signal comprises registration information of a mobile terminal. The corresponding relation between the registration information and the mobile terminal is queryable, so that the charging pile can determine the mobile terminal as long as the registration information is input.

S204: and receiving charging state data sent by the current charging pile and forwarding the charging state data to the operator platform, wherein the charging state data comprises the registration information.

In the above scheme, the mobile terminal can receive the charging state data sent by the charging pile and forward the charging state data to the operator platform by establishing communication connection with the charging pile, so that the operator platform can be ensured to receive the charging state data and carry out real-time monitoring on the charging process, the offline charging pile can continue to provide charging operation, and the utilization rate of the offline charging pile is improved.

Further, the above scheme may further include the following steps:

and S205, receiving a charging end signal and a bill to be paid sent by the operator platform. The mobile terminal can normally complete the current charging process only by paying the bill to be paid according to the normal flow, and the next charging of the vehicle cannot be influenced.

As described above, the mobile terminal may request the operator platform to use the charging pile in the offline state for charging, at this time, an off-network state signal of the current charging pile needs to be sent to the operator platform, and at this time, the device information of the charging pile may be input to the operator platform, so that the operator platform determines which charging pile has the offline state. Or, communication connection can be established with the charging pile first, so that equipment information of the charging pile is obtained, and then the equipment information of the charging pile is sent to the operator platform when a charging request is sent to the operator platform. At this time, the mobile terminal needs to receive the order number sent by the operator platform; the order number is only used for generating charging data in the current charging process. Therefore, in the step of sending the current charging pile by the mobile terminal, the connection request signal further comprises the order number; and in the step of receiving the charging state data sent by the current charging pile and forwarding the charging state data to the operator platform, the charging state data further comprises the order number.

In this case, although the charging pile is in an offline state, as long as the charging pile can normally provide the charging operation, a data transmission link can be established with the operator platform through the network sharing the mobile terminal, so that the charging operation is normally started. In addition, the mobile terminal is connected with the operator platform through a network, so that a user operates on an application program installed in the mobile terminal, and receiving and forwarding of charging pile data can be completed noninductively.

Example 3

The embodiment provides a method for improving utilization rate of off-grid charging piles, which can be applied to charging piles, and as shown in fig. 4, the method comprises the following steps:

s301, if a connection request signal sent by the mobile terminal is received when the current charging process is not started, the registration information and the order number in the connection request signal are analyzed. That is, when the charging pile does not perform any charging operation, the charging pile receives a connection request sent by the mobile terminal, and at this time, registration information of the mobile terminal and an order number allocated to the charging process of this time can be determined, so that the condition for normally starting the current charging process is met, and the charging operation can be performed.

And S302, feeding back a permission signal to the mobile terminal to establish a communication connection with the mobile terminal. The communication connection between the charging pile and the mobile terminal can adopt NFC connection, Bluetooth connection or the charging pile can be connected with the mobile terminal hotspot after the mobile terminal opens the hotspot.

And S303, sending charging state data to the mobile terminal, wherein the charging state data comprises the registration information and the order number. Charging pile can automatically generate charging state data in the charging process, and the charging state data cannot be successfully sent to the operator platform due to the fact that the charging pile is in an off-line state, but the charging state data can be sent to the mobile terminal, and the mobile terminal forwards the charging state data to the operator platform.

Further, the above scheme may further include:

and S304, if a connection request signal sent by the mobile terminal is received in the current charging process, analyzing the registration information in the connection request signal.

S305, if the registration information is consistent with the registration information of the mobile terminal starting the current charging process, feeding back a permission signal to the mobile terminal to establish communication connection with the mobile terminal.

S306, sending charging state data to the mobile terminal, wherein the charging state data comprises the registration information.

In this case, it may be more suitable for the charging pile not to be offline when starting charging, but to be offline in the subsequent charging process. At this time, after a request for establishing communication connection sent by the mobile terminal is received, whether the registration information of the mobile terminal is consistent with the existing registration information of the mobile terminal in the current charging process can be judged, if so, the communication connection is allowed to be established, then, the data in the charging process is sent to the mobile terminal, and the mobile terminal sends the data to an operator platform, so that the normal operation of the charging process is ensured.

Example 4

The embodiment provides a computer-readable storage medium, wherein a program instruction is stored in the storage medium, and after the program instruction is read by a computer, the method for improving the utilization rate of the off-grid charging pile in any scheme in embodiment 1 is executed.

Example 5

The embodiment provides a computer-readable storage medium, wherein a program instruction is stored in the storage medium, and after the program instruction is read by a computer, the method for improving the utilization rate of the off-grid charging pile in any scheme of the embodiment 2 is executed.

Example 6

The embodiment provides a computer-readable storage medium, wherein a program instruction is stored in the storage medium, and after the program instruction is read by a computer, the method for improving the utilization rate of the off-grid charging pile according to any one of the aspects of the embodiment 3 is executed.

Example 7

The embodiment provides an electronic device, as shown in fig. 6, which includes at least one processor 101 and at least one memory 102, where at least one memory 102 stores program information, and after the at least one processor 101 reads the program information, the method for improving the utilization rate of the off-grid charging pile according to any one of the solutions in embodiment 1 is executed.

Taking a processor 101 as an example in fig. 6, it may further include: an input device 103 and an output device 104. The processor 101, the memory 102, the input device 103, and the output device 104 may be connected by a bus or other means, and fig. 6 illustrates an example of a connection by a bus.

Example 8

The embodiment provides an electronic device, as shown in fig. 7, which includes at least one processor 201 and at least one memory 202, where at least one memory 202 stores program information, and after the at least one processor 201 reads the program information, the method for improving the utilization rate of the off-network charging pile according to any one of the solutions in embodiment 2 is executed.

In fig. 7, taking one processor 201 as an example, it may further include: an input device 203 and an output device 204. The processor 201, the memory 202, the input device 203 and the output device 204 may be connected by a bus or other means, and fig. 7 illustrates the connection by a bus as an example.

Example 9

The embodiment provides an electronic device, as shown in fig. 8, which includes at least one processor 301 and at least one memory 302, where at least one memory 302 stores program information, and after the at least one processor 301 reads the program information, the method for improving the utilization rate of the off-grid charging pile according to any one of the schemes in embodiment 3 is executed.

In fig. 8, taking one processor 301 as an example, it may further include: an input device 303 and an output device 304. The processor 301, the memory 302, the input device 303 and the output device 304 may be connected by a bus or other means, and fig. 8 illustrates the connection by a bus as an example.

In the above solutions, referring to fig. 9, when the charging pile 300 is in an off-line state, communication with the operator platform 200 is disconnected, the charging pile 300 can establish a new communication connection with the mobile terminal 100, and the charging pile 300 sends data that is originally sent to the operator platform 200 to the mobile terminal 100, and then the mobile terminal 100 sends the data to the operator platform 200 again. According to the scheme, the off-line charging pile 300 is ensured to continue to provide charging operation in a communication connection mode with the mobile terminal 100, so that the utilization rate of the off-line charging pile is improved. In addition, the operator platform 200 can monitor the charging process through the mobile terminal 100 and send order information to the mobile terminal 100 when the charging is finished, so that the mobile terminal 100 can be ensured to normally pay an order to normally finish the charging process, and the next charging process of the current charging vehicle is not affected.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (14)

1. A method for improving utilization rate of off-grid charging piles is characterized by comprising the following steps:

determining, by an operator platform, that a current charging pile is off-grid in a first charging process based on first charging status data associated with the first charging process acquired from the current charging pile;

determining registration information of a mobile terminal corresponding to the current charging pile based on the first charging state data associated with the first charging process;

sending a communication request signal to the mobile terminal, wherein the communication request signal is used for indicating the mobile terminal to send the registration information to the current charging pile so as to start a second charging process of the current charging pile; and

receiving second charging state data associated with the second charging process of the current charging pile from the mobile terminal.

2. The method for improving the utilization rate of off-grid charging piles according to claim 1, characterized by further comprising the following steps:

if the current charging pile is judged to finish the second charging process according to the second charging state data forwarded by the mobile terminal, generating a bill to be paid according to the second charging state data;

and sending a charging end signal and the bill to be paid to the mobile terminal.

3. The method for improving the utilization rate of the off-grid charging piles according to claim 1, wherein the first charging state data and the second charging state data comprise order numbers, and the order numbers are associated with the first charging process and the second charging process.

4. A method for improving utilization rate of off-grid charging piles is characterized by comprising the following steps:

receiving, by a mobile terminal, a communication request signal from an operator platform, the communication request signal generated by the operator platform in response to determining that a current charging pile is off-grid during a first charging process;

sending registration information associated with the first charging process to the current charging pile for starting a second charging process of the current charging pile;

receiving, from the current charging post, charging status data associated with the second charging process; and

transmitting the received charge status data to the operator platform.

5. The method for improving the utilization rate of off-grid charging piles according to claim 4, further comprising the following steps:

and receiving a charging end signal and a bill to be paid sent by the operator platform.

6. The method for improving utilization rate of off-grid charging piles according to claim 5, wherein the method further comprises the following steps:

receiving a pass request signal from the current charging pile; and

transmitting the pass request signal to the operator platform.

7. The method of claim 4, wherein the state of charge data includes an order number, and wherein the order number is associated with the first charging process and the second charging process.

8. A method for improving utilization rate of off-grid charging piles is characterized by comprising the following steps:

sending, by the current charging pile to the operator platform, first charging status data associated with the first charging process;

receiving registration information from a mobile terminal after the current charging pile is off-grid in the first charging process;

in response to determining that the registration information matches the first charging process, feeding back a permission signal to the mobile terminal for indicating initiation of a second charging process; and

and sending the charging state data associated with the second charging process to the mobile terminal.

9. A computer-readable storage medium, wherein the storage medium stores program instructions, and after the program instructions are read by a computer, the computer executes the method for improving the utilization rate of the off-grid charging pile according to any one of claims 1 to 3.

10. A computer-readable storage medium, wherein the storage medium stores program instructions, and after the program instructions are read by a computer, the computer executes the method for improving the utilization rate of the off-grid charging pile according to any one of claims 4 to 7.

11. A computer-readable storage medium, wherein the storage medium stores program instructions, and after the program instructions are read by a computer, the computer executes the method for improving the utilization rate of the off-grid charging pile according to claim 8.

12. An electronic device, comprising at least one processor and at least one memory, wherein at least one memory stores program instructions, and the at least one processor executes the method for improving off-grid charging pile utilization according to any one of claims 1 to 3 after reading the program instructions.

13. An electronic device, comprising at least one processor and at least one memory, wherein at least one of the memory stores program instructions, and the at least one processor executes the method for improving off-grid charging pile utilization according to any one of claims 4 to 7 after reading the program instructions.

14. An electronic device, comprising at least one processor and at least one memory, wherein at least one of the memories stores program instructions, and the at least one processor reads the program instructions and then executes the method for improving utilization of off-grid charging piles according to claim 8.

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