CN115465139A

CN115465139A - Charging equipment intelligent management method and device based on Internet of things

Info

Publication number: CN115465139A
Application number: CN202111188447.2A
Authority: CN
Inventors: 王林祥; 赵皎平; 李楠; 潘永红
Original assignee: Xian Irain IoT Technology Service Co Ltd
Current assignee: Xian Irain IoT Technology Service Co Ltd
Priority date: 2021-10-12
Filing date: 2021-10-12
Publication date: 2022-12-13

Abstract

The invention discloses an intelligent management method and device for charging equipment based on the Internet of things, wherein the method comprises the following steps: the method comprises the steps of collecting real-time information corresponding to charging equipment in a current application scene, wherein the real-time information corresponding to the charging equipment comprises a real-time position of the charging equipment and/or real-time behavior information of a user using the charging equipment in the current application scene, determining a real-time state of the charging equipment according to the real-time information corresponding to the charging equipment, and executing operation matched with the real-time state of the charging equipment. Therefore, the state of the charging equipment can be intelligently determined by implementing the method and the device, the consciousness that a user can return the charging equipment after using the charging equipment is improved, the damage of the charging equipment can be reduced, and the intelligence of managing the charging equipment is improved.

Description

Charging equipment intelligent management method and device based on Internet of things

Technical Field

The invention relates to the technical field of vehicle charging, in particular to an intelligent charging equipment management method and device based on the Internet of things.

Background

With the rapid development of new energy vehicle technology, the quantity of new energy vehicles is increasing rapidly, and its corresponding electric pile that fills also increases gradually. The charging mode of present vehicle adopts the mode of charging by oneself mostly, when needs charge to the vehicle, and the user is through the two-dimensional code of its user terminal self-service scanning electric pile of filling, treats to fill electric pile's rifle unblock back of charging, will charge the rifle and be connected rather than the socket that charges of vehicle, can carry out the operation of charging to the vehicle.

However, practice has found that after the vehicle finishes charging, the charging device of the charging pile is not normally returned, such as: the charging gun is placed on the ground or the like, which easily causes a situation in which the charging gun is damaged. Therefore, how to provide an intelligent management charging device, such as: the scheme of intelligently determining the state of the charging equipment so as to reduce the damage of the charging equipment is very important.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent management method and device for charging equipment based on the Internet of things, which can intelligently manage the charging equipment and reduce the damage of the charging equipment.

In order to solve the technical problem, a first aspect of the present invention discloses an intelligent management method for a charging device based on the internet of things, where the method includes:

the method comprises the steps of collecting real-time information corresponding to charging equipment in a current application scene, wherein the real-time information corresponding to the charging equipment comprises a real-time position of the charging equipment and/or real-time behavior information of a user using the charging equipment in the current application scene;

determining the real-time state of the charging equipment according to the real-time information corresponding to the charging equipment;

and executing operation matched with the real-time state of the charging equipment.

As an optional implementation manner, in the first aspect of the present invention, before the acquiring the real-time information corresponding to the charging device in the current application scenario, the method further includes:

detecting whether a use request triggered by a certain charging device in a current application scene is received or not, acquiring identity information of a user triggering the use request when the use request is received, and determining the condition that the user uses the charging device corresponding to the current application scene for the last time according to the identity information;

judging whether the condition that the user uses the charging equipment corresponding to the current application scene for the last time is used for indicating that the charging equipment corresponding to the current application scene is returned when the user finishes using the charging equipment for the last time;

and when the situation that the user uses the charging equipment corresponding to the current application scene for the last time is judged to be used for indicating that the charging equipment corresponding to the current application scene is returned to the position after the user finishes using the charging equipment for the last time, performing unlocking operation on the charging equipment or performing electric connection operation on a charging interface of the vehicle of the user and a certain charging equipment, and triggering and executing the operation of acquiring real-time information corresponding to the charging equipment in the current application scene, wherein the certain charging equipment is the charging equipment.

As an alternative implementation, in the first aspect of the present invention, the method further includes:

when it is determined that the condition that the user uses the charging device corresponding to the current application scenario last time is used for indicating that the charging device corresponding to the current application scenario is not returned by the charging device corresponding to the user that the user has used the current application scenario last time, executing an operation of prohibiting the user from using the charging device, where the operation of prohibiting the user from using the charging device includes: prohibiting an unlocking operation from being performed on the charging device or prohibiting an electrical connection operation from being performed on a charging interface of the user's vehicle and the certain charging device;

and, the method further comprises:

and sending first reminding information to a terminal bound by the user, wherein the first reminding information comprises a reason for forbidding the user to use the charging equipment, and the first reminding information is used for reminding the user to forbid the user to use the charging equipment.

As an optional implementation manner, in the first aspect of the present invention, the performing an operation matching a real-time status of the charging device includes:

when the vehicle charging of the user is completed and the real-time state of the charging equipment is used for indicating that the charging equipment is returned, determining the use condition of the charging equipment used by the user and/or historical data information of the charging equipment, and analyzing the use condition of the charging equipment used by the user and/or historical data information of the charging equipment to obtain an analysis result;

when the analysis result is the determined first type of analysis result, executing one or more operations of discounting the cost required to be paid by the user at this time, sending virtual resources to a terminal bound by the user, and prioritizing the queuing sequence of the vehicle corresponding to the user in the next queuing;

and when the analysis result is the determined second type analysis result, executing one or more operations of sending warning information to the terminal bound by the user, limiting the next charging time of the vehicle corresponding to the user, limiting the next charging electric quantity of the vehicle corresponding to the user, increasing the cost required to be paid by the user at this time, and delaying the queuing sequence of the vehicle corresponding to the user at the next queuing.

monitoring a real-time condition of the vehicle when the vehicle charging of the user is completed and the real-time status of the charging device is used to indicate that the charging device is not parked;

judging whether the vehicle is at a vehicle outlet in the current application scene at the current moment according to the real-time condition of the vehicle, re-determining the real-time state of the charging equipment when the real-time condition of the vehicle is judged to be used for representing that the vehicle is at the vehicle outlet in the current application scene, forbidding to perform a releasing operation on the vehicle when the re-determined real-time state of the charging equipment is used for representing that the charging equipment is not returned, and sending second reminding information to a terminal bound by the user, wherein the second reminding information comprises a reason for representing that the user returns the charging equipment and forbidding the user to pass, and the second reminding information is used for reminding the user to return the charging equipment;

and, the method further comprises:

and when the redetermined real-time state of the charging equipment is used for indicating that the charging equipment is returned, performing releasing operation on the vehicle.

when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is not at the exit in the current application scene, judging whether the vehicle is parked on the charging parking space corresponding to the charging equipment at the current moment according to the real-time condition of the vehicle, and when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is parked on the charging parking space corresponding to the charging equipment, collecting the parking time length of the vehicle;

judging whether the parking time of the vehicle is greater than or equal to a preset parking time threshold, and when the parking time of the vehicle is judged to be greater than or equal to the parking time threshold, sending third reminding information to a user terminal corresponding to the vehicle, wherein the third reminding information comprises reasons for indicating that the user drives the vehicle away from the charging parking space and resets the charging equipment, and the third reminding information is used for reminding the user to reset the charging equipment and drive the vehicle away from the charging parking space.

when a payment request sent by the user-bound terminal is received and the real-time state of the charging equipment is used for indicating that the charging equipment is returned, sending a payment prompt to the user-bound terminal, wherein the payment prompt comprises usage cost of indicating that the user uses the charging equipment and parking cost of the vehicle, and the payment prompt is used for prompting the user to pay the cost;

and, the method further comprises:

when a payment request sent by the terminal bound by the user is received and the real-time state of the charging equipment is used for indicating that the charging equipment is not in place, fourth reminding information is sent to the terminal bound by the user, the fourth reminding information comprises a reason for indicating that the user places the charging equipment in place, the fourth reminding information is used for reminding the user to place the charging equipment in place, and after the fact that the real-time state of the charging equipment is in place is determined, the payment prompt is sent to the terminal bound by the user.

The invention discloses a charging equipment intelligent management device based on the internet of things in a second aspect, which comprises:

the system comprises an acquisition module, a storage module and a processing module, wherein the acquisition module is used for acquiring real-time information corresponding to charging equipment in a current application scene, and the real-time information corresponding to the charging equipment comprises a real-time position of the charging equipment and/or real-time behavior information of a user using the charging equipment in the current application scene;

the first determining module is used for determining the real-time state of the charging equipment according to the real-time information corresponding to the charging equipment in the current application scene;

and the execution module is used for executing the operation matched with the real-time state of the charging equipment.

As an optional embodiment, in the second aspect of the present invention, the apparatus further comprises:

the detection module is used for detecting whether a use request triggered by a certain charging device in the current application scene is received or not before the acquisition module acquires the real-time information corresponding to the charging device in the current application scene;

the system comprises an acquisition module, a processing module and a display module, wherein the acquisition module is used for acquiring the identity information of a user triggering a use request when receiving the use request triggered by a certain charging device in a current application scene;

the second determining module is used for determining the condition that the user uses the charging equipment corresponding to the current application scene for the last time according to the identity information;

the judging module is used for judging whether the condition that the user uses the charging equipment corresponding to the current application scene for the last time is used for indicating that the charging equipment corresponding to the current application scene is returned when the user finishes using the charging equipment for the last time;

and the operation module is used for executing an unlocking operation on the charging equipment or executing an electric connection operation on a charging interface of a vehicle of the user and a certain charging equipment when the condition that the charging equipment corresponding to the current application scene is used by the user for the last time is judged to indicate that the charging equipment corresponding to the current application scene is returned after the user finishes the last use, and triggering the acquisition module to execute the operation of acquiring real-time information corresponding to the charging equipment in the current application scene, wherein the certain charging equipment is the charging equipment.

the operation module is further configured to, when it is determined that the condition that the user used the charging device corresponding to the current application scenario last time is used to indicate that the charging device corresponding to the current application scenario is not returned to the home position after the user used the current application scenario last time, execute an operation of prohibiting the user from using the charging device, where the operation of prohibiting the user from using the charging device includes: prohibiting an unlocking operation from being performed on the charging device or prohibiting an electrical connection operation from being performed on a charging interface of the user's vehicle and the certain charging device;

the sending module is used for sending first reminding information to the terminal bound by the user, the first reminding information comprises reasons for forbidding the user to use the charging equipment, and the first reminding information is used for reminding the user to forbid the user to use the charging equipment.

As an optional implementation manner, in the second aspect of the present invention, the manner in which the execution module executes the operation matched with the real-time status of the charging device is specifically:

when the analysis result is the determined first type of analysis result, executing one or more operations of discounting the cost required to be paid by the user at this time, sending virtual resources to the terminal bound by the user, and prioritizing the queuing sequence of the vehicle corresponding to the user in the next queuing;

As an optional implementation manner, in the second aspect of the present invention, the executing module includes:

the monitoring submodule is used for monitoring the real-time condition of the vehicle when the charging of the vehicle of the user is finished and the real-time state of the charging equipment is used for indicating that the charging equipment is not parked;

the judgment submodule is used for judging whether the vehicle is at a vehicle outlet in the current application scene at the current moment according to the real-time condition of the vehicle;

the determining submodule is used for determining the real-time state of the charging equipment again when the real-time condition of the vehicle is judged to be used for representing that the vehicle is at a vehicle outlet in the current application scene;

an execution sub-module configured to prohibit a release operation from being performed on the vehicle when the real-time status of the charging device determined again by the determination sub-module is used to indicate that the charging device is not parked;

the sending submodule is used for sending second reminding information to the terminal bound by the user when the real-time state of the charging equipment determined again by the determining submodule is used for indicating that the charging equipment is not in place, wherein the second reminding information comprises a reason for indicating that the user places the charging equipment in place and forbids the user to pass, and the second reminding information is used for reminding the user to place the charging equipment in place;

the execution submodule is further configured to execute a release operation on the vehicle when the real-time state of the charging device determined again by the determination submodule is used to indicate that the charging device is returned.

As an optional implementation manner, in the second aspect of the present invention, the executing module further includes:

the judging submodule is further configured to judge whether the vehicle is parked on a charging parking space corresponding to the charging device at the current moment according to the real-time condition of the vehicle when it is judged that the real-time condition of the vehicle is used for indicating that the vehicle is not located at a vehicle exit in the current application scene;

the acquisition submodule is used for acquiring the parking time length of the vehicle when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is parked on the charging parking space corresponding to the charging equipment;

the judgment submodule is also used for judging whether the parking time of the vehicle is greater than or equal to a preset parking time threshold value or not according to the parking time of the vehicle acquired by the acquisition submodule;

the sending sub-module is further configured to send third prompting information to a user terminal corresponding to the vehicle when it is determined that the parking time of the vehicle is greater than or equal to the parking time threshold, where the third prompting information includes a reason indicating that the user drives the vehicle away from the charging stall and resets the charging device, and the third prompting information is used to prompt the user to reset the charging device and drive the vehicle away from the charging stall.

when a payment request sent by the terminal bound by the user is received and the real-time state of the charging equipment is used for indicating that the charging equipment is returned, sending a payment prompt to the terminal bound by the user, wherein the payment prompt comprises usage cost for indicating that the user uses the charging equipment and parking cost of a vehicle corresponding to the user, and the payment prompt is used for reminding the user of payment of the cost;

when a payment request sent by the terminal bound by the user is received and the real-time state of the charging equipment is used for indicating that the charging equipment is not in the homing state, fourth reminding information is sent to the terminal bound by the user, the fourth reminding information comprises a reason for reminding the user to homing the charging equipment, the fourth reminding information is used for reminding the user to homing the charging equipment, and after the fact that the real-time state of the charging equipment is in the homing state is determined, the payment prompt is sent to the terminal bound by the user.

The invention discloses a third aspect of the invention discloses another charging equipment intelligent management device based on the Internet of things, which comprises:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program codes stored in the memory to execute the charging equipment intelligent management method based on the internet of things disclosed by the first aspect of the invention.

The invention discloses a computer storage medium, which stores computer instructions, and when the computer instructions are called, the computer instructions are used for executing the charging equipment intelligent management method based on the internet of things disclosed by the first aspect of the invention.

In the embodiment of the invention, the real-time information corresponding to the charging equipment in the current application scene is collected, the real-time information corresponding to the charging equipment comprises the real-time position of the charging equipment and/or the real-time behavior information of a user using the charging equipment in the current application scene, the real-time state of the charging equipment is determined according to the real-time information corresponding to the charging equipment, and the operation matched with the real-time state of the charging equipment is executed. Therefore, the real-time state of the charging equipment is intelligently determined by the acquired real-time position of the charging equipment and/or the real-time behavior of the user using the charging equipment in the current application scene, so that the method is favorable for executing the operation matched with the real-time state, for example, the user is reminded to return the charging equipment, the intelligent management of the charging equipment can be realized, the consciousness that the user returns the charging equipment after using the charging equipment is favorably improved, and the damage of the charging equipment can be further reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart of an intelligent management method for charging equipment based on the internet of things according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of another intelligent management method for charging equipment based on the internet of things according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of an intelligent management device for charging equipment based on the internet of things according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of another intelligent charging device management apparatus based on the internet of things according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of another charging device intelligent management apparatus based on the internet of things according to the embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions 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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those steps or elements but may alternatively include other steps or elements not expressly listed or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The invention discloses an intelligent management method and device for charging equipment based on the Internet of things. The following are detailed below.

Example one

Referring to fig. 1, fig. 1 is a schematic flowchart of an intelligent management method for charging equipment based on the internet of things according to an embodiment of the present invention. The method described in fig. 1 may be applied to an intelligent management apparatus (an intelligent management system) of a charging device, where the intelligent management apparatus includes a charging device, a charging control device, a local management server of the charging device, a cloud management server of the charging device, and the like, and the embodiment of the present invention is not limited thereto. As shown in fig. 1, the method for intelligently managing charging equipment based on the internet of things may include the following operations:

101. the method includes the steps that real-time information corresponding to charging equipment in a current application scene is collected, and the real-time information corresponding to the charging equipment comprises the real-time position of the charging equipment and/or real-time behavior information of a user using the charging equipment in the current application scene.

In the embodiment of the present invention, the current application scenario is a scenario in which a charging device for charging a vehicle is provided and the vehicle can be charged (for example, a parking lot in which the charging device for charging the vehicle is provided), where the number of the charging devices in the current application scenario may be one or more, and is not limited in the embodiment of the present invention.

In an embodiment of the present invention, the real-time location of the charging device may include one of a location for placing the charging device, a location where the charging device is located at a charging interface of the vehicle, and another location (for example, on the ground or in a hand of a user) where the charging device is located, which are set on the charging control device. The intelligent management device can monitor the position of the charging equipment in real time through a position sensor which is arranged on the charging control equipment in advance and/or through modes of detecting whether the charging equipment is connected with a vehicle charging interface or not and the like. The real-time behavior information of the user using the charging device comprises at least one of the time length of the user using the charging device, the charging electric quantity of the user using the charging device and the homing time length of the user using the charging device. It should be noted that the homing duration of the user using the charging device represents a duration of the user homing the charging device to the position of the charging device in the charging control device after the vehicle corresponding to the user completes charging. Therefore, the accuracy of subsequently determining the real-time state of the charging equipment can be improved by acquiring the multidirectional information of the charging equipment.

102. And determining the real-time state of the charging equipment according to the real-time information corresponding to the charging equipment.

In an embodiment of the present invention, the real-time status of the charging device may include at least one of a real-time location status of the charging device (for example, the charging device is returned to a location for placing the charging device in the charging control device), a performance status of the charging device (for example, the charging device may be used normally), and an appearance damage degree of the charging device (for example, a handle of the charging device is damaged), which is not limited in the embodiment of the present invention.

103. An operation matching the real-time state of the charging device is performed.

In this embodiment of the present invention, optionally, the performing an operation matched with the real-time state of the charging device includes:

when the vehicle charging of the user is completed and the real-time state of the charging equipment is used for indicating that the charging equipment is returned, determining the use condition of the charging equipment used by the user and historical data information of the charging equipment, and analyzing the use condition of the charging equipment used by the user and the historical data information of the charging equipment to obtain an analysis result;

when the analysis result is the determined first type of analysis result, executing one or more operations of discounting the cost required to be paid by the user at this time, sending virtual resources to the terminal bound by the user, and prioritizing the queuing sequence of the next queuing of the vehicle corresponding to the user;

In the embodiment of the present invention, optionally, the use condition of the charging device used by the user includes: the charging equipment used by the user at this time is long in use, whether the user returns the charging equipment in time after the charging equipment used by the user at this time is charged is completed, and the damage condition of the charging equipment used by the user at this time, the charging quantity of the charging equipment used by the user at this time, the use time of the charging equipment used by the user in history, and the damage condition of the charging equipment used by the user in history are one or more. The historical data information of the charging equipment comprises historical data information of a user using the charging equipment and/or historical data information of the charging equipment, wherein the historical data of the user using the charging equipment comprises one or more of the use time of the charging equipment, the use times of the charging equipment and the unrehoming times of the charging equipment; and the historical data information of the charging equipment comprises one or more of maintenance times of the charging equipment and damage conditions of the charging equipment. Therefore, the use condition of the charging equipment used by the user and the historical data information of the charging equipment are determined in multiple directions, and the accuracy and the reliability of the use condition of the charging equipment used by the user and the historical data information analysis result of the charging equipment can be improved.

In the embodiment of the present invention, optionally, the virtual resource may include one or more of a virtual point, a virtual gold coin, a redemption ticket, a cash red envelope, and a voucher, and the user may select to use the corresponding virtual resource for payment when the charging device is used to charge the vehicle next time.

In this embodiment of the present invention, optionally, the warning message sent to the user may be a reason for reminding the user to limit the charging duration for using the charging device and/or limit the charging amount for using the charging device by the user (for example, the warning message may be "based on a result of analyzing the use condition of using the charging device and the historical data information of the charging device, the analysis result is that the use condition of using the charging device this time is not good, so that the charging duration for charging your vehicle next time is limited").

As can be seen, in the embodiments of the present invention, the analysis result of the behavior of the user is obtained by analyzing the usage of the charging device by the user and the historical data information of the charging device, and the operation corresponding to the analysis result is executed according to the obtained analysis result, for example: when the analysis result is the first type of analysis result, the operation of discounting the cost required to be paid by the user at this time is executed, or when the analysis result is the second type of analysis result, the operation of limiting the next charging time of the vehicle corresponding to the user is executed, the accuracy of executing the operation matched with the real-time state of the charging equipment can be improved, the intelligence of managing the charging equipment is improved, the consciousness that the user can return the charging equipment after the charging equipment is used is improved, and the damage of the charging equipment is further reduced effectively.

It can be seen that, by implementing the method for intelligently managing the charging device based on the internet of things described in fig. 1, the real-time behavior information of the charging device used by the user using the charging device in the real-time position of the charging device and/or the current application scene is acquired, the real-time state of the charging device is intelligently determined, the method is favorable for executing the operation matched with the real-time state of the charging device, the intelligent management of the charging device can be realized, the utilization rate of the charging device is favorably improved, the awareness that the user can voluntarily return the charging device after using the charging device is improved, and the damage of the charging device is further favorably reduced.

In an alternative embodiment, performing operations that match the real-time status of the charging device includes:

when the vehicle charging of a user is finished and the real-time state of the charging equipment is used for indicating that the charging equipment is not parked, monitoring the real-time condition of the vehicle;

judging whether the vehicle is at a vehicle outlet in a current application scene at the current moment according to the real-time condition of the vehicle, re-determining the real-time state of the charging equipment when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is at the vehicle outlet in the current application scene, forbidding to perform release operation on the vehicle when the re-determined real-time state of the charging equipment is used for indicating that the charging equipment is not parked, and sending second reminding information to a terminal bound by a user, wherein the second reminding information comprises a reason for indicating that the user parks the charging equipment and forbids the user to pass, and the second reminding information is used for reminding the user to park the charging equipment;

and, the method further comprises:

when the re-determined real-time status of the charging device is used to indicate that the charging device is parked, a releasing operation is performed on the vehicle.

In this optional embodiment, optionally, the real-time situation of the vehicle may be monitored by a monitoring device (e.g., a camera, etc.) in the current application scenario. It should be noted that the monitoring device is a monitoring device installed at a vehicle exit in the current application scenario. Alternatively, the monitoring devices may be one or more and may be installed at the vehicle exit in the current application scenario and other different areas in the current application scenario. Furthermore, the monitoring equipment in the application scene can be in a sleep mode firstly, when the vehicle is charged and the real-time state of the charging equipment is used for indicating that the charging equipment is not in the homing state, the corresponding monitoring equipment can be directly awakened by the intelligent management device, and then the vehicle is monitored in real time. Therefore, when the vehicle needs to be monitored in real time, the corresponding monitoring equipment or the vehicle identification equipment is awakened to monitor or identify the vehicle in real time, and the power consumption of the monitoring equipment and the power consumption of the vehicle identification equipment can be reduced.

In this optional embodiment, further optionally, when the real-time state of the charging device is determined to be the parked state again, the vehicle passing management system in the current application scenario performs a releasing operation on the vehicle.

Therefore, according to the optional embodiment, the operation of limiting the vehicle to leave the current application scene can be executed, the reminding information of homing the charging equipment is sent to the user, the user can leave the current application scene after homing the charging equipment, the consciousness that the user can consciously home the charging equipment after the charging equipment is used can be improved, the intelligence of managing the charging equipment is further improved, and the damage of the charging equipment is reduced.

In another alternative embodiment, performing operations that match the real-time status of the charging device includes:

when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is not at an exit in the current application scene, judging whether the vehicle is parked on a charging parking space corresponding to the charging equipment at the current moment according to the real-time condition of the vehicle, and when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is parked on the charging parking space corresponding to the charging equipment, collecting parking time of the vehicle;

and judging whether the parking time of the vehicle is greater than or equal to a preset parking time threshold, and when the parking time of the vehicle is greater than or equal to the parking time threshold, sending third reminding information to a user terminal corresponding to the vehicle, wherein the third reminding information comprises a reason for indicating that the user drives the vehicle away from the charging parking space and resets the charging equipment, and the third reminding information is used for reminding the user to reset the charging equipment and drive the vehicle away from the charging parking space.

In this optional embodiment, when it is determined that the vehicle is parked on the charging parking space corresponding to the charging device used by the vehicle, the charging duration of the vehicle and the parking duration of the vehicle parked on the charging parking space are collected, where the preset parking duration threshold may be 3 hours, it is determined whether the collected parking duration of the vehicle parked on the charging parking space is greater than 3 hours, and when it is determined that the parking duration of the vehicle parked on the charging parking space is greater than 3 hours, a third reminding message is sent to the user terminal corresponding to the vehicle, where the third reminding message may be "your vehicle has been charged this time and is parked for an excessively long time, and please return the charging device to the position and drive the vehicle away from the charging parking space as soon as possible". Therefore, the charging time of the vehicle and the parking time after the charging of the vehicle are completed are collected, if the parking time after the charging of the vehicle is completed is greater than the preset parking time threshold value, the reminding information is sent to the user terminal, the user is reminded to drive the vehicle away from the charging parking space as soon as possible, the use efficiency of the charging equipment can be improved, the experience of the user using the charging equipment is favorably improved, and meanwhile the intelligence of managing the charging equipment can be further improved.

Therefore, the optional embodiment determines the real-time charging condition of the vehicle and the parking condition of the vehicle by monitoring the real-time state and the parking time of the vehicle, so that the utilization rate of the charging equipment is improved, more convenient service can be provided for users needing to charge the vehicle, and the vehicle charging method and the vehicle charging system are also beneficial to popularization in application scenes (such as parking lots) needing to control vehicle passing.

In yet another alternative embodiment, performing operations that match the real-time status of the charging device includes:

when a payment request sent by a terminal bound by a user is received and the real-time state of the charging equipment is used for indicating that the charging equipment is returned, sending a payment prompt to the terminal bound by the user, wherein the payment prompt comprises use cost for indicating that the user uses the charging equipment and parking cost of a vehicle, and the payment prompt is used for reminding the user of paying the cost;

and, the method further comprises:

when a payment request sent by a terminal bound by a user is received and the real-time state of the charging equipment is used for indicating that the charging equipment is not in place, fourth reminding information is sent to the terminal bound by the user, the fourth reminding information comprises a reason for indicating that the user places the charging equipment in place, the fourth reminding information is used for reminding the user to place the charging equipment in place, and a payment prompt is sent to the terminal bound by the user after the fact that the real-time state of the charging equipment is in place is determined.

In this alternative embodiment, the usage cost of the charging device used by the user may include a charging duration cost of the charging device used by the user, and further, the usage cost may further include one or more of a compensation cost for causing damage to the charging device by the user and a parking duration cost for using the charging device by the user, where the parking duration cost represents a duration cost incurred by the vehicle corresponding to the user not parking the charging device to the location of the charging device corresponding to the charging device in the charging control device after charging is completed.

In this optional embodiment, the parking cost of the vehicle includes a parking duration cost of the vehicle, and further may include a parking time cost of the vehicle, where the parking time cost of the vehicle indicates that when the vehicle has a purchased parking time card in a current application scenario and when the number of times of passage of the vehicle is less than or equal to a preset time threshold of the parking time card, an operation of adjusting the number of times of passage of the vehicle is performed; and when the passing times of the vehicle are greater than the preset time threshold value of the parking time card, calculating the parking time cost of the vehicle. Like this through calculating the user and using the working costs of this battery charging outfit and the parking expense of the vehicle that this user corresponds and sending to user terminal, can let the user know the expense itemized, be favorable to promoting the user and use this battery charging outfit's experience and feel, further be favorable to improving the intelligent of managing battery charging outfit.

In this optional embodiment, optionally, the payment method of the usage cost of the charging device and the parking cost of the vehicle may include one of cash payment, payment of the two-dimensional code in the current application scenario through scanning of the mobile terminal corresponding to the vehicle, payment of the electronic device in the current application scenario through presenting the payment of the two-dimensional code, payment of a fee through interaction between the ETC vehicle-mounted terminal arranged on the vehicle corresponding to the user and the ETC communication device arranged in the current application scenario, and payment through wireless short-distance communication (e.g., NFC communication function), which is not limited in the embodiment of the present invention.

Therefore, in the optional embodiment, after the charging device is determined to be parked, the payment prompt is automatically sent to the user, so that the user can complete the payment of the charging device used and the vehicle parking fee; if the user does not return the charging equipment at this time, the reminding information of returning the charging equipment is sent to the terminal bound by the user, so that the damage of the charging equipment is reduced, and the high-efficiency and intelligent management of the charging equipment is further improved.

and when the real-time state of a certain charging device in the current scene is determined to be an abnormal state, sending prompt information to a charging device administrator terminal, wherein the prompt information is used for prompting the charging device administrator to reset the charging device. For example, when the charging device changes from the original homing state to the non-homing state due to weather (for example, the charging device is blown down by strong wind) or device (for example, a shelf on which the charging device is placed is not firm), the real-time state of the charging device is determined to be the abnormal state, prompt information (the prompt information can be that the charging device is in the abnormal state at present, and a manager is requested to check the charging device in time) is sent to a charging device manager terminal, and the charging device manager performs homing on the charging device after receiving the prompt information. Therefore, whether the charging equipment in the abnormal state exists in the current application scene or not is determined, and then a charging equipment manager is informed to reset the charging equipment, the condition that the charging equipment is damaged can be effectively reduced, and the intelligence of managing the charging equipment is further improved.

In this optional embodiment, it is further optional that the real-time status of the charging device is updated after the information for homing the charging device is sent to the charging device administrator terminal and the charging device is in the homing state.

Therefore, in the optional embodiment, when it is determined that the real-time state of the current charging device is in the abnormal state, the reminding information for homing the charging device is automatically sent, and a charging device administrator is notified to timely home the charging device, so that the intelligence for managing the charging device is improved, and the damage of the charging device is further reduced.

In yet another optional embodiment, the method for intelligently managing charging equipment based on the internet of things may further include the following operations:

receiving an acquisition request of a user terminal for acquiring information of a vehicle corresponding to the user terminal, determining at least one of charging data information of the vehicle, parking data information of the vehicle and real-time data information of charging equipment corresponding to the vehicle according to the acquisition request, and sending at least one of the charging data information of the vehicle, the parking data information of the vehicle and the real-time data information of the charging equipment corresponding to the vehicle to the user terminal for viewing.

In this optional embodiment, the manner in which the user terminal triggers the request to acquire the information of the corresponding vehicle may include accessing the vehicle management platform and/or the charging device management platform through a network address, and logging in one of the applications of the vehicle management platform and/or the charging device management platform.

In this optional embodiment, a vehicle identifier recognition device is installed on a parking space corresponding to the charging device and/or the charging device, the vehicle identifier recognition device establishes a communication connection with an intelligent management apparatus, a charging device administrator terminal, and a vehicle passage management system in an application scenario, and the charging device administrator terminal and/or the user terminal may acquire real-time data information of the charging device and/or real-time data information of vehicle charging and parking in real time. The charging data information of the vehicle may include one or more of a charging time of the vehicle, a real-time electric quantity of the vehicle, a distance traveled by the real-time electric quantity of the vehicle, a charging cost of the vehicle, and a time required for the vehicle to be fully charged; the parking data information of the vehicle may include one or more of a parking duration of the vehicle, a parking cost of the vehicle, and a number of times of parking of the vehicle in the present application scenario. The Mobile terminal includes one of a smart phone (Android phone, iOS phone, etc.), a smart phone watch, a tablet computer, a palm computer, a netbook, a Personal Digital Assistant (PDA), and a Mobile Internet Device (MID), and the embodiment of the present invention is not limited thereto.

It can be seen that, in the optional embodiment, the charging data information of the vehicle and the parking data information of the vehicle at the current moment are known by monitoring the real-time charging condition of the vehicle and/or the real-time condition of the charging device, so that the user can know the real-time condition of the vehicle corresponding to the user, the user can conveniently manage the vehicle, the use experience of the user on using the charging device is improved, and the intelligence of managing the charging device can be further improved.

In yet another optional embodiment, the intelligent management method for the charging device based on the internet of things may further include the following operations:

when the vehicle has a charging requirement, the type of the vehicle is determined through the vehicle identification recognition device, the type of the charging device required by the vehicle is determined according to the type of the vehicle, whether the type of the charging device required by the vehicle exists in the current application scene or not is judged, and if the type of the charging device required by the vehicle exists in the current application scene, a charging prompt is sent to a user terminal corresponding to the vehicle.

In this alternative embodiment, the type of the vehicle may be determined by one or more of identifying the appearance of the vehicle, identifying the model of the vehicle, and identifying the brand of the vehicle.

In this alternative embodiment, the type of charging equipment required for the vehicle may be determined by at least one of a type determination of the vehicle, and a type of charging equipment required for a user to upload the vehicle. Further optionally, if the vehicle identifier (e.g., license plate number) of the vehicle is bound to the type of charging device required by the vehicle, the type of charging device required by the vehicle may be determined by recognizing the vehicle identifier of the vehicle.

In this alternative embodiment, the charging prompt may include one or more of the number of available charging devices required by the vehicle, the specific location of the charging devices required by the vehicle, the queuing order of the charging devices required by the user to use the vehicle, the expected waiting time of the charging devices required by the user to use the vehicle, and the identification of the charging devices, and further, the charging prompt may be attached with a location map and a navigation route of the parking space corresponding to the charging device. For example, the charging alert may be: the number of available charging devices corresponding to the current vehicle is 0, the current queuing sequence is 1, you queue to the charging parking place No. 6, and the waiting time is predicted to be 5 minutes. Therefore, the information in the charging prompt is determined in multiple modes and is sent to the user terminal, and the accuracy and the use efficiency of the user using the charging equipment are improved.

Therefore, the optional embodiment determines the type of the charging equipment required by the vehicle through the information of the vehicle (such as the type of the vehicle), and automatically sends the charging prompt to the user terminal, so that the accuracy and the efficiency of the charging operation performed on the vehicle are improved, the utilization rate of the charging equipment is further improved, and the use feeling of the user using the charging equipment is improved.

Example two

Referring to fig. 2, fig. 2 is a schematic flowchart of another intelligent management method for charging equipment based on the internet of things according to an embodiment of the present invention. The method described in fig. 2 may be applied to an intelligent management apparatus of a charging device, where the intelligent management apparatus includes a charging device, a charging control device, a local management server of the charging device, a cloud management server of the charging device, and the like, and the embodiment of the present invention is not limited thereto. As shown in fig. 2, the method for intelligently managing charging equipment based on the internet of things may include the following operations:

201. detecting whether a use request triggered by a certain charging device in a current application scene is received, acquiring the identity information of a user triggering the use request when the use request is received, and determining the condition that the user uses the charging device corresponding to the current application scene for the last time according to the identity information.

In the embodiment of the present invention, a user may trigger a request for using the charging device by scanning a two-dimensional code requesting to use the charging device in a current application scenario, may trigger a request for using the charging device by using an application program installed in a user terminal and using the charging device, and may trigger a request for using the charging device by using a key set on the charging device.

In the embodiment of the present invention, the identity information of the user includes at least one of a name of the user, an account bound by the user, a model of a vehicle corresponding to the user, and a vehicle identifier (for example, a license plate number) of the vehicle corresponding to the user.

In the embodiment of the present invention, further optionally, when the identity information of the user cannot be obtained, the user is determined as a new user, and a registration interface is sent to a terminal corresponding to the user to remind the user to fill in basic information. After the user completes the completion of the information, the user is prompted to complete the registration, and the unlocking operation of the charging device or the electrical connection operation of the charging interface of the vehicle of the user and a certain charging device in step 203 is triggered.

202. Judging whether the condition that the user uses the charging equipment corresponding to the current application scene for the last time is used for indicating that the charging equipment is returned when the user finishes using the charging equipment corresponding to the current application scene for the last time, and triggering to execute the step 203 when the judgment result in the step 202 is yes; when the judgment result of the step 202 is negative, the step 204 is triggered to be executed.

203. When it is determined that the condition that the user used the charging device corresponding to the current application scenario last time is used to indicate that the charging device corresponding to the current application scenario is returned to the home position after the user used the current application scenario last time, an unlocking operation is performed on the charging device or an electrical connection operation is performed between a charging interface of the vehicle of the user and a certain charging device, and execution of step 205 is triggered.

204. When the condition that the user uses the charging device corresponding to the current application scene last time is judged to be used for indicating that the charging device corresponding to the current application scene is not returned by the charging device corresponding to the last used application scene of the user, executing an operation of forbidding the user to use the charging device, wherein the operation of forbidding the user to use the charging device comprises the following steps: the unlocking operation of the charging device is prohibited or the electrical connection operation of the charging interface of the user's vehicle with a certain charging device is prohibited.

205. And acquiring real-time information corresponding to the charging equipment in the current application scene.

206. And determining the real-time state of the charging equipment according to the real-time information corresponding to the charging equipment.

207. An operation matching the real-time state of the charging device is performed.

In the embodiment of the present invention, please refer to the detailed description of step 101 to step 103 in the first embodiment for the other descriptions of step 205, step 206, and step 207, which is not described again in the embodiment of the present invention.

In the embodiment of the present invention, when it is determined in step 202 that the condition that the user used the charging device corresponding to the current application scenario last time is used to indicate that the charging device corresponding to the current application scenario was last used by the user is returned, it is determined that the charging device corresponding to the current application scenario was last used by the user is returned, an unlocking operation is performed on the charging device or an electrical connection operation is performed between a charging interface of a vehicle of the user and a certain charging device, and step 205 is triggered to be executed; when it is determined in step 202 that the condition that the user used the charging device corresponding to the current application scenario last time is used to indicate that the charging device corresponding to the current application scenario has not been returned to the home position by the charging device corresponding to the user used the last time, the execution in step 204 is triggered to prohibit the user from using the charging device. Further, first reminding information is sent to the terminal bound by the user, the first reminding information comprises the reason why the user is forbidden to use the charging equipment, and the first reminding information is used for reminding the user that the user is forbidden to use the charging equipment.

Therefore, the embodiment of the invention can judge whether the state of the charging equipment corresponding to the current application scene after the user finishes using the charging equipment for the last time is the returned state, when the state of the charging equipment corresponding to the current application scene after the user finishes using the charging equipment for the last time is the returned state, the charging equipment is unlocked or the charging interface of the vehicle of the user and one charging equipment are electrically connected, when the state of the charging equipment corresponding to the current application scene after the user finishes using the charging equipment for the last time is judged to be the non-returned state, the operation of forbidding the user to use the charging equipment is executed, the effectiveness and the accuracy of executing the operation corresponding to the state of the charging equipment can be improved, the behavior of the user using the charging equipment is favorably supervised, the consciousness that the user consciously returns the charging equipment after finishing using the charging equipment is favorably improved, the damage occurrence situation of the charging equipment is favorably reduced, the intelligence of managing the charging equipment is favorably improved, and the accuracy of executing the charging operation on the vehicle of the user is further favorably improved.

It can be seen that, by implementing the charging device intelligent management method based on the internet of things described in fig. 2, the real-time state of the charging device can be intelligently determined by acquiring the real-time position of the charging device and/or the real-time behavior information of the user using the charging device in the current application scene, and an operation matched with the real-time state of the charging device is executed, so that the intelligent management of the charging device can be realized, the utilization rate of the charging device is improved, the consciousness that the user can voluntarily return the charging device after using the charging device can be improved, and the damage of the charging device can be reduced. In addition, can also improve and carry out the accuracy and the reliability of gathering the real-time information that charging equipment corresponds in the current application scene, can be through judging whether this user used up the state of the charging equipment that the current application scene corresponds for the latest time is the playback, carry out the operation that corresponds with this judged result, be favorable to improving the consciousness that the user consciously carried out the playback with this charging equipment after this charging equipment that finishes using, can reduce charging equipment administrator's work load, be favorable to reducing the circumstances that charging equipment takes place the damage, still be favorable to improving the intelligence of managing charging equipment and richen the intelligence of charging management device.

EXAMPLE III

Referring to fig. 3, fig. 3 is a schematic structural diagram of an apparatus for intelligently managing charging devices based on the internet of things according to an embodiment of the present invention. The apparatus shown in fig. 3 is used to implement the method described in the first and second embodiments. As shown in fig. 3, the apparatus may include:

the collecting module 301 is configured to collect real-time information corresponding to the charging device in the current application scenario, where the real-time information corresponding to the charging device includes a real-time location of the charging device and/or real-time behavior information of a user using the charging device in the current application scenario.

The first determining module 302 is configured to determine a real-time state of the charging device according to real-time information corresponding to the charging device in a current application scenario.

And an executing module 303, configured to execute an operation matched with the real-time status of the charging device.

It can be seen that, by implementing the apparatus described in fig. 3, the real-time state of the charging device can be determined by collecting the real-time information corresponding to the charging device in the current application scene, and then the operation matched with the real-time state of the charging device is executed, which is beneficial to reducing the occurrence of damage to the charging device and improving the intelligence of managing the charging device.

In another alternative embodiment, as shown in fig. 4, the apparatus may further include:

a detection module 304, configured to detect whether a use request triggered by a certain charging device in a current application scenario is received before the acquisition module 301 acquires real-time information corresponding to the charging device in the current application scenario;

an obtaining module 305, configured to, when a usage request triggered by a certain charging device in a current application scenario is received, obtain identity information of a user who triggers the usage request;

a second determining module 306, configured to determine, according to the identity information, a situation that the user used the charging device corresponding to the current application scenario last time;

the judging module 307 is configured to judge whether the condition that the user has used the charging device corresponding to the current application scenario for the last time is used to indicate that the user has used the charging device corresponding to the current application scenario for the last time and then returns the charging device;

the operation module 308 is configured to, when it is determined that the condition that the user used the charging device corresponding to the current application scenario last time is used to indicate that the charging device corresponding to the current application scenario is returned to the original position after the user used the current application scenario last time, perform an unlocking operation on the charging device or perform an electrical connection operation on a charging interface of the vehicle of the user and a certain charging device, and trigger the acquisition module 301 to perform an operation of acquiring real-time information corresponding to the charging device in the current application scenario, where the certain charging device is the charging device.

Therefore, the implementation of the apparatus described in fig. 4 is beneficial to reducing the damage of the charging device, and is further beneficial to improving the efficient and intelligent management of the charging device.

the operation module 308 is further configured to, when it is determined that the condition that the user uses the charging device corresponding to the current application scenario last time is used to indicate that the charging device corresponding to the current application scenario is not returned to the home position after the user has used the current application scenario last time, execute an operation of prohibiting the user from using the charging device, where the operation of prohibiting the user from using the charging device includes: prohibiting an unlocking operation of the charging device or an electrical connection operation of a charging interface of a user's vehicle with a certain charging device;

the sending module 309 is configured to send first reminding information to the terminal bound by the user, where the first reminding information includes a reason why the user is prohibited from using the charging device, and the first reminding information is used to remind the user of prohibiting from using the charging device.

Therefore, the implementation of the device described in fig. 4 can improve the effectiveness and accuracy of executing the operation corresponding to the state of the charging device, is beneficial to supervising the behavior of the user using the charging device, is beneficial to improving the awareness that the user can voluntarily return the charging device after using the charging device, is beneficial to reducing the damage of the charging device, is beneficial to improving the intelligence of managing the charging device, and is further beneficial to improving the accuracy of executing the charging operation on the vehicle of the user.

In an alternative embodiment, the specific way for the executing module 303 to execute the operation matched with the real-time status of the charging device may be:

when the vehicle charging of the user is completed and the real-time state of the charging equipment is used for indicating that the charging equipment is returned, determining the use condition of the charging equipment used by the user and/or historical data information of the charging equipment, and analyzing the use condition of the charging equipment used by the user and/or the historical data information of the charging equipment to obtain an analysis result;

It can be seen that the implementation of the apparatus described in fig. 4 can improve the accuracy of executing the operation matched with the real-time state of the charging device, is beneficial to improving the intelligence of managing the charging device, is beneficial to improving the awareness that a user can voluntarily return the charging device after the charging device is used, and is beneficial to effectively reducing the damage of the charging device.

In another alternative embodiment, as shown in fig. 4, the executing module 303 may include:

the monitoring submodule 3031 is used for monitoring the real-time condition of the vehicle when the vehicle charging of the user is finished and the real-time state of the charging equipment is used for indicating that the charging equipment is not parked;

the judgment submodule 3032 is configured to judge whether the vehicle is at a vehicle exit in the current application scene at the current moment according to the real-time condition of the vehicle;

a determining submodule 3033, configured to determine the real-time status of the charging device again when it is determined that the real-time status of the vehicle is used to indicate that the vehicle is at a vehicle exit in the current application scenario;

an execution sub-module 3034 configured to prohibit a release operation from being performed on the vehicle when the real-time status of the charging device determined again by the determination sub-module 3033 is used to indicate that the charging device is not parked;

the sending submodule 3035 is configured to send second prompting information to the terminal bound by the user when the real-time state of the charging device determined again by the determining submodule 3033 is used for indicating that the charging device is not parked, where the second prompting information includes a reason for indicating that the user parks the charging device and forbids the user to pass, and the second prompting information is used for prompting the user to park the charging device;

sub-module 3034 is also implemented to perform a releasing operation on the vehicle when the real-time status of the charging device determined again by the determination sub-module 3033 is used to indicate that the charging device is parked.

Therefore, the device described in fig. 4 can improve the consciousness that the user can consciously return the charging equipment after the charging equipment is used, and is further favorable for improving the intelligence of managing the charging equipment and reducing the damage of the charging equipment.

In yet another alternative embodiment, the executing module 303 may further include:

the determining submodule 3032 is further configured to, when it is determined that the real-time situation of the vehicle is used to indicate that the vehicle is not located at a vehicle exit in the current application scene, determine whether the vehicle is parked at a charging parking space corresponding to the charging device at the current moment according to the real-time situation of the vehicle;

the acquisition submodule 3036 is used for acquiring the parking time of the vehicle when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is parked on the charging parking space corresponding to the charging equipment;

the judgment submodule 3032 is further configured to judge whether the parking time of the vehicle is greater than or equal to a preset parking time threshold according to the parking time of the vehicle acquired by the acquisition submodule 3036;

the sending submodule 3035 is further configured to send third prompting information to the user terminal corresponding to the vehicle when it is determined that the parking time of the vehicle is greater than or equal to the parking time threshold, where the third prompting information includes a reason indicating that the user drives the vehicle away from the charging parking space and resets the charging device, and the third prompting information is used for prompting the user to reset the charging device and drive the vehicle away from the charging parking space.

It can be seen that the implementation of the apparatus described in fig. 4 is beneficial to improve the utilization rate of the charging device, so as to provide more convenient service for the user who needs to perform vehicle charging, and is also beneficial to popularization in the application scenario (for example, parking lot) where vehicle traffic control is needed.

In yet another alternative embodiment, the manner in which the executing module 303 executes the operation matched with the real-time status of the charging device is specifically as follows:

when a payment request sent by a terminal bound by a user is received and the real-time state of the charging equipment is used for indicating that the charging equipment is returned, sending a payment prompt to the terminal bound by the user, wherein the payment prompt comprises the use cost of indicating that the user uses the charging equipment and the parking cost of a vehicle corresponding to the user, and the payment prompt is used for reminding the user to pay the cost;

when a payment request sent by a terminal bound by a user is received and the real-time state of the charging equipment is used for indicating that the charging equipment is not in place, fourth reminding information is sent to the terminal bound by the user, the fourth reminding information comprises a reason for reminding the user to place the charging equipment in place, the fourth reminding information is used for reminding the user to place the charging equipment in place, and a payment prompt is sent to the terminal bound by the user after the fact that the real-time state of the charging equipment is in place is determined.

Therefore, the device described in fig. 4 can be implemented to realize intelligent management of the charging device, improve the utilization rate of the charging device, improve the consciousness that a user can return the charging device after using the charging device, and reduce the damage of the charging device. In addition, can also improve and carry out the accuracy and the reliability of gathering the real-time information that charging equipment corresponds in the present application scene, can be through judging whether this user used up the state of the charging equipment that the present application scene corresponds for the latest time and be the playback, carry out the operation that corresponds with this judged result, be favorable to improving the consciousness that the user consciously carries out the playback with this charging equipment after this charging equipment that finishes using, can reduce charging equipment administrator's work load, be favorable to reducing the circumstances that charging equipment takes place the damage, still be favorable to improving the intelligence of management charging equipment and richen the intelligence of charging management device.

Example four

Referring to fig. 5, fig. 5 is a schematic structural diagram of another intelligent charging device management apparatus based on the internet of things according to an embodiment of the present invention. As shown in fig. 5, the apparatus may include:

a memory 401 storing executable program code;

a processor 402 coupled to a memory 401;

the processor 402 calls the executable program code stored in the memory 401 for executing the steps of the intelligent management method for the charging device based on the internet of things described in the first embodiment or the second embodiment.

EXAMPLE five

The embodiment of the invention discloses a computer-readable storage medium which stores a computer program for electronic data exchange, wherein the computer program enables a computer to execute the steps of the intelligent management method for the charging equipment based on the Internet of things, which is described in the first embodiment or the second embodiment.

Example six

The embodiment of the invention discloses a computer program product, which comprises a non-transitory computer readable storage medium storing a computer program, wherein the computer program is operable to make a computer execute the steps in the intelligent management method for the charging equipment based on the internet of things described in the first embodiment or the second embodiment.

The above-described embodiments of the apparatus are merely illustrative, and the modules described as separate components may or may not be physically separate, and the components shown as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above detailed description of the embodiments, those skilled in the art will clearly understand that the embodiments may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. Based on such understanding, the above technical solutions may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, wherein the storage medium includes a Read-Only Memory (ROM), a Random Access Memory (RAM), a Programmable Read-Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), a One-time Programmable Read-Only Memory (OTPROM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), a Compact Disc-Read-Only Memory (CD-ROM) or other Memory capable of storing data, a magnetic tape, or any other computer-readable medium capable of storing data.

Finally, it should be noted that: the intelligent management method and device for the charging equipment based on the internet of things disclosed by the embodiment of the invention are only the preferred embodiment of the invention, and are only used for explaining the technical scheme of the invention, but not limiting the technical scheme; 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; 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

1. An intelligent charging equipment management method based on the Internet of things is characterized by comprising the following steps:

2. The intelligent management method for the charging equipment based on the internet of things according to claim 1, wherein before the acquiring of the real-time information corresponding to the charging equipment in the current application scene, the method further comprises:

3. The intelligent management method for the charging equipment based on the internet of things as claimed in claim 2, wherein the method further comprises the following steps:

when it is determined that the condition that the user uses the charging device corresponding to the current application scenario last time is used to indicate that the charging device corresponding to the current application scenario is not returned to the home position after the user finishes using the charging device last time, executing an operation of prohibiting the user from using the charging device, where the operation of prohibiting the user from using the charging device includes: prohibiting an unlocking operation of the charging device or an electrical connection operation of a charging interface of the user's vehicle with the certain charging device;

and, the method further comprises:

4. The intelligent management method for charging equipment based on the Internet of things as claimed in any one of claims 1 to 3, wherein the executing operation matched with the real-time state of the charging equipment comprises:

and when the analysis result is the determined second type analysis result, executing one or more operations of sending warning information to the terminal bound by the user, limiting the next charging time of the vehicle corresponding to the user, limiting the next charging electric quantity of the vehicle corresponding to the user, increasing the cost required to be paid by the user, and delaying the queuing sequence of the vehicle corresponding to the user.

5. The intelligent management method for charging equipment based on the Internet of things as claimed in any one of claims 1 to 3, wherein the executing operation matched with the real-time state of the charging equipment comprises:

and, the method further comprises:

6. The intelligent management method for the charging equipment based on the internet of things as claimed in claim 5, wherein the method further comprises the following steps:

when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is not at a vehicle exit in the current application scene, judging whether the vehicle is parked on a charging parking space corresponding to the charging equipment at the current moment according to the real-time condition of the vehicle, and when the real-time condition of the vehicle is judged to be used for indicating that the vehicle is parked on the charging parking space corresponding to the charging equipment, collecting the parking time length of the vehicle;

judging whether the parking time of the vehicle is greater than or equal to a preset parking time threshold, and sending third reminding information to a user terminal corresponding to the vehicle when the parking time of the vehicle is judged to be greater than or equal to the parking time threshold, wherein the third reminding information comprises a reason for indicating that the user drives the vehicle away from the charging parking space and resets the charging equipment, and the third reminding information is used for reminding the user to reset the charging equipment and drive the vehicle away from the charging parking space.

7. The intelligent management method for charging equipment based on the Internet of things as claimed in any one of claims 1 to 3, wherein the executing operation matched with the real-time state of the charging equipment comprises:

and, the method further comprises:

8. The utility model provides a battery charging outfit intelligent management device based on thing networking which characterized in that, the device includes:

the system comprises an acquisition module, a processing module and a display module, wherein the acquisition module is used for acquiring real-time information corresponding to charging equipment in a current application scene, and the real-time information corresponding to the charging equipment comprises a real-time position of the charging equipment and/or real-time behavior information of a user using the charging equipment in the current application scene;

9. The utility model provides a battery charging outfit intelligent management device based on thing networking, its characterized in that, the device includes:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program codes stored in the memory to execute the intelligent management method of the charging equipment based on the internet of things according to any one of claims 1 to 7.

10. A computer-readable storage medium storing computer instructions which, when invoked, perform the method for intelligent management of charging devices based on the internet of things of any one of claims 1 to 7.