CN113246785B

CN113246785B - Intelligent Internet of things equipment charging processing method, equipment and system

Info

Publication number: CN113246785B
Application number: CN202110714079.4A
Authority: CN
Inventors: 袁帅; 薛文彬; 朱凌云; 沈明耀
Original assignee: Zhejiang Central Corp Of Technology And Technology Co ltd
Current assignee: Zhejiang Central Corp Of Technology And Technology Co ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2022-11-11
Anticipated expiration: 2041-06-29
Also published as: CN113246785A

Abstract

The invention provides a processing method, equipment and a system for charging intelligent Internet of things equipment, wherein the method comprises the following steps: if the charging information of the first equipment which is being charged is monitored to be lower than a preset threshold value within preset time, controlling a switch of a first target charging channel for charging the first equipment to be switched off, wherein the charging information is charging current, charging voltage and/or charging power; and updating the state of the first target charging channel and reporting to a server so that the server processes the charging order. The invention determines whether the charging information is full or not by monitoring whether the size of the charging information in the preset time is always lower than the preset threshold value or not, and can avoid misjudging that the charging information is full due to the fact that part of the charging information enters low-value charging under special conditions and is not full actually, thereby improving the accuracy of full judgment and further improving the user experience.

Description

Intelligent Internet of things equipment charging processing method, equipment and system

Technical Field

The invention relates to the technical field of Internet of things, in particular to a processing method, equipment and a system for charging intelligent Internet of things equipment.

Background

In recent years, with the increasing number of electric vehicles, the demand for charging electric vehicles is increasing, and in order to meet the charging demand of people, a charging pile is usually arranged in some places to provide charging services for users, for example, a user enters a charging selection interface by scanning a two-dimensional code on the charging pile or in other ways, selects charging time, pays a fee and then starts to charge. In the charging mode, because a user selects the charging time, and the user cannot clearly know how long the vehicle needs to be charged, the selected charging time is too long or too short, the too long time can cause resource waste, the vehicle is continuously charged after being fully charged, and a great potential safety hazard exists, and the too short time can cause the vehicle battery not to be fully charged, so that the normal use of the user is influenced; in order to solve the problem, some charging methods capable of performing full charge and automatic stop gradually appear in the prior art, and the existing full charge and automatic stop methods generally determine whether the current or voltage drops to a preset power-off threshold, and stop charging if the current or voltage drops to the preset power-off threshold.

However, for some vehicles, intermittent charging may occur during charging, and the existing charging method is not accurate enough to determine whether the vehicle is fully charged, which may cause the situation that the vehicle battery is not fully charged.

Disclosure of Invention

The embodiment of the invention provides a processing method, equipment and a system for charging intelligent Internet of things equipment, and aims to solve the problem that in the prior art, the judgment on whether the vehicle is fully charged is not accurate enough, so that the vehicle battery is not fully charged.

In a first aspect, an embodiment of the present invention provides a processing method for device charging, including:

if the charging information of the first equipment which is being charged is monitored to be lower than a preset threshold value within preset time, controlling a switch of a first target charging channel for charging the first equipment to be switched off, wherein the charging information is charging current, charging voltage and/or charging power;

and updating the state of the first target charging channel, and reporting to a server so that the server processes a charging order.

In a second aspect, an embodiment of the present invention provides a device charging processing method, including:

receiving and storing first state information reported by each charging pile, wherein the first state information is current state information reported after a charging pile monitors that charging information of first equipment which is being charged is lower than a preset threshold value within preset time and a switch of a first target charging channel for controlling the first equipment to be charged is disconnected, and the first state information at least comprises a charging pile identifier, a first target charging channel identifier corresponding to the first target charging channel and the state of the first target charging channel;

and processing the charging order according to the stored current state information of each charging pile.

In a third aspect, an embodiment of the present invention provides a charging pile, including:

the control module is used for controlling a switch of a first target charging channel for charging the first equipment to be switched off if the charging information of the first equipment which is being charged is monitored to be lower than a preset threshold value within preset time, wherein the charging information is charging current, charging voltage and/or charging power;

the first processing module is used for updating the state of the first target charging channel;

and the first sending module is used for reporting the updated state of the first target charging channel to the server so as to enable the server to process the charging order.

In a fourth aspect, an embodiment of the present invention provides a server, including:

a second receiving module, configured to receive first state information reported by each charging pile, where the first state information is current state information reported by the charging pile after the charging information of a first device that is being charged is monitored by the charging pile to be lower than a preset threshold within a preset time and a switch of a first target charging channel that is used for controlling charging of the first device is turned off, and the first state information at least includes a charging pile identifier, a first target charging channel identifier corresponding to the first target charging channel, and a state of the first target charging channel;

the storage module is used for storing the first state information reported by each charging pile;

and the second processing module is used for processing the charging order according to the stored current state information of each charging pile.

In a fifth aspect, an embodiment of the present invention provides an apparatus charging system, including: the charging system comprises a server and at least one charging pile;

the charging pile is used for controlling a switch of a first target charging channel for charging the first equipment to be switched off if the charging information of the first equipment which is being charged is monitored to be lower than a preset threshold value within preset time, updating the state of the first target charging channel and reporting the state to a server; the charging information is charging current, charging voltage or charging power;

and the server is used for receiving and storing the data reported by each charging pile and processing the charging order according to the stored data of each charging pile.

According to the equipment charging processing method, equipment and system provided by the embodiment of the invention, the charging pile determines whether the charging pile is full by monitoring whether the size of the charging information in the preset time is always lower than the preset threshold value, so that the situation that part of the charging pile enters low-value charging and is not full actually can be prevented from being judged to be full by mistake, the accuracy of full judgment can be improved, and the user experience is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic flowchart of a processing method for charging a device according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a processing method for charging a device according to another embodiment of the present invention;

fig. 3 is a schematic structural diagram of a charging pile according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an exemplary charging pile according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a server according to an embodiment of the present invention;

fig. 6 is a schematic diagram of an exemplary structure of a server according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an apparatus charging system according to an embodiment of the present invention.

With the above figures, certain embodiments of the invention have been illustrated and described in more detail below. The drawings and the description are not intended to limit the scope of the inventive concept in any way, but rather to illustrate it by those skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all embodiments of the present invention. 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.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate a number of the indicated technical features. In the description of the following examples, "plurality" means two or more unless specifically limited otherwise.

The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present invention will be described below with reference to the accompanying drawings.

An embodiment of the invention provides a device charging processing method, which is used for charging electric vehicles in an intelligent Internet of things. The execution main body of the embodiment is a charging pile.

As shown in fig. 1, a schematic flow chart of a processing method for charging a device provided in this embodiment includes:

step 101, if it is monitored that the charging information of the first device which is being charged is lower than a preset threshold value within a preset time, controlling a switch of a first target charging channel for charging the first device to be turned off.

The charging information is charging current, charging voltage and/or charging power.

Specifically, the first device may refer to a vehicle of a user or a rechargeable battery of the vehicle or a rechargeable battery of any other device, and the vehicle refers to any electric vehicle, such as an electric car, an electric bicycle, an electric tricycle, and the like, and may be specifically set according to actual needs. In the charging process of the first device, the charging pile monitors charging information of the first device in real time, such as at least one of charging current, charging voltage, charging power and other information; different preset thresholds can be set for different charging information according to actual requirements, that is, if the charging information is charging current, the preset threshold is a preset current threshold, if the charging information is charging voltage, the preset threshold is a preset voltage threshold, and if the charging information is charging power, the preset threshold is a preset power threshold; if the charging information comprises charging current and charging power, the preset threshold is the item which is firstly lower than the corresponding preset threshold in the preset time; the preset time can also be set according to actual requirements, when the charging information of the first device is monitored to be reduced to be lower than or equal to a preset threshold, recording can be performed, for example, the charging state is updated to be a low-value state, or the state of a charging channel (which can be called as a first target charging channel for distinguishing) for charging the first device is updated to be a low-value state, and timing is started to continue monitoring; the charging is judged to be full of electricity only when the charging information is always lower than the preset threshold value within the preset time, the accuracy of full-charge judgment is effectively improved, the situation that the electric quantity cannot be full of due to the fact that part of the charging information enters low-value charging under the special condition and the charging information is not actually full of electricity is judged to be full of electricity is avoided, and user experience is improved.

In practical application, optionally, for different types of first devices, corresponding preset time and/or preset threshold values may be set according to the type of the first device, for example, specific conditions of various types of rechargeable batteries may be collected in advance through various manners, and for different low-value charging conditions, different preset threshold values may be set; different preset times can be set for the conditions with different pause durations; when the user charges, the user can select the type of the charging battery of the device, the charging battery is carried in the charging request and sent to the server, the server sends the type of the device to be charged (such as the first device) to the charging pile, the preset time and/or the preset threshold corresponding to different types can be preconfigured in the charging pile, the preset time and/or the preset threshold corresponding to different types can also be sent to the charging pile in real time by the server, the setting can be specifically set according to actual requirements, and the embodiment is not limited.

In practical application, each charging pile comprises at least one charging channel, and at least one device to be charged can be charged at the same time, namely, each charging channel can charge one device to be charged.

The way of charging pile acquiring the charging signal is prior art, and is not described herein again.

And 102, updating the state of the first target charging channel and reporting to the server so that the server processes the charging order.

Specifically, after the switch of the first target charging channel is controlled to be turned off, the charging pile can update the state of the first target charging channel to be an idle state and report the idle state to the server, the content of the reported server can include one or more of charging pile information (such as the charging pile identifier, the position, the affiliated unit, the number of the charging channels and the like), the current states of all charging channels of the charging pile (or the current states of partial charging channels with state update of the charging pile), the charging duration of the first device, the charging power and the like, and can be specifically set according to actual requirements, and the charging pile can report related data to the server in real time or at regular time; the server can process the charging orders in real time or at regular time according to the data reported by each charging pile, and the charging orders can be timely ended and settled after charging is finished.

According to the processing method for charging the equipment, whether the charging pile is fully charged or not is determined by monitoring whether the size of the charging information in the preset time is always lower than the preset threshold value or not, and the situation that part of the charging pile is actually not fully charged due to entering of a low value due to special situations can be judged to be fully charged, for example, the situations that part of equipment chargers are intermittently charged, part of the equipment are temporarily charged in a short time or in a fluctuating current or voltage due to overheat protection, and part of the equipment can be slowly charged in a floating charging mode when the electric quantity of the battery reaches more than 80%, so that the accuracy of full charge judgment can be improved, and further the user experience is improved.

In order to make the technical solution of the present invention clearer, the method provided by the above embodiment is further described in an additional embodiment of the present invention.

As a practical manner, in order to be able to accurately judge whether the power is full, on the basis of the above embodiment, optionally, the method may further include:

when the charging information of the first equipment is monitored to be reduced to be lower than a preset threshold value, updating the state of the first target charging channel to be a low value state; and if the charging information of the first equipment is monitored to be increased to be higher than a preset threshold value within the preset time, updating the state of the first target charging channel into the charging state.

Specifically, when it is monitored that the charging information of the first device is reduced to be lower than a preset threshold, recording may be performed, for example, the charging state is updated to be a low-value state, or the state of a charging channel (which may be referred to as a first target charging channel for distinguishing) for charging the first device is updated to be a low-value state, and timing is started to continue monitoring, if the charging information of the first device is always lower than the preset threshold within a preset time, it may be considered that the first device is fully charged, and the charging pile may control a switch of the first target charging channel to be turned off, so that charging is stopped in time after the first device is fully charged, and a safety accident caused by an excessively long charging time is avoided; the full charge is judged only when the charging information is always lower than the preset threshold value within the preset time, so that the accuracy of full charge judgment is effectively improved, the situation that the electric quantity cannot be fully charged due to the fact that part of the charging information enters low-value charging and is not actually fully charged due to the fact that the charging information is fully charged is avoided, and the user experience is improved; if the charging information of the first device is monitored to be increased to be higher than the preset threshold value within the preset time, the fact that the charging information is reduced to be lower than the preset threshold value is only temporary, the charging information is possibly temporarily reduced due to special conditions such as intermittent charging, current or voltage fluctuation caused by overheat protection or short-time temporary charging, slow charging in a floating charging mode when the battery capacity reaches more than 80%, and the like, and the charging information is not really charged fully, so that the switch of the first target charging channel does not need to be switched off, and the state of the first target charging channel is updated to be in a charging state in order to maintain the current state of the first target charging channel.

In practical applications, the states of the charging channel may include a charging middle state, a charging low-value state, and an idle state, when the device starts to be charged, the state of the charging channel is updated from the idle state to the charging middle state after charging is successful, when it is monitored that charging information of the charging channel is reduced to a preset threshold, the state of the charging channel is updated from the charging middle state to the charging low-value state, and according to further monitoring within a preset time, the state of the charging channel is updated from the low-value state to the charging middle state or the idle state, which is not described in detail herein.

As another practicable manner, in order to charge the device to be charged of the user, on the basis of the foregoing embodiment, optionally, the method further includes:

receiving a charging starting message sent by a server, wherein the charging starting message comprises a first target charging channel identifier and a charging starting instruction; controlling to open a first target charging channel corresponding to the first target charging channel identifier according to the charging starting instruction to charge the first device; and updating the state of the first target charging channel into a charging state, and reporting to the server.

Specifically, a user can scan a two-dimensional code on a charging pile through a terminal, enter a channel selection interface, select a current idle channel and click confirmation, namely the terminal can be triggered to send a charging request to a server, the terminal can obtain user information, first target charging pile information scanned by the user and first target charging channel information selected by the user, the user information, the first target charging pile information scanned by the user and the first target charging channel information selected by the user can be carried in the charging request and sent to the server, or the user can log in a server charging system through an application program installed on the terminal, enter the charging pile selection interface, select the current first target charging pile, enter the channel selection interface, then click a similar button such as 'confirm' after selecting the first target charging channel, and trigger sending the charging request to the server. The specific interaction mode between the user and the server may be set according to actual requirements, and this embodiment is not limited. The method includes that a server receives a charging request of a user, a charging start message is sent to a first target charging pile according to the charging request, the charging start message includes a first target charging channel identifier and a charging start instruction, after the first target charging pile receives the charging start message sent by the server, a first target charging channel corresponding to the first target charging channel identifier is controlled to be opened according to the charging start instruction to charge a first device, after charging is successfully started, the first target charging pile can update the state of the first target charging channel to a charging state and report the charging state to the server, the reported content can include the first target charging pile identifier and corresponding charging pile information, the states of all charging channels (or first target charging channels) included in the first target charging pile, charging start time, charging power and other information, and specific content can be set according to actual needs, which this embodiment is not limited. The charging pile information can include information such as a charging station to which the charging pile belongs, a charging pile position, a charging pile type, equipment types supported by the charging pile, the number of provided charging channels, signal strength and the like, and can be specifically set according to actual requirements; the charging pile identification means information with uniqueness, such as charging pile ID, the charging channel identification can be a channel number, each charging channel can be uniquely identified through the charging pile identification and the charging channel identification on the server side, and the charging pile identification can also be arranged in the charging channel identification, so that the charging channel identification can uniquely identify the charging pile to which the charging pile belongs and the channel number in the charging pile, and the charging pile identification can be specifically arranged according to actual requirements.

Optionally, the charging start message may further include identification information of the first target charging pile (referred to as a first target charging pile identification), so that the first target charging pile can further determine whether the charging start message is actually sent to the first target charging pile, thereby avoiding a sending error and further improving the accuracy of the charging process.

Optionally, after the first target charging pile successfully charges the first device, the first target charging pile may further control to send a charging success prompt, for example, a voice prompt "your device has started charging" to inform the user that charging has started, so as to further improve user experience.

Since there are various electric vehicles, there are various types of corresponding rechargeable batteries, and there may be different situations in the charging processes of different rechargeable batteries, if a uniform preset time and/or a preset threshold is set, there may still be situations in which some vehicles are erroneously determined to be full, for example, the intermittent time of the charging process is longer than the uniform preset time, and so on, and therefore, as another practical manner, in order to further improve the accuracy of the full determination, on the basis of the above embodiment, the method further includes:

acquiring the type of first equipment; acquiring corresponding preset time and/or a preset threshold according to the type of the first equipment; correspondingly, if it is monitored that the charging information of the first device which is being charged is always lower than the preset threshold value within the preset time, the switch of the first target charging channel for charging the first device is controlled to be switched off, and the method comprises the following steps: if the charging information of the first device which is being charged is monitored to be always lower than the corresponding preset threshold value within the corresponding preset time, controlling the switch of the first target charging channel for charging the first device to be switched off.

Specifically, the types of the devices may be collected, sorted and classified in various manners, for example, information on charging processes of different batteries is collected, such as whether there is overheating protection, how long charging is resumed after the overheating protection suspends charging, whether there is intermittent charging, whether there is a certain amount of electric charge that is regressed, and the like, different situations are classified (may be referred to as charging situation classification), the types of the devices are associated with the classifications, different preset times and/or preset thresholds are set for the different classifications (different classifications may have the same preset time or preset threshold), after the type of the first device is obtained, the preset time and/or preset threshold corresponding to the first device type may be obtained based on a correspondence between the device type and the charging situation classification, and when it is necessary to determine whether the first device is fully charged, the determination may be performed based on the preset time and/or preset threshold corresponding to the first device, so that accuracy of the determination result may be further improved, and occurrence of a situation where misdetermination is caused by a unified preset time and/or preset threshold is avoided.

It should be noted that the respective implementable modes in the embodiment may be implemented individually, or may be implemented in combination in any combination without conflict, and the present invention is not limited thereto.

According to the processing method for charging the equipment, after the charging information is reduced to be lower than the preset threshold value, the state of the charging channel is updated to be the charging state when the charging information is monitored to be increased to be higher than the preset threshold value within the preset time, and the charging state is reported to the server, so that the situation that the charging state is full can not be directly judged according to the situation that the charging state is reduced to be lower than the preset threshold value, the occurrence of misjudgment is avoided, and the accuracy of the judgment result is further improved; the state of the corresponding charging channel is updated to be the charging state after the charging is started, and the charging state is reported to the server, so that the state of the charging channel is accurately maintained in real time, and effective data support is provided for the server to accurately finish the charging order; and corresponding preset time and/or preset threshold values are/is set for different equipment types respectively, so that the accuracy of the full judgment result is further improved.

In the above description, the method of charging the charging pile-side device is described below.

A further embodiment of the present invention provides a processing method for charging a device, which is used to perform charging processing on the device, where an execution main body of the embodiment is a server, and the server may be an individual server or a server cluster, and may be specifically set according to actual requirements.

As shown in fig. 2, a schematic flow chart of a processing method for charging a device provided in this embodiment is shown, where the method includes:

step 301, receiving and storing first state information reported by each charging pile, where the first state information is current state information reported by the charging pile after the charging information of the first device being charged is monitored by the charging pile and is lower than a preset threshold within a preset time, and a switch of a first target charging channel for charging the first device is turned off, and the first state information at least includes a charging pile identifier, a first target charging channel identifier corresponding to the first target charging channel, and a state of the first target charging channel.

Specifically, the server may comprehensively maintain relevant data of at least one charging pile, each charging pile reports data to the server in real time or at regular time, and each charging pile reports the server when any charging channel state is updated, so the server may receive and store first state information reported by each charging pile, where the first state information is information consistent with the content reported by the charging pile in step 102 of the charging pile side embodiment, that is, the first state information at least includes a current charging pile identifier (which may be referred to as a first target charging pile identifier for distinguishing), a first target charging channel identifier, a state of the first target charging channel, information of the charging pile, a charging duration of the first device, charging power, relevant information of other charging channels, and the like, and may be specifically set according to actual needs.

The server side maintains and updates the state information of the charging piles reported by the charging piles in real time, for example, the state information of the charging piles (such as charging pile identifications, charging pile positions, charging stations to which the charging piles belong, the number of provided charging channels and the like), the latest state of each charging channel, charging current, charging voltage, charging power, charging starting time, charging duration and the like are maintained for each charging pile in a table form, and after the state of each charging channel is updated and reported, the server synchronously updates the self-maintained related information, and specific maintenance contents and modes can be set according to actual requirements and are not described again.

And step 302, processing a charging order according to the stored current state information of each charging pile.

Specifically, after receiving the data reported by each charging pile, the server stores the related data of each charging pile according to preset rules so as to maintain the latest state information of each charging pile in real time, maintain and manage the charging order based on the stored current state information of each charging pile, ensure that the charging order can be settled accurately and accurately, and end the charging order timely.

Optionally, the management process of the server for the charging order may be set according to actual requirements, for example, when a user requests charging, a charging order identifier is generated, a charging order is established, relevant information of the charging order (for example, an order state is set to a charging state), then the end of charging is determined in real time or at regular time based on the latest state of the charging channel reported by each charging pile, and then the order is settled, and after the settlement is completed, the order state is set to be the end of charging.

Optionally, the server may also supplement, in real time, the specific start time, charging power, charging current, charging voltage, and other relevant information for the charging order according to the data reported by the charging pile, so that the settlement can be performed more quickly during settlement, and the order processing speed is increased.

It should be noted that the method of this embodiment is a server-side method interacting with the charging pile-side embodiment, and the interaction process part has been described in detail in the foregoing embodiment, and is not described again here.

According to the processing method for charging the equipment, whether the charging pile is full is determined by monitoring whether the size of the charging information in the preset time is always lower than the preset threshold value, the situation that part of the charging information enters low-value charging due to special situations and is not full actually can be judged to be full, therefore, the accuracy of full judgment can be improved, the server maintains and manages the charging order based on the current state information reported by the charging pile, order settlement is timely and accurately carried out, and further user experience is improved.

In order to make the technical solution of the present invention clearer, a method provided by the above embodiment is further described in an additional embodiment of the present invention.

As an implementable manner, in order to ensure accuracy of order processing, the order processing of the charging order is performed according to the stored current state information of each charging pile, and the method includes:

acquiring a first charging order with an order state being a charging state in real time or at regular time, wherein the first charging order at least comprises a second target order identification, a second target charging pile identification and a charging second target charging channel identification; acquiring the current state of a second target charging channel corresponding to a second target charging channel identifier reported by a second target charging pile corresponding to a second target charging pile identifier according to each first charging order; if the current state of the second target charging channel is idle, performing settlement processing on the first charging order; if the current state of the second target charging channel is not idle, judging whether the charging time of the first charging order exceeds a preset charging time threshold value; and if so, performing settlement processing on the first charging order.

Specifically, the server acquires a charging order (called a first charging order for distinguishing description) with an order state being a charging state at regular time or in real time, the first charging order at least comprises a second target order identifier, a second target charging pile identifier and a charging second target charging channel identifier, the first charging order may be one or more, the second target order identifier corresponds to the second target order, the second target charging pile identifier corresponds to the second target charging pile, and the second target charging channel identifier corresponds to the second target charging channel; the first charging orders can be traversed, for each first charging order, the current state of the second target charging channel reported by the corresponding second target charging pile is obtained, if the current state of the second target charging channel is idle, the first charging order is shown to be charged, the charging pile side is disconnected with the switch of the corresponding charging channel, and then settlement processing can be carried out on the first charging order; if the current state of the second target charging channel is not idle, the switch of the second target charging channel is not disconnected at the charging pile side, namely, the charging is not finished, and whether the charging time length of the first charging order exceeds a preset charging time length threshold value is judged; the preset charging time threshold value can be set according to actual needs, optionally, for different types of equipment, different preset charging time threshold values can be set according to actual conditions, accuracy of order processing is further improved, if the charging time corresponding to the first charging order exceeds the preset charging time threshold value, in order to avoid that the charging time is too long, the order needs to be finished, settlement processing is performed on the first charging order, of course, a charging end message needs to be sent to the second target charging pile corresponding to the first charging order, so that the second target charging pile controls to disconnect a switch of a second target charging channel for charging the equipment, after the second target charging channel corresponding to the order is ensured to be idle, settlement processing is performed, and the situation that the charging order is finished and an actual charging process of a charging pile side is not finished is avoided. Correspondingly, the charging pile side and the server side both need to update the state of the first charging order and the states of the charging pile and the charging channel related to the first charging order.

Further, the settlement processing is performed on the first charging order, and the settlement processing includes:

acquiring a charging time length and/or charging power corresponding to a first charging order; determining the consumption amount corresponding to the first charging order according to the charging duration and/or charging power corresponding to the first charging order; according to the consumption amount corresponding to the first charging order, carrying out fee deduction processing on a user account corresponding to the first charging order; correspondingly, after the fee deduction is successful, the method further comprises the following steps: the status of the first charge order is updated to end.

Specifically, the settlement of the user charging order may be settled according to the charging duration, may also be settled according to the charging power, and may also be settled according to the charging duration and the charging power, for example, charging according to the charging duration, and may set an amount per minute, an amount per ten minutes, an amount per hour, and the like, and calculate the total consumption amount according to the actual charging duration, and further deduct a corresponding amount from the user account balance, where the specific settlement manner may be set according to actual requirements, and this embodiment is not limited.

As another practicable manner, in order to provide the charging service for the user, on the basis of the foregoing embodiment, optionally, the method further includes:

receiving a charging request of a user, wherein the charging request at least comprises user information, a first charging pile identifier and a first charging channel identifier of the user request; responding to the charging request, generating a corresponding charging order mark, and sending a charging starting message to a first charging pile corresponding to the first charging pile mark, so that the first charging pile opens a first charging channel corresponding to a first charging channel mark according to the charging starting message to charge the to-be-charged equipment of the user, wherein the charging starting message comprises the first charging channel mark and a charging starting instruction; and recording a charging order mark and corresponding charging order information, wherein the charging order information at least comprises user information, a first charging pile mark and a first charging channel mark.

Specifically, a user can scan a two-dimensional code on a charging pile through a terminal, enter a channel selection interface, select a current idle channel and click confirmation, namely the terminal can be triggered to send a charging request to a server, the terminal can obtain user information, a first charging pile identifier scanned by the user and a first charging channel identifier selected by the user, the user information, the first charging pile identifier scanned by the user and the first charging channel identifier selected by the user are carried in the charging request and sent to the server, or the user can log in a server charging system through an application program installed on the terminal, enter the charging pile selection interface, select the current first charging pile, enter the channel selection interface, further click a button similar to 'confirm' and the like after selecting the first charging channel, and trigger the sending of the charging request to the server; the server receives a charging request of a user, can generate a corresponding charging order identifier, specifically can generate the charging order identifier based on the request time, and can also generate the charging order identifier based on other rules; after the charging order identifier is generated, a charging start message can be sent to a first charging pile corresponding to the first charging pile identifier, wherein the charging start message comprises a first charging channel identifier and a charging start instruction; after receiving the charging start message, the first charging pile can open a first charging channel corresponding to the first charging channel identifier according to the charging start message to charge the device to be charged of the user; the server further needs to record a charging order identification and corresponding charging order information, wherein the charging order information at least comprises user information, a first charging pile identification and a first charging channel identification.

Further, to accurately maintain the charging order data, the method further comprises:

receiving a charging success notification message sent by a first charging pile, wherein the charging success notification message at least comprises a first charging pile identifier and a first charging channel identifier; and updating the state of the charging order corresponding to the charging order identifier into a charging state according to the charging success notification message, and updating the state of the first charging channel of the first charging pile into an in-use state.

Specifically, after the switch of the first charging pile which opens the first charging channel is successfully started to charge the device to be charged of the user, a charging success notification message can be returned to the server, the charging success notification message at least can include the first charging pile identifier and the first charging channel identifier, and can also include the state of the first charging channel (namely the state during charging) and other related information, the specific content can be set according to actual requirements, and after the server receives the charging success notification message, the server can update the order state of the corresponding charging order to the state during charging, and can update the state of the first charging channel of the first charging pile to the state during charging.

Further, in order to further improve the accuracy of the full charge judgment, the charging request further includes the type of the device to be charged of the user, and the charging start message further includes the type of the device to be charged, so that the first charging pile performs full charge automatic stop control based on preset time and/or a preset threshold corresponding to the type of the device to be charged.

The specific operation of this step has been described in detail in the foregoing embodiments, and is not described herein again.

According to the processing method for equipment charging, the charging orders meeting the preset conditions are settled according to the current state information reported by each charging pile by traversing the charging orders in the charging state in real time or at regular time, so that the accuracy of order processing is further improved; the server also sends a charging success notification message to the server after the charging pile successfully starts to charge the equipment to be charged, so that the server can update the state information of the charging pile in time, and the accuracy of the maintained charging order data is improved; and corresponding preset time and/or preset threshold values are/is set for different equipment types respectively, so that the accuracy of the full judgment result is further improved, and the user experience is further improved.

The following describes a processing device (i.e., a charging pile and a server) for charging the device provided by the present invention.

Yet another embodiment of the present invention provides a charging pile for performing the method of the above-mentioned charging pile side embodiment.

As shown in fig. 3, a schematic structural diagram of the charging pile provided in this embodiment is shown. This fill electric pile 50 includes: a control module 51, a first processing module 52 and a first transmitting module 53.

The control module is used for controlling a switch of a first target charging channel for charging the first equipment to be switched off if the charging information of the first equipment which is being charged is monitored to be lower than a preset threshold value within preset time, wherein the charging information is charging current, charging voltage and/or charging power; the first processing module is used for updating the state of the first target charging channel; and the first sending module is used for reporting the updated state of the first target charging channel to the server so as to enable the server to process the charging order.

Specifically, the charging pile may further include a monitoring module, the monitoring of the charging information may be implemented by the monitoring module, and the monitoring result is sent to the control module, if it is monitored that the charging information of the first device being charged is always lower than a preset threshold value within a preset time, the control module controls the switch of the first target charging channel for charging the first device to be turned off; optionally, the monitoring of the charging information may also be implemented by a sub-module of the control module, and may specifically be set according to actual requirements; the control module can notify the first processing module after controlling the switch of the first target charging channel to be switched off, the first processing module updates the state of the first target charging channel, and sends the data of the server to be reported to the first sending module after updating, and the first sending module reports the server, and the specific reported content can include other related information according to actual requirements besides the updated state of the first target charging channel, which is specifically referred to a corresponding method part, and is not described herein again.

As for the charging pile in this embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and the same technical effect can be achieved, and will not be described in detail herein.

In order to make the charging pile of the present invention clearer, a further supplementary description is provided for the charging pile provided in the above embodiment of the present invention.

As a practical manner, in order to be able to accurately judge the full charge, on the basis of the foregoing embodiment, optionally, the first processing module is further configured to:

when the charging information of the first equipment is monitored to be reduced to be lower than a preset threshold value, updating the state of the first target charging channel to be a low value state; and if the charging information of the first device is monitored to be increased to be higher than a preset threshold value within the preset time, updating the state of the first target charging channel into a charging state.

As shown in fig. 4, an exemplary structure diagram of the charging pile provided in this embodiment is shown.

As another implementable manner, in order to charge the device to be charged of the user, on the basis of the foregoing embodiment, optionally, the charging pile further includes: a first receiving module 54.

The first receiving module is used for receiving a charging starting message sent by the server, wherein the charging starting message comprises a first target charging channel identifier and a charging starting instruction; the control module is also used for controlling to open a first target charging channel corresponding to the first target charging channel identifier according to the charging starting instruction to charge the first equipment; the first processing module is further used for updating the state of the first target charging channel into a charging state; the first sending module is further configured to report the updated state of the first target charging channel to the server.

Specifically, the first receiving module receives a charging start message sent by the server and sends the charging start message to the control module, the control module controls to open a first target charging channel corresponding to a first target charging channel identifier according to a charging start instruction in the charging start message to charge the first device, the control module notifies the first processing module after the first target charging channel identifier is successfully opened, the first processing module updates the state of the first target charging channel to a charging state and sends data needing to be reported to the server to the first sending module, and the first sending module reports the data including the updated state of the first target charging channel to the server.

As another implementable manner, in order to further improve the accuracy of the fullness determination, on the basis of the foregoing embodiment, optionally, the charging pile further includes: a first obtaining module 55 and a second obtaining module 56.

The first acquisition module is used for acquiring the type of the first equipment; the second acquisition module is used for acquiring corresponding preset time and/or preset threshold according to the type of the first equipment; a control module specifically configured to: if the charging information of the first device which is being charged is monitored to be lower than the corresponding preset threshold value within the corresponding preset time, controlling the switch of the first target charging channel for charging the first device to be switched off.

Specifically, the type of the first device may be carried in a charging request selected by a user and sent to a server, the server further carries the first device in a charging start message and sends the charging start message to a charging pile, a first acquisition module of the charging pile may acquire the type of the first device from the charging start message and send the type of the first device to a second acquisition module, the second acquisition module acquires corresponding preset time and/or preset threshold according to the type of the first device, the preset time and/or preset threshold corresponding to different types may be pre-configured in the charging pile or configured in the charging pile, the second acquisition module acquires the preset time and/or preset threshold corresponding to the type of the first device and then sends the preset time and/or preset threshold to a control module, and the control module determines whether the charging pile is full or not based on the preset time and/or the preset threshold.

In order to further improve user experience, the charging pile can further comprise a voice prompt module for sending a voice prompt of successful charging after the successful charging is started so that a user can timely and conveniently know that the equipment of the user successfully starts charging.

With regard to the charging pile in the embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and the same technical effect can be achieved, and will not be described in detail herein.

In some embodiments, the module division of the charging pile may also be according to other division manners according to actual needs, for example, the charging pile may include a monitoring module, a control module, and an on-off module, where the monitoring module is configured to monitor charging information of a first device that is being charged, and when the charging information is reduced to be lower than a preset threshold, the monitoring module updates a state of a first target charging channel corresponding to the first device to a low state, starts a timer, continues monitoring, and if it is monitored that the charging information is higher than the preset threshold within a preset time, determines that the charging of the first device is not finished, updates the state of the first target charging channel to a charging state, continues charging, and monitors charging information; if the charging information is monitored to be always lower than the preset threshold value within the preset time, the first device is determined to be charged, a charging end notification message is sent to the control module, the control module sends a switch disconnection command to the on-off module after receiving the charging end notification message, the on-off module disconnects the switch of the first target charging channel after receiving the switch disconnection command and sends a disconnection notification to the control module, and the control module updates the state of the first target charging channel to be an idle state after receiving the disconnection notification and reports the idle state to the server. Of course, the charging pile can also be divided into modules according to other modes, and can be specifically set according to actual requirements.

Yet another embodiment of the present invention provides a server for executing the method of the server-side embodiment.

As shown in fig. 5, a schematic structural diagram of the server provided in this embodiment is shown. The server 70 includes: a second receiving module 71, a storage module 72 and a second processing module 73.

The second receiving module is configured to receive first state information reported by each charging pile, where the first state information is current state information reported by the charging pile after the charging pile monitors that charging information of a first device that is being charged is lower than a preset threshold within a preset time and a switch of a first target charging channel that controls charging of the first device is turned off, and the first state information at least includes a charging pile identifier, a first target charging channel identifier corresponding to the first target charging channel, and a state of the first target charging channel; the storage module is used for storing the first state information reported by each charging pile; and the second processing module is used for processing the charging order according to the stored current state information of each charging pile.

Specifically, the second receiving module receives data reported by each charging pile and sends the data to the storage module for storage, and the second processing module obtains the stored current state information of each charging pile from the corresponding storage area and processes the charging order based on the current state information of each charging pile.

Regarding the server in the present embodiment, the specific manner in which each module performs operations has been described in detail in the embodiment related to the method, and the same technical effect can be achieved, and will not be described in detail herein.

In order to make the server of the present invention clearer, a further embodiment of the present invention provides a further supplementary description of the server provided in the above embodiment.

As a practical way, in order to ensure the accuracy of order processing, on the basis of the above embodiment, optionally, the second processing module includes: the device comprises a first obtaining submodule, a second obtaining submodule and a first processing submodule.

The first acquisition submodule is used for acquiring a first charging order with an order state being a charging state in real time or at regular time, and the first charging order at least comprises a second target order mark, a second target charging pile mark and a charging second target charging channel mark; the second obtaining sub-module is used for obtaining the current state of a second target charging channel corresponding to a second target charging channel identifier reported by a second target charging pile corresponding to the second target charging pile identifier for each first charging order; the first processing submodule is used for performing settlement processing on the first charging order if the current state of the second target charging channel is idle; if the current state of the second target charging channel is not idle, judging whether the charging time of the first charging order exceeds a preset charging time threshold value or not; and if so, performing settlement processing on the first charging order.

Specifically, the server maintains relevant data of all charging orders in real time, the first acquisition submodule can acquire a charging order (a first charging order) in a charging state in real time or at regular time according to an order state and send the charging order to the second acquisition submodule, the server also maintains state information of the charging piles reported by the charging piles in real time, wherein the state information includes current states of charging channels of the charging piles, therefore, the second acquisition submodule can acquire the current state of a second target charging channel of a second target charging pile related to the first charging order from a corresponding storage area and send the current state to the first processing submodule, the first processing submodule judges whether the current state of the second target charging channel is an idle state, if the current state is the idle state, the first charging order is subjected to settlement processing, and if the current state is not the idle state, the first charging order is further judged whether the charging duration exceeds a preset charging duration threshold value; and if so, performing settlement processing on the first charging order.

Further, the second processing module further comprises a second processing sub-module.

The first processing submodule is specifically configured to: acquiring a charging time length and/or charging power corresponding to a first charging order; determining the consumption amount corresponding to the first charging order according to the charging duration and/or charging power corresponding to the first charging order; according to the consumption amount corresponding to the first charging order, carrying out fee deduction processing on a user account corresponding to the first charging order; and the second processing submodule is used for updating the state of the first charging order to be finished.

Specifically, after the first processing sub-module successfully deducts the fee of the first charging order, the first processing sub-module notifies the second processing sub-module, and the second processing sub-module updates the state of the first charging order to the end.

As another implementable manner, as shown in fig. 6, an exemplary structural schematic diagram of the server provided in this embodiment is provided, on the basis of the foregoing embodiment, optionally, the server further includes: a third receiving module 74, a generating module 75, a second sending module 76 and a recording module 77.

The third receiving module is used for receiving a charging request of a user, wherein the charging request at least comprises user information, a first charging pile identifier and a first charging channel identifier of the user request; the generating module is used for responding to the charging request and generating a corresponding charging order mark; the second sending module is used for sending a charging starting message to the first charging pile corresponding to the first charging pile identifier so that the first charging pile opens a first charging channel corresponding to the first charging channel identifier according to the charging starting message to charge the to-be-charged equipment of the user, and the charging starting message comprises the first charging channel identifier and a charging starting instruction; the recording module is used for recording the charging order identification and the corresponding charging order information, and the charging order information at least comprises user information, a first charging pile identification and a first charging channel identification.

Specifically, the third receiving module receives a charging request of a user and sends the charging request to the generating module and the second sending module, the second sending module sends a charging start message to the first charging pile corresponding to the first charging pile identifier, the generating module generates a corresponding charging order identifier in response to the charging request and sends the charging order identifier to the recording module, and the recording module records the charging order identifier and corresponding charging order information.

Further, in order to accurately maintain the charging order data, the second receiving module is further configured to receive a charging success notification message sent by the first charging pile, where the charging success notification message at least includes a first charging pile identifier and a first charging channel identifier; the second processing module is further configured to update the state of the charge order corresponding to the charge order identifier to a charging in-use state according to the charging success notification message, and update the state of the first charging channel of the first charging pile to the in-use state.

Specifically, the second receiving module receives a charging success notification message sent by the first charging pile and sends the charging success notification message to the second processing module, and the second processing module updates the charging order state corresponding to the charging order identifier to a charging state according to the charging success notification message and updates the state of the first charging channel of the first charging pile to an in-use state.

Further, in order to further improve the accuracy of the full charge judgment, the charging request further includes the type of the device to be charged of the user, and the charging start message further includes the type of the device to be charged, so that the first charging pile performs full charge automatic stop control based on the preset time and/or the preset threshold corresponding to the type of the device to be charged.

In some embodiments, the server of the present invention may also perform module division according to actual needs in other manners, such as including a charging module, a data storage module, a communication module, a determination module, and an order processing module.

The charging module receives a charging request of a user, generates a charging order identifier (such as a charging order number) according to the charging request, records charging order data related to the charging order identifier, and sends a charging starting message to a charging pile corresponding to the charging request; after the charging pile successfully starts charging, a charging success notification message is returned to the server, the server charging module updates the order state of the charging order to a charging state according to the charging success notification message, and updates the charging channel state of the corresponding charging pile to the charging state; the data storage module is used for reading data required by the operation of the charging system, such as user information, user account information, stored order data, charging pile data and the like, and storing an operation result into the database system; the communication module receives data reported by the charging pile, the data comprises state information of the charging pile, specifically comprises charging pile identification, charging pile self information (such as information of a charging station to which the charging pile belongs, charging pile positions, charging pile types, equipment types supported by the charging pile and the like), charging pile signal strength, the number of charging channels provided by the charging pile, states of each charging channel, power and the like, and the reported data is stored in a database for other modules to use; the judging module starts a judging task in real time or at regular time to automatically end the fully charged charging order, specifically, a first charging order in the charging state is obtained, whether the first charging order is ended or not is judged according to the mode, if the first charging order is ended, the order processing module informs the order processing module, the order processing module carries out settlement processing on the first charging order, and the state of the charging order is updated. Of course, the server of the present invention may also perform module division according to other manners, which is not described herein again.

A further embodiment of the present invention provides an apparatus charging system, configured to execute the method provided in any of the above embodiments, as shown in fig. 7, which is a schematic structural diagram of the apparatus charging system provided in this embodiment. The equipment charging system comprises a server and at least one charging pile.

The charging pile is used for controlling a switch of a first target charging channel for charging the first equipment to be disconnected if the charging information of the first equipment which is being charged is monitored to be lower than a preset threshold value within preset time, updating the state of the first target charging channel and reporting the state to the server; the charging information is charging current, charging voltage and/or charging power;

Optionally, the charging pile may also be configured to execute the method or the implementation provided in any one of the above charging pile side embodiments, and the server may also be configured to execute the method or the implementation provided in any one of the above server side embodiments, which are not described herein again.

Optionally, the device charging system may further include at least one user terminal, where the user terminal is configured to interact with the server to send a charging request of the user.

In an exemplary embodiment, a processing method for charging a device of the present invention is described by taking an interaction process between a charging pile and a server as an example, and the method specifically includes:

1. and the user scans the two-dimensional code through the terminal or sends a charging request to the server through the terminal application program.

2. The server establishes a charging order (called a second charging order for distinguishing) according to the charging request of the user, records the related data of the second charging order, and sends a charging starting message to the corresponding charging pile (called a second charging pile).

3. And the second charging pile opens a switch of a corresponding charging channel (called as a second charging channel) according to the charging starting message sent by the server to charge the equipment to be charged for the user, sends a charging success prompt voice to the user after the charging is started successfully, and returns a charging success notification message to the server.

It can be understood that different charging piles may have different user operation sequences, for example, a user may first connect an idle charging channel with a device to be charged and then send a charging request to a server, and the charging pile directly charges the device to be charged after opening a switch of the charging channel; some charging piles can be connected only by a request of a user, and the operation mode and sequence of specific user connection can be set according to actual requirements, which is not limited in the invention.

4. And the server receives the charging success notification message, updates the order state of the second charging order into a charging state, and updates the state of the second charging channel in the maintained data reported by the second charging pile.

5. The second charging pile monitors charging information of the charging equipment to be charged, in the example, the charging information takes charging current as an example, a corresponding preset threshold is a preset current threshold, when the charging current is monitored to be reduced to be lower than (or equal to) the preset current threshold, the state of the second charging channel is updated to be a low current state, timing and monitoring are started, if the charging current is monitored to be increased to be higher than the preset current threshold again within preset time, the state of the second charging channel is updated to be a charging state, and the charging current is monitored continuously; and if the charging current is monitored to be always lower than the preset current threshold value within the preset time, determining that the charging of the equipment to be charged by the second charging channel is finished, controlling the second charging pile to disconnect the switch of the second charging channel, finishing the charging, updating the state of the second charging channel from the charging state to the idle state, and reporting to the server.

6. The server receives the reported data of the second charging pile, updates the related data of the second charging pile, and performs processing of a charging order in real time or at regular time all the time in the whole process, taking the second charging order as an example, after the server acquires the second charging order with the order state being in a charging state, the server acquires the state of a second charging channel from the maintained data reported by the second charging pile according to the second charging pile and the second charging channel corresponding to the second charging order, and since the server updates the related data of the second charging pile after step 5, the state of the second charging channel is in an idle state, the server knows that the second charging order can be ended, so that the related data of the second charging channel, such as the starting charging time, the ending charging time (or directly acquiring the charging time length), the charging power and the like related to the charging equipment can be acquired from the data reported by the second charging pile, the user consumption amount can be calculated accordingly, and after the processing such as fee deduction the balance of the user, the order state of the second charging order is updated from the charging state being in the charging state to an ending state, and the second charging order being ended.

The device charging system provided by the invention can be applied to charging management scenes of any type of electric vehicles or other related devices, such as electric automobiles, electric bicycles, electric tricycles and the like.

It should be noted that the device charging system of this embodiment can implement the method provided in any of the above embodiments, and can achieve the same technical effect, which is not described herein again.

Yet another embodiment of the present invention provides a computer-readable storage medium, in which computer-executable instructions are stored, and when the processor executes the computer-executable instructions, the method provided in any one of the above embodiments is implemented.

It should be noted that the computer-readable storage medium of this embodiment can implement the method provided in any of the above embodiments, and can achieve the same technical effects, which are not described herein again.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus (charging pile and server) and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. The invention is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims

1. A method for processing device charging, comprising:

when the charging information of the first equipment is monitored to be reduced to be lower than a preset threshold value, updating the state of a first target charging channel for charging the first equipment to be a low-value state, and recording the starting time of preset time;

if the charging information of the first equipment is monitored to be increased to be higher than the preset threshold value again in the preset time, updating the state of the first target charging channel to be a charging state;

if the charging information of the first device which is being charged is monitored to be always lower than a preset threshold value within a preset time, controlling a switch of a first target charging channel for charging the first device to be switched off, wherein the charging information comprises at least two items of charging current, charging voltage and charging power, and the preset threshold value is an item which is firstly satisfied with the condition of being lower than the corresponding preset threshold value within the preset time;

2. The method of claim 1, wherein before controlling the switch of the first target charging channel for charging the first device to be turned off if the charging information of the first device being charged is monitored to be always lower than the preset threshold for the preset time, the method further comprises:

receiving a charging starting message sent by a server, wherein the charging starting message comprises a first target charging channel identifier and a charging starting instruction;

controlling to open a first target charging channel corresponding to the first target charging channel identifier according to the charging starting instruction to charge the first device;

and updating the state of the first target charging channel into a charging state, and reporting to a server.

3. The method according to any one of claims 1-2, further comprising:

acquiring the type of the first equipment;

acquiring corresponding preset time and/or a preset threshold according to the type of the first equipment;

if the charging information of the first device which is being charged is monitored to be always lower than a preset threshold value in preset time, controlling the switch of the first target charging channel for charging the first device to be switched off, and the method comprises the following steps:

if the charging information of the first device which is being charged is monitored to be always lower than the corresponding preset threshold value within the corresponding preset time, controlling the switch of the first target charging channel for charging the first device to be switched off.

4. A method for processing device charging, comprising:

receiving and storing first state information reported by each charging pile, wherein the first state information is current state information reported by the charging pile after the charging information of first equipment which is being charged is monitored by the charging pile to be always lower than a preset threshold value within preset time and a switch of a first target charging channel for charging the first equipment is controlled to be switched off, and the first state information at least comprises a charging pile identifier, a first target charging channel identifier corresponding to the first target charging channel and the state of the first target charging channel; the charging information comprises at least two items of charging current, charging voltage and charging power, and the preset threshold is an item which is firstly lower than a corresponding preset threshold in preset time;

5. The method according to claim 4, wherein the processing of the charging order according to the stored current state information of each charging pile comprises:

acquiring a first charging order with an order state being a charging state in real time or at regular time, wherein the first charging order at least comprises a second target order mark, a second target charging pile mark and a charging second target charging channel mark;

acquiring the current state of a second target charging channel corresponding to a second target charging channel identifier reported by a second target charging pile corresponding to the second target charging pile identifier according to each first charging order; if the current state of the second target charging channel is idle, performing settlement processing on the first charging order; if the current state of the second target charging channel is not idle, judging whether the charging time of the first charging order exceeds a preset charging time threshold value; and if so, performing settlement processing on the first charging order.

6. The method of claim 5, wherein said settling the first charge order comprises:

acquiring the charging time and/or the charging power corresponding to the first charging order;

determining the consumption amount corresponding to the first charging order according to the charging duration and/or charging power corresponding to the first charging order;

according to the consumption amount corresponding to the first charging order, carrying out fee deduction processing on a user account corresponding to the first charging order;

the method further comprises the following steps: updating the status of the first charge order to end.

7. The method according to any one of claims 4-6, further comprising:

receiving a charging request of a user, wherein the charging request at least comprises user information, a first charging pile identifier and a first charging channel identifier of the user request;

responding to the charging request, generating a corresponding charging order identifier, and sending a charging starting message to a first charging pile corresponding to the first charging pile identifier, so that the first charging pile opens a first charging channel corresponding to the first charging channel identifier according to the charging starting message to charge the to-be-charged device of the user, wherein the charging starting message comprises the first charging channel identifier and a charging starting instruction;

and recording the charging order identification and corresponding charging order information, wherein the charging order information at least comprises the user information, the first charging pile identification and the first charging channel identification.

8. The method of claim 7, further comprising:

receiving a charging success notification message sent by the first charging pile, wherein the charging success notification message at least comprises the first charging pile identifier and the first charging channel identifier;

and updating the state of the charging order corresponding to the charging order identifier into a charging state according to the charging success notification message, and updating the state of the first charging channel of the first charging pile into an in-use state.

9. The method according to claim 7, wherein the charging request further includes a type of a device to be charged of the user, and the charging start message further includes the type of the device to be charged, so that the first charging pile performs automatic full stop control based on a preset time and/or a preset threshold corresponding to the type of the device to be charged.

10. A charging pile, comprising:

the control module is used for updating the state of a first target charging channel for charging the first equipment to a low value state and recording the starting time of preset time when monitoring that the charging information of the first equipment is reduced to be lower than a preset threshold value; if the charging information of the first equipment is monitored to be increased to be higher than the preset threshold value again in the preset time, updating the state of the first target charging channel to be a charging state; the method comprises the steps of monitoring charging information of a first device which is being charged and is always lower than a preset threshold value within a preset time, and controlling a switch of a first target charging channel for charging the first device to be switched off, wherein the charging information comprises at least two items of charging current, charging voltage and charging power, and the preset threshold value is an item which is firstly met and lower than the corresponding preset threshold value within the preset time;

11. A server, comprising:

a second receiving module, configured to receive first state information reported by each charging pile, where the first state information is current state information reported by the charging pile after the charging information of a first device that is being charged is monitored by the charging pile to be always lower than a preset threshold within a preset time and a switch of a first target charging channel that charges the first device is controlled to be turned off, and the first state information at least includes a charging pile identifier, a first target charging channel identifier corresponding to the first target charging channel, and a state of the first target charging channel; the charging information comprises at least two items of charging current, charging voltage and charging power, and the preset threshold is an item which is firstly lower than a corresponding preset threshold in preset time;

12. A device charging system, comprising:

the charging system comprises a server and at least one charging pile;

the charging pile is used for updating the state of a first target charging channel for charging the first equipment to a low-value state and recording the starting time of preset time when the charging information of the first equipment is monitored to be reduced to be lower than a preset threshold value; if the charging information of the first equipment is monitored to be increased to be higher than the preset threshold value again in the preset time, updating the state of the first target charging channel to be a charging state; the charging control module is used for controlling a switch of a first target charging channel for charging the first equipment to be switched off if the charging information of the first equipment which is being charged is monitored to be always lower than a preset threshold value in preset time, updating the state of the first target charging channel and reporting the state to the server; the charging information comprises at least two items of charging current, charging voltage and charging power, and the preset threshold is an item which is firstly lower than a corresponding preset threshold in preset time;