CN113659661A

CN113659661A - Charging method, device, equipment and storage medium

Info

Publication number: CN113659661A
Application number: CN202110857735.6A
Authority: CN
Inventors: 孙哲鹏
Original assignee: Shenzhen Zhilai Science and Technology Co Ltd
Current assignee: Shenzhen Zhilai Science and Technology Co Ltd
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2021-11-16
Anticipated expiration: 2041-07-28
Also published as: CN113659661B

Abstract

The application provides a charging method, a charging device, equipment and a storage medium, wherein the method comprises the following steps: receiving a charging request of a user, wherein the charging request carries a contact way of the user and a first expected electric quantity of a battery to be charged; charging the battery to be charged after detecting that the charging is ready; monitoring the charging electric quantity of a battery to be charged; and sending a charging state message to the user through a contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the first expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged. According to the method and the device, the user can randomly select the expected electric quantity, and the charging state information of the battery to be charged can be automatically sent to the user, so that the user can timely know the electric quantity reached by the battery to be charged. The user does not need to check the charging state and estimate the electric quantity all the time, the requirement that the user is not fully charged and gets electricity halfway is met, the charging flexibility is improved, the time is saved, and the user experience is improved.

Description

Charging method, device, equipment and storage medium

Technical Field

The present disclosure relates to the field of charging technologies, and in particular, to a charging method, a charging apparatus, a charging device, and a storage medium.

Background

In recent years, the market of Chinese electric vehicles keeps leap-type growth, but the problems of low charging speed, short driving range and insufficient convenience of the electric vehicles are increasingly prominent. In order to solve the problem that the electric vehicle suddenly encounters insufficient electric quantity, the charging cabinet is also taken into account.

Although some charging cabinets in the current market can be charged normally, the charging time of full charging of the battery is generally long, a user is required to wait for a long time, and the charging cabinets are not flexible enough for the user to catch up with time.

In addition, the charging condition of the battery needs to be checked by the user from time to time, and the user cannot concentrate on doing other things during the charging process, so that bad experience is brought to the user. Although the user can estimate the electric quantity of the charged battery through the charging time, the estimation is not accurate due to the fact that quantized data do not exist, and the user cannot accurately judge whether the electric quantity is enough.

Disclosure of Invention

The charging device aims to solve the technical problem that charging of an electric vehicle battery in the prior art cannot automatically and timely know the charged electric quantity, and inconvenience is brought to users. The application provides a charging method, a charging device, charging equipment and a storage medium, and mainly aims to achieve the purpose of automatically, timely and regularly feeding back the charged amount of a battery to a user.

To achieve the above object, the present application provides a charging method, including:

acquiring a charging request of a user, wherein the charging request carries a contact way of the user and a first expected electric quantity of a battery to be charged;

charging the battery to be charged after detecting that the charging is ready;

monitoring the charging electric quantity of a battery to be charged;

and sending a charging state message to the user through a contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the first expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged.

Optionally, the charging request further carries a battery model of the battery to be charged;

after detecting that the charging is ready, the battery to be charged is charged, which comprises the following steps:

distributing corresponding charging bins for the batteries to be charged according to the battery models of the batteries to be charged;

binding the charging bin number of the charging bin, the first expected electric quantity and the contact way of the user;

and opening a bin door of the charging bin, and charging the battery to be charged through the charging bin after detecting that the battery to be charged is correctly placed in the charging bin.

Optionally, the monitoring the charging capacity of the battery to be charged includes:

the charging quantity of the battery to be charged is monitored in real time through the charging bin, or the charging quantity of the battery to be charged is monitored at regular time through the charging bin.

Optionally, the sending the charging status message to the user through the contact manner of the user according to the electric quantity difference or the ratio between the charging electric quantity of the battery to be charged and the first expected electric quantity, includes:

and if the difference between the charging electric quantity of the battery to be charged and the first expected electric quantity is a first preset electric quantity difference value or the charging electric quantity of the battery to be charged reaches a first preset proportion of the first expected electric quantity, sending a charging state message to the user according to the contact way of the user.

when the difference value between the charging electric quantity of the battery to be charged and the first expected electric quantity reaches a second preset electric quantity difference value corresponding to any one charging stage, a corresponding charging state message is sent to the user once according to the contact way of the user;

or the like, or, alternatively,

and when the ratio of the charging electric quantity of the battery to be charged to the first expected electric quantity reaches a second preset ratio corresponding to any one charging stage, sending a corresponding charging state message to the user once according to the contact way of the user.

Optionally, the method further comprises:

receiving a power-taking request of a user, wherein the power-taking request carries a contact way to be verified;

verifying whether the contact way to be verified is consistent with the contact way in the charging request;

and if the contact way to be verified is consistent with the contact way in the charging request, controlling a bin door of the charging bin to be opened so that a user can conveniently execute the power taking operation.

Optionally, the method further comprises:

if the contact way to be verified is consistent with the contact way in the charging request, popping up an inquiry bullet box for judging whether to continue charging on a visual interface;

if feedback information which is selected by a user and does not need to be charged continuously is received, a bin door of the charging bin is controlled to be opened, so that the user can conveniently execute power taking operation;

if the feedback information which is selected by the user and needs to be continuously charged is received, the battery to be charged is charged again according to the second expected electric quantity carried in the feedback information which needs to be continuously charged;

wherein the second expected amount of power is greater than the first expected amount of power.

Optionally, the method further comprises:

and if the contact way to be verified is inconsistent with the contact way in the charging request, displaying error information on a visual interface.

Optionally, the contact information is a mobile phone number;

sending a charging status message to a user through a contact means of the user, comprising:

and sending the charging state message to the user in a short message mode through the mobile phone number.

To achieve the above object, the present application also provides a charging device, including:

the first request receiving module is used for acquiring a charging request of a user, wherein the charging request carries a contact way of the user and a first expected electric quantity of a battery to be charged;

the charging module is used for charging the battery to be charged after detecting that the charging is ready;

the electric quantity monitoring module is used for monitoring the charging electric quantity of the battery to be charged;

and the message sending module is used for sending a charging state message to the user through the contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the first expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged.

To achieve the above object, the present application further provides a computer device comprising a memory, a processor and computer readable instructions stored on the memory and executable on the processor, the processor executing the computer readable instructions to perform the steps of the charging method according to any one of the preceding claims.

To achieve the above object, the present application further provides a computer readable storage medium having computer readable instructions stored thereon, which, when executed by a processor, cause the processor to perform the steps of the charging method according to any one of the preceding claims.

According to the charging method, the charging device, the charging equipment and the storage medium, a user can randomly select the expected electric quantity which is expected to be reached by the battery to be charged, and can automatically send the charging state information of the battery to be charged to the user when the preset proportion of the expected electric quantity of the battery to be charged or the electric quantity difference value reaches the preset difference value, so that the user can timely know the electric quantity which is reached by the battery to be charged. The user does not need to check the charging state and estimate the electric quantity all the time, the requirement that the user does not get electricity during full charge is met, the charging flexibility is improved, the time is saved for the user, and the user is informed of the charging state regularly, so that the user experience is improved.

Drawings

Fig. 1 is an application scenario diagram of a charging method in an embodiment of the present application;

fig. 2 is a diagram illustrating an application scenario of a charging method according to another embodiment of the present application;

fig. 3 is a schematic flowchart of a charging method according to an embodiment of the present application;

FIG. 4 is a charging flow diagram according to an embodiment of the present application;

fig. 5 is a block diagram of a charging device according to an embodiment of the present disclosure;

fig. 6 is a block diagram illustrating an internal structure of a computer device according to an embodiment of the present application.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all 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 application. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The charging method provided by the present application, in one embodiment, can be applied to a charging cabinet as shown in fig. 1, where the charging cabinet includes a control device, and a communication device and at least one charging bin (3 charging bins are shown in the figure for example and not limited thereto) respectively connected to the control device. The terminal includes the display screen, and the display screen is used for showing visual interface, can show the operation interface that charges through visual interface. The charging operation interface terminal can receive an operation instruction of a user and generate a charging request according to the operation instruction. The communication device is used for communicating with the terminal, receiving a charging request sent by a user through the terminal and transmitting the charging request to the control device. The control device allocates corresponding charging bins for the batteries to be charged according to the charging requests, and the batteries to be charged are charged through the charging bins; the control device monitors the charging electric quantity of the battery to be charged; and sending a charging state message to the user through a contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the first expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged.

Among them, the terminal may be, but not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices. The terminal communicates with the charging cabinet through a network.

The charging method provided by the present application, in another embodiment, can be applied to a charging cabinet as shown in fig. 2, wherein the charging cabinet includes a control device, and a display device and at least one charging bin (3 charging bins are shown in the figure by way of example and not limitation) respectively connected to the control device. The display device comprises a display screen, the display screen is used for displaying a visual interface, and the charging operation interface can be displayed through the visual interface. The charging operation interface can receive an operation instruction of a user and transmit the operation instruction to the control device, and the control device generates a charging request according to the operation instruction. The control device allocates corresponding charging bins for the batteries to be charged according to the charging requests, and the batteries to be charged are charged through the charging bins; the control device monitors the charging electric quantity of the battery to be charged; and sending a charging state message to the user through a contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the first expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged.

Of course, the charging cabinet may also include a control device, a display device connected to the control device, a communication device, and at least one charging bin.

Fig. 3 is a flowchart illustrating a charging method according to an embodiment of the present application. Referring to fig. 3, the method is illustrated as applied to the charging cabinet in fig. 1 or fig. 2. The charging method includes the following steps S100 to S400.

S100: the method comprises the steps of obtaining a charging request of a user, wherein the charging request carries a contact way of the user and a first expected electric quantity of a battery to be charged.

Specifically, no matter the user operates the terminal or the charging cabinet, the terminal and the charging cabinet have visual interfaces for human-computer interaction. The visual interface is provided with a charging option and a power taking option, and a user can select charging or power taking through the visual interface. The 2 operation options of 'charging' and 'power taking' are provided, so that the user operation is simpler and clearer.

After charging is selected, the user operates the terminal to provide a contact way in an input way, first expected electric quantity is provided in input or voice or selection ways, and an expected electric quantity selection item is arranged on an interface when the selection way is used. The charging request can be generated according to an operation instruction of a user on the terminal, and the terminal sends the generated charging request to the communication device of the charging cabinet. The control device of the charging cabinet communicates with the terminal of the user side through the communication device of the control device, and receives a charging request transmitted by the terminal.

More specifically, when the terminal operates, the terminal is provided with a charging application program or APP, and the charging operation interface can be accessed through the charging application program or APP, or can be accessed through a webpage version charging operation interface.

After the charging is selected, a user can also provide a contact way in an input way by operating a charging operation interface displayed by a display device of the charging cabinet, and provide a first expected electric quantity in input or voice or selection ways, and the like, and an expected electric quantity selection item is provided on the interface in the selection way, for example, a plurality of electric quantity ratios in 10% -100% are provided for the user to select, so that an operation instruction is sent to the charging cabinet, and a control device of the charging cabinet generates a corresponding charging request according to the operation instruction.

More specifically, before entering the charging operation interface, the display device displays, for example, a two-dimensional code, and a user can enter the charging operation interface of the charging cabinet in a code scanning manner.

The charging request carries the contact information of the user, and the contact information can be a mobile phone number, a mailbox and the like.

The charging request carries a first expected electric quantity of the battery to be charged, and the first expected electric quantity is a target electric quantity which is expected by a user to be charged by charging the battery to be charged. The first expected amount of electricity may be a specific amount of electricity or may be a percentage of the full amount of electricity.

S200: and charging the battery to be charged after detecting the charging readiness.

Specifically, whether the charging is ready or not may specifically be to detect each detection index, for example, whether a to-be-charged battery placed in the charging cabinet by a user can be detected, whether the placement of the to-be-charged battery meets a specification, whether the specification of the to-be-charged battery meets the specification, and the like. And if all the detection indexes are qualified, judging that the charging is ready, and starting to charge the battery to be charged.

S300: and monitoring the charging electric quantity of the battery to be charged.

Specifically, the charging cabinet can monitor the real-time charging capacity of the battery to be charged in real time, and can also monitor the charging capacity of the battery to be charged at regular time.

S400: and sending a charging state message to the user through a contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the first expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged.

Specifically, the charging capacity of the battery to be charged is continuously changed in the charging process, a preset rule is preset before charging, and the charging cabinet sends a charging state message to the terminal of the user according to the preset rule when the charging capacity reaches a certain proportion of a first expected capacity or differs from the first expected capacity by a certain capacity difference value.

For example, a charge status message is sent to the user's terminal when the charge level reaches 90% of the first desired charge level. At this time, the current charging capacity of the battery to be charged, i.e. 90% of the first expected capacity, is carried in the charging status message.

For another example, when the rechargeable battery is different from the first expected electric quantity by a certain electric quantity difference value, a charging state message is sent to the terminal of the user. At this time, the charging state message carries the current charging capacity of the battery to be charged.

The charging is carried out according to the electric quantity value selected by the user, so that different charging requirements of the user can be met, convenience is provided for the user in the time driving process, the user can quantitatively know the electric quantity after the charging is finished, and the situation that the electric quantity is still insufficient due to the estimated deviation of the electric quantity after the charging of the user is reduced.

And the user can return to the charging cabinet to get electricity after receiving the charging state message through the terminal. In the charging process, the user does not need to watch on the charging progress beside the charging cabinet all the time, but the charging progress condition is automatically acquired after the user arrives at the expected charging electric quantity or approaches the expected charging electric quantity, and great convenience is brought to the user.

By using the notification mode, a user can be made to concentrate on doing his own things during charging, the charging condition is not required to be checked at intervals when the user stays nearby, and the user only needs to take the battery away before receiving the short message notification. And the user can set the first expected electric quantity at will, and can get electricity without fully charging, so that the method has great flexibility for users with short time, and relieves the time pressure of the users with short time.

In one embodiment, the charging request also carries the battery model of the battery to be charged;

step S200 specifically includes the following steps:

Specifically, the charging cabinet comprises at least one charging bin, each charging bin can only charge one battery at the same time, and therefore, the charging cabinet can allocate an empty and unoccupied charging bin for the battery to be charged according to the model of the battery to be charged and the current occupation condition (availability) of all the charging bins.

Because the control device needs to manage all the charging bins simultaneously, the charging bin numbers of the charging bins, the first expected electric quantity and the contact ways of the users are bound, the control device can judge whether to send the charging state information to the corresponding users or not when the charging electric quantity of the batteries to be charged in the charging bin with any charging bin number is acquired, and when the charging state information needs to be sent, the correct contact ways of the users are found, so that the charging state information is sent to the terminals of the users.

The control device can control the door of the charging bin to be opened so that the user can place the battery to be charged into the charging bin. The charging bin can detect the placed battery to be charged, for example, whether the specification of the battery to be charged is met, whether the placed position is correct, and other detection indexes, more specifically, whether each electrode of the battery to be charged corresponds to each interface of the charging bin, and sends the detection result to the control device. And when the control device obtains the detection result that each detection index is qualified, controlling the charging bin to start charging the battery to be charged placed in the charging bin.

The charging step of the present application is described below with an embodiment:

s29, the charging cabinet receives the charging requirement sent by the terminal, and the step S30 is entered;

s30, the terminal sends the mobile phone number input by the user to a main control board, namely a control device, of the charging cabinet, the board stores the mobile phone number in a storage module, and the step S31 is carried out;

s31, the terminal sends the first expected electric quantity set by the user to the main control board, the board card stores the first expected electric quantity in the storage module, and the step S32 is carried out;

s32, the main control board inquires whether there is empty bin in the charging cabinet to let the user put the battery to be charged, if yes, the step S33 is executed;

s33, the user puts the battery to be charged into the empty bin and closes the bin door, and the step S34 is carried out;

s34, the main control board sends an instruction to the battery to check whether the identity of the battery is qualified, and the step S35 is entered;

s35, the battery identity authentication is passed, the battery is charged, and the main control board sends the first expected electric quantity set by the user to the charging bin; storing the board card, and entering step S36;

s36, the charging bin monitors the electric quantity by the board card while charging the battery, and when the electric quantity reaches 90% of the first expected electric quantity set by the user, the step S37 is executed;

s37, when the battery is charged to 90% expected by the user, the charging cabinet sends a short message to inform the user that the charging is about to be completed, and the step S38 is entered;

s38, the charging bin continues to charge the battery and monitor the electric quantity, and when the electric quantity reaches the electric quantity value set by the user, the step S39 is executed;

s39, the charging cabinet notifies the user of the completion of charging through short messages, and the user can take back the battery, and the step S40 is entered;

and S40, the battery is charged to the first expected electric quantity of the user, and the charging is stopped. Wherein, steps S29-S40 are not shown in the figure.

The method has the advantages that the battery is not fully charged all at once when charging is carried out, users can select the first expected electric quantity to be charged before charging, then charging is carried out by taking the first expected electric quantity as a final target, the charging mode enables charging to be more flexible, and the method not only can meet charging requirements of the users in driving time or users with abundant time, but also can enable the users to know the electric quantity of the charged battery more clearly, can judge whether the electric quantity is enough after charging or not more accurately, and improves user experience.

In the process of executing charging, the charging cabinet can also require a user to input a mobile phone number and store the mobile phone number, the electric quantity of the battery is monitored at regular time during charging, when the electric quantity is charged to 90% of a first expected electric quantity set by the user, the user can be informed of about completing charging according to the mobile phone number input by the user before charging, the user can move to the charging cabinet at the moment, the charging of the battery can be completed when the user arrives, the user does not need to wait again, and the time of reaching the road delay is saved for the user. When the battery is charged to the first expected electric quantity set by the user, the short message is sent again to inform the user that the charging is completed for 1 time, and the user can take back the battery to use. The charging bin replaces the situation that a user monitors the charging electric quantity, so that the user can be thoroughly liberated, the user can be attentively done during charging, the user is informed in advance when the charging is finished by 90%, the time spent by the user on the road can be saved, and the effect of saving time is brought to the full beauty.

In one embodiment, step S300 specifically includes the following steps:

Specifically, the charging bin monitors the charging electric quantity of the battery to be charged in real time and returns the charging electric quantity to the control device in real time. Of course, the charging bin may monitor the charging amount of the battery to be charged at regular time and return the monitored charging amount to the control device at regular time.

In one embodiment, step S400 specifically includes the following steps:

Specifically, the first preset electric quantity difference value is a difference value obtained by subtracting the charging electric quantity from the first expected electric quantity, and is greater than or equal to 0, and the first preset proportion is a proportion between 0% and 100%, and can be set at will according to actual conditions.

The contact information of the user can be a mobile phone number, a mailbox, user account information and the like. The charging cabinet can send a charging state message to a user in a short message mode through a mobile phone number. The charge status message may also be sent to the user by mail through a mailbox. If the user enters the charging operation interface through the charging application program or the APP of the terminal, the charging cabinet can send a charging state message to the user according to the user account information of the user in the charging application program or the APP. The charging request carries user account information.

When the battery is charged to the first preset proportion of the selected first expected electric quantity, the user is informed to start in advance, so that much time can be saved for the user who is away from time.

In one embodiment, step S400 specifically includes the following steps:

or the like, or, alternatively,

Specifically, it is a process in which the amount of charge of the battery to be charged slowly increases from the initial amount of charge at the time of the initial charge to the first desired amount of charge. Therefore, the corresponding charging state information can be sent to the user once every time a charging stage is reached in the process of charging the battery to be charged, so that the user can temporarily determine whether to take out the battery or not at any time according to the newly acquired charging state information when emergency needs to be processed, and emergency delay is avoided.

In the embodiment, the process from the beginning of charging to the reaching of the first expected electric quantity is divided into a plurality of charging stages, and each charging stage is preset with a preset electric quantity difference value or a second preset proportion.

For example, starting from the initial charge level, in the first charging phase, when the charge level of the battery to be charged differs from the first expected charge level by a first value, a first time charging status message is sent to the user, and the first time charging status message includes the charged charge level of the battery to be charged in the first charging phase.

And in the second charging stage, when the charging electric quantity of the battery to be charged is different from the first expected electric quantity by a second value, sending a second charging state message to the user, wherein the second charging state message comprises the charged charging electric quantity of the battery to be charged in the second charging stage.

In a third charging phase, when the charging capacity of the battery to be charged is different from the first expected capacity by a third value, a third charging state message is sent to the user, wherein the third charging state message contains the charged charging capacity of the battery to be charged in the third charging phase.

The above example merely lists the division into 3 charging phases, and how many charging phases are specifically set according to the actual situation. The first numerical value, the second numerical value and the third numerical value are the difference value of the first expected electric quantity minus the charging electric quantity reached in the corresponding charging stage. The first numerical value, the second numerical value and the third numerical value are sequentially decreased in a descending manner and are different preset electric quantity difference values.

The determination of when to send the charge status message to the user may also be based on the charge ratio. For example, starting from an initial charge level, in a first charging phase, when the charge level of the battery to be charged is a first proportion of a first desired charge level, a first time charging status message is sent to the user, wherein the first time charging status message includes the charged charge level of the battery to be charged in the first charging phase.

And in the second charging stage, when the charging capacity of the battery to be charged is a second proportion of the first expected capacity, sending a second charging state message to the user, wherein the second charging state message comprises the charged charging capacity of the battery to be charged in the second charging stage.

And in the third charging stage, when the charging capacity of the battery to be charged is a third proportion of the first expected capacity, sending a third charging state message to the user, wherein the third charging state message contains the charged charging capacity of the battery to be charged in the third charging stage.

The above example merely lists the division into 3 charging phases, and how many charging phases are specifically set according to the actual situation. The first proportion, the second proportion and the third proportion are different preset proportions and are sequentially increased in number.

In one embodiment, the method further comprises:

Specifically, when the user needs to take the battery away, the user needs to log in the charging operation interface again in a two-dimensional code scanning mode or a client login mode. The charging operation interface is provided with a charging option and a power taking option, when a user wants to take the battery away, the power taking option can be selected through the charging operation interface, and the contact way is provided again to generate a power taking request, wherein the power taking request carries a power taking instruction and the contact way to be verified provided by the user. The charging cabinet extracts the contact way to be verified in the power taking request, compares the contact way to be verified with the contact way in the charging request of the user, and if the contact way to be verified is consistent with the contact way in the charging request of the user, the contact way to be verified is the same user, and if the contact way to be verified is inconsistent with the contact way in the charging request of the user, the contact way to be verified is not the same user, and illegal power taking may exist. And if the contact way to be verified is consistent with the contact way in the charging request, the control device of the charging cabinet controls the bin door of the charging bin to be opened so that the user can conveniently execute the power taking operation. The contact way such as the mobile phone number is used for identity verification, so that the problems of fake collar, wrong taking and the like of the battery can be effectively prevented, and the property safety of the user is guaranteed.

In one embodiment, the method further comprises:

Specifically, when the user needs to take the battery away, the user needs to log in the charging operation interface again in a two-dimensional code scanning mode or a client login mode. The charging operation interface is provided with a charging option and a power taking option, when a user wants to take the battery away, the power taking option can be selected through the charging operation interface, and the contact way is provided again to generate a power taking request, wherein the power taking request carries a power taking instruction and the contact way to be verified provided by the user. The charging cabinet extracts the contact way to be verified in the power taking request, compares the contact way to be verified with the contact way in the charging request of the user, and if the contact way to be verified is consistent with the contact way in the charging request of the user, the contact way to be verified is the same user, and if the contact way to be verified is inconsistent with the contact way in the charging request of the user, the contact way to be verified is not the same user, and illegal power taking may exist.

And if the contact way to be verified is consistent with the contact way in the charging request, popping up an inquiry bullet box on a visual interface, wherein the visual interface is a charging operation interface. The inquiry bullet frame is used for inquiring whether to continue charging or not for the user, and two selection buttons are arranged on the inquiry bullet frame: "continuously charging" and "directly getting electricity".

When the user selects the button of 'continue charging', the user is switched to an electric quantity selection interface, the user can select a second expected electric quantity from a plurality of default electric quantity options on the electric quantity selection interface, the second expected electric quantity can also be input in an input mode, after the second expected electric quantity is determined, feedback information needing to continue charging is generated, and the charging cabinet charges the battery to be charged again according to the feedback information needing to continue charging. Certainly, in the recharging process, the charging cabinet can also monitor the charging electric quantity of the battery to be charged; and sending a charging state message to the user through the contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the second expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged.

When the user selects the button of 'direct power taking', generating feedback information which does not need to be charged continuously, and controlling the door of the charging bin to be opened by the charging cabinet according to the feedback information which does not need to be charged continuously so as to facilitate the user to directly take the charged battery away and finish the charging.

The control device of the charging cabinet controls the bin door of the charging bin to be opened so that a user can conveniently execute power taking operation. The contact way such as the mobile phone number is used for identity verification, so that the problems of fake collar, wrong taking and the like of the battery can be effectively prevented, and the property safety of the user is guaranteed.

Reminding the user to confirm whether to continue charging when the operation is powered on, if the user still wants to continue charging, only needing to select the electric quantity value to be charged again, and the user does not need to carry out charging operation from the head, thereby bringing great convenience to the user and having high charging flexibility.

The operation process of electricity taking is described in the following specific embodiment:

s41, receiving the demand of battery retrieving from the user, proceeding to step S42;

s42, the user inputs the mobile phone number to carry out identity authentication, and the step S43 is entered;

s43, the charging cabinet checks whether the mobile phone number input by the user when getting electricity exists in the currently stored numbers, and the step S44 is entered;

s44, if the mobile phone number input by the user when getting electricity exists, the user passes the identity authentication, the charging cabinet confirms to the user whether to continue charging, and the step S46 is entered;

s45, if the mobile phone number input by the user does not exist when getting electricity, the user identity authentication fails, and the operation is finished;

s46, the user wants to continue charging, selects the second expected electric quantity of the current charging again, and goes to step S48;

s47, the user does not intend to continue charging, the charging cabinet opens the battery compartment door to allow the user to take back the battery, and the process goes to step S49;

s48, the charging cabinet starts to charge the battery again according to the second expected electric quantity newly selected by the user;

s49, the user retrieves the battery, the charging order is over, and the charging cabinet will clear the relevant information bound to the order. Wherein, steps S41-S49 are not shown in the figure.

When the user needs to execute 'power taking', the charging cabinet firstly requires the user to input the mobile phone number for identity authentication so as to prevent the battery from being falsely led by other people and cause economic loss of the user, and once the input mobile phone number is not authenticated, the operation is immediately finished without executing any action.

After the user passes through the authentication, it is shown that the battery put into by the user is really arranged in the charging cabinet, at the moment, the cabinet can bounce the frame to confirm whether the charging is needed to be continued or not for the user, if the user feels that the previously charged electric quantity is still insufficient, the second expected electric quantity charged at this time can be directly selected, the charging cabinet can continue to charge the battery, the user does not need to repeat the head scanning code and put the order for charging, and the use of the user is more convenient. If the user feels that the electric quantity is enough, the user does not need to continue charging, and the cabinet opens the battery compartment where the battery is located, so that the user can take back the battery for use.

In one embodiment, the method further comprises:

Specifically, if the contact way to be verified is inconsistent with the contact way in the charging request, the contact way input by the user when getting electricity may be incorrect, the user can be timely reminded to correct the contact way by reporting an error, the user is helped to solve the problem as soon as possible, the battery is taken out smoothly, and meanwhile the property safety of the user is protected.

In one embodiment, the contact means is a mobile phone number;

in step S400, the sending of the charge status message to the user through the contact information of the user includes:

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.

The working principle of the present application is described below by a specific example, and specifically referring to fig. 4:

s5, the user scans the code and enters the charging operation interface, and selects to execute S6 or S7;

s6, the user selects charging, and the process proceeds to step S8;

s7, the user selects the electricity to fetch the battery, and the step S9 is entered;

s8, the user inputs the mobile phone number to provide the mobile phone number for the charging cabinet, the short message reminding after the battery is charged and the identity verification when the user gets the electricity are carried out, and the step S10 is carried out;

s9, the user inputs the mobile phone number to carry out identity verification, whether the mobile phone number provided when the user gets electricity is the same as the mobile phone number input when the user charges in the step S8 is compared, whether the battery of the user exists in the charging cabinet is judged, and whether the user enters the step S11 or the step S12 is determined according to the verification result;

s10, the user sets the target electric quantity charged this time, i.e. the first expected electric quantity, and the process goes to step S13;

s11, if the mobile phone number stored in the charging cabinet does not have the mobile phone number input by the user when getting electricity, the charging cabinet does not have the battery of the user, and the step S14 is executed;

s12, if the mobile phone number stored in the charging cabinet contains the mobile phone number input by the user when getting electricity, the user identity authentication is successful, the battery of the user can be taken away from the cabinet, and the step S15 is entered;

s13, allocating 1 empty charging bin for the user battery, opening the empty charging bin, and entering the step S16;

s14, the authentication fails, and the operation is finished;

s15, the user is reminded of whether to continue charging by the aid of the bullet box, and the user can automatically select to enter the step S18 or the step S19 according to actual conditions;

s16, the user puts the battery needing to be charged into the charging chamber within the set time, and the process goes to step S17;

s17, carrying out identity verification on the battery put in by the user, if the battery is qualified, entering the step S23, and if the battery is not qualified, entering the step S20;

s18, the user wants to continue charging the battery, and sets 1 target electric quantity for this time, namely the second expected electric quantity, and then enters step S23;

s19, the user does not intend to continue charging, opens the charging bin to allow the user to take back the battery for use, and the process goes to step S21;

s20, if the battery identity is not qualified, the battery is not charged, the battery compartment in which the battery is placed before is opened, the user can take back the battery, and the step S22 is entered;

s21, the user finishes charging and successfully retrieves the battery, and the list is finished;

s22, the user retrieves the previously loaded battery and proceeds to step S14;

and S23, charging the battery by the battery bin. Proceeding to step S24;

s24, checking whether the battery power reaches 90% of the first expected power set by the user, if so, entering step S25, and if not, entering step S23;

s25, when the current electric quantity of the battery reaches 90% of the first expected electric quantity set by the user, the charging cabinet sends a short message to tell the user that the charging is to be completed, and the step S26 is entered;

s26, checking whether the battery electric quantity reaches the first expected electric quantity set by the user, if so, entering step S27, and if not, entering step S23;

s27, when the current electric quantity of the battery reaches a first expected electric quantity set by the user, the charging cabinet sends a short message to tell the user that the charging is finished, and the step S28 is entered;

s28, this time, the charging is finished, and the user is waited to retrieve the battery.

When the user scans the code and operates the charging cabinet, 2 options of charging and power taking are arranged on the operation interface, the charging is used for users who need to charge the charging cabinet when the battery is insufficient, the power taking is used for users who put the battery into the cabinet for charging, and the users select operation according to own requirements.

For a user needing to be charged, the charging cabinet firstly requires the user to input a mobile phone number and a first expected electric quantity which the user wants to reach during charging, then the first expected electric quantity is stored well, when the battery is charged well, the first expected electric quantity can be sent to inform the user through a short message, and when a subsequent user takes the battery, the identity of the user can be compared and verified so as to prevent the battery from being taken away by other people. In the charging process, the cabinet that charges also can regularly inquire the real-time electric quantity of battery, just send the short message to inform user 1 time when the electric quantity fills 90% of first expected electric quantity, the user can arrange to move about to the cabinet that charges and prepare to get the battery this moment, probably accomplished the charging when reaching the cupboard, saved the time on the way for the user, and can send the short message again and inform the user when the electric quantity fills first expected electric quantity, the user can begin to get the battery this moment.

For a user needing to get electricity, the user needs to input a mobile phone number for identity verification, the fact that the user puts a battery into the cabinet for charging is guaranteed, and then information stored in an order is read to judge the next operation steps. If the number stored in the cabinet does not contain the mobile phone number input by the user, the user is judged not to be qualified for taking the battery, the operation is directly finished, and the property safety of other users is guaranteed. After the user passes through authentication, the cabinet that charges will confirm 1 before opening the warehouse whether need continue to charge to the user, needs then directly set up 1 new target electric quantity value and expect that the electric quantity can continue to charge promptly for the second, need not sweep the sign indicating number again and carry out the flow of charging from scratch again, lets user operation more convenient, if the user need not continue to charge then directly open the door and let the user take back the battery.

This application provides "charge" and "get this 2 operation options of electricity", can let the user operation simpler and more clear, utilizes the cell-phone number to carry out authentication's simultaneously can effectively prevent that the battery is falsely received, wrong problem of taking etc. guarantee user's property safety.

By using the short message notification mode, a user can do his own things with concentration during charging, the charging condition is not required to be checked at intervals when the user stays nearby, and the user only needs to take the battery away before receiving the short message notification. And when the battery is charged to 90% of the selected electric quantity value, the short message is sent to inform the user to start in advance, so that much time can be saved for the user who is in the same time.

The user is reminded to confirm whether to continue charging or not when the operation is powered, if the user still wants to continue charging, the user only needs to select the electric quantity value to be charged again, the charging operation is not needed to be executed from the head, and great convenience is brought to the user.

Fig. 5 is a block diagram of a charging device according to an embodiment of the present disclosure. Referring to fig. 5, the charging device includes:

the first request receiving module 100 is configured to obtain a charging request of a user, where the charging request carries a contact information of the user and a first expected electric quantity of a battery to be charged;

the charging module 200 is used for charging the battery to be charged after detecting that the charging is ready;

the electric quantity monitoring module 300 is used for monitoring the charging electric quantity of the battery to be charged;

the message sending module 400 is configured to send a charging status message to the user through a contact manner of the user according to an electric quantity difference or a ratio between the charging electric quantity of the battery to be charged and the first expected electric quantity, where the charging status message carries a current charging electric quantity of the battery to be charged.

In one embodiment, the charging request also carries the battery model of the battery to be charged.

The charging module 200 specifically includes:

the distribution module is used for distributing corresponding charging bins for the batteries to be charged according to the battery models of the batteries to be charged;

the association module is used for binding the charging bin number of the charging bin, the first expected electric quantity and the contact way of the user;

and the opening module is used for opening a bin door of the charging bin, and charging the battery to be charged through the charging bin after detecting that the battery to be charged is correctly placed in the charging bin.

In one embodiment, the message sending module 400 is specifically configured to: and if the difference between the charging electric quantity of the battery to be charged and the first expected electric quantity is a first preset electric quantity difference value or the charging electric quantity of the battery to be charged reaches a first preset proportion of the first expected electric quantity, sending a charging state message to the user according to the contact way of the user.

In one embodiment, the message sending module 400 specifically includes:

the first message sending module is used for sending a corresponding charging state message to the user once according to the contact way of the user when the electric quantity difference value between the charging electric quantity of the battery to be charged and the first expected electric quantity reaches a second preset electric quantity difference value corresponding to any one charging stage;

or the like, or, alternatively,

and the second message sending module is used for sending a corresponding charging state message to the user once according to the contact way of the user when the ratio of the charging electric quantity of the battery to be charged to the first expected electric quantity reaches a second preset ratio corresponding to any one charging stage.

In one embodiment, the apparatus further comprises:

the second request receiving module is used for receiving a power-taking request of a user, and the power-taking request carries a contact way to be verified;

the verification module is used for verifying whether the contact way to be verified is consistent with the contact way in the charging request;

and the opening module is also used for controlling the door of the charging bin to be opened if the contact way to be verified is consistent with the contact way in the charging request, so that a user can conveniently execute the power taking operation.

In one embodiment, the apparatus further comprises:

the bullet frame management module is used for popping an inquiry bullet frame for judging whether to continue charging or not on a visual interface if the contact way to be verified is consistent with the contact way in the charging request;

the opening module is also used for controlling the door of the charging bin to be opened if feedback information which is selected by a user and does not need to be charged continuously is received, so that the user can conveniently execute the electricity taking operation;

the charging module 200 is further configured to, if feedback information that the user selects and needs to continue charging is received, recharge the battery to be charged again according to a second expected electric quantity carried in the feedback information that the user needs to continue charging; wherein the second expected amount of power is greater than the first expected amount of power.

In one embodiment, the apparatus further comprises:

and the error reporting module is used for displaying error reporting information on a visual interface if the contact way to be verified is inconsistent with the contact way in the charging request.

Wherein the meaning of "first" and "second" in the above modules/units is only to distinguish different modules/units, and is not used to define which module/unit has higher priority or other defining meaning. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or modules is not necessarily limited to those steps or modules explicitly listed, but may include other steps or modules not explicitly listed or inherent to such process, method, article, or apparatus, and such that a division of modules presented in this application is merely a logical division and may be implemented in a practical application in a further manner.

For specific limitations of the charging device, reference may be made to the above limitations of the charging method, which are not described herein again. The modules in the charging apparatus may be implemented in whole or in part by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

Fig. 6 is a block diagram illustrating an internal structure of a computer device according to an embodiment of the present application. The computer device may specifically be the charging cabinet in fig. 1 or fig. 2. As shown in fig. 6, the computer apparatus includes a processor, a memory, a network interface, an input device, and a display screen connected through a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory includes a storage medium and an internal memory. The storage medium may be a nonvolatile storage medium or a volatile storage medium. The storage medium stores an operating system and may also store computer readable instructions that, when executed by the processor, may cause the processor to implement the charging method. The internal memory provides an environment for the operating system and execution of computer readable instructions in the storage medium. The internal memory may also have computer readable instructions stored thereon that, when executed by the processor, cause the processor to perform a charging method. The network interface of the computer device is used for communicating with an external server through a network connection. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

In one embodiment, a computer device is provided, which includes a memory, a processor, and computer readable instructions (e.g., a computer program) stored on the memory and executable on the processor, and when the processor executes the computer readable instructions, the steps of the charging method in the above embodiments are implemented, for example, steps S100 to S400 shown in fig. 3 and other extensions of the method and related steps. Alternatively, the processor, when executing the computer readable instructions, implements the functions of the modules/units of the charging device in the above embodiments, such as the functions of the modules 100 to 400 shown in fig. 5. To avoid repetition, further description is omitted here.

The Processor may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, the processor being the control center of the computer device and the various interfaces and lines connecting the various parts of the overall computer device.

The memory may be used to store computer readable instructions and/or modules, and the processor may implement various functions of the computer apparatus by executing or executing the computer readable instructions and/or modules stored in the memory and invoking data stored in the memory. The memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required by at least one function (such as a sound playing function, an image playing function, etc.), and the like; the storage data area may store data (such as audio data, video data, etc.) created according to the use of the cellular phone, etc.

The memory may be integrated in the processor or may be provided separately from the processor.

Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer readable storage medium is provided, on which computer readable instructions are stored, which when executed by a processor implement the steps of the charging method in the above embodiments, such as the steps S100 to S400 shown in fig. 3 and extensions of other extensions and related steps of the method. Alternatively, the computer readable instructions, when executed by the processor, implement the functions of the modules/units of the charging device in the above embodiments, such as the functions of the modules 100 to 400 shown in fig. 5. To avoid repetition, further description is omitted here.

It will be understood by those of ordinary skill in the art that all or part of the processes of the methods of the embodiments described above may be implemented by instructing associated hardware to implement computer readable instructions, which may be stored in a computer readable storage medium, and when executed, may include processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), double-rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), synchronous Link (Synchlink) DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and bus dynamic RAM (RDRAM).

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, apparatus, article, or method that includes the element.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments. Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present application may be substantially or partially embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present application.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are included in the scope of the present application.

Claims

1. A method of charging, the method comprising:

the method comprises the steps of obtaining a charging request of a user, wherein the charging request carries a contact way of the user and a first expected electric quantity of a battery to be charged;

charging the battery to be charged after detecting that the charging is ready;

monitoring the charging electric quantity of the battery to be charged;

and sending a charging state message to the user through the contact way of the user according to the electric quantity difference value or the ratio of the charging electric quantity of the battery to be charged and the first expected electric quantity, wherein the charging state message carries the current charging electric quantity of the battery to be charged.

2. The method of claim 1, wherein the charging request further carries a battery model of the battery to be charged;

after detecting that the charging is ready, the method for charging the battery to be charged comprises the following steps:

distributing a corresponding charging bin for the battery to be charged according to the battery model of the battery to be charged;

3. The method according to claim 1, wherein the sending a charging status message to the user through the user's contact according to the difference or ratio between the charging capacity of the battery to be charged and the first expected capacity comprises:

and if the difference between the charging electric quantity of the battery to be charged and the first expected electric quantity is a first preset electric quantity difference value, or the charging electric quantity of the battery to be charged reaches a first preset proportion of the first expected electric quantity, sending a charging state message to the user according to the contact way of the user.

4. The method according to claim 1, wherein the sending a charging status message to the user through the user's contact according to the difference or ratio between the charging capacity of the battery to be charged and the first expected capacity comprises:

when the difference value between the charging electric quantity of the battery to be charged and the first expected electric quantity reaches a second preset electric quantity difference value corresponding to any one charging stage, sending a corresponding charging state message to the user once according to the contact way of the user;

or the like, or, alternatively,

5. The method of claim 2, further comprising:

receiving a power-taking request of the user, wherein the power-taking request carries a contact way to be verified;

and if the contact way to be verified is consistent with the contact way in the charging request, controlling a door of the charging bin to be opened so that the user can conveniently execute the power taking operation.

6. The method of claim 2, further comprising:

if the contact way to be verified is consistent with the contact way in the charging request, popping up an inquiry bullet box for judging whether charging needs to be continued on a visual interface;

if feedback information which is selected by the user and does not need to be charged continuously is received, controlling a bin door of the charging bin to be opened so that the user can conveniently execute power taking operation;

if the feedback information which is selected by the user and needs to be continuously charged is received, the battery to be charged is charged again according to a second expected electric quantity carried in the feedback information which needs to be continuously charged;

7. The method of claim 5 or 6, further comprising:

8. A charging device, the device comprising:

9. A computer device comprising a memory, a processor, and computer readable instructions stored on the memory and executable on the processor, wherein the processor when executing the computer readable instructions performs the steps of the method of any one of claims 1-7.

10. A computer readable storage medium having computer readable instructions stored thereon, which, when executed by a processor, cause the processor to perform the steps of the method of any one of claims 1-7.