CN107862769B - Information processing method, electronic device, and computer storage medium - Google Patents

Abstract

The embodiment of the invention discloses an information processing method, electronic equipment and a storage medium. The embodiment of the invention provides an information processing method applied to a mobile power supply which has communication capacity and can provide electric energy for shared equipment, which comprises the following steps: establishing a connection with the sharing device; and sending preset information to the shared equipment by using the connection, wherein the preset information is used for triggering the shared equipment to execute unlocking operation.

Description

Information processing method, electronic device, and computer storage medium

Technical Field

The present invention relates to the field of information technologies, and in particular, to an information processing method, an electronic device, and a computer storage medium.

Background

Many sharing devices are available on the market, such as sharing a bicycle, sharing a power bank, sharing a car, sharing an umbrella, and the like. Due to the security of the shared devices, the shared devices are provided with anti-theft devices, and users need to perform unlocking and other processes when using the shared devices.

In the prior art, a user usually holds a mobile phone to perform information interaction to a device on a network side, obtains an unlocking password of a shared device, and then sends an unlocking instruction to the shared device by a server on the network side. Or the unlocking password is sent to the mobile phone of the user, and the shared device is unlocked after the user inputs the unlocking password to the shared device. Obviously this kind of needs the manual unblanking of user leads to unblanking complex operation, and user experience is poor.

Some of the shared devices need to be powered and the power supply of these shared devices is fixedly installed on the shared devices. The power is supplied to the sharing device at regular time by the operator of the sharing device, but the power of the sharing device may not be used by the user after being fully charged, and the power in the sharing device is consumed by the natural discharge of the battery, resulting in the waste of electric energy. In some cases, the shared device is not charged by the operator in time, which results in the power source being in an under-powered state all the time, and the under-powered state has a very negative effect on the service life of the power source.

In the above situation, the power supply is in a failure state for various reasons, so that when the user needs to use the shared device, the user cannot use the shared device due to the failure of the battery, and the use satisfaction of the user is low.

Disclosure of Invention

In view of the above, embodiments of the present invention are directed to an information processing method, an electronic device, and a storage medium, which at least partially solve the above problems.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

in a first aspect, an embodiment of the present invention provides an information processing method applied to a mobile power supply that has a communication capability and is capable of providing electric energy to a shared device, including:

establishing a connection with the sharing device;

and sending preset information to the shared equipment by using the connection, wherein the preset information is used for triggering the shared equipment to execute unlocking operation.

In a second aspect, an embodiment of the present invention provides an information processing method, applied to a sharing device, including:

establishing a connection with a mobile power source capable of providing power to the sharing device;

receiving preset information from the sharing device based on the connection;

and executing unlocking operation according to the preset information.

In a third aspect, an embodiment of the present invention provides an electronic device, where the electronic device is a mobile power supply, and the electronic device includes:

a first processing module;

the first communication module is connected with the first processing module and used for establishing connection with shared equipment and sending preset information to the shared equipment through the connection, wherein the preset information is used for the shared equipment to execute unlocking operation;

the battery module is used for storing electric energy;

the first charging interface is connected with the battery module and used for charging the battery module;

a first power interface capable of providing power to the shared device.

In a fourth aspect, an embodiment of the present invention provides an electronic device, where the electronic device is a sharing device, and the electronic device includes:

the fourth communication module is used for establishing connection with the mobile power supply and receiving preset information sent by the mobile power supply through the connection;

the second charging interface is used for being connected with the first power supply interface of the mobile power supply and receiving power supply of the mobile power supply;

and the lock module is used for executing unlocking operation based on the preset information.

In a fifth aspect, an embodiment of the present invention provides a computer storage medium, where a computer program is stored in the computer storage medium; after being executed, the computer program can realize the information processing method provided by one or more technical schemes.

The embodiment of the invention provides an information processing method, electronic equipment and a storage medium.

First, the sharing device can be powered by the mobile power supply, and the user can hold the mobile power supply to supply power to the sharing device and use the sharing device, so that the user can participate in power supply maintenance of the sharing device, the problems that in the existing sharing device, power supply can be supplied only by the power supply carried by the sharing device, and therefore the difficulty of power supply maintenance of an operator is high and the maintenance cost is high are solved, and maintenance of the power supply of the sharing device is simplified.

Secondly, the unlocking operation of the shared device can be performed through the information interaction between the mobile power supply and the shared device, and the shared device is not necessarily unlocked through the information interaction between a user holding a mobile phone and a server on the network side or the shared device, so that the unlocking of the shared device is simplified, the unlocking of the user using the shared device is at least simplified, and the user experience is improved.

Drawings

Fig. 1 is a schematic flowchart of a first information processing method according to an embodiment of the present invention;

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

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

FIG. 4 is a flowchart illustrating a fourth information processing method according to an embodiment of the present invention;

fig. 5 is a flowchart illustrating a fifth information processing method according to an embodiment of the present invention;

fig. 6 is a flowchart illustrating a sixth information processing method according to an embodiment of the present invention;

fig. 7 is a flowchart illustrating an eighth information processing method according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a mobile power supply according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of another mobile power supply according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a sharing device according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of another mobile power supply according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of another sharing device according to an embodiment of the present invention;

fig. 13 is a schematic structural diagram of a server according to an embodiment of the present invention;

fig. 14 is a schematic structural diagram of an electronic device according to an embodiment of the present invention;

fig. 15 is a schematic structural diagram of another mobile power supply according to an embodiment of the present invention;

fig. 16 to 19 are schematic structural diagrams of a fixing device for mounting the mobile power source on a shared device according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail with reference to the drawings and the specific embodiments of the specification.

As shown in fig. 1, the present embodiment provides an information processing method applied to a mobile power supply having a communication capability and capable of supplying power to a shared device, including:

step S110: establishing connection with a sharing device;

step S120: and sending preset information to the shared equipment by using the connection, wherein the preset information is used for triggering the shared equipment to execute unlocking operation.

The portable power source can be the removal treasured that charges in this embodiment. The mobile power supply is also internally provided with a communication module which can be various communication chips with communication functions,

the sharing device according to the embodiment of the present invention may be: shared bicycles, shared automobiles, shared electric vehicles, shared flat panels, and the like can be placed in public areas and rented by the public. In order to increase the service flexibility of the above-mentioned shared device, the shared device may be an electrical shared device, i.e. may be configured with a power source and an electrodynamic module. Wherein, the power supply is a storage battery which can be charged.

The embodiment of the invention also provides a sharing device which is provided with a socket for the mobile power supply to be inserted into, and a charging interface and/or a communication module which are connected with the mobile power supply are/is arranged in the socket, so that the charging connection and the communication connection between the sharing device and the mobile power supply can be conveniently established, and data interaction can be carried out.

In this embodiment, the mobile power source may establish a connection with the sharing device, where the connection may include: a charging connection and/or a data connection. The charging connection is used for charging the sharing equipment by a mobile power supply; the data connection is used for data interaction between the mobile power supply and the sharing device, for example, sending the preset information.

The preset information is various, and the following provides several optional modes:

the first alternative is as follows:

the mobile power supply sends an unlocking instruction to the shared equipment; namely the preset information comprises the unlocking instruction;

and after receiving the unlocking instruction, the shared device is directly unlocked, so that the shared device is switched from the use prohibition state to the use state. For example, if the shared device is a shared electric vehicle or a shared automobile, the lock of the shared electric vehicle is unlocked by unlocking the lock, so that the shared electric vehicle or the shared automobile can be used.

For example, in some embodiments,

the second option is:

the mobile power supply sends the equipment identification of the mobile power supply to shared equipment;

and after the shared equipment receives the equipment identification, if the received equipment identification is determined to be a legal equipment identification, the shared equipment is automatically unlocked. In this way, the sharing device is required to store a legal device identifier of the mobile power supply in advance, and whether the received device identifier is a legal device identifier is determined through matching of the device identifiers. Or after receiving the equipment identifier, the sharing equipment submits the equipment identifier to the server, the server completes the matching of the equipment identifier, the sharing equipment receives the matching result from the server, and the lock is automatically unlocked according to the received matching result.

The optional mode three:

the mobile power supply sends the user account bound with the mobile power supply to the sharing equipment;

and the sharing equipment executes unlocking operation when determining that the received user account is a legal user account. The matching of the user account here may include matching with a locally stored legal user account, or sending the received user account to a server, and the server completes matching and issues a matching result.

The optional mode four:

the mobile power supply sends the own equipment identification and the user account bound with the equipment identification to the sharing equipment;

and the sharing equipment executes automatic unlocking operation when determining that the received equipment identification is a legal equipment identification and the received user account is a legal user account.

The legitimate device identification here may be: the device identification of the mobile power supply which is registered to the server or the device identification of the mobile power supply which is remarked to be in use in the server.

The legal user account here may be: an account already registered with the server, a non-defaulting account, a user account not in a penalty period for prohibited use, etc. is in a usable state.

In this way, the information processing method provided by this embodiment has the following features:

on the first hand, the user can directly connect the mobile power supply to the shared equipment, the shared equipment can automatically unlock, the user does not need to unlock through scanning and other modes through user equipment such as a mobile phone, and unlocking of the shared equipment is simplified.

In the second aspect, the mobile power supply can provide electric energy for the sharing equipment, and the sharing equipment can be used even if the power supply of the sharing equipment is in short power, so that the problem that a user unlocks the sharing equipment and cannot use the sharing equipment due to the fact that the power supply is in short power is avoided, and user experience is improved.

In a third aspect, since the portable power source may be held by a user, the user may participate in charging the power source, thereby reducing the power source maintenance cost of the dedicated shared device.

In some embodiments, the method further comprises:

determining whether the mobile power supply is bound with a user account;

the step S120 may include:

and if the mobile power supply and the user account are bound, sending the preset information to the sharing equipment.

For example, some mobile power sources are put into use for the first time, and thus, the mobile power sources may not have time to establish a binding relationship with the user account, so in this embodiment, the method further includes: whether the mobile power supply has a binding relationship with the user account is determined, and the following ways are adopted for determining whether the binding relationship is established:

the first method comprises the following steps:

inquiring whether a written user account exists in a preset storage area, if so, indicating that a binding relationship is established, and the binding relationship is between the user account and the user account written in the preset storage area;

and the second method comprises the following steps:

inquiring a flag bit established by the binding relationship; if the value of the zone bit is the initial first value, the binding relationship is not established, and if the value of the zone bit is the second value, the binding relationship is established.

The above two optional ways of determining whether the mobile power supply has the binding relationship with the user account are used, but in the specific implementation, the method is not limited to any one of the above.

The step S120 may include:

and if the mobile power supply and the user account are bound, sending the preset information to the sharing equipment.

Therefore, in step S120, the preset information triggering the unlocking of the shared device is sent to the shared device only when the mobile power supply has the bound user account, so that it is only known which user is currently using the shared device.

In other embodiments, the method further comprises: and if the mobile power supply does not establish the binding relationship with the user account, temporarily delaying the sending of the preset information so as to avoid unreasonable use of the sharing equipment by an illegal user.

In some embodiments, the method further comprises:

and if the mobile power supply does not establish the binding relationship with the user account, outputting a binding establishment prompt.

For example, the mobile power supply is configured with an indicator light, and the mobile power supply can inform the user of the current mobile power supply unbound user account through the indicator light so as to prompt the user of bound user account.

For another example, a display screen is arranged on the mobile power supply, and the display screen can display an account binding prompt to prompt a user to bind a user account.

In other embodiments, the method further comprises:

and if the binding relationship between the mobile power supply and the user account is not established, the binding relationship between the mobile power supply and the user account is established through information interaction with user equipment.

In this embodiment, the mobile power supply is configured with a communication module capable of performing information interaction with a user equipment such as a mobile phone.

The user equipment may include: devices held by users, such as mobile phones, tablet computers, wearable devices, and the like.

In this embodiment, the mobile power source may establish a binding relationship through information interaction with the user equipment. Two realizable ways of establishing a binding relationship are provided below:

the implementation mode is as follows:

receiving a user account sent by the user equipment;

sending a binding request carrying the user account and the equipment identifier of the mobile power supply to a server;

receiving feedback information returned by the server based on the binding request;

and establishing the binding relationship based on the feedback information, the user account and the equipment identifier.

For example, the user device and the mobile power source may interact with the user account and/or device identification via bluetooth or Near Field Communication (NFC). For example, a user triggers an account binding function in a user interface such as a mobile phone, and a user device receives a user account input by the user or reads a user account stored by the user device, and then sends the user account to the mobile power supply through bluetooth or NFC, so that the mobile power supply can receive the user account.

After receiving the user account, the mobile power source obtains a device identifier of the mobile power source and the user account, where the device identifier is required to establish a binding relationship, and the device identifier may be: the international mobile telephone equipment identity (IMEI) of the mobile power supply, the user account may be a registration identifier allocated by a server of the shared device, or may be a registration identifier for which the user applies for registration in the server, for example, a wechat account or a mailbox account is used by the user for applying for registration of the user account, the wechat account or the mailbox account may be referred to as information pointing to the registration identifier, here, the registration identifier and other identification information for applying for the registration identifier may be referred to as account information of the user account, which may be referred to as the user account in the embodiment of the present invention.

After receiving the user account, the mobile power supply carries the user account and the equipment identifier in a binding request and sends the binding request to the server; and after receiving the binding request, the server gives corresponding feedback information. The feedback information can be divided into two types, one is an agreement binding and the other is an objection binding.

In this embodiment, after receiving the feedback information, the mobile power source locally establishes the binding relationship according to the feedback information, for example, stores the user account, and/or sets a binding flag.

Specifically, the establishing of the binding relationship based on the feedback information, the user account, and the device identifier includes at least one of the following:

if the feedback information is first feedback indicating that binding is agreed, establishing a binding relationship between the mobile power supply and the user account;

and if the feedback information is second feedback indicating that the binding is objected to, outputting a binding failure prompt or sending the binding failure prompt to the user equipment.

For example, the server needs to determine whether the currently received device identifier and/or the user identifier is legal, and may agree to establish the binding relationship only if the currently received device identifier and/or the currently received user identifier passes validity verification, or may not agree to establish the binding relationship.

For another example, some mobile power sources are not put into use for the first time, but a fault occurs to the mobile power source, and a user account with which a binding relationship is originally established has already released the binding relationship, so in some embodiments, the server further determines whether the mobile power source is normal according to the device identifier, and issues the first feedback if the binding is allowed to be normal, or issues the second feedback otherwise.

In some embodiments, the method may further comprise:

and after the mobile power supply establishes a binding relationship locally, sending binding completion information to the server and/or the user equipment.

In this way, the server and/or the user equipment may receive the binding completion information and determine the current binding establishment condition.

The second implementation mode:

the device identifier of the mobile power supply is used for the user equipment to send an application for establishing a binding relationship to a server; if the mobile power supply is not in the binding relationship with the user account, the binding relationship with the mobile power supply and the user account is established through information interaction with user equipment, and the method comprises the following steps:

receiving feedback information sent by the server based on the application for establishing the binding relationship;

and when the feedback information carries a binding instruction, establishing a binding relationship with a user account in the mobile power supply.

The mobile power supply may send its own device identification to the user equipment. In some embodiments, a tag of the device identifier is recorded or attached to a surface of the mobile power source, or a two-dimensional code or the like is attached or recorded to the surface of the mobile power source, and the tag can be converted into information of the device identifier, so that a user can manually input the device identifier of the mobile power source to the user equipment, and the user equipment can also obtain the device identifier of the mobile power source in a form of scanning the tag, without being limited to sending the device identifier to the user equipment by the mobile power source.

In the method, the party applying for establishing the binding relationship is the user equipment, and after the user equipment obtains the equipment identifier of the mobile power supply, the user equipment sends a binding request carrying the user account and the equipment identifier to the server.

The server will determine whether binding is allowed according to the same manner as the first alternative; and if the binding is allowed, sending feedback information to the mobile power supply according to the equipment identifier. If the feedback information is first feedback indicating that the user account is a legal user account, establishing a binding relationship between the mobile power supply and the user account; and if the feedback information is second feedback indicating that the user account is an illegal user account, outputting a binding failure prompt or sending a binding failure prompt to the user equipment.

In this embodiment, the first feedback may be an indication of agreement with binding, and the second feedback may be an indication of opposition to binding.

For example, in some cases, the binding completion information directly sent by the mobile power supply to the user equipment may also carry an equipment identifier of the mobile power supply, so that the user can conveniently check the mobile power supply bound to the account thereof. The binding completion information sent by the mobile power supply to the server does not carry the identification information of the mobile power supply, but only needs one binding completion flag bit.

For another example, the mobile power source may not send the binding completion information to the user equipment, but the server issues the binding completion information to the user equipment.

In some embodiments, the method further comprises:

determining whether the mobile power supply meets an unbinding condition;

and when the mobile power supply meets the unbinding condition, releasing the binding relationship between the mobile power supply and the user account.

The mobile power supply can judge whether the mobile power supply meets the unbinding condition, and if the mobile power supply meets the unbinding condition, the mobile power supply can release the binding relationship with the corresponding user account, for example, the user account stored in the mobile power supply is deleted, and the binding flag bit is reset, for example.

In some embodiments, the determining whether the mobile power source meets the unbinding condition includes at least one of:

when the shared device stops using and the mobile power supply is left on the shared device, determining that the mobile power supply meets a first unbinding condition;

when the mobile power supply receives a unbinding instruction, determining that the mobile power supply meets a second unbinding condition.

In this embodiment, the first unbinding condition may be an automatic unbinding condition, and the second unbinding condition may be a manual unbinding condition of the user.

The automatic unbinding scheme for satisfying the first unlocking condition may be as follows:

if the shared device has been taken out of service but the mobile power source is left on the shared device, indicating that the user may not be using the mobile power source, then the automatic unbundling condition of the mobile power source may be considered to be satisfied. For example, it is determined that the mobile power source has not been detached from the shared device within a preset time after the shared device has been stopped from being used, and it may be considered that the first unbinding condition is satisfied.

There are several ways to determine that the shared device has stopped being used, and several alternatives are provided below:

the first alternative is as follows: when locking information sent by the sharing equipment is received, determining that the sharing equipment is stopped to be used; for example, if the user manually locks the sharing device or controls the sharing device to automatically lock through the instruction transmission of the user device, and the sharing device detects that the sharing device is locked, the sharing device transmits locking information to the mobile power source to indicate that the sharing device is switched from the unlocked state to the unlocked state. And once the shared device is locked, the shared device is unavailable, which obviously indicates that the shared device is out of use.

The second option is: and when a payment instruction sent by the server is received, determining that the sharing equipment is stopped to be used. For example, after the user stops using the sharing device, the user device such as a mobile phone and the like is used for sending a payment instruction for using the sharing device, the payment instruction is sent to the server, and the server receives the payment instruction and then forwards the payment instruction to the mobile power supply, so that on one hand, the mobile power supply is triggered to execute payment based on a self charging result, and payment settlement is completed through interaction with the server; on the other hand the payment instruction also indicates that the sharing device has stopped being used.

The optional mode three: and when a payment instruction sent by the user equipment is received, determining that the sharing equipment is stopped to be used.

In some embodiments, the user equipment may directly interact with the mobile power source, so that the mobile power source receives a payment instruction sent by the user equipment and also indicates that the sharing equipment is stopped being used.

The optional mode four: when the mobile power supply detects a payment instruction acting on the mobile power supply, the shared device is determined to be out of use. In some cases, the mobile power source may also be provided with a key or a touch screen, and may also be configured to receive a payment instruction input by a user, and in this case, if the mobile power source receives the payment instruction, it also indicates that the shared device is finished being used.

How to determine that the mobile power source is left on the shared device, several options are provided as follows:

the first alternative is as follows:

determining whether the mobile power source is left on the sharing device in conjunction with the connection connectivity after determining that the sharing device is out of service. Because the mobile power supply is installed on the shared device, when the shared device is unlocked and/or a power supply is provided, the mobile power supply is connected with the shared device, if the current connection is still connected, which indicates that the mobile power supply is not separated from the shared device, it is obvious that the mobile power supply is left on the shared device. The detection of the connection connectivity in this embodiment may include: and sending a detection signal, receiving a response signal returned by the opposite terminal based on the detection signal, and considering that the current connection is disconnected if the response signal is not received within a specified time. In some further embodiments, the mobile power source needs to provide power to the shared device, and it may be determined whether the current connection is disconnected by detecting a power supply parameter of the current mobile power source to the shared device, for example, a connection disconnection is obviously indicated when a power supply current is less than a preset current.

The second option is:

after determining that the sharing device stops being used, determining whether the mobile power supply is left on the sharing device or not by combining the sharing device and the positioning information of the mobile power supply.

A positioning module is configured on each of the shared device and the mobile power supply, and the positioning module may include various types of positioning chips, for example, a Global Positioning System (GPS) positioning chip or a base station assisted positioning chip, which may be used to position the mobile power supply and the shared device.

The mobile power source may obtain location information of the sharing device, for example, the location information is received from the user device or issued by the server, or is directly read from the sharing device, and the comparison is performed with the location information of the mobile power source, and if the locations of the mobile power source and the sharing device are close to each other, for example, the locations of the mobile power source and the sharing device are within a preset distance, the mobile power source is considered to be left on the sharing device.

The above only provides two ways of determining that the mobile power source stays in the shared device, and the specific implementation is not limited to any one.

The manual unlocking scheme for satisfying the second unlocking condition may be as follows:

the first scheme is as follows: when a first unbinding instruction acting on the mobile power supply is detected, determining that the mobile power supply meets the unbinding condition. For example, an unlocking key is arranged on the mobile power supply, and a user can trigger the mobile power supply to unlock the currently bound user account by operating the unlocking key. For example, the previous user leaves the mobile power supply on the shared device, if the mobile power supply is not automatically unlocked, and other users need to use the mobile power supply, the password of the currently bound user account needs to be input, and the situation that the mobile power supply cannot be used can easily occur, and at this time, the next user can manually trigger the mobile power supply to unbind the mobile power supply in order to facilitate the use of the next user. Of course, the user can automatically unbind the binding relationship between the user account and the mobile power supply without carrying the mobile power supply.

Scheme II: when a second unbinding instruction sent by user equipment is received, the mobile power supply is determined to meet the unbinding condition. The latter user can interactively send a second unbinding instruction with the mobile power supply through user equipment such as a mobile phone carried by the user and the like, and the second unbinding instruction is unbound with the user account of the former user. In some cases, the unbinding mode can also be used for unbinding the user account of the user and the mobile power supply.

The third scheme is as follows: when a third unbinding instruction sent by the server is received, the mobile power supply is determined to meet the unbinding condition.

In some cases, the user is away from the mobile power source, there is no way to directly operate the mobile power source, or the mobile power source is triggered to unbundle through close range communication of the user device with the mobile power source. The user can send a unbinding request to the server through the user equipment, and then the mobile power supply can receive a third unbinding instruction sent by the server to unbind the binding relationship.

In some embodiments, if the mobile power source completes the unbinding, an unbinding completion message is generated and sent to the user equipment and/or the server,

in some implementations, the user drops the mobile power source on the shared device, but the mobile power source is a private power source held by the user, so that in order to avoid other users from unbinding and causing power loss of the other users, the user can send a keep-bind instruction to the server or the mobile power source through the user device, and automatic unbinding of the mobile power source is avoided. Therefore, in some embodiments, the method further comprises: and shielding the operation of releasing the binding relation triggered by the first unbinding condition when the mobile power supply is determined to meet the first unbinding condition and a binding maintaining instruction sent by user equipment or a server is received.

In some embodiments, a mobile power bound user account may also be substituted. For example, the method further comprises: receiving a binding relation change instruction; and switching the bound user account from the first user account to the second user account according to the binding relation change instruction.

Optionally, the switching the bound user account from the first user account to the second user account according to the binding relationship change instruction includes at least one of the following:

receiving a binding relationship change instruction carrying a second user account issued by a server;

and receiving a binding relationship change instruction which is submitted by the user equipment and carries the second user account.

The binding change instruction may be sent by the user equipment or may be sent by the server. For example, if the user a wants to transfer the mobile power supply bound by the user a to the user B, the mobile power supply may be triggered to replace the binding relationship through the binding relationship change instruction. For example, the user a or the user B sends a binding change application to the server, where the application carries account numbers of the user a and the user B, and in this way, after receiving the application, the server issues a binding relationship change instruction to the mobile power supply to directly change the binding relationship.

In some embodiments, if the user a holds the mobile power supply and the user B wants to use the mobile power supply, the change of the binding relationship is determined by negotiation, and the user equipment of the user a or the user B can directly send a binding relationship change instruction carrying two user accounts to the mobile power supply to trigger the change of the binding relationship of the mobile power supply, so that the user B can conveniently receive the mobile power supply from the user a for use. In this case, the change of the binding relationship may be the timing of notifying the server determined by the mobile power supply according to the current network condition. For example, if the current network condition is good, the changed information of the binding relationship is reported, otherwise, the information can be reported in a delayed manner, and the information can be reported when the network condition is good enough or the information moves to an area with good enough network condition.

As shown in fig. 2, the method further comprises:

step S130: acquiring first state information of the sharing equipment;

step S140: and based on the first state information, carrying out charging operation on the user account number which is in the binding relationship with the mobile power supply.

In this embodiment, the mobile power supply also has a charging function, so that a charging load of the server can be transferred, and the problems of a load and the like caused by charging in the service are avoided.

There are various ways to obtain the first state information, and several alternative ways are provided below:

the first alternative is as follows:

the step S130 may include: and receiving first state information sent by the sharing equipment. For example, a positioning chip, a timing chip, etc. are provided on the sharing device, and the first status information can be obtained by counting the usage time and/or the mileage of the sharing device, so that the mobile power source can read the first status information from the sharing device.

The second option is: when the sharing device is used, the mobile power supply is installed on the sharing device, so that the mobile power supply can detect the first state information of the sharing device according to the detection of the state of the mobile power supply, for example, a positioning chip and/or a timer are arranged on the mobile power supply. Therefore, the step S130 may further include: first state information of the sharing device is detected.

Optionally, the step S130 may include at least one of:

based on the first state information, charging the user account for using the shared device;

when the mobile power supply meets a first preset condition, performing power consumption charging on the user account by using the mobile power supply;

and when the mobile power supply meets a second preset condition, performing power supply charging of the mobile power supply on the user account.

The shared device is used for special use charging, for example, the use charging is carried out according to the use duration of the shared device, the travel mileage of the shared device and the like. If the sharing device is in the power consumption working mode and needs to provide electric energy to work, the power consumption billing is also needed. If the current built-in power supply of the sharing device is low in electric quantity, and the private power supply held by the user supplies power to the built-in power supply of the sharing device, charging stimulation needs to be given to the user, and then power supply charging is carried out.

In some cases, if the shared device is in a free use condition in a specific period, the user account does not need to be charged for use of the shared device based on the first state information.

Optionally, when the mobile power supply meets a first preset condition, performing power consumption charging on the user account by using the mobile power supply includes:

and when the mobile power supply is a shared power supply, performing power consumption charging on the user account by using the mobile power supply.

If the mobile power supply is a shared power supply, the electric quantity in the shared power supply is provided by other users or operators, and if the shared equipment consumes power, the power consumption is required to be charged.

For example, when the mobile power supply is a shared power supply, the charging for the power consumption of the mobile power supply for the user account includes at least one of the following:

if the mobile power supply is the shared power supply and the mobile power supply is left on the shared equipment, carrying out power consumption charging on the user account for using the mobile power supply;

and if the mobile power supply is the shared power supply and the shared equipment is in a power consumption working mode, carrying out power consumption charging on the user account for using the mobile power supply.

If a user may hold a shared power source for a long time, the shared device is used several times by using the shared power source, and the user leaves the shared power source on the shared device during the last use. Although the user may charge the shared power source in the process of holding the shared power source, the electric quantity of the mobile power source may eventually decrease with respect to the first holding of the user, and the user generally consumes power, so that the power consumption billing needs to be performed.

In some cases, the power consumption and charging of the mobile power source are separated, and the power consumption is charged as long as the shared device is determined to be in the power consumption mode and the shared power source provides power.

Here, the determination as to whether the portable power source is left on the shared device is the same as or similar to the determination in the foregoing embodiment, and is not repeated here.

If the portable power source is a power source held by the user and the amount of power in the power source is obviously charged by the user, in the embodiment of the present invention, no power consumption charging is performed, and the user may be encouraged to use the shared device with his own private power source to perform incentive distribution because the user provides power to the shared device. Therefore, in some embodiments, the performing, when the mobile power supply meets a second preset condition, the charging for power supply of the mobile power supply for the user account includes: and when the mobile power supply is a private power supply held by the user, executing charging operation of power supply incentive issuing on the user account.

In some embodiments, the step S130 may include:

detecting a first payment instruction acting on a mobile power supply;

and when a first payment instruction acting on the mobile power supply is detected, carrying out charging operation on the user account based on the first state information.

In some embodiments, an operation control is arranged on the mobile power supply, and a user can directly operate the mobile power supply to trigger payment. Therefore, in this embodiment, if the mobile power supply detects the first payment instruction acting on the mobile power supply, the mobile power supply performs a charging operation.

In some embodiments, the user equipment may interact with the mobile power source, and the user may operate his mobile phone, for example, when a payment is clicked on the payment interface, the user equipment may interact with the mobile power source to notify the mobile power source of completing the charging. Therefore, in some embodiments, the step S130 may include:

receiving a second payment instruction sent by the user equipment;

and when the second payment instruction is received, carrying out charging operation on the user account based on the first state information.

In some embodiments, the user may forget to operate the mobile power source for billing and think that payment is needed after leaving, the user may submit a payment instruction to the server through the user equipment, and the server may issue a payment instruction to the mobile power source for feeding back a billing result after receiving the payment instruction, so the step S130 may include:

receiving a third payment instruction sent by the server;

and when the third payment instruction is received, carrying out charging operation on the user account based on the first state information degree.

It should be noted that, in the embodiment of the present invention, the charging operation is completed by the mobile power supply, the mobile power supply finally needs to submit the charging result to the server, and the server performs fee deduction and/or recharging of the user account and issuing of rewards such as a red packet and the like according to the charging result, so as to complete charging settlement.

In some embodiments, the step S130 may include:

updating the charging result periodically according to the first state information, and sending the last charging result to a server or user equipment when a payment instruction is received; for example, the charging is performed by mileage, and a charging envelope is completed every 1 unit mileage, for example, (1 km), so that when a payment instruction is received, the charging settlement is directly performed based on the last charging result, and the last charging result is sent to the server.

The payment instruction may be any one of the first payment instruction, the second payment instruction, and the third payment instruction.

In other embodiments, the step S130 may include:

and when a payment instruction is received, charging according to the first state information to obtain a charging result.

In this embodiment, the mobile power supply only tracks and changes the first state information, performs a charging operation according to the first state information only when receiving the payment instruction, obtains a charging result, and finally sends the charging result to the server for charging and settlement.

In some embodiments, the mobile power supply may determine to appropriately send the charging result according to a network condition, so that delay charging may be implemented.

In some embodiments, in the charging process, the mobile power supply stops charging only when it is determined that the charging stop condition is satisfied, otherwise, the mobile power supply maintains the charging state once charging is started until it is determined that the charging stop condition is satisfied, and the charging state is maintained even if the connection with the sharing device is disconnected in the charging process. For example, after the shared device is unlocked by the mobile power source, the mobile power source has other user uses, for example, the current electric quantity of the mobile power source is insufficient, the user needs to use the mobile power source to supply power to the user device, and the shared device itself also carries a built-in power source to maintain its work, so that the user can disconnect the mobile power source from the shared device, but the mobile power source needs to keep a charging state. The satisfaction of the charging stop condition may include at least one of:

detecting that the shared device stops using;

detecting payment instructions detected by user equipment, a server, a sharing device and/or the user equipment, the server, the sharing device and/or the sharing device;

and detecting that the position of the sharing device is more than a preset distance. The distance indicates that the user is far away from the sharing device, which obviously indicates that the sharing device has stopped being used.

In addition to the above situations, the mobile power supply can be regarded as not meeting the charging stop condition, and does not exit the charging state, but keeps charging so as to ensure the accuracy of the charging result.

Optionally, as shown in fig. 3, the step S130 may further include:

step S131: determining a current charging policy;

step S132: and based on the first state information, carrying out charging operation on the user account by using the current charging strategy.

The charging policy is a basis for charging calculation of the mobile power source, and may include: charging mode, charging unit price, and the like.

For example, the step S131 may include: and determining the current charging strategy according to the attribute information of the sharing equipment.

The step S131 may specifically include: determining the current charging strategy according to the working mode of the sharing equipment; the charging policies of the power-consuming mode and the non-power-consuming mode are different, for example, the usage of the shared device needs to be charged in the power-consuming mode, and the power consumption needs to be charged at the same time. In the non-power consuming mode of operation, only the usage of the shared device may need to be billed. Therefore, the step S131 may further include: when the sharing equipment is in a power consumption working mode, adopting a charging strategy for simultaneously carrying out usage charging and power consumption charging on the sharing equipment as the current charging strategy; and/or when the sharing equipment is in a non-power consumption working mode, adopting a charging strategy for charging the use of the sharing equipment as the current charging strategy.

The step S131 may further include:

and determining the current charging strategy according to whether the sharing equipment is positioned in a recommended use list issued by a server. For example, some sharing devices may have low power of their built-in power sources or may be placed in a very cold use area, and if a user uses these sharing devices, they may be transferred to a hot use area, and the server may generate a recommended use list according to the information of the power of the built-in power sources and the location of the sharing devices. If the current shared device is located in the recommended usage list, the charging unit price may be lower, or there may be usage rewards issued. The charging policies of the shared devices that are on the recommended usage list and not on the recommended usage list are different. In this embodiment, the hotspot use area may be: the sharing of devices is more frequent than in geographical locations of rarely used areas. In some embodiments, the hotspot usage area may be an area where the shared device usage frequency is greater than a frequency threshold; the rarely used region can be a region with the use frequency lower than the frequency threshold, so that the utilization rate of the sharing equipment can be effectively improved through the guidance of excitation and distribution.

The step S131 may further include:

and determining the current charging strategy according to the using area of the sharing equipment. The charging policy for sharing devices in different areas is different. For example, the degree of wear is different between an electric vehicle passing through a downtown area and an electric vehicle passing through a mountainous area, so that the current charging policy is determined according to the use area of the sharing device in the embodiment, thereby realizing differentiated charging.

The step S131 may further include:

and determining the current charging strategy according to the electric quantity condition of the built-in power supply of the sharing equipment.

Similarly, if the power of the sharing device is low, in order to reduce various problems caused by the power shortage of the sharing device, in the embodiment of the present invention, the current charging policy is determined in combination with the power status of the sharing device, so as to reward the user to preferentially use the sharing device with low power.

In other embodiments, the step S131 may include: and determining the current charging strategy according to the attribute information of the mobile power supply.

The attribute information may include an attribute of the mobile power supply, for example, the attribute of the shared power supply is an operator or a third party provider; the attribution of private power sources is private. Whether and/or how power consumption billing is required may be determined based at least on the attribution attribute.

Optionally, the step S132 may include:

and determining the current charging strategy according to whether the mobile power supply connected to the sharing equipment is bound with a user account. In order to encourage users to bind new power supplies, the charging unit price of the mobile power supply bound for the first time may be different from the power consumption charging of the mobile power supply bound with other user accounts. Alternatively, the mobile power source that first binds the user account may also issue a binding incentive. Therefore, in some embodiments, the user equipment held by the user may receive the mobile power source usage list sent by the server, so that the user can select a mobile power source to use according to the recommended list conveniently.

Still further, the step S132 may further include: and determining the current charging strategy according to the electric quantity condition of the mobile power supply connected to the sharing equipment.

If the mobile power supply left on the sharing device is not used for a long time and no user charges the mobile power supply, the damage of the mobile power supply may be caused.

In some embodiments, the step S131 may include: at least one of a charging method and a charging parameter is determined. The charging mode comprises at least one of the following modes: charging on time; charging according to mileage; and charging according to the use mode of the sharing equipment. The usage modes include power consumption usage and non-power consumption usage. For example, the electric bicycle may be driven by electricity or manpower, and thus, different usage modes of the sharing device are obviously different, so that different charging strategies are generated.

The charging parameters include at least one of: determining a charging unit price; reference factors for participating in charging.

The charging unit price may include: the charge generated based on a unit of charging reference factor. For example, a time-based charge, a charge generated by a time unit, a mileage charge, and a charge generated by a mileage unit.

The reference factor participating in the charging is sometimes one, for example, on-time charging, mileage charging; sometimes, a plurality of the sensors are needed, for example, the duration and the mode of use need to be considered together, or the mileage and the mode of travel need to be considered together.

Optionally, the method further comprises: if the mobile power supply is a shared power supply, detecting and recording the electric quantity of the mobile power supply; and when the electric quantity of the mobile power supply at the second moment is determined to be larger than the electric quantity at the first moment according to the recorded electric quantity, executing charging operation of charging incentive issuing on the user account, wherein the second moment is later than the first moment.

In some cases, the mobile power source is a shared power source, and power consumption billing is required when the power of the shared power source is consumed, and similarly, if a user charges the shared power source, the power of the user may be consumed, so as to compensate for the charge of the power of the user. On the other hand, the user is encouraged to participate in the maintenance of the mobile power supply, in the embodiment of the invention, the charging incentive is issued by detecting the change of the mobile electric quantity, and the user is encouraged to participate in the power supply maintenance of the shared equipment, so that the investment of exclusive maintenance resources of the shared equipment is reduced, and the maintenance cost is reduced.

Optionally, the method further comprises:

detecting second state information of the mobile power supply; the second state information is used for a server or user equipment to obtain a state prompt of the mobile power supply, or the second state information is used for the server to determine a charging policy of the mobile power supply.

In this embodiment, the mobile power supply may further detect information such as electric quantity of the mobile power supply itself, so as to obtain the second state information, and the state information may be used to output various state prompts, which is convenient for a user to check.

For example, the detecting the second state information of the mobile power source includes:

detecting the electric quantity state of the mobile power supply; and the electric quantity state is used for generating an electric quantity prompt for the user equipment to output.

In some embodiments, the mobile power source may directly send the second status information to the user equipment or the server, and the user equipment or the server generates the status prompt itself.

In other implementations, the mobile power source may also generate a status prompt based on the second status information, and send the status prompt to the user equipment and/or the server.

For example, the power indication includes at least one of:

the user can conveniently select the required mobile power supply by prompting the sufficiency of the electric quantity;

the prompt of insufficient electric quantity can be used for facilitating the user to select the mobile power supply according to the own requirement or stop at a proper position for charging in time,

and the charging prompt can be used for prompting the user to charge in time.

Optionally, the detecting the second state information of the mobile power supply includes:

detecting position information of the mobile power supply;

the method further comprises the following steps:

and sending the position information to the server.

After receiving the position information, the server can position the position of the mobile power supply and send a position prompt to the user equipment when searching for the mobile power supply. Therefore, the location information is at least available for the server to send the corresponding user equipment based on the search positioning. In some embodiments, the location information may also be used for the server to track the location of the mobile power source and obtain the distribution status of the mobile power source.

In some embodiments, after the mobile power source is installed on the sharing device, in order to ensure stable installation and avoid the phenomenon that the mobile power source is detached from the sharing device in use, some fixing modules are usually added, and these fixing modules can be operated manually or controlled by the mobile power source and/or the sharing device itself.

In some embodiments, the method may comprise: after the mobile power supply is installed on the fixing device of the sharing equipment, the mobile power supply can be automatically fixed, and the mobile power supply and the sharing equipment can be unlocked and fixed only when specific conditions are met. For example, as shown in fig. 4, the method further comprises:

step S210: determining whether the mobile power supply meets a immobilizer condition;

step S220: and when the mobile power supply does not meet the fixation releasing condition, locking the fixed state of the mobile power supply and the shared equipment.

In other embodiments, as shown in fig. 5, the method further comprises:

step S230: and when the mobile power supply meets the fixation releasing condition, releasing the fixation state of the mobile power supply and the shared equipment.

Optionally, the step S210 may include at least one of:

detecting whether the sharing device is in a driving state; determining that the mobile power supply does not satisfy the immobilizer-release condition when the shared device is in a travel state; in order to ensure the safety of the portable power source, the stationary state is maintained, and it is considered that the immobility release condition is not satisfied.

Determining whether a immobility releasing instruction is received, and when the immobility releasing instruction is received, determining that the mobile power supply meets the immobility releasing condition; for example, the user may send a immobilizer release instruction to the portable power source by operating the portable power source, the shared device, and/or the user device, thereby determining that the immobilizer release condition is satisfied.

And if the mobile power supply is left on the shared device after the shared device stops using, determining that the mobile power supply does not meet the fixation releasing condition.

In the embodiment of the invention, the problems of breakage caused by sliding of the mobile power supply from the sharing equipment and theft of the mobile power supply caused by toppling of the sharing equipment parked in a public area and the like are avoided. In this embodiment, if the portable power source is left on the shared device after the shared device is stopped, it is determined that the fixed unlocking condition is not satisfied.

In this embodiment, the determination manner of the mobile power source being left in the sharing device can be referred to the corresponding embodiment section, and is not repeated here.

Optionally, the step S230 may include:

sending a fixation releasing instruction to the sharing equipment; the fixing release instruction is used for triggering a first fixing module of the sharing equipment to be switched from a fixing posture to a non-fixing posture.

In this embodiment, the module for fixing the mobile power supply is located on the shared device, and the mobile power supply sends a fixing release instruction to the shared device to trigger the shared device to adjust the posture of the first fixed module, so as to implement switching from a fixed posture to a non-fixed posture.

For example, the first fixing module may include: the angle of the elastic clamping hook can be adjusted by the movable clamping hook, or the length of the clamping hook is adjusted, so that whether the movable clamping hook is located in a clamping groove on the mobile power supply or not is adjusted, if the movable clamping hook is located in the clamping groove, the movable clamping hook is in a fixed posture, and if the movable clamping hook is withdrawn from the clamping groove, the movable clamping hook is in an unfixed posture. Therefore, the shared equipment is provided with a fixing device of the mobile power supply; the fixing device includes: a movable hook module; the fixing releasing instruction is used for triggering the movable clamping hook module of the sharing equipment to withdraw from the clamping groove of the mobile power supply so as to release the fixed state of the mobile power supply.

In other embodiments, the step S230 may include:

generating a fixed unlocking instruction;

and controlling a second fixed module of the mobile power supply to be switched from a fixed posture to a non-fixed posture according to the fixed unlocking instruction.

In this embodiment, the second fixing module may also include: the movable clamping hook and other components. What is different is that, in this embodiment, the fixed module of second is located portable power source, the draw-in groove is located shared device's fixing device, so, like this, portable power source can be according to the fixed unblock instruction that self generated, the discrepancy draw-in groove of the fixed module of control self second to realize the switching from fixed gesture to the non-fixed gesture.

As shown in fig. 6, the present embodiment provides an information processing method, applied to a sharing device, including:

step S310: establishing a connection with a mobile power source capable of providing power to the sharing device;

step S320: receiving preset information from the sharing device based on the connection;

step S330: and executing unlocking operation according to the preset information.

The information processing method in this embodiment may be a method applied to a sharing device. In this embodiment, the sharing device is provided with a socket and/or a plug connected to the mobile power supply. The socket and/or plug are located in a fixture within the shared device.

In this embodiment, the sharing device establishes a connection with the mobile power source, and may receive power supplied by the mobile power source through the connection after the connection is established, and may also receive preset information sent by the mobile power source through the connection. In this embodiment, the preset information may trigger the shared device to perform an unlocking operation. For example, the sharing device is provided with an electronic lock, and the sharing device is also provided with a controller or a control chip for controlling the locking state of the sharing device to be switched, so that the sharing device can be controlled to be switched from the locking state to the unlocking state according to preset information. If the shared device is in the locked state, the shared device is forbidden to use or cannot be used, and if the shared device is in the unlocked state, the shared device can be used.

Therefore, if a user holding the mobile power supply inserts the mobile power supply into the shared device, if the mobile power supply and the shared device are both in a starting state, the lock can be automatically unlocked, and the user does not need to scan the identification of the shared device and/or unlock the password for unlocking and other operations, so that the unlocking of the shared device is simplified.

In some embodiments, the method further comprises:

detecting first state information of the sharing device;

and sending the first state information to the mobile power supply, wherein the first state information is used for charging the mobile power supply for a user account number which has a binding relationship with the mobile power supply.

In this embodiment, the sharing device is provided with a plurality of sensors, which can detect the state of the sharing device. For example, the sharing device is a shared electric vehicle, a shared automobile, a shared bicycle, or the like, and carries various sensors such as a positioning chip and/or a timer, so that the state information of the sharing device can be detected. In this embodiment, the status information of the sharing device is referred to as first status information.

In some embodiments, the preset information is sent when the mobile power source has established a binding relationship with a user account. The preset information sent may be: the user account number and the equipment identifier of the mobile power supply can also be directly used as an unlocking instruction. And if the command is directly an unlocking command, the shared equipment directly executes unlocking operation based on the unlocking command. If the mobile power supply sends the user account and/or the equipment identification of the mobile power supply, the sharing equipment can verify the legality of the equipment identification and/or the user account by inquiring a local database and/or performing information interaction with a server, and the lock is unlocked only after the legality verification is passed, so that illegal use of illegal users can be avoided.

In this embodiment, after detecting the first status information, the first status information is sent to the mobile power source. There are various ways to send the first status information, which can be at least divided into the following:

the first method comprises the following steps:

the sharing device sends the first state information to the mobile power supply in real time, namely the sharing device sends the first state information to the mobile power supply once detecting the first state information;

and the second method comprises the following steps:

first state information periodically detected by the sharing equipment is sent to a mobile power supply, namely the sharing equipment sends the first state information to the mobile power supply once in each fixed time length;

and the third is that:

receiving a state information sending instruction of the mobile power supply;

sending the first state information to the sharing equipment based on the sending instruction;

and fourthly:

and actively sending the first state information to the mobile power supply when the sharing equipment meets a specific event condition. For example, when the sharing device detects that the sharing device is locked under the operation of the user, if the sharing device considers that the specific event condition is currently met, the sharing device actively reports first state information such as locking information and/or mileage and/or use duration to the mobile power supply.

In this embodiment, the first status information may be information that provides a reference for the mobile power supply to charge. And the mobile power supply performs charging operation after receiving the first state information.

In some embodiments, a fixing device for fixing the mobile power supply is arranged on the sharing device. The fixing device comprises a first fixing module, and the first fixing module can be a manual operation module. In order to prevent the mobile power supply from being separated in the using process of the shared equipment, a user can manually operate the first fixing module to enable the first fixing module to be in a fixed posture, and the installation of the mobile power supply on the shared equipment is reinforced through a mechanical result and/or an electromagnetic structure, so that the safety of the mobile power supply is ensured.

In other embodiments, the first fixed module may also be an electronic and/or electromagnetic control module, and a controller or a control chip is provided on the shared device, so that the first fixed module can be switched between the fixed posture and the non-fixed posture by sending a control signal to the first fixed module.

For example, the method further comprises:

receiving a fixation release instruction sent by the mobile power supply;

and controlling a first fixed module of the sharing equipment to be switched from a fixed posture to a non-fixed posture according to the fixation releasing instruction.

The immobilizer release instruction is transmitted by the portable power source when it is determined that the immobilizer release condition is satisfied, and how the portable power source determines whether the immobilizer release condition is satisfied at present may be referred to in the corresponding part of the foregoing embodiment.

In this embodiment, once receiving the immobilizer release instruction, the sharing device controls the first fixed module of the sharing device to switch from the fixed posture to the non-fixed posture, so that the user can take the mobile power source away from the sharing device.

In some embodiments, the method further comprises:

and once the shared equipment which is not connected with the mobile power supply detects that the mobile power supply is connected, the first fixed module is controlled to be switched from the non-fixed posture to the fixed posture so as to realize the automatic fixation of the mobile power supply.

The first state information may further include: location information of the shared device, which may be used by the mobile power supply to determine whether itself is left on the shared device.

In other embodiments, the sharing device may also notify the mobile power source of the lock information of the sharing device, so that the mobile power source can know that the current sharing device is out of service.

As shown in fig. 7, this embodiment further provides another information processing method, which is applied to a server and includes:

step S410: receiving a binding request carrying a device identifier of a mobile power supply and a user account of user equipment; the mobile power supply is a power supply which can provide electric energy for the shared equipment and can send preset information to the shared equipment to trigger the shared equipment to be unlocked;

step S420: determining whether to allow the device identifier and the user account to establish a binding relationship based on the binding request;

step S430: and sending feedback information to the mobile power supply according to the determined result, wherein when the feedback information carries a binding instruction, the feedback information is used for triggering the mobile power supply to establish a binding relationship with the user account.

In the embodiment of the present invention, the server may operate an operation support system of the shared device, and may manage use of the shared device.

In this embodiment, a binding request sent by a mobile power source and/or a user equipment is received in step S410, and establishment of a binding relationship between the device identifier and the user equipment is allowed based on the binding request.

In step S430, feedback information is sent to the mobile power source and/or the user equipment according to the determined result. For example, feedback information is simultaneously transmitted to the mobile power source and the user equipment in step S430. For another example, the feedback information is transmitted only to the user equipment or the mobile power source that transmitted the binding request in step S430. For another example, since the mobile power source needs to establish the binding relationship locally, the feedback information may be sent only to the mobile power source, so as to reduce the information sending load of the server.

In short, in this embodiment, the server may complete establishment of the binding relationship between the mobile power supply and the user account through information interaction with the user equipment and/or the mobile power supply, and has the characteristic of simple implementation. In this case, the first and second liquid crystal display panels,the portable power source may be allowed to act as an unlocking means for the shared device once the portable power source is installed in the shared device And the shared equipment can be controlled to be automatically unlocked by establishing connection with the shared equipment.

In some embodiments, the method further comprises:

receiving a unbinding request sent by the user equipment or the mobile power supply;

sending a unbinding instruction to the mobile power supply, wherein the unbinding instruction is used for triggering the mobile power supply to be removed And binding relation with the user account.

In this embodiment, the server further receives a unbinding request sent by the user equipment or the mobile power supply, where the unbinding request is a request for requesting to release the binding relationship with the specific mobile power supply.

After the unbinding request is received, the server sends an unbinding instruction to the corresponding mobile power supply, and the mobile power supply can be triggered to release the stored binding relationship through sending the unbinding instruction, so that the unbinding of the binding relationship on the mobile power supply is realized.

In other embodiments, the method further comprises:

receiving a unbinding result sent by the mobile power supply or the user equipment; wherein the binding result comprises: the unbound user account number and/or the device identification of the mobile power source.

For example, a user triggers the mobile power supply to release the binding relationship by operating the mobile power supply or by using information interaction between the user equipment and the mobile power supply, and then the mobile power supply sends a release result to the server after the binding relationship is released, so that the server is convenient to release the binding relationship between the corresponding mobile power supply and the user account.

In some embodiments, the server-implemented method further comprises:

receiving a binding maintaining request sent by the user equipment;

sending a binding maintaining indication to the mobile power supply, wherein the binding maintaining indication is used for shielding the operation of releasing the binding relation triggered by the first unbinding condition when the mobile power supply determines that the first unlocking condition is met.

In still other embodiments, the method further comprises:

receiving a charging result sent by the mobile power supply;

and executing charging settlement according to the charging result.

In this embodiment, since the mobile power source performs a charging operation instead of the sharing device and/or the server, the mobile power source may automatically report or send the charging result based on a request of the server.

After receiving the charging result, the server needs to perform charging settlement. The settlement of the charging result comprises one of the following:

deducting the stored value of the corresponding user account according to the charging result;

according to the charging result, deducting corresponding cost from the payment account bound by the user account;

recharging the corresponding user account according to the charging result, wherein the recharging can be regarded as stored value for subsequent use;

and issuing an incentive, such as a red packet, to the user account according to the charging result, wherein the red packet may be subsequently paid for a fee or transferred to other people.

The payment account may be a bank card account and/or a mobile payment platform account bound to a user account, and the mobile payment platform account may include: payment account numbers such as a payment account number and/or a WeChat account number.

In some embodiments, the method further comprises:

issuing a charging strategy to the mobile power supply; the charging policy is used for providing a charging mode and/or a charging parameter for the mobile power supply.

In this embodiment, the composition of the charging policy may refer to the foregoing embodiments, and is not repeated here.

As shown in fig. 8, the present embodiment provides a mobile power supply, including:

a first processing module 110;

the first communication module 120 is connected to the first processing module 110, and configured to establish a connection with a shared device and send preset information to the shared device through the connection, where the preset information is used for the shared device to perform an unlocking operation;

a battery module 130 for storing electric energy;

a first charging interface 140 connected to the battery module 130, for charging the battery module 130;

a first power supply interface 150 capable of providing power to the shared device.

In this embodiment, the first processing module 110 may include: various types of processors and/or processing chips. The processor may include: a central processing unit, a microprocessor, a digital signal processor, an application processor, or a programmable array. The processing circuit may include: application specific integrated circuits, etc.

The first processing module 110 may be configured to perform information processing, for example, generate or obtain the preset information.

The battery module 130 includes one or more batteries and can be used for charging and discharging.

The first charging interface 140 is connected to the battery module 130, and is configured to charge the battery module 130.

The first power supply interface 150 may be a discharge interface for the mobile power supply to provide power to the sharing device, and the sharing device may receive the power provided by the battery module 130 from the power supply interface.

The first communication module 120 may include various types of communication interfaces, which may be used for information interaction between the mobile power source and the shared device.

In some embodiments, the first communication module 120 is further configured to obtain first status information from the sharing device;

the first processing module 110 is further configured to perform a charging operation based on the first status information.

In this embodiment, the first communication module is further configured to receive first status information from the sharing device, and the first processing module 110 performs a charging operation according to the first status information.

The mobile power supply further includes:

the first detection module is used for detecting first state information of the sharing equipment;

the first processing module 110 is further configured to execute the charging operation based on the first status information.

The first detection module may include: one or more sensors that detect a status of the shared device.

The first processing module 110 may be further configured to perform a charging operation based on the first status information detected by the first detecting module.

Optionally, as shown in fig. 9, the mobile power supply further includes:

a second communication module 160, configured to perform remote communication with a server on a network side;

and/or the presence of a gas in the gas,

and the third communication module 170 is configured to perform near field communication with the user equipment.

In this embodiment, the mobile unit further includes: at least one of the second communication module and the third communication module, the second communication module may be configured to perform information interaction with a server on a network side, for example, the second communication module includes: the communication interface of the internet of things can be used for performing information interaction with a server of the internet of things, for example, reporting the charging result to the server, and/or receiving information of a charging policy, a binding instruction, a unbinding instruction and/or a payment instruction issued by the server.

The third communication module 170 may be configured to perform information interaction between the mobile power supply and the user equipment, for example, the user equipment may be a mobile phone or a tablet computer, and the third communication module may be an NFC communication module or a bluetooth communication module, and may be configured to perform information interaction with the user equipment, so as to implement transmission of a user account and/or an equipment account, or transmission of a payment instruction, second state information, prompt information, and the like.

In this embodiment, the second communication module 160 may be a remote communication module, and the third communication module is a short-range communication module, and the communication range may be smaller than a predetermined value, for example, smaller than 100 meters.

In some embodiments, in order to facilitate connection between the mobile power source and the sharing device, the first communication module and the first power supply interface may be disposed on a same side of the mobile power source, and thus, the first communication module and the first power supply interface may be connected to a charging interface and a communication interface on the same side of the sharing device, so that a problem that the first power supply interface and the first communication module are disposed on different sides, and operation is inconvenient due to at least aligning two sides when a user installs the mobile power source on the sharing device is reduced.

In some embodiments, the mobile power supply further comprises: a second fixed module;

the first processing module 110 is further configured to generate a first control signal when the mobile power supply meets a fixation release condition;

and the second fixed module is used for switching from a fixed posture to a non-fixed posture according to the first control signal.

In this embodiment, the mobile power source is further provided with a second fixed module, and in this embodiment, the second fixed module is disposed on an outer surface of the mobile power source, and generally includes a fixed posture and a non-fixed posture. The fixing device on the sharing equipment is internally provided with a structure matched with the first fixing module, such as a clamping groove, and the fixing of the mobile power supply can be realized through the interaction with the first fixing module.

In this embodiment, the first processing module is further configured to generate a control signal, where the control signal may be used to control a posture of the first fixing module, so as to control fixing of the mobile power supply and the shared device. A

In this embodiment, only when the mobile power supply satisfies the fixed unbinding condition, the first fixed module of the mobile power supply is controlled to be switched from the fixed posture to the non-fixed posture.

In this embodiment, the determination of whether the fixed unbinding condition is met can be referred to the foregoing embodiments, and will not be repeated here.

In other embodiments, the mobile power supply further comprises:

and the second power supply interface is used for supplying power to the user equipment.

In this embodiment, the mobile power supply further provides a second power supply interface, and power supply parameters of the first power supply interface and the second power supply interface in this embodiment may be different, for example, a power supply voltage of the first power supply interface may be higher than a power supply voltage of the second power supply interface, and a power supply current of the first power supply interface may be larger than a power supply current of the second power supply interface.

In this embodiment, the second power supply interface may supply power to the user equipment, and in this case, the user equipment such as a mobile phone may obtain power from the mobile power source even when the user equipment does not have power.

In this embodiment, first power supply interface and second power supply interface can set up on different faces, and optionally for setting up to opposite, like this, the one side at first power supply interface place is sheltered from with the shared device contact while, the second power supply interface still exposes, and convenience of customers plug user equipment to obtain the power supply from portable power source.

In some embodiments, the first processing module is further configured to charge the power consumption of the user account according to the power supply condition of the second charging interface. For example, when the mobile power supply is a shared power supply, the power consumption is charged for the power supply from the second charging interface to the user equipment.

In summary, the mobile power supply provided in this embodiment may implement one or more technical solutions applied to the mobile power supply, for example, the first processing module in the mobile power supply may implement, through execution of executable codes such as a computer program or application software, execution of one or more technical information processing methods, for example, one or more of operations including unlocking a shared device, charging a shared device, and account binding.

As shown in fig. 10, the present embodiment provides a sharing device, including:

the fourth communication module 210 is configured to establish a connection with a mobile power supply, and receive preset information sent by the mobile power supply through the connection;

the second charging interface 220 is used for being connected with the first power supply interface of the mobile power supply and receiving power supply of the mobile power supply;

and the lock module 230 is configured to perform an unlocking operation based on the preset information.

In this embodiment, the sharing device includes a communication module, and can be configured to establish a connection with a first communication module of the mobile power supply, and perform transceiving of the preset information through the connection. A

In the embodiment of the present invention, the first communication module and the fourth communication module 210 may be both wired communication modules, for example, the wired interface module may be a Universal Serial Bus (USB) or other types of communication interfaces for performing information interaction. The wireless communication module may be a transceiver antenna, such as a bluetooth antenna and/or a WiFi antenna, and in short, may be a transceiver antenna used for information interaction between the sharing device and the mobile power supply.

In this embodiment, a charging interface is arranged on the mobile device, and the charging interface is referred to as a second charging interface 220, and may be used for connecting a first power supply interface of the mobile power supply, and can utilize a power module in the mobile power supply to charge or provide energy consumption for work to the shared device.

In some embodiments, the sharing device further comprises:

the second detection module is used for detecting the first state information of the sharing equipment;

the fourth communication module 210 is further configured to send the first status information to the mobile power supply, where the first status information is used for the mobile power supply to perform charging operation.

The second detection module can be one or more sensors with sensing function, and can detect the first state information of the sharing device.

The fourth communication module 210 is further configured to send the first status information to the mobile power supply, so that the mobile power supply can perform charging.

In some embodiments, the sharing device further comprises: and the fixing device is used for fixing the mobile power supply.

In some embodiments, the fixing device is used for fixing the mobile power supply, and in order to protect the mobile power supply better, the fixing device may include a receiving cavity and a protective cover; after the mobile power supply is installed on the sharing equipment, the mobile power supply is located in the accommodating cavity, and the protective cover protects the mobile power supply.

In some embodiments, the fixture comprises: a first fixed module;

and the first fixed module is used for switching from a fixed posture to a non-fixed posture according to a fixation releasing instruction.

The attitude of the first fixed module comprises: and the fixed posture and the non-fixed posture can be switched to the non-fixed posture from the fixed posture according to the fixation releasing instruction, so that the fixation with the mobile power supply is released. The first fixing module may include: the movable clamping hook can be clamped into a clamping groove arranged on the mobile power supply.

In some embodiments, the immobilizer release instruction may be received by the fourth communication module 210 from a portable power source and transmitted by the portable power source when it is determined that the immobilizer release condition is satisfied.

As shown in fig. 11, the present embodiment provides an electronic device, which is a mobile power supply having a communication capability and capable of supplying power to a sharing device, including:

a first connection unit 111 configured to establish a connection with the sharing device;

a first sending unit 112, configured to send preset information to the shared device by using the connection, where the preset information is used to trigger the shared device to execute an unlocking operation.

The first connection unit 111 and the first communication unit may both correspond to an interface, for example, a charging interface and/or a communication interface, and may be used for connection establishment and data interaction between the mobile power source and the shared device, so as to trigger execution of an unlocking operation of the shared device.

Optionally, the method further comprises: the first determining unit is used for determining whether the mobile power supply is in a binding relationship with a user account;

the first sending unit 112 is further specifically configured to send the preset information to the sharing device if the mobile power supply has established a binding relationship with a user account.

The mobile power supply further includes:

the output unit can correspond to various signal output structures, such as an indicator light and/or a display screen, and can be used for outputting a binding establishment prompt if the mobile power supply does not establish a binding relationship with the user account.

Optionally, the mobile power supply further includes:

and the first communication unit is used for establishing the binding relationship between the mobile power supply and the user account through information interaction with the user equipment if the binding relationship between the mobile power supply and the user account is not established.

In some embodiments, the first communication unit is specifically configured to receive a user account sent by the user equipment; sending a binding request carrying the user account and the equipment identifier of the mobile power supply to a server; receiving feedback information returned by the server based on the binding request; and establishing the binding relationship based on the feedback information, the user account and the equipment identifier.

For example, the first communication unit is specifically configured to perform at least one of: if the feedback information is first feedback indicating that binding is agreed, establishing a binding relationship between the mobile power supply and the user account; and if the feedback information is second feedback indicating that the binding is objected to, outputting a binding failure prompt or sending the binding failure prompt to the user equipment.

The device identifier of the mobile power supply is used for the user equipment to send an application for establishing a binding relationship to a server; in other embodiments, the first communication unit is further configured to receive feedback information sent by the server based on the application for establishing the binding relationship; and when the feedback information carries a binding instruction, establishing a binding relationship with a user account in the mobile power supply.

In some embodiments, the mobile power supply may further include:

a second determination unit configured to determine whether the mobile power supply satisfies a unbinding condition;

and the binding processing unit is used for removing the binding relationship between the mobile power supply and the user account when the mobile power supply meets the unbinding condition.

In some embodiments, the second determining unit may be configured to perform at least one of: when the shared device stops using and the mobile power supply is left on the shared device, determining that the mobile power supply meets a first unbinding condition; when the mobile power supply receives a unbinding instruction, determining that the mobile power supply meets a second unbinding condition.

In some embodiments, the second determining unit may be specifically configured to perform one of the following:

determining that the mobile power supply meets the unbinding condition when a first unbinding instruction acting on the mobile power supply is detected;

when a second unbinding instruction sent by user equipment is received, determining that the mobile power supply meets the unbinding condition;

when a third unbinding instruction sent by the server is received, the mobile power supply is determined to meet the unbinding condition.

In some embodiments, the second determining unit is further configured to perform at least one of:

when locking information sent by the sharing equipment is received, determining that the sharing equipment is stopped to be used;

when a payment instruction sent by a server is received, determining that the shared device is stopped to be used;

when a payment instruction sent by user equipment is received, determining that the sharing equipment is stopped to be used;

when a payment instruction acting on the mobile power supply is received.

Optionally, the second determining unit may be further configured to perform at least one of:

determining whether the mobile power source is left on the sharing device in combination with the connection connectivity after determining that the sharing device is out of service;

after determining that the sharing device stops being used, determining whether the mobile power supply is left on the sharing device or not by combining the sharing device and the positioning information of the mobile power supply.

In some embodiments, the binding processing unit is further configured to, when it is determined that the mobile power supply meets the first unbinding condition and a binding maintaining instruction sent by a user equipment or a server is received, shield an operation of releasing the binding relationship, which is triggered by the first unbinding condition.

In some embodiments, the binding processing unit is further configured to receive a binding relationship change instruction; and switching the bound user account from the first user account to the second user account according to the binding relation change instruction.

For example, the binding processing unit may be specifically configured to receive a binding relationship change instruction that is issued by a server and carries a second user account; and/or receiving a binding relationship change instruction which is submitted by the user equipment and carries the second user account.

In some embodiments, the mobile unit further comprises:

a first obtaining unit operable to obtain first state information of the shared device;

and the charging unit is used for carrying out charging operation on the user account number which is in the binding relationship with the mobile power supply based on the first state information.

In some embodiments, the first obtaining unit may be specifically configured to perform at least one of the following

Receiving first state information sent by the sharing equipment;

first state information of the sharing device is detected.

The charging unit may be specifically configured to perform one of the following

Based on the first state information, charging the user account for using the shared device;

when the mobile power supply meets a first preset condition, performing power consumption charging on the user account by using the mobile power supply;

and when the mobile power supply meets a second preset condition, performing power supply charging of the mobile power supply on the user account.

Optionally, the charging unit may be specifically configured to perform power consumption charging for using the mobile power supply for the user account when the mobile power supply is a shared power supply.

In addition, the charging unit may be further specifically configured to perform at least one of the following

If the mobile power supply is the shared power supply and the mobile power supply is left on the shared equipment, carrying out power consumption charging on the user account for using the mobile power supply;

and if the mobile power supply is the shared power supply and the shared equipment is in a power consumption working mode, carrying out power consumption charging on the user account for using the mobile power supply.

In other embodiments, the second determining unit may be further configured to determine whether the shared device has stopped being used; and determining whether a mobile power source is left on the sharing device based on a specified parameter after determining that the sharing device is out of use.

For example, the second determining unit may be further configured to perform at least one of:

when locking information sent by the sharing equipment is received, determining that the sharing equipment is stopped to be used;

when a payment instruction sent by a server is received, determining that the sharing equipment is stopped to be used;

and when a payment instruction sent by the user equipment is received, determining that the sharing equipment is stopped to be used.

In addition, the second determining unit may be specifically configured to determine whether the mobile power source is left on the shared device in combination with connectivity of the connection after determining that the shared device is not used; after determining that the sharing device stops being used, determining whether the mobile power supply is left on the sharing device or not by combining the sharing device and the positioning information of the mobile power supply.

And the charging unit is also used for executing charging operation of power supply incentive distribution on the user account when the mobile power supply is a private power supply held by the user.

Optionally, the charging unit is further configured to detect a first payment instruction acting on the mobile power supply; and when a first payment instruction acting on the mobile power supply is detected, carrying out charging operation on the user account.

The charging unit is also used for receiving a second payment instruction sent by the user equipment; and when the second payment instruction is received, carrying out charging operation on the user account based on the first state information.

In some embodiments, the charging unit may be further configured to receive a third payment instruction sent by the server; and when the third payment instruction is received, carrying out charging operation on the user account based on the first state information degree.

Optionally, the charging unit may be configured to periodically update a charging result according to the first state information, and send a last charging result to a server or a user equipment when a payment instruction is received;

and when a payment instruction is received, charging according to the first state information to obtain a charging result.

The charging unit is specifically used for determining a current charging strategy; and based on the first state information, carrying out charging operation on the user account by using the current charging strategy.

The charging unit may be specifically configured to determine the current charging policy according to the attribute information of the shared device.

For example, the charging unit may be specifically configured to execute at least one of the following:

determining the current charging strategy according to the working mode of the sharing equipment;

determining the current charging strategy according to whether the sharing equipment is positioned in a recommended use list issued by a server;

when the sharing equipment is located in a specified type area, determining the current charging strategy;

and determining the current charging strategy according to the electric quantity condition of the built-in power supply of the sharing equipment.

The charging unit is specifically configured to adopt a charging policy for simultaneously performing usage charging and power consumption charging of the shared device as the current charging policy when the shared device is in a power consumption operating mode;

and when the sharing equipment is in a non-power consumption working mode, adopting a charging strategy for carrying out use charging on the sharing equipment as the current charging strategy.

The charging unit may be specifically configured to determine the current charging policy according to the attribute information of the mobile power supply.

The charging unit is specifically configured to determine the current charging policy according to whether the mobile power supply connected to the sharing device is bound to a user account; and determining the current charging strategy according to the electric quantity condition of the mobile power supply connected to the sharing equipment.

The charging unit is specifically configured to determine at least one of a charging manner and a charging parameter; wherein the charging mode comprises at least one of the following modes: charging on time; charging according to mileage; charging according to the use mode of the sharing equipment;

the charging parameters include at least one of: determining a charging unit price; reference factors for participating in charging.

The mobile power supply further comprises:

the second detection unit is used for detecting and recording the electric quantity of the mobile power supply if the mobile power supply is a shared power supply;

and the charging unit is further used for executing charging incentive issuing charging operation on the user account when determining that the electric quantity of the mobile power supply at a second moment is larger than the electric quantity at a first moment according to the recorded electric quantity, wherein the second moment is later than the first moment.

In some embodiments, the mobile power supply further comprises:

the third detection unit is used for detecting second state information of the mobile power supply; the second state information is used for a server or user equipment to obtain a state prompt of the mobile power supply, or the second state information is used for the server to determine a charging policy of the mobile power supply.

The third detection unit is specifically configured to detect an electric quantity state of the mobile power supply; and the electric quantity state is used for generating an electric quantity prompt for the user equipment to output.

The power prompt includes at least one of:

prompting that the electric quantity is sufficient;

prompting the shortage of the electric quantity;

and (6) prompting charging.

In other embodiments, the third detection unit may be further configured to detect location information of the mobile power source; the first communication unit is further configured to send the location information to the server.

In some embodiments, the location information is used for the server to send the corresponding user equipment based on the lookup location.

The mobile power supply may further include:

a third determination unit operable to determine whether the portable power source satisfies a immobilizer release condition;

a first fixing unit configured to lock a fixing state of the mobile power supply and the shared device when the mobile power supply does not satisfy the fixing release condition; and/or when the mobile power supply meets the fixation releasing condition, releasing the fixation state of the mobile power supply and the shared equipment.

The third determination unit operable to perform one of the following;

detecting whether the sharing device is in a driving state; determining that the mobile power supply does not satisfy the immobilizer-release condition when the shared device is in a travel state;

determining whether a immobility releasing instruction is received, and when the immobility releasing instruction is received, determining that the mobile power supply meets the immobility releasing condition;

and if the mobile power supply is left on the shared device after the shared device stops using, determining that the mobile power supply does not meet the fixation releasing condition.

Specifically, the third determining unit may be configured to send a immobilizer release instruction to the shared device; the fixation releasing instruction is used for triggering a first fixation component of the sharing equipment to be switched from a fixed posture to a non-fixed posture.

In some embodiments, a fixed device of the mobile power supply is arranged on the sharing device;

the fixing device includes: a movable hook module; the fixing releasing instruction is used for triggering the movable clamping hook module of the sharing equipment to withdraw from the clamping groove of the mobile power supply so as to release the fixed state of the mobile power supply.

The mobile power supply further comprises:

the generating unit can be used for generating a fixed unlocking instruction;

the first fixing unit can be used for controlling a second fixing module of the mobile power supply to be switched from a fixing posture to a non-fixing posture according to the fixing unlocking instruction.

As shown in fig. 12, the present embodiment provides a sharing device, which may include:

a second connection unit 211 for establishing connection with a mobile power supply capable of supplying power to the sharing device;

a first receiving unit 212, configured to receive preset information from the sharing device based on the connection;

and an unlocking unit 213, configured to perform an unlocking operation according to the preset information.

The second connection unit 211 and the first receiving unit 212 may each correspond to an interface, for example, a charging and discharging interface and/or a communication interface.

The unlocking means 213 may correspond to a controller, a circuit, or the like that controls the state switching of the lock of the shared device.

In some embodiments, the sharing device further comprises:

a fourth detecting unit, specifically configured to detect first state information of the shared device;

and the second communication unit is specifically configured to send the first state information to the mobile power supply, where the first state information is used for the mobile power supply to charge a user account having a binding relationship with the mobile power supply.

And a fixing device for fixing the mobile power supply is arranged on the sharing equipment. The fixing device comprises a first fixing module. The sharing device further includes:

the second communication unit is also used for receiving a fixation release instruction sent by the mobile power supply;

and the control unit is used for controlling the first fixed module of the sharing equipment to be switched from a fixed posture to a non-fixed posture according to the fixation releasing instruction.

As shown in fig. 13, the present embodiment further provides a server, including:

a third communication unit 311, configured to receive a binding request carrying an equipment identifier of a mobile power supply and a user account of a user equipment; the mobile power supply is a power supply which can provide electric energy for the shared equipment and can send preset information to the shared equipment to trigger the shared equipment to be unlocked;

a fourth determining unit 312, configured to determine whether to allow the device identifier and the user account to establish a binding relationship based on the binding request;

the third communication unit 311 is further configured to send feedback information to the mobile power supply according to the determined result, where when the feedback information carries a binding instruction, the third communication unit is configured to trigger the mobile power supply to establish a binding relationship with the user account.

In some embodiments, the third communication unit 311 is operable to receive a unbinding request sent by the user equipment or the mobile power source; and sending a unbinding instruction to the mobile power supply, wherein the unbinding instruction is used for triggering the mobile power supply to release the binding relation with the user account.

In other embodiments, the third communication unit 311 is further configured to receive a unbinding result sent by the mobile power source or the user equipment; wherein the binding result comprises: the unbound user account number and/or the device identification of the mobile power source.

In some further embodiments, the third communication unit 311 is further configured to receive a charging result sent by the mobile power supply; and the settlement unit is used for executing charging settlement according to the charging result.

An embodiment of the present invention provides an electronic device, which may be the aforementioned mobile power supply, a sharing device, or a server. As shown in fig. 14, the electronic device may include:

a transceiver 410, a memory 420, a processor 430, and a computer program stored on the memory 420 and executed by the processor 430;

the communication device may include: a transceiver 410, a memory 420, a processor 430, and a computer program stored on the memory 420 and executed by the processor 430;

the processor 430 is connected to the transceiver 410 and the memory 420 respectively, for example, through an integrated circuit bus IIC, and is connected to the transceiver 410 and the memory 420 respectively.

The processor 430 may be configured to implement the information processing method provided by one or more technical solutions applied to the mobile power source, or execute the information processing method provided by one or more technical solutions applied to the sharing device, or execute the information processing method applied to the server by executing the computer program.

The transceiver 410 may be a transceiver antenna, a cable interface, or a fiber optic cable interface in a communication device.

The memory 420 may be a piece of memory 420 including a storage medium in the communication device, and may be a random access memory 420, a read only memory 420, a storage hard disk, and the like.

The processor 430 may be various types of processors, a central processing unit, a microprocessor, an application processor, a programmable array or application specific integrated circuit, etc., and may be connected to the transceiver 410 and the memory 420 through an integrated circuit bus (IIC), etc.

The embodiment of the invention provides a computer storage medium, wherein a computer program is stored in the computer storage medium; after being processed, the computer program can realize the information processing method provided by one or more technical schemes applied to the mobile power supply, or execute the information processing method provided by one or more technical schemes applied to the sharing equipment, or execute the information processing method applied to the server.

The computer storage medium may be: a mobile storage device, a Read-Only Memory (ROM or y), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes. Optionally, the computer storage medium is preferably a non-transitory storage medium, or a non-volatile storage medium.

One specific example is provided below in connection with any of the embodiments described above:

example 1:

the present example provides an electronic system, which may include: a mobile power source (e.g., a mobile power bank) and a power consuming device (e.g., a shared electric bicycle). In this example, the mobile charging pack and the power consuming device may have the following features.

1. The example is a shared electric bicycle based on a special mobile power bank;

2. the mobile power bank has the operating parameters meeting the shared electric bicycle, and can provide the output capability meeting 150W.

3. The mobile power bank is configured with an equipment identifier and can be used as one of consumption identifiers such as a consumption account number of a shared electric bicycle, namely a consumption certificate and an identity terminal;

4. in some embodiments, the mobile charging has multiple sets of working parameters, and one set of work can be selected from the multiple sets of working parameters according to current needs, for example, the mobile charger has both 5v and higher voltage output (such as 20 v), so that power can be supplied to the mobile phone and the shared electric bicycle;

5. the shared electric bicycle is provided with a motor driving device and a built-in battery, when the mobile charger is plugged in, the power consumption of the electronic lock and the motor driving device comes from the mobile charger, and the battery in the shared electric bicycle is charged by the charger;

6. the mobile power bank and the shared electric bicycle can be separated;

7. the sharing bicycle is internally provided with a battery, so that the sharing bicycle can be unlocked by using a mobile middle-lane code-scanning internet of things such as a mobile phone.

The shared electric bicycle is provided with an electric power assisting device, and the mobile charger baby is held by a user; when the user finds that the shared bicycle is available, the first interface of the mobile power bank and the second interface of the shared bicycle are used for establishing power supply connection and data connection.

In a first aspect, the shared bicycle is capable of identifying an identity account within the mobile power bank through a data connection. After the identity account number is identified as a legal user, the shared bicycle is directly unlocked, the unlocking speed is increased, and the use by the user is facilitated.

In the second aspect, after the shared electric bicycle is unlocked, the charging of the shared electric bicycle is started, and the charging and the use condition can be directly recorded in the charging treasure.

In the third aspect, the mobile charger can supply power to the shared electric light tea through connection, so that a user can start electric power assistance and ride conveniently; and if the mobile charging treasure is taken down by the user midway, the charging system in the charging treasure cannot stop.

Charging is still performed according to a charging policy, for example, according to the time of use or according to the mileage; the user finishes when riding and need to guarantee that the treasured that charges inserts and link the bicycle, after the user locked the bicycle, the bicycle can through with remove the communication of the package that charges, inform the charging system that removes in the treasured that charges stop charging, the treasured that charges gives the state suggestion. The user can take off the treasured that charges and take away with to use.

Because the user oneself can charge the treasured use of charging often, consequently the battery in the treasured that charges is in effectual utilization state always, and indirect user self has also maintained the battery of sharing electric bicycle, the effectual maintenance cost that has reduced and the maintenance degree of difficulty.

Because the treasured that charges is held at user's individual, consequently every user's precious electric quantity that charges only need guarantee its self mileage can, relatively with current sharing electric bicycle, because it needs to guarantee that many users use, consequently need very large capacity battery, corresponding battery maintenance and maintenance cost all can increase, and this example user's removal treasured that charges only needs to guarantee its form mileage, consequently the precious electric energy capacity of charging is enough promptly, equals that electric bicycle operator hands over the work of battery maintenance and maintenance by user self and accomplished.

The mobile power bank is provided by a shared electric bicycle operator, and the providing mode can be a conflict deposit or a gift. For example, the user can utilize a mobile phone, a tablet computer or a wearable device to apply for a use account to the network side, when the server determines to respond to the account application, the server can issue the device identifier of the mobile charging treasure for the user through recording, and complete the binding with the user account of the user, so that subsequently, when the user uses the shared electric bicycle, the device identifier of the mobile charging treasure can be used as an identification account to perform unlocking identification of the electric bicycle. For example, the mobile power bank is held by a user, the power bank performs authentication, unlocking, charging and other operations, and the user performs maintenance on the battery.

Example two:

the shared electric bicycle is provided with an electric power assisting device, and the mobile charger can be left on the bicycle or held by a user; the user unlocks the shared bicycle, can pass through cell-phone application (app) and remove the precious mode such as accomplishing identification through Near Field Communication (NFC) or bluetooth communication of charging, the precious that should remove the treasured that charges of claiming fast. The mobile charger controls the unlocking of the bicycle electronic lock; the user unlocks the shared bicycle and can also unlock the shared bicycle through the code scanning electronic lock; the user unblock bicycle has then accomplished and has charged the precious binding work of having on the car. There is mechanical protector (if can pin the treasured that charges under pressing, the treasured that charges that just can bounce according to the treasured that charges after the identity is bound can be pressed to the treasured that charges that does not carry out the identity and bind carries out anti-disassembly (the people that prevent malicious destruction).

The charger baby with the bound identity can be quickly detached; the sharing bicycle is provided with the built-in battery, and the built-in battery can be charged when the charger is plugged, so that a complicated power generation device can be omitted.

The mobile phone app can select the sharing bicycle with low internal battery power to perform key recommendation on user use, and the mobile phone app notes that the power is low, and can obtain a red packet if the user takes away the charger and charges after the vehicle is used.

When the mobile charge pal exists, the bicycle is a common shared bicycle. When having the treasured that charges, if the user has started electric power assisted, remove and to have the use electric quantity record in the treasured that charges, use electric power assisted and use the electric quantity according to the treasured that charges and detain the expense. If do not use the electric helping hand in riding, but the manpower is ridden, then charge according to the non-electric helping hand mode, remove the precious part of charging then charges according to the electric quantity that the treasured used that charges.

When the charger detects that the charger is reversely charged, the account balance of the user is correspondingly increased; because the treasured that charges can the user hold or keep on the car, but need the user to carry out the account to the treasured that charges and bind the back and can hold, the user has accomplished the treasured that charges and binds when using the vehicle promptly.

After the user used up the car, the lock car takes away the treasured that charges, then finishes using the charging, but the precious binding relation that charges still exists, only the user will charge the treasured and insert on the car, perhaps bind this treasured that charges privately by other people, just can remove this precious binding that charges. When the user does not release the binding of the charge pal, the charge pal can be directly taken to be inserted into a corresponding shared bicycle for unlocking, and the vehicle cost is calculated, so that the unlocking speed is accelerated; when the user holds the treasured that charges, still can increase account balance for the treasured that charges, use the treasured that charges, discharge from the treasured that charges, then corresponding deduction fee.

When the treasured that charges is put on the car, this vehicle just is equivalent to an electronic sharing bicycle, if the precious electric quantity that charges of the in-process of riding crosses lowly, becomes the ordinary sharing bicycle of no helping hand, and when the user ended the stroke simultaneously, if this user's distance of riding was far away, power consumptive much, the precious electric quantity that charges that leads to crosses lowly.

The mobile phone app can remind the user that the mobile phone app needs to take away the mobile phone app due to the fact that the mobile phone app is low in electric quantity, and if the mobile phone app does not take away the mobile phone app, the mobile phone app directly locks a car, removes and charges the binding of the mobile phone app, and then needs to collect certain maintenance cost.

The precious electric quantity that charges can be indicateed to next people who uses this car low, and the helping hand can't be used, can only use normal non-helping hand mode, if take away the treasured that charges after the car finishes to it will acquire the red envelope to charge. The red envelope method herein may be one of the excitation method operations.

When a user holds the charge pal in the hand, the user is private, and the owner of the charge pal can be exchanged through operations such as mobile phone code scanning in daily life, and meanwhile, the charging state is also changed; the mobile power bank is provided by a shared electric bicycle operator.

The mobile charge pal can be provided free, a user holding the charge pal can accelerate the unlocking speed of the shared bicycle, meanwhile, the incentive measures and rules are used for enhancing the circulation of the charge pal so that the charge pal is shared (for example, identity binding can be completed by others on a train to claim the charge pal to charge a mobile phone of the user) and the shared bicycle and the shared charge pal are combined into a whole, and the user plays a role in maintaining and maintaining the battery.

Example three:

the present example provides a mobile power supply provided with a corresponding interface.

The mobile power source includes, but is not limited to, the following interfaces: the mobile phone charger comprises an electric power-assisted battery interface, a mobile phone charging interface, a communication module, a charger charging interface and the like.

The electric power-assisted battery interface is a power supply interface for supplying power to the shared equipment by the mobile power supply, can be used for supplying power to the shared equipment, for example, charges a shared electric vehicle, specifically can supply power to the electric power-assisted device, and specifically can be formed by components and parts which can bear large current and high power, such as a motor power head, and the like, so that the power output of a user during riding is ensured.

The user equipment charging interface can be an interface for supplying power to user equipment such as a mobile phone by a mobile power supply, can be used for charging the equipment such as the mobile phone, can enable a user to charge the mobile phone when using shared equipment (such as riding), and can be used as a common mobile power supply for the user to use when the user takes away the mobile power supply for charging, so that the function scene of the mobile power supply is further increased, and meanwhile, the initiative of active maintenance of the user is also increased.

The communication module can be connected with booster unit and establish after the correct communication, just can open electric power assistance battery interface, and this mode not only can prevent that the off-the-shelf treasured that charges of third party from using thoughtlessly, also can prevent to charge under the condition that the treasured does not have the correct connection power output, guarantees safe in utilization.

The charging interface can be used for charging through a universal USB interface, so that a user can conveniently charge and maintain the charge pal without using special equipment for charging, and the feasibility of the user participating in the maintenance of the charge pal is further improved.

The charger also includes but is not limited to the following customized contents in terms of functions: with electric power assist device private communication agreement, NFC function, bluetooth function, entity button, thing networking module etc..

For example, a user may own a mobile power source while using a shared device (e.g., a shared vehicle): when the lock is unlocked, the sharing equipment acquires Identification (ID) information such as a user account and transmits the information to the mobile power supply through a special protocol, the mobile power supply records the information and starts an electric power assisting function, and the information can be used for expense settlement, identity verification and the like. When the user locks the vehicle and leaves, the user does not take away the mobile power supply, and after a certain time, the vehicle sends an instruction to clear the information, so that the binding between the mobile power supply and the user is released; if the user locks the vehicle and takes away the mobile power supply, the mobile power supply is always bound with the user information, and verification and settlement are carried out aiming at different behaviors of the user in subsequent use (such as daily mobile phone charging, mobile power supply maintenance and the like).

In the embodiment of the invention, the electric power assisting function is as follows: and a function of charging the shared device by using the mobile power supply.

When the user unblanks, the user is from taking portable power source: under the scene, because the interior of the automobile contains user information during early use, relevant instructions (such as a communication module, an NFC module, a Bluetooth module or an entity key) are directly sent to unlock the automobile, the automobile is confirmed (theft prevention) at a client, a power supply is moved up in a plug-and-play mode to realize unlocking, the automobile is plugged and used, and the using steps of a user are simplified.

The user maintains the mobile power supply: the user takes away the portable power source and charges, and portable power source accessible thing networking module uploads the server with data to carry out the reward mechanism to the user.

The user uses the portable power source daily: when the user uses the portable power source to charge other equipment, the portable power source can also communicate with the server through the internet of things module, upload user ID data and charge.

Example four:

the example also provides a fixing device applied to the sharing equipment and used for installing the mobile power supply. Fixing device can adopt the full enclosure structure to portable power source, and built-in thing networking communication module, near field communication module, the inside bottom of protection box are equipped with power supply interface, water drainage tank, and data interface bullet needle has the embedded fixed and resilience barb of portable power source in the protection device side, and there is the solid fixed ring of bicycle at the protection device back to fix on the bicycle.

The portable power source can be followed fixing device's upper end and inserted perpendicularly, treats that portable power source inserts fixing device completely after, the power source of device bottom can be connected with portable power source's power delivery outlet, and data interface bullet needle can switch on with portable power source's data interface, and fixed barb can imbed the portable power source shell simultaneously, prevents that portable power source from jumping out from the top.

Because the portable power source can be absorbed in the protection device completely after inserting, can prevent that someone from maliciously and brute force from pulling out portable power source, when needs take out portable power source, can send relevant instruction by the cell-phone, fixing device receives and withdraws fixed and resilience barb after the instruction, from last portable power source of down pressing again, portable power source just can upwards pop out to exposing the device a short segment distance by the resilience barb, then manual pulling out can.

The fixed and the rebound barbs can also be arranged on the bottom surface or the back surface, wherein the fixed and the rebound barbs can adopt a spring-up mode or a back surface or side surface upright post lifting and contracting insertion mobile power supply fixing mode.

The arrangement mode of the power supply interface, the data communication interface and the water drainage groove at the bottom can also be changed, and the power supply interface can realize related functions in the middle or on the right side.

Example (c):

the present example provides a mobile power supply and a fixture on a shared device.

Fig. 15 is a schematic structural diagram of a mobile power supply. The mobile power supply may include:

the communication interface 1 can be used for establishing connection with the sharing equipment and carrying out information interaction with the sharing equipment;

the charging interface 2 can be used for charging the mobile power supply;

the second power supply interface 3 can be used for supplying power to user equipment such as a mobile phone and the like;

a first power supply interface 4 operable to supply power to the shared device;

the near field communication module 5, for example, a bluetooth communication module, an infrared communication module, a WiFi communication module, or an NFC communication module, may be used for communicating with a user equipment such as a mobile phone;

the remote communication module 6, for example, an internet of things communication module, can perform information interaction with a server on the network side;

the portable power source body 7 includes: the casing of portable power source and be located casing battery etc..

In the portable power source shown in fig. 15, the communication interface 1 for communicating with the shared device and the first power supply interface 4 for supplying power to the shared device are disposed on one side surface, so that the side surface can be inserted into a socket or a mounting base provided in the shared device, thereby facilitating insertion and removal of a user.

The portable power source shown in fig. 15 is a rectangular power source, and optionally, various wired interfaces are provided on one side surface, and the side surface is a surface for connecting with a socket or a mounting base of the shared device. In this way, all wired interfaces are covered once the mobile power supply is plugged into the sharing device, so that the wired interfaces are protected.

In other embodiments, a first fixing module is further disposed on the mobile power source, and the first fixing module can stably fix the mobile power source on the sharing device. In some embodiments, the first fixed module may change the posture of the fixed module by a human power of a user, so that the mobile power supply and the shared device are in a locked state or an unlocked state. In other embodiments, the mobile power supply is provided with a controller or a control circuit for controlling the posture of the first fixed module, and the controller or the control circuit controls the posture of the first fixed module through the output of a control signal, so as to achieve the purposes of locking and unlocking.

Fig. 16, 17, 18 and 19 are all devices for installing or plugging in the mobile power supply on the shared device, and the devices may be referred to as fixing devices.

The fixing means shown in fig. 16 to 19 may comprise:

fixing device main body 11:

the telecommunications module 12, for example, may include: the Internet of things communication module can be used for being connected with a server on a network side;

the short-range communication module 13 may include: the NFC or Bluetooth communication module can be used for information interaction with user equipment such as a mobile power supply and/or a mobile phone;

a securing device 24, which may include a securing ring, for securing to the shared device;

the charging interface 15 can be used for receiving power supply of the mobile power supply;

drainage channel 16, including one or more strip-shaped groove, can be used to the ponding, and for example, open-air shared equipment in rainwater weather will have ponding, through drainage channel 16's setting, can prevent ponding in the fixing device like this to better protection portable power source.

The communication interface 17 may be configured to communicate with a mobile power source, in this embodiment, the communication interface 17 may include various connection pins, and in this embodiment, the connection pins may be pogo pins, so as to improve connection stability.

The first fixing module 18 may include: and the elastic barb can be clamped into a clamping groove arranged on the surface of the mobile power supply in the locking posture, for example, the elastic barb can be clamped into a clamping groove on the side surface of the mobile power supply. When the elastic barb is in the unlocking posture, the elastic barb retreats from the clamping groove of the mobile power supply, so that the unlocking purpose is achieved. The elastic barb is one of the movable clamping hooks, and the clamping groove can be one of the clamping grooves.

The above provides a fixing device for installing or fixing a mobile power supply on a mobile power supply and a shared device, and the specific implementation is not limited to any one of the above.

In this embodiment, the sharing device is provided with a socket or a mounting seat of a mobile power supply, and after the mobile power supply is inserted into the socket or the mounting seat, the power supply interface of the mobile power supply and the charging interface of the sharing device establish a wired connection in a contact or insertion manner, or automatically establish a wireless connection because of a reduced distance.

In summary, in this embodiment, the mobile power source may establish a connection with a shared device. After the connection establishment is completed, the user device and the sharing device may interact with each other through electrical signals, where the electrical signals may include: one or more of a charging signal and a data signal.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (24)

1. An information processing method applied to a mobile power supply which has communication capability and can supply power to a sharing device, comprises the following steps:

establishing a connection with the sharing device;

determining whether the mobile power supply is in a binding relationship with a user account, and if the mobile power supply is not in the binding relationship with the user account, establishing the binding relationship between the mobile power supply and the user account through information interaction with user equipment; if the mobile power supply and the user account are bound, sending preset information to the sharing equipment by using the connection, wherein the preset information is used for triggering the sharing equipment to execute unlocking operation;

acquiring first state information of the sharing equipment;

based on the first state information, carrying out charging operation on the user account number which is in the binding relationship with the mobile power supply; wherein the charging operation comprises:

if the mobile power supply is a shared power supply, detecting and recording the electric quantity of the mobile power supply;

when the fact that the electric quantity of the mobile power supply at a second moment is larger than the electric quantity at a first moment is determined according to the recorded electric quantity, a charging operation of charging incentive issuing is executed on the user account, wherein the second moment is later than the first moment;

determining whether the mobile power supply meets an unbinding condition;

and when the mobile power supply meets the unbinding condition, releasing the binding relationship between the mobile power supply and the user account.

2. The method of claim 1, wherein the determining whether the mobile power source satisfies a unbinding condition comprises at least one of:

when the shared device stops using and the mobile power supply is left on the shared device, determining that the mobile power supply meets a first unbinding condition;

when the mobile power supply receives a unbinding instruction, determining that the mobile power supply meets a second unbinding condition.

3. The method of claim 2, further comprising:

and shielding the operation of releasing the binding relation triggered by the first unbinding condition when the mobile power supply is determined to meet the first unbinding condition and a binding maintaining instruction sent by user equipment or a server is received.

4. The method according to any one of claims 1 to 3, wherein the charging operation for the user account that has established the binding relationship with the mobile power supply based on the first state information at least includes one of:

charging the user account for using the shared equipment based on the first state information;

when the mobile power supply meets a first preset condition, performing power consumption charging on the user account by using the mobile power supply;

and thirdly, when the mobile power supply meets a second preset condition, executing power supply charging of the mobile power supply to the user account.

5. The method according to claim 4, wherein when the mobile power supply meets a first preset condition, performing power consumption billing on the user account by using the mobile power supply comprises:

and when the mobile power supply is a shared power supply, performing power consumption charging on the user account by using the mobile power supply.

6. The method according to claim 4, wherein when the mobile power supply satisfies a second preset condition, performing power supply billing of the mobile power supply for the user account includes:

and when the mobile power supply is a private power supply held by the user, executing charging operation of power supply incentive issuing on the user account.

7. The method according to any one of claims 1 to 3, wherein the charging operation for the user account with which the binding relationship with the mobile power supply has been established based on the first state information includes:

determining a current charging policy;

and based on the first state information, carrying out charging operation on the user account by using the current charging strategy.

8. The method of claim 7, wherein determining the current charging policy comprises at least one of:

when the sharing equipment is in a power consumption working mode, adopting a charging strategy for simultaneously carrying out usage charging and power consumption charging on the sharing equipment as the current charging strategy;

and when the sharing equipment is in a non-power consumption working mode, adopting a charging strategy for carrying out use charging on the sharing equipment as the current charging strategy.

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

detecting second state information of the mobile power supply; the second state information is used for a server or user equipment to obtain a state prompt of the mobile power supply, or the second state information is used for the server to determine a charging policy of the mobile power supply.

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

determining whether the mobile power supply meets a immobilizer condition;

when the mobile power supply does not meet the fixation releasing condition, locking the fixed state of the mobile power supply and the shared equipment; and/or when the mobile power supply meets the fixation releasing condition, releasing the fixation state of the mobile power supply and the shared equipment.

11. The method of claim 10,

the releasing of the fixed state of the mobile power supply and the shared device comprises:

sending a fixation releasing instruction to the sharing equipment; the fixing release instruction is used for triggering a first fixing module of the sharing equipment to be switched from a fixing posture to a non-fixing posture.

12. The method according to claim 11, wherein a fixing device for fixing the mobile power supply is arranged on the sharing device;

the fixing device includes: a first fixed module;

the fixing releasing instruction is used for triggering the first fixing module of the sharing equipment to withdraw from the clamping groove of the mobile power supply so as to release the fixing state.

13. The method of claim 10, wherein releasing the mobile power source and the shared device from the fixed state comprises:

generating a fixed unlocking instruction;

and controlling a second fixed module of the mobile power supply to be switched from a fixed posture to a non-fixed posture according to the fixed unlocking instruction.

14. An information processing method, applied to a sharing device, includes:

establishing a connection with a mobile power source capable of providing power to the sharing device;

receiving preset information sent from the mobile power supply when the mobile power supply establishes a binding relationship with a user account of user equipment based on the connection; the binding relationship is established by the mobile power supply through information interaction with user equipment, and is released when the mobile power supply meets the unbinding condition;

executing unlocking operation according to the preset information;

detecting first state information of the sharing device;

sending the first state information to the mobile power supply, wherein the first state information is used for charging the mobile power supply for a user account number which has a binding relationship with the mobile power supply;

wherein the method further comprises:

if the mobile power supply is a shared power supply, the mobile power supply detects and records the electric quantity of the mobile power supply;

and when the mobile power supply determines that the electric quantity of the mobile power supply at a second moment is larger than that at a first moment according to the recorded electric quantity, the mobile power supply executes charging operation of charging incentive issuing on the user account, wherein the second moment is later than the first moment.

15. The method of claim 14, further comprising:

receiving a fixation release instruction sent by the mobile power supply;

and controlling a first fixed module of the sharing equipment to be switched from a fixed posture to a non-fixed posture according to the fixation releasing instruction.

16. An electronic device, wherein the electronic device is a mobile power source, comprising:

the first processing module is used for determining whether the mobile power supply is in a binding relationship with a user account;

the first communication module is connected with the first processing module and used for establishing a first connection with shared equipment and sending preset information to the shared equipment through the first connection when the mobile power supply is bound with the user account, wherein the preset information is used for the shared equipment to execute unlocking operation; the binding relation is established by the mobile power supply through information interaction with user equipment;

the battery module is used for storing electric energy;

the first charging interface is connected with the battery module and used for charging the battery module;

a first power supply interface capable of providing power to the sharing device;

the first acquisition module is used for acquiring first state information of the sharing equipment;

the first processing module is further configured to perform a charging operation based on the first state information; wherein the charging operation comprises: if the mobile power supply is a shared power supply, detecting and recording the electric quantity of the mobile power supply; when the fact that the electric quantity of the mobile power supply at a second moment is larger than the electric quantity at a first moment is determined according to the recorded electric quantity, a charging operation of charging incentive issuing is executed on the user account, wherein the second moment is later than the first moment;

the first processing module is further used for determining whether the mobile power supply meets the unbinding condition, and when the mobile power supply meets the unbinding condition, the binding relationship between the mobile power supply and the user account is released.

17. The electronic device of claim 16,

the first communication module is further used for acquiring first state information from the sharing equipment;

the first processing module is further configured to perform a charging operation based on the first state information.

18. The electronic device of claim 16, wherein the mobile power source further comprises:

the second communication module is used for carrying out remote communication with a server on the network side;

and/or the presence of a gas in the gas,

and the third communication module is used for carrying out near field communication with the user equipment.

19. The electronic device of claim 16, wherein the mobile power source further comprises: a second fixed module;

the first processing module is further used for generating a first control signal when the mobile power supply meets a fixation release condition;

and the second fixed module is used for switching from a fixed posture to a non-fixed posture according to the first control signal.

20. The electronic device of claim 16, wherein the mobile power source further comprises:

and the second power supply interface is used for supplying power to the user equipment.

21. An electronic device, wherein the electronic device is a sharing device, comprising:

the fourth communication module is used for establishing connection with a mobile power supply and receiving preset information sent by the mobile power supply when the mobile power supply is bound with a user account of user equipment through the connection; the binding relation is established by the mobile power supply through information interaction with the user equipment; the binding relation is released when the mobile power supply meets the unbinding condition;

the second charging interface is used for being connected with the first power supply interface of the mobile power supply and receiving power supply of the mobile power supply;

the lock module is used for executing unlocking operation based on the preset information;

the second detection module is used for detecting the first state information of the sharing equipment;

the fourth communication module is further configured to send the first state information to the mobile power supply, where the first state information is used for the mobile power supply to perform charging operation; if the mobile power supply is a shared power supply, the mobile power supply detects and records the electric quantity of the mobile power supply; and when the mobile power supply determines that the electric quantity of the mobile power supply at a second moment is larger than that at a first moment according to the recorded electric quantity, the mobile power supply executes charging operation of charging incentive issuing on the user account, wherein the second moment is later than the first moment.

22. The electronic device of claim 21, wherein the shared device further comprises:

and the fixing device is used for fixing the mobile power supply.

23. The electronic device of claim 22, wherein the fixture comprises: a first fixed module;

and the first fixed module is used for switching from a fixed posture to a non-fixed posture according to a fixation releasing instruction.

24. A computer storage medium storing a computer program; the computer program is capable of implementing the information processing method provided in any one of claims 1 to 15 when executed.

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