CN107393178B - Mobile power supply, mobile power supply system, sharing request method, intelligent terminal and storage medium - Google Patents

Abstract

The invention discloses a mobile power supply, a mobile power supply system, a mobile power supply sharing request method and an intelligent terminal. The mobile power supply comprises a battery cell and a controllable output circuit, and the controllable output circuit is connected with the battery cell; a first wireless communication module configured with first identity information; and a first microprocessor coupled to the controllable output circuit and the first wireless communication module, the first microprocessor configured to: receiving, by the first wireless communication module, a control instruction; and controlling the working state of the controllable output circuit according to the control instruction and a first preset control rule. On the basis of a common mobile sharing mobile power supply, the mobile power supply can better interact with a user only by adding a small amount of software and hardware, can collect the operation data of the mobile power supply and upgrade the internal software program of the mobile power supply conveniently and quickly in real time, and achieves the technical effect of remarkably reducing the daily operation cost of the sharing mobile power supply.

Description

Mobile power supply, mobile power supply system, sharing request method, intelligent terminal and storage medium

Technical Field

The invention relates to the technical field of mobile power supply sharing, in particular to a mobile power supply, a mobile power supply system, a mobile power supply sharing request method and an intelligent terminal.

Background

Currently, in the technical field of shared mobile power supplies, the shared mobile power supplies on the market are generally of two types as follows. One of the common shared mobile power sources is a common shared mobile power source, that is, only a basic charging function is provided, and no additional communication function is provided, so that the common mobile power source cannot access the internet, and the management mode is single. The common shared mobile power supply is simple in structure and low in price, but cannot communicate with external equipment, so that a shared user cannot control the mobile power supply when sharing the mobile power supply, and a shared operator and a shared manager of the common shared mobile power supply cannot conveniently operate and manage the common shared mobile power supply, so that the common shared mobile power supply is not beneficial to rapid and large-area commercial popularization. The other is an intelligent shared mobile power supply, that is, on the basis of providing a basic charging function, a communication function is additionally provided, that is, a dedicated communication Module and a Subscriber Identity Module Card (SIM Card) are configured. The intelligent sharing mobile power supply can be accessed to the Internet through the communication module and the SIM card. The sharing operation party and the sharing management party of the intelligent sharing mobile power supply can conveniently and quickly collect operation data such as the position, the operation condition, the use condition and the like of the intelligent sharing mobile power supply in real time through the communication module and the exclusive SIM card, and simultaneously can conveniently and quickly update the internal software program and the like of the intelligent sharing mobile power supply. However, compared with a common shared mobile power supply, the intelligent shared mobile power supply has a complex structure, high software and hardware costs and high operation costs, and is not beneficial to rapid and large-area commercial promotion.

Disclosure of Invention

In view of this, embodiments of the present invention provide a mobile power supply, a mobile power supply system, a mobile power supply sharing request method, an intelligent terminal and a storage medium, and aim to solve the technical problems that a common shared mobile power supply lacks an interaction function with an external object, the structure of the intelligent shared mobile power supply is complex, and the costs of software and hardware and daily operation are high, so that the shared mobile power supply cannot be commercially popularized in a large area and quickly.

In order to achieve the purpose, the invention adopts the following technical scheme:

in a first aspect, an embodiment of the present invention provides a mobile power supply, including a battery cell, where the mobile power supply further includes:

the controllable output circuit is connected with the battery cell;

a first wireless communication module configured with first identity information; and

a first microprocessor coupled to the controllable output circuit and the first wireless communication module and configured to:

receiving, by the first wireless communication module, a control instruction;

and controlling the working state of the controllable output circuit according to the control instruction and a first preset control rule.

Further, the mobile power supply further includes:

and the first communication interface is connected with the first microprocessor and used for enabling the first microprocessor to report the first identity information to a communication unit in communication connection with the first communication contact based on a preset communication protocol.

According to the mobile power supply provided by the embodiment of the invention, on the basis of common shared mobile power supply, only by adding the controllable output circuit, the first wireless communication module and the first microprocessor, external objects such as the user terminal, the operation terminal and/or the shared management server can be in communication connection with the mobile power supply by using the first wireless communication module, so that a control instruction is sent to the first microprocessor, and the first microprocessor can control the controllable output circuit according to the control instruction and a preset control rule. The mobile power supply provided by the embodiment of the invention can better interact with an external object under the condition that the cost of software and hardware is increased little.

Compared with an intelligent sharing mobile power supply with an SIM card, the mobile power supply provided by the embodiment of the invention does not need to be configured with the SIM card, so that the structure of the mobile power supply is simpler, and the cost of software and hardware is reduced. Meanwhile, after an external object such as a user terminal, an operation terminal or a sharing management server which can be used for surfing the internet establishes communication connection with the mobile power supply, a sharing operator and a sharing management party of the mobile power supply can utilize the external object to enable the mobile power supply to be connected to the internet, conveniently and quickly collect daily operation data of the mobile power supply in real time, download an internal software program of the mobile power supply and the like. The technical effect of remarkably reducing the daily operation cost of the mobile power supply on the basis of reducing the manufacturing cost of software and hardware is achieved.

In addition, compared with a common shared mobile power supply and an intelligent shared mobile power supply, the mobile power supply provided by the embodiment of the invention can receive a control instruction of an external object, and the control instruction and the first preset control rule can be adjusted and selected in real time according to the requirements of a user, so that the mobile power supply provided by the embodiment of the invention can flexibly meet the requirements of the user and adjust a charging strategy, and the user experience is remarkably improved.

In a second aspect, an embodiment of the present invention provides a mobile power management system, including:

at least one mobile power supply as described above for sharing;

a first sharing management server for managing the sharing-related data;

the first intelligent terminal is configured with second identity information and is configured to be associated with the first sharing management server through the second identity information; and

the second terminal is configured with third identity information and is configured to be associated with the first sharing management server and the first sharing operator through the third identity information;

wherein the first sharing management server is further configured to: storing first geographical position information of the second terminal, so that the first geographical position information can be acquired after the first intelligent terminal is in communication connection with the first shared management server; the first sharing management server is further configured to:

receiving a sharing request sent by the first intelligent terminal to the first sharing management server, wherein the sharing request comprises a renting request, a returning request, a purchasing request and a refunding request;

sending a sharing code to the first intelligent terminal according to the sharing request;

receiving the sharing code and the first identity information sent by the second terminal to the first sharing management server;

and establishing or releasing a first sharing relation among the first identity information, the second identity information and the third identity information according to the sharing code and the first identity information.

On the basis of the mobile power supply provided by the above embodiment of the present invention, in the mobile power supply system provided by the embodiment of the present invention, by using the first sharing management server (corresponding to the first sharing management party), according to the sharing request sent by the first intelligent terminal (corresponding to the user terminal, through which the second identity information is configured to be associated with the first sharing management server) to the first sharing management server, the sharing code corresponding to the sharing request is sent to the first intelligent terminal; enabling a second terminal (corresponding to an operation terminal, and enabling third identity information configured by the operation terminal to be associated with a first sharing management server and a first sharing operator), and sending the sharing code, the first identity information of the mobile power supply of the target to be shared and the third identity information of the second terminal to the first sharing management server according to the mobile power supply of the target to be shared; so that the first sharing management server (corresponding to the first sharing manager) can establish or release the first sharing relationship based on the first identity information (corresponding to the intended sharing target mobile power supply), the second identity information (corresponding to the user terminal) and the third identity information (corresponding to the first sharing operator). The management of the dynamic sharing relationship of a plurality of mobile power supplies provided by the embodiment of the invention among a plurality of first intelligent terminals is efficiently and quickly realized, so that the technical problem that the mobile power supplies provided by the embodiment of the invention are rapidly and commercially popularized in a large area in a commercial society is solved.

In a third aspect, an embodiment of the present invention provides a system for managing a mobile power supply, including:

at least one mobile power supply comprising a first communication interface as described above for sharing;

a second sharing management server for managing the sharing-related data;

the third intelligent terminal is configured with fourth identity information and is configured to be associated with the second sharing management server through the fourth identity information; and

at least one intelligent cabinet configured with:

the second communication module is configured with fifth identity information and is configured to be associated with the second shared management server and a second shared operator through the fifth identity information;

at least one holds the chamber, be used for holding portable power source, hold and dispose on the chamber:

a second communication interface, coupled to the first communication interface, and coupled to the second communication module, wherein when the portable power source is locked in the receiving cavity, the second communication interface is communicatively coupled to the first communication interface, such that the microprocessor can report the first identity information to the second communication interface via the first communication interface based on the predetermined communication protocol;

the identity recognition module is connected with the second communication module and used for providing an identity recognition address of the accommodating cavity for the second communication module; and

a controllable locking mechanism for locking and unlocking the mobile power supply accommodated in the accommodating cavity;

a second microprocessor coupled to the controllable locking mechanism and the second communication module and configured to:

reporting first identity information of the mobile power supply locked in the accommodating cavity and a corresponding relation between the first identity information and the identification address to the second shared management server through the second communication module;

receiving control information sent by the second sharing management server through the second communication module, wherein the control information comprises first identity information and/or the identity identification address corresponding to the mobile power supply of the target to be shared;

according to the control information and a second preset control rule, controlling the controllable locking mechanism to lock or unlock the to-be-shared target mobile power supply accommodated in the accommodating cavity;

the second sharing management server is used for storing second geographical position information of the charging cabinet, so that the first intelligent terminal can acquire the second geographical position information after being in communication connection with the second sharing management server; the second shared management server is further configured to:

receiving a sharing request sent by the third intelligent terminal to the second sharing management server, wherein the sharing request comprises the fifth identity information, and the sharing request comprises a lease request or a purchase request;

according to the sharing request and a third preset control rule, the control information is sent to the second communication module;

establishing or releasing a second sharing relation among the first identity information, the fourth identity information and the fifth identity information according to the sharing request, wherein the second sharing relation comprises a renting relation or a purchasing relation; or

Receiving first identity information of the mobile power supply locked in the accommodating cavity reported to the second shared management server by the second communication module and a corresponding relation between the first identity information and the identification address;

and establishing or releasing a third sharing relationship among the first identity information, the fourth identity information and the fifth identity information according to the first identity information and the second sharing relationship, wherein the third sharing relationship comprises a return relationship and a return relationship, the third relationship is the return relationship when the second sharing relationship is a lease relationship, and the third relationship is the return relationship when the second relationship is a purchase relationship.

On the basis of the mobile power supply including the first communication interface provided by the embodiment of the present invention, in the mobile power supply system provided by the embodiment of the present invention, the intelligent cabinet reports the first identity information of the mobile power supply locked in the accommodating cavity and the corresponding relationship between the first identity information and the identification address of the accommodating cavity to the second shared management server through the second communication module, so that the second shared management server can dynamically manage the one-to-one corresponding relationship between the plurality of mobile power supplies provided by the embodiment of the present invention and the plurality of accommodating cavities in the plurality of intelligent cabinets.

When the third intelligent terminal (corresponding to the user terminal, and the configured fourth identity information is associated with the second sharing management server), sending a sharing request (such as a lease request or a purchase request) including fifth identity information (corresponding to the target intelligent cabinet and/or the second sharing operator) to the second sharing management server; the second sharing server sends control information to the intelligent cabinet according to the sharing request (such as a lease request or a purchase request) and a third preset control rule, wherein the control information comprises first identity information corresponding to the mobile power supply of the target to be shared and/or an identity identification address corresponding to an accommodating cavity of the intelligent cabinet; and the second sharing server (corresponding to the second sharing manager) establishes or releases a second sharing relationship (such as a renting relationship or a purchasing relationship) based on the first identity information (corresponding to the target mobile power supply to be shared), the fourth identity information (corresponding to the user terminal) and the fifth identity information (the intelligent cabinet and the second sharing operator) according to the sharing request (corresponding to the fourth identity information). And when the renting relationship or the purchasing relationship exists previously, the second sharing server establishes or releases the returning relationship or the returning relationship among the first identity information, the fourth identity information and the fifth identity information according to the returning or returning sharing request and the renting relationship or the purchasing relationship. The management of the dynamic sharing relation of the mobile power supply provided by the embodiment of the invention among the plurality of first intelligent terminals can be efficiently and quickly realized,

the intelligent cabinet controls the controllable locking mechanism to lock or unlock the mobile power supply of the target to be shared in the accommodating cavity according to the control information and a second preset control rule, so that a user (corresponding to a user terminal) can rent or purchase the mobile power supply provided by the embodiment of the invention in an unattended intelligent cabinet. Therefore, the technical problem that the mobile power supply provided by the embodiment of the invention is rapidly popularized in a large-area commercial society is solved.

In a fourth aspect, an embodiment of the present invention provides a mobile power supply sharing request method, which is applied to a fourth intelligent terminal having sixth identity information, and requests to share the mobile power supply, where the method includes:

establishing, by the first wireless communication module, the first wireless communication connection with the mobile power supply;

receiving information of a target shared charging mode;

obtaining the first charging time according to the information;

and sending the first control instruction to the mobile power supply through the first wireless communication connection, wherein the first control instruction comprises the first charging duration.

In a fifth aspect, an embodiment of the present invention provides an intelligent terminal, where the intelligent terminal includes:

one or more first processors;

a first storage device for storing one or more programs;

when the one or more programs are executed by the one or more first processors, the one or more first processors are caused to implement the mobile power source sharing request method as described above.

In a sixth aspect, an embodiment of the present invention provides a computer-readable storage medium, on which a computer program is stored, where the computer program is executed by a processor to implement the mobile power source sharing method described above.

On the basis of the mobile power supply provided by the embodiment of the invention, the mobile power supply sharing request method, the intelligent terminal and the storage medium provided by the embodiment of the invention utilize a fourth intelligent terminal (corresponding to a user terminal) to establish a first wireless communication connection with the mobile power supply through a first wireless communication module; receiving a target sharing charging mode (such as watching 1 minute of commercial advertisement and exchanging for a free charging time period of 30 minutes) selected by a user on a fourth intelligent terminal, and obtaining a first charging time period (such as 30 minutes) of the mobile power supply after the user finishes watching the 1 minute of commercial advertisement on the fourth intelligent terminal; and then, sending a first control instruction to the mobile power supply through the first wireless communication module, wherein the first control instruction includes the first charging duration (for example, 30 minutes). Therefore, the first microprocessor of the mobile power supply provided by the embodiment of the invention controls the controllable output circuit to be turned on for 30 minutes according to the first control instruction and the first preset control rule. Therefore, a user can conveniently use (share) the mobile power supply to charge a fourth intelligent terminal or other electronic equipment connected with the controllable output circuit for 30 minutes; meanwhile, the mobile power supply can better interact with an external object (such as a user terminal) according to an external control instruction and a preset control rule. Therefore, the technical problem that the mobile power supply provided by the embodiment of the invention is rapidly popularized in a large-area commercial society is solved.

Drawings

Fig. 1A is a block diagram of a mobile power supply according to an embodiment;

fig. 1B is a flowchart of a charging method of a mobile power supply according to an embodiment;

fig. 1C is a block diagram of another mobile power supply provided in the first embodiment;

fig. 1D is a diagram of a mobile power source sharing application scenario provided in the first embodiment;

fig. 2A is a flowchart of a charging method of a mobile power supply according to the second embodiment;

fig. 2B is a flowchart of another charging method for a mobile power supply according to the second embodiment;

fig. 2C is a flowchart of a charging method for a mobile power supply according to another embodiment;

fig. 3A is a structural diagram of a mobile power supply system according to a third embodiment;

fig. 3B is a flowchart of a charging method of a mobile power supply system according to the third embodiment;

fig. 4A is a structural diagram of a mobile power supply system according to a fourth embodiment;

fig. 4B is a flowchart of a charging method of a mobile power supply system according to the fourth embodiment;

fig. 4C is a flowchart of another charging method of a mobile power supply system according to the fourth embodiment;

fig. 4D is a flowchart of another charging method of the mobile power supply system according to the fourth embodiment;

fig. 5 is a flowchart of a method for sharing a mobile power supply according to the fifth embodiment;

fig. 6 is a flowchart of a method for sharing a mobile power supply according to a sixth embodiment;

fig. 7 is a flowchart of a method for sharing a mobile power supply according to the seventh embodiment;

fig. 8 is a functional module schematic diagram of an intelligent terminal according to an eighth embodiment.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be noted that, for convenience of description, only a part of structures related to the embodiments of the present invention, not all of the structures, are shown in the drawings. In addition, the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

Example one

As shown in fig. 1A, the mobile power supply 100A provided in this embodiment includes a battery cell 110, a controllable output circuit 120, a wireless communication module 130, and a microprocessor 140. The controllable output circuit 110 is connected to the battery cell 100; the wireless communication module 130 is configured with an identity information ID 1; the microprocessor 140 is connected to the controllable output circuit 120 and the wireless communication module 130, as shown in fig. 1B, the microprocessor 140 is further configured to perform the following method steps:

step 110: the control instruction is received through the wireless communication module 130.

Step 120: according to the control instruction, the operating state of the controllable output circuit 120 is controlled according to a first preset control rule.

The battery cell 110 may be a lithium ion battery, and may be divided into a lithium cobalt oxide battery cell, a lithium nickel cobalt manganese battery cell and a lithium iron phosphate battery cell according to a positive electrode material, and the battery cell is used for providing electric energy for an external load connected to the controllable output circuit.

The wireless communication module 130 may be a bluetooth module, a wifi (wireless fidelity) module, or an RF (Radio Frequency) module, as long as the wireless communication module can communicate with various intelligent terminals.

The control instruction may be an external control instruction sent by a user terminal (e.g., a smart phone), an operation terminal (e.g., a smart phone) and/or a shared management server in communication connection with the mobile power supply 100A, a specific sending party of the control instruction is not limited in the present invention, and for convenience of subsequent description, the following description of the present invention will be given by taking an example of sending the control instruction from the user terminal or the operation terminal.

The first preset control rule may be implemented by software and/or hardware disposed in the first microprocessor 140. The first preset control rule may be different charging modes of the mobile power supply in different sharing modes according to different control instructions and corresponding adaptability adjustment.

As shown in fig. 1C, the mobile power supply 100C provided in this embodiment further includes a communication interface 150 on the basis of the mobile power supply 100 provided in this embodiment, and the communication interface 150 is connected to the microprocessor 140. The communication interface 150 is configured to enable the microprocessor 140 to report the identity information ID1 configured by the wireless communication module 130 to the communication unit 160 connected to the communication interface 150 based on a preset communication protocol.

The communication Interface 150 may be a common Inter-chip communication Interface such as a Serial Peripheral Interface (SPI), an Inter-Integrated Circuit (I2C), an Asynchronous Receiver/Transmitter (UART), or a common Inter-device communication Interface such as a USB Interface or a network Interface. It should be noted that, when the communication interface 150 (e.g., the I2C interface) is determined, the predetermined communication protocol (i.e., the I2C bus protocol) is determined accordingly. The invention does not limit the specific type and specification of the communication interface 150, but for the convenience of the following description, the invention will be described by taking the I2C interface as an example.

The communication unit 160 may be various microprocessors similar to the microprocessor 140, or various wireless or wired communication modules similar to the wireless communication module 130.

In order to distinguish the mobile power supply 100C in fig. 1B from the mobile power supply 100A in fig. 1A, the identity information of the wireless communication module 130 in fig. 1B is denoted as ID 1' to be distinguished from the identity information ID1 of the wireless communication module 130 in fig. 1A.

As shown in fig. 1D, a typical mobile power source sharing application scenario includes: a mobile power supply sharing operator 100 (hereinafter referred to as sharing operator 100) composed of a plurality of mobile power supplies 100A having identity information ID1 shown in fig. 1A and/or a plurality of mobile power supplies 100C having identity information ID 1', operator terminals 190 having identity information ID3 and sharing operator servers C shown in fig. 1B, wherein the operator terminals 190 are configured with bluetooth modules 191 and installed with mobile power supply sharing operator Applications (APP) 192 (hereinafter referred to as operator applications 192); the mobile power supply sharing system comprises a user A, a user terminal 210 with identity information ID2, a user B and a user terminal 220, wherein the user A owns the user terminal 210, the user B owns the user terminal 220, and the user terminal 210 is provided with a Bluetooth module 211 and a mobile power supply sharing user application 212 (hereinafter referred to as user application 212); and a mobile power supply sharing manager 300 (hereinafter referred to as sharing manager 300) formed by the sharing management server 310, wherein the operation terminal 190 registers the identity information ID3 on the sharing management server 310 through the operation application 192, and associates the identity information ID3 with the sharing operator 100; the user terminal 210 is registered with the identity information ID2 on the shared management server 310 through the user application 212.

In the application scenario of renting a portable power source, the user a uses the user terminal 210 to send a lease request to the sharing management server 310 through the user application 211 (corresponding to the ID2), and intends to rent one portable power source 100A or 100C from a certain sharing operator 100. The shared operation server C of the shared operator 100 transmits the identification information ID1 of the mobile power supply 100A or 100C (corresponding to the target leased mobile power supply) to be leased to the operation management server 310 by using the operation application 192 (corresponding ID3) on the operation terminal 190. After the operation management server 310 establishes the lease relationship corresponding to the identity information ID1 of the mobile power supply 100A or 100C, the identity information ID2 of the user terminal 210, and the identity information ID3 of the operation terminal 190, the user a leases one mobile power supply 100A or 100C from the shared operator 100. For example, the user a may also obtain the identity information ID1 or ID 1' of the mobile power supply 100A or 100C by scanning a two-dimensional code printed or posted on the mobile power supply 100A or 100C directly using a code scanning program installed on the user terminal 210. Also, the identity information ID1 or ID 1' of the mobile power supply 100A or 100C is automatically transmitted to the operation management server 310 through the user application 212 on the user terminal 210. The operation management server 310 establishes a lease relationship corresponding to the identity information ID1 of the mobile power supply 100A or 100C, the identity information ID2 of the user terminal 210, and the identity information ID3 of the operation terminal 190, according to the identity information ID1 or ID 1' of the mobile power supply 100A or 100C.

The user a can establish the bluetooth connection 213 with the wireless communication module 130 through the user application 211 using the bluetooth module 211 by using the user terminal 210 during the use of the portable power source 100A or 100C. The user a sends a first control instruction (e.g., start charging for 30 minutes) to the mobile power supply 100A or 100C through the bluetooth connection 213 by using the user terminal 210, so that the wireless communication module 130 in fig. 1A or 1B receives the first control instruction. Then, the microprocessor 140 controls the operating state of the controllable output circuit 120 according to the first control instruction and the first preset control rule, so as to control the operating state of the mobile power supply 100A or 100C, and determine the charging mode of the mobile power supply 100A or 100C to charge the external load connected to the controllable output circuit 120, such as the user terminal 210 or the user terminal 220.

In the application scenario of purchasing a mobile power supply, the user a uses the user terminal 210 to send a purchase request to the sharing management server 310 through the user application 211 (corresponding to the ID2), and intends to purchase one mobile power supply 100A or 100C from a certain sharing operator 100. The sharing operation server C of the sharing operator 100 transmits the identification information ID1 of the portable power source 100A or 100C (corresponding to the target rented portable power source) to be sold to the sharing management server 310 by using the operation application 192 (corresponding ID3) on the operation terminal 190. After the sharing management server 310 establishes the purchase relationship corresponding to the identity information ID1 of the mobile power source 100A or 100C, the identity information ID2 of the user terminal 210, and the identity information ID3 of the operator terminal 190, the user a purchases one mobile power source 100A or 100C from the sharing operator 100. In order to allow the user a to use the mobile power supply 100A or 100C without any limitation at a later stage, the shared operation server C may establish a bluetooth connection with the wireless communication module 130 through the operation application 192 by using the bluetooth module 191 by using the operation terminal 190. The sharing operation attendant C reuses the operation terminal 190 to send a third control instruction (such as changing from the common shared mobile power supply to the non-fixed-term shared mobile power supply) to the mobile power supply 100A or 100C through the bluetooth connection, so that the wireless communication module 130 in fig. 1A or 1B receives the third control instruction.

For example, the user a may also purchase the mobile power source 100A or 100C directly by using the user terminal 210 through a scanning program in the user application 211 (corresponding to the ID2) and by scanning a two-dimensional code (corresponding to the identification information ID1 or ID 1' of the mobile power source 100A or 100C) printed or posted on the mobile power source 100A or 100C. The user application 211 may be configured such that, after the scanning is completed, the user application 211 (corresponding to the ID2) automatically sends the identity information ID1 or ID 1' of the mobile power source 100A or 100C to the shared management server 310. After receiving the identity information ID1 or ID1 ' of the mobile power source 100A or 100C sent by the user application 211, the shared management server 310 establishes a purchase relationship corresponding to the identity information ID1 or ID1 ' of the mobile power source 100A or 100C, the identity information ID2 of the user terminal 210, and the identity information ID3 of the operator terminal 190, according to the identity information ID1 or ID1 ' of the mobile power source 100A or 100C. So that after user a purchases one of the mobile power supplies 100A or 100C from the operator 100, user a automatically sends a third control instruction to the mobile power supply 100A or 100C through the user application 211 (corresponding ID2) on the user terminal 210.

Then, the microprocessor 140 controls the operating state of the controllable output circuit 120 to be normally open according to a third preset control rule according to a third control instruction. Thereby changing the mobile power supply 100A or 100C from a common shared mobile power supply to a non-fixed-term shared mobile power supply even if the mobile power supply 100A or 100C is capable of charging an external load, such as the user terminal 210 or the user terminal 220, connected to the controllable output circuit 120 without a fixed term.

In summary, in the mobile power supply 100A or 100C provided in this embodiment, on the basis of a common shared mobile power supply, only by adding the controllable output circuit 120, the wireless communication module 130 and the microprocessor 140, external objects such as the user terminal 210, the operation terminal 190 and/or the shared management server 310 can establish communication connection with the mobile power supply 100A or 100C by using the wireless communication module 130, so as to send a control instruction to the microprocessor 140, and the microprocessor 140 can control the controllable output circuit 120 according to the control instruction and a preset control rule. The technical effect that the mobile power supply 100A or 100C can better interact with an external object under the condition that the cost of software and hardware is slightly increased is achieved.

Compared with an intelligent sharing mobile power supply with an SIM card, the mobile power supply 100A or 100C does not need to be configured with the SIM card, so that the structure of the mobile power supply 100A or 100C is simpler, and the cost of software and hardware is reduced. Meanwhile, after an external object such as a user terminal, an operation terminal 190, or a sharing management server 310, which is capable of accessing the internet, establishes a communication connection with the mobile power supply 100A or 100C, the sharing operator 100 of the mobile power supply 100A or 100C can access the mobile power supply 100A or 100C to the internet by using the external object, collect daily operation data of the mobile power supply 100A or 100C conveniently and quickly in real time, and download an internal software program of the mobile power supply 100A or 100C. The technical effect of remarkably reducing the daily operation cost of the mobile power supply 100A or 100C is achieved on the basis of reducing the manufacturing cost of software and hardware of the mobile power supply 100A or 100C.

In addition, compared with a common shared mobile power supply and an intelligent shared mobile power supply, the mobile power supply 100A or 100C can receive a control instruction of an external object, and the control instruction and a first preset control rule can be adjusted and selected in real time according to the requirements of a user, so that the mobile power supply 100A or 100C can flexibly meet the requirements of the user, and a charging strategy is adjusted, thereby remarkably improving the user experience.

Example two

On the basis of the mobile power supply 100A or 100C provided in the first embodiment, the mobile power supply provided in this embodiment is a further optimization of the sharing operation mode of the mobile power supply 100A or 100C provided in the first embodiment under various sharing scenarios, that is, step 120.

As an example, the mobile power source 100A or 100C in fig. 1A, 1B, and 1C typically shares four scenarios, namely, a rent scenario, a return scenario, a purchase scenario, and a return scenario. In a lease scenario, that is, after the user a leases the mobile power supply 100A or 100C from the sharing operator 100, the user terminal 210 sends a control instruction such as "start charging" to the mobile power supply 100A or 100C through the user application 211 by using the bluetooth connection 213, where the control instruction of "start charging" includes indication information (corresponding to a first charging duration) of a charging duration of "30 minutes", and then the microprocessor 140 of the mobile power supply 100A or 100C executes the steps shown in fig. 2A or 2B, respectively, and respectively corresponds to the charging mode a and the charging mode B in the lease mode. Namely:

charging mode A

Step 210: according to the control instruction of "start charging", the operation state of controllable output circuit 120 is controlled to be temporarily turned on, so that portable power source 100A or 100C becomes a temporarily shared portable power source, and a first external load (such as user terminal 210 or 220) connected to controllable output circuit 120 can be temporarily charged.

Step 220A: recording a first duration time for which the controllable output circuit 120 is turned on, and controlling the operation state of the controllable output circuit 120 to switch from "temporarily on" to "temporarily off" when the first duration time is equal to a first charging duration time (e.g. 30 minutes), so that the mobile power supply 100A or 100C changes from "temporarily shared mobile power supply" to "non-shared mobile power supply", that is, the first external load (e.g. the user terminal 210 or 220) connected to the controllable output circuit 120 cannot be charged.

Charging mode B

Step 210: as in charging mode a step 210.

Step 220B: when detecting that the controllable output circuit 120 is connected with an external load (such as the user terminal 210 or 220), recording a second duration of charging, and when the second duration is equal to the first charging duration (such as 30 minutes), controlling the operating state of the controllable output circuit 120 to switch from the temporary on state to the temporary off state, so that the mobile power supply 100A or 100C becomes an unshared mobile power supply and the second external load (such as the user terminal 210 or 220) connected with the controllable output circuit 120 cannot be charged.

It should be noted that, compared to the charging mode a, the charging mode B is characterized in that the time points at which the microprocessor 140 starts to record the first duration and the second duration are different. In the charging mode a, the microprocessor 140 starts to record the continuous on time (corresponding to the first duration) of the controllable output circuit 120 from the operation state of the controllable output circuit 120 to "temporarily on"; charging mode B is such that it is necessary to wait until the microprocessor 140 detects that an external load is connected to the controllable output circuit 120 before recording the charging duration (corresponding to the second duration).

It should be noted that the charging mode a and the charging mode B do not set any limit on the specific time node when the microprocessor 140 controls the operation state of the controllable output circuit 120 to be "temporarily on" according to the control command such as "start charging". For example, the specific time node may be when the mobile power supply 100A or 100C receives a control command of "start charging", or when the microprocessor 140 detects that the controllable output circuit 120 is connected to an external load (e.g., the user terminal 210 or 220), or at other specific time.

In the purchase application scenario, for example, the user a purchases one of the mobile power supplies 100A or 100C from the sharing operator 100 by sending a purchase request to the sharing management server 310 through the user application 211 (corresponding to the ID2) by using the user terminal 210 according to the procedure mentioned in the application scenario of purchasing the mobile power supply provided in the first embodiment. In order for the sharing operator 100 to use the mobile power supply 100A or 100C without any limitation after the user a purchases the mobile power supply 100A or 100C, the sharing operator attendant C may establish a bluetooth connection with the wireless communication module 130 through the operating application 192 by using the operating terminal 190 and the bluetooth module 191. The sharing operation attendant C reuses the operation terminal 190, and transmits a third control instruction, such as a change from "ordinary shared portable power source" to "shared portable power source without fixed term", to the portable power source 100A or 100C through the bluetooth connection, so that the wireless communication module 130 in fig. 1A or 1B receives the third control instruction. The microprocessor 140 of the mobile power supply 100A or 100C performs the following steps corresponding to the purchase application scenario of the mobile power supply 100A or 100C, respectively. Namely:

step 230: according to the third control instruction, the operating state of the controllable output circuit 120 is controlled to be normally open, so that the mobile power source 100A or 100C becomes a "mobile power source shared without fixed time limit", that is, an external load such as the user terminal 210 or 220 connected to the controllable output circuit 120 can be charged without fixed time limit (i.e., without time limit).

In a fallback application scenario, for example, user a purchases one of the mobile power sources 100A or 100C according to the purchase procedure provided in the present embodiment, and after a period of use, it sees that other types of mobile power sources can be shared from other sharing operators. In order to try another option, the user a goes to the sharing operator 100 to return the mobile power supply 100A or 100C, hands the mobile power supply 100A or 100C to the sharing operator server C of the sharing operator 100, and can establish a bluetooth connection with the wireless communication module 130 through the operating application 192 by using the operating terminal 190 and the bluetooth module 191. The sharing operation attendant C reuses the operation terminal 190, and transmits a fourth control instruction such as a change from "no fixed-term shared portable power source" to "ordinary shared portable power source" to the portable power source 100A or 100C through the bluetooth connection, so that the wireless communication module 130 in fig. 1A or 1B receives the fourth control instruction. The microprocessor 140 of the mobile power supply 100A or 100C performs the following steps corresponding to the fallback application scenario of the mobile power supply 100A or 100C, respectively. Namely:

step 240: according to the fourth control instruction, the operation state of the controllable output circuit 120 is controlled to be temporarily turned off (i.e. changed from "normally on" to "off"), so that the mobile power supply 100A or 100C is changed from "sharing the mobile power supply without fixed time limit" to "sharing the mobile power supply" even if the mobile power supply 100A or 100C temporarily cannot charge an external load such as the user terminal 210 or 220 connected to the controllable output circuit 120.

For example, in the lease mode, a special case may be encountered in which after the user a leases or purchases the mobile power source 100A or 100C from the sharing operator 100, the user a cannot start the device because the battery level of the user terminal 210 is gradually exhausted because the user a does not charge the user terminal 210 for a long time. In this special case, the user a cannot send any control instruction to the mobile power supply 100A or 100C using the user sharing application 212 and the bluetooth module 211 installed in the user terminal 210. Since the mobile power source 100A or 100C cannot receive any control command, the microprocessor 140 cannot control the operating state of the controllable output circuit 120 according to the control command and the first preset control rule. Thus, the user a cannot charge the user terminal 210 even though the user a rents or purchases the portable power source 100A or 100C.

As shown in fig. 2C, in order to deal with this situation, the mobile power supply provided in the present embodiment further includes a microprocessor 140 configured to perform the following steps:

step 210C: before the step of receiving the control command in step 110 is performed, when it is detected that the controllable output circuit 120 is connected to an external load (e.g., the user terminal 210 or 220), the operation state of the controllable output circuit 120 is controlled to be temporarily turned on, so that the mobile power source 100A or 100C becomes a temporarily shared mobile power source, and the external load (e.g., the user terminal 210 or 220) connected to the controllable output circuit 120 can be temporarily charged.

Step 220C: recording a third duration (e.g. 15 minutes) for charging the external load (e.g. the user terminal 210 or 220), and controlling the operation state of the controllable output circuit 120 to be temporarily turned off when the third duration is equal to the first preset duration (e.g. 15 minutes), so that the mobile power supply 100A or 100C becomes an unshared mobile power supply and cannot charge the external load (e.g. the user terminal 210 or 220).

In summary, in the mobile power supply 100A or 100C provided in this embodiment, based on the mobile power supply 100A or 100C provided in the above embodiment, the microprocessor 140 is adopted to receive a control instruction sent by an external object (such as the user terminal 210 or the operation terminal 190); or when the controllable output circuit 120 is actively detected to be connected with an external load under the condition that no control instruction is received, different control rules can be executed. By using a technical means for controlling the working state of the controllable output circuit 120, the sharing operator 100 and the sharing manager 300 can flexibly adjust the control instruction, various detection trigger conditions, and the like received by the mobile power supply 100A or 100C and the control rule of the microprocessor 140 according to different sharing application scenarios, so that the mobile power supply 100A or 100C provided in this embodiment can more flexibly match the requirements of the sharing user 200 compared to a common sharing mobile power supply, thereby improving the user experience.

EXAMPLE III

As shown in fig. 3A, on the basis of the mobile power supply 100A or 100C provided in the above embodiment, the embodiment provides a mobile power supply system 300, where the mobile power supply system 300 includes:

the shared operator 310 is composed of at least one of the mobile power supply 100A configured with the identity information ID1 or the mobile power supply 100C configured with the identity information ID', and the operator terminal 311 configured with the identity information ID3 provided in the above embodiments;

the user terminal 321 configured with the identity information ID2 forms a sharing user party 320;

and a sharing manager 330 configured by a sharing management server 331.

Wherein, the mobile power supply 100A or 100C is used for sharing; the operator terminal 311 is configured to associate with the shared management server 311 and the shared operator 310 by its identity information ID 3; the user terminal 211 is associated with the sharing management server 311 by the identity information ID 2;

the sharing management server 331 is configured to manage various data related to sharing, and further configured to store the geographic location information of the operator terminal 311, so that when the user terminal 321 is in communication connection with the sharing management server 331, the geographic location information of the operator terminal 311 can be obtained from the sharing management server 331.

In addition, as shown in fig. 3B, the sharing management server 311 is further configured to perform the following steps:

step 310: the sharing request sent by the user terminal 321 to the sharing management server 331 is received, where the sharing request includes a lease request, a return request, a purchase request, and a refund request.

Step 320: the sharing code is transmitted to the user terminal 321 according to the sharing request.

Step 330: the sharing code and the identity information ID1 or ID 1' of the intended sharing target mobile power supply 100A or 100C transmitted from the receiving operator terminal 311 to the sharing management server 331.

Step 340: based on the sharing code and the identity information ID1 or ID1 ', a sharing relationship between the identity information ID1 or ID 1' (corresponding to the intended sharing target mobile power source 100A or 100C), the identity information ID2 (corresponding to the user terminal 321), and the identity information ID3 (corresponding to the operator terminal 311) is established or released.

For example, the sharing operator 310 composed of at least one mobile power source 100A or 100C and an operator terminal 311 may be a kentucky chain restaurant; the sharing manager 330 formed by the sharing management server 311 may be located somewhere in the cloud of the internet; the user a has a user terminal 321 constituting a user side 320.

The geographical location information of the operator terminal 311 may be manually input to the shared management server 331 by the administrator of the shared manager 330 for storage, or may be manually registered to the operator application 312 by the operator of the shared operator 310, and then reported to the shared management server 331 through the operator application 312 for storage.

Among them, the operator of the sharing operator 310 can use the operator terminal 311 to register the identity information ID3 of the operator terminal 311 on the sharing management server 331 through the operator application 312 installed on the operator terminal 311, thereby completing the association between the identity information ID3 and the sharing management server 331. The operator of the sharing operator 310 can register the identity information of the sharing operator 310 (such as a certain kentucky restaurant chain) through the operation application 312 by using the operation terminal 311, thereby completing the association of the identity information ID3 with the sharing operator 310.

Here, the user a can use the user terminal 321 to register the identity information ID2 of the user terminal 321 on the shared management server 331 through the operator application 322 installed on the user terminal 321, thereby completing the association between the identity information ID2 and the shared management server 331. The user a may also use the user terminal 321 to pay attention to a preset public number of the sharing manager 330 (the public number is associated with the sharing management server 331) through a user a wechat account (the wechat account is associated with the identity information ID2 of the user terminal 321) by using a wechat installed on the user terminal 321, thereby completing the association between the identity information ID2 and the sharing management server 331.

It should be particularly noted that, the present invention does not limit any specific association manner in which the operator terminal 311 is configured to be associated with the shared management server 311 and the shared operator 310 through the identity information ID3, and the user terminal 211 is associated with the shared management server 311 through the identity information ID2, as long as it is ensured that they can be associated with each other, that is, the shared management server 311 can find the corresponding operator terminal 311 and the shared operator 310 through the identity information ID 3; the shared management server 311 can find the corresponding user terminal 321 and user a by using the identity information ID 2.

In an exemplary case, when the sharing request is a lease request, the corresponding lease scenario is as follows: when the user a wants to rent one of the mobile power sources 100A or 100B, the user application 322 installed on the user terminal 321 is used to communicatively connect the sharing management server 331, and the user application 321 is used to inquire the geographical location of the sharing operator 310. The user a sends a lease request to the shared management server 331 through the user application 322 installed on the user terminal 321; the management server 331 sends a lease code (e.g., 8899) to the user terminal 321 according to the lease request, and simultaneously stores the identity information ID2 of the user terminal 321 and the corresponding relationship of the lease code; the user a gives the lease code to a sharing operator (corresponding to a sharing operator 310 nearby) of a certain nearby kentucky chain restaurant, and informs that the user needs a mobile power supply 100A or 100C; a sharing operator of the kentucky chain restaurant scans the two-dimensional code on the mobile power supply 100A or 100C to be rented through the operation application 312 installed on the operation terminal 311 to acquire the identity information ID1 or ID 1' of the mobile power supply 100A or 100C; meanwhile, the sharing operator of the kentucky chain restaurant uploads the identity information ID to the sharing management server 331 by using the operation application 312 and correspondingly inputs a lease code (e.g., 8899), so that after the sharing management server 311 receives the identity information ID1 or ID1 'and the lease code (e.g., 8899) of the mobile power supply 100A or 100C to be leased, a lease relationship among the identity information ID1 or ID 1' (corresponding to the mobile power supply 100A or 100C), the identity information ID2 (corresponding to the user terminal 321), and the identity information ID3 (the operation terminal 321 and the sharing operator 310) can be established.

In the rented usage scenario, for example, after the user a rents the mobile power supply 100A or 100C from the sharing operator 310, the user application 211 sends a control instruction of "charge for 30 minutes" to the microprocessor 140 of the mobile power supply 100A or 100C through the user terminal 321 by using the bluetooth module 323, and the microprocessor 140 receives the control instruction of "charge for 30 minutes" through the wireless communication module 130; the microprocessor 140 controls the operating state of the controllable output circuit 120 according to the control instruction and the first preset control rule.

In an exemplary case, when the sharing request is a rented return request, the corresponding rented return scenario is as follows: after the user a rents the mobile power source 100A or 100C from the sharing operator 310 and uses it for a certain period of time, the mobile power source 100A or 100C is returned to the sharing operator 310. The user a sends a refund request to the management server 331 through the user application 322 installed on the user terminal 321; the management server 331 sends a refund code (e.g., 8866) to the user terminal 321 according to the refund request, and simultaneously stores the identity information ID2 of the user terminal 321 and the corresponding relationship of the refund code; the user a can connect to the sharing management server 331 by communicating through the user application 322 installed on the user terminal 321, and inquire about the geographical location of the sharing operator 310 through the user application 321. According to the geographic position information, for example, a sharing operator 310 of a certain kentucky chain restaurant, the user A hands the refund code to the sharing operator of the kentucky chain restaurant, and informs the user that the user needs to refund a previously rented mobile power supply 100A or 100C; a sharing operator of the kentucky chain restaurant scans the two-dimensional code on the mobile power supply 100A or 100C to be returned through the operation application 312 on the operation terminal 311 to acquire the identity information ID1 or ID 1' of the mobile power supply 100A or 100C to be returned; meanwhile, the sharing operator of the kentucky chain restaurant uploads the identity information ID to the sharing management server 331 by using the operation application 312 and correspondingly inputs a refund code (e.g., 8866), so that after the sharing management server 311 receives the identity information ID1 or ID1 ' and the refund code (e.g., 8866) of the mobile power supply 100A or 100C to be rented, the originally established lease relationship among the identity information ID1 or ID1 ' (corresponding to the mobile power supply 100A or 100C), the identity information ID2 (corresponding to the user terminal 321) and the identity information ID3 (the operation terminal 311 and the sharing operator 310) can be released, or the lease relationship is not released, and only the refund relationship between the identity information ID2 and the identity information ID3 is established based on the identity information ID1 or ID1 ', and the identity information ID 2. The shared management server 331 is enabled to determine that the mobile power supply 100A or 100C originally leased by the user terminal 321 has been returned based on the lease relationship and the return relationship. The present invention does not limit whether the kentucky chain restaurant (i.e., the sharing operator 310) rented by the user a is the same as the kentucky chain restaurant returned, that is, the user a can rent and return the mobile power source 100A or 100C between different sharing operators 310 by using the user terminal 321.

It should be noted that the return scenario after the lease is premised on that the lease has occurred before the return action, because the return action may be performed based on the lease only in the early stage if the lease has occurred in the early stage.

Illustratively, when the sharing request is a purchase request, the corresponding purchase scenario is similar to the lease scenario; when the sharing request is a post-purchase return request, the corresponding post-purchase return scenario is similar to the above-described post-lease return scenario. For the purchase scenario and the purchase back return scenario, detailed description is omitted here.

Similarly, it should be noted that the return-back scenario after purchase is based on the premise that the purchase occurs before the return-back, because the return-back is performed only in the early stage when the purchase occurs, and the return-back is performed based on the purchase in the later stage.

Alternatively, in order to facilitate the sharing management server 331 in the sharing manager 330 to collect the geographic location information of the operator terminal 311, the operator terminal 311 may further configure:

the GPS module 314 is configured to obtain the geographic location information of the operation terminal 311 (such as a certain kentucky chain restaurant), so that the operation terminal 311 can report the geographic location information of the operation terminal 311 to the shared management server 331.

In summary, on the basis of the mobile power supply 100A or 100C provided in the above embodiment, the mobile power supply system 300 provided in this embodiment sends a sharing code (e.g. 8899) corresponding to the sharing request to the user terminal 321 by using the sharing management server 331 according to the sharing request sent by the user terminal 321 (which has been associated with the sharing management server 331 by its configuration identity information ID2) to the sharing management server 331; causing the operator terminal 311 (with which the configured identity information ID3 has been associated with the sharing management server 331 and the sharing operator 310) to transmit the sharing code, the identity information ID1 of the intended sharing target mobile power supply 100A or 100C, the identity information ID3 of the operator terminal 311 to the sharing management server 331, according to the intended sharing target mobile power supply 100A or 100C; so that the sharing management server 331 can establish or release the sharing relationship among the ID1 (corresponding to the intended sharing target mobile power supply 100A or 100C), the ID2 (corresponding to the user terminal 321), and the ID3 (corresponding to the sharing operator 310) based on the identity information. The management of the dynamic sharing relationship between the plurality of user terminals 321 of the mobile power supplies 100A or 100C provided by the embodiments of the present invention is efficiently and quickly realized, so as to solve the technical problem that the mobile power supplies 100A or 100C provided by the embodiments of the present invention are rapidly and commercially popularized in a large area in a commercial society.

Example four

As shown in fig. 4A, on the basis of the mobile power supply 100C provided in the first embodiment, a mobile power supply system 400 provided in the present embodiment includes: a shared operator 410 consisting of at least one mobile power supply 100C with identity information ID 1' as provided in embodiment one and at least one intelligent cabinet 420; a shared user side 430 consisting of a user terminal 430 having an identity information ID 2; and a sharing manager 440 constituted by a sharing management server 441.

Wherein, intelligent cabinet 720 includes:

a communication module 421 having an identity information ID3, at least one housing cavity 422, and a microprocessor 423, and the communication module 421 is configured to be associated with the shared management server 441 and the shared operator 410 by the identity information ID 3.

Wherein, housing 422 includes a communication interface 4223, which is matched with communication interface 150 of portable power source 100C provided in the first embodiment, when portable power source 100C is locked in housing 422, communication interface 4223 is in communication connection with communication interface 150, so that portable power source 100C can report identity information ID 1' of portable power source 100C to communication interface 150 through communication interface 4223 based on a preset communication protocol matched with communication interfaces 4223 and 150. And the identification module 4221 is connected with the communication module 421 and used for providing the identification address ID4 of the accommodating cavity 422 for the communication module 421. A controllable locking mechanism 4222 for locking and unlocking the mobile power supply 100C accommodated in the accommodation cavity 422.

The microprocessor 423, connected to the controllable locking mechanism 4222 and the communication module 421, is configured to execute the steps shown in fig. 4B:

step 410B: the identity information ID1 of the mobile power supply 100C locked in the housing chamber 422 and the correspondence between the identity information ID1 of the mobile power supply 100C and the housing chamber 422 identification address ID4 are reported to the shared management server 441 through the communication module 421.

Step 420B: control information (such as unlocking a mobile power supply 100C with certain identification information ID1 'or unlocking a controllable locking mechanism 4222 in an identification address ID 4) sent by the sharing management service 441 is received through the communication interface 4223, wherein the control information includes the identification information ID 1' corresponding to the target mobile power supply 100C to be shared and/or the identification address ID4 of the accommodating cavity 422.

Step 430B: based on the control information, the controllable locking mechanism 4222 is controlled to lock or unlock the target intended sharing target mobile power supply 100C accommodated in the accommodation chamber 422 according to a second preset control rule.

The sharing management server 441 is configured to store geographic location information (e.g., a certain kend chain fast food restaurant) of the smart locker 420, so that the user terminal 431 can obtain the geographic location information (e.g., the certain kend chain fast food restaurant) after being in communication connection with the sharing management server 441 by using the user application 4311, and in addition, the sharing management server 441 is further configured to perform steps shown in fig. 4C (corresponding to a rental scenario or a purchase scenario, respectively) or fig. 4D (corresponding to a return-after-rental scenario or a return-after-purchase scenario, respectively).

Step 410C: and receiving a sharing request sent by the user terminal 431 to the sharing management server 441, wherein the sharing request includes the identity information ID3 (corresponding to the intelligent cabinet 420) of the communication module 421, and the sharing request includes a lease request or a purchase request.

Step 420C: according to the sharing request (e.g. lease request), according to a third preset control rule, the control information (e.g. unlocking a certain mobile power supply 100C with ID 1' or a certain controllable locking mechanism 4222 with ID 4) is sent to the communication module 421 (corresponding to the smart cabinet 420).

Step 430C: according to the sharing request (e.g., lease request), a first sharing relationship (e.g., lease relationship) is established or released based on the identity information ID 1' (corresponding to the intended sharing target mobile power source 100C), the identity information ID2 (corresponding to the user terminal 431) and the identity information ID3 (corresponding to the communication module 421, i.e., the smart cabinet 420), wherein the first sharing relationship includes a lease relationship or a purchase relationship.

Alternatively, the first and second electrodes may be,

step 410D: receiving the identification information ID1 'of the mobile power supply 100C locked in the housing chamber 422 and the correspondence between the identification information ID 1' and the identification address ID4 of the housing chamber 422, which are reported by the communication module 421 to the shared management server 441.

Step 420D: according to the corresponding relationship between the identity information ID1 'and the identity identification address ID4 of the accommodating cavity 422, a third sharing relationship (such as a return relationship) based on the identity information ID 1' (corresponding to the mobile power supply 100C), the identity information ID2 (corresponding to the user terminal 431) and the identity information ID3 (corresponding to the communication module 421, i.e., the smart cabinet 420) is established or released, wherein the third sharing relationship comprises a return relationship or a return relationship, when the second sharing relationship is a lease relationship, the third relationship is a return relationship, and when the second relationship is a purchase relationship, the third relationship is a return relationship.

It should be particularly noted that, as shown in the third embodiment, the specific association manner of the communication module 421 configured to be associated with the shared management server 441 and the shared operator 410 through the identity information ID3 is not limited in any way, as long as it is ensured that they can be associated with each other, that is, the shared management server 441 can find the corresponding communication module 421 (i.e., the smart cabinet 422) and the shared operator 410 through the identity information ID 3.

In an exemplary embodiment, in the mobile power supply system 400 provided in this embodiment, when the sharing request is a lease request, the lease scenario corresponding to the mobile power supply 100C is as follows: when the user a wants to rent a mobile power supply 100C, the user a can connect to the shared management server 441 in a communication manner through the user application 4311 installed on the user terminal 431, and inquire about the geographical location of the nearby intelligent cabinet 420 through the user application 4311. Then, the user walks to a nearby intelligent cabinet 420, scans the two-dimensional code on the intelligent cabinet 420 through the user application 4311 on the user terminal 431 to obtain the identity information ID3 of the communication module 421 of the intelligent cabinet 420, and then sends a lease request to the shared management server 441 through the user application 4311, wherein the lease request includes the identity information ID2 of the user terminal 431 and the identity information ID3 of the intelligent cabinet 720. After receiving the lease request, the sharing management server 441 sends control information to the smart cabinet 420 (corresponding to the communication module 421) according to a third preset control rule, where the control information includes the identification information ID 1' of the mobile power supply 100C to be shared and/or the identification address ID4 corresponding to the accommodating cavity 422. According to the sharing request, the sharing management server 441 establishes or releases the lease relationship based on the identity information ID 1' (corresponding to the mobile power supply 100C), the identity information ID2 (corresponding to the user terminal 431), and the identity information ID3 (corresponding to the communication module 421 or the smart cabinet 420).

After the microprocessor 423 of the smart cabinet 420 receives the control information sent by the sharing management server 441 through the communication module 421, according to the control information, since the control information includes the identification information ID 1' of the mobile power supply 100C to be shared and/or the identification address ID4 corresponding to the accommodating cavity 422, the microprocessor 423 controls the controllable locking mechanism 4222 according to a second preset control rule to unlock the mobile power supply 100C to be shared accommodated in the accommodating cavity 422, so that the user a can take the target mobile power supply 100C to be shared from the accommodating cavity 422, thereby completing the whole process of renting the mobile power supply 100C from the mobile power supply sharing system 400.

In an exemplary case, when the sharing request is a refund request, the refund scenario after lease corresponds to: after the user a rents the mobile power supply 100C for a period of time, the mobile power supply 100C is returned to the sharing operator 410. The shared management server 441 can be connected by communication through a user application 4311 installed on the user terminal 431, and the geographical location of the nearby intelligent cabinet 420 can be queried through the user application 4311. According to the geographical location information, the user a walks to a nearby intelligent cabinet 420, and the quasi-return mobile power supply 100C is directly inserted into any vacant accommodating cavity 422 in the intelligent cabinet 420. After the microprocessor 423 detects that the mobile power supply 100C is inserted into the accommodating cavity 422, the microprocessor controls the controllable locking mechanism 4222 in the accommodating cavity 422 to lock the pseudo-return mobile power supply 100C in the accommodating cavity 422. Meanwhile, after portable power source 100C is inserted into accommodating cavity 422, communication interface 150 on portable power source 100C is in communication connection with communication interface 4223 in accommodating cavity 422, so that microprocessor 140 reports identity information ID1 of portable power source 100C to communication interface 4223 through communication interface 150 based on a preset communication protocol; the microprocessor 140 reports the identity information ID1 ' of the mobile power supply 100C locked in the housing chamber and the correspondence between the identity information ID1 ' and the identification address ID4 of the housing chamber 422 (i.e., into which housing chamber 422 of the identification address ID4 the mobile power supply 100C whose identity information is ID1 ' is specifically inserted) to the shared management server 441 through the communication module 421. The management server 441 releases the previous lease relationship among the identity information ID1 ' (corresponding to the mobile power supply 100C), the identity information ID2 (corresponding to the user terminal 431), and the identity information ID3 (corresponding to the communication module 421 or the smart cabinet 420) according to the identity information ID1 ' and the lease relationship among the identity information ID1 ' (corresponding to the mobile power supply 100C), the identity information ID2 (corresponding to the user terminal 431), and the identity information ID3 (corresponding to the communication module 421 or the smart cabinet 420) established by the shared management server 441 in the lease scenario; or, without removing the lease relationship, a fallback relationship based on the ID 1' (corresponding to the mobile power source 100C), the ID2 (corresponding to the user terminal 431), and the ID3 (corresponding to the communication module 421 or the smart cabinet 420) is separately established. According to the specific lease time point and the return time point, based on the established lease relationship and return relationship, the sharing management server 441 can determine the sharing relationship that has been returned after the portable power supply 100C is leased by the user a.

Illustratively, when the sharing request is a purchase request, the corresponding purchase scenario is similar to the lease scenario; when the sharing request is a post-purchase return request, the corresponding post-purchase return scenario is similar to the above-described post-lease return scenario. For the purchase scenario and the purchase back return scenario, detailed description is omitted here.

Optionally, in order to facilitate the collection of the geographical location information of the intelligent cabinet 420 in the sharing operator 410 by the sharing management server 441 in the sharing manager 440, the intelligent cabinet 420 may be further configured with:

the GPS module 424 is in communication connection with the second communication module 721, and the GPS module 424 is configured to obtain the geographic location information of the intelligent cabinet 420, so that the intelligent cabinet 420 can report the geographic location information of the intelligent cabinet to the shared management server 441 through the communication module 421.

In summary, based on the mobile power supply 100C including the communication interface 150 provided in the first embodiment, in the mobile power supply system 400 provided in the present embodiment, the intelligent cabinet 420 reports the identity information ID1 'of the mobile power supply 100C locked in the accommodating cavity 422 and the corresponding relationship between the identity information ID 1' and the identification address ID4 of the accommodating cavity 422 to the shared management server 441 through the communication module 421, so that the shared management server 441 can dynamically manage the one-to-one corresponding relationship between the plurality of mobile power supplies 100C provided in the first embodiment of the present invention and the plurality of accommodating cavities 422 in the plurality of intelligent cabinets 420.

When the user terminal 431 (having associated with the sharing management server 441 with the configured identity information ID2) sends a sharing request (such as a lease request or a purchase request) including the identity information ID3 (corresponding to the second sharing operator) of the intelligent cabinet 422 to the sharing management server 441; the sharing server 441 sends control information to the intelligent cabinet 420 according to the sharing request and according to a third preset control rule, wherein the control information includes the identity information ID 1' corresponding to the mobile power supply 100C to be shared and/or the identity recognition address ID4 corresponding to the accommodating cavity 422 of the intelligent cabinet 420; the sharing server 441 establishes or releases a second sharing relationship (such as a lease relationship or a purchase relationship) based on the identity information ID 1' (corresponding to the intended sharing target mobile power source 100C), the identity information ID2 (corresponding to the user terminal 431), and the identity information ID3 (the smart locker 420, i.e., the second sharing operator) according to the sharing request (corresponding to the identity information ID 2). When a lease relationship or a purchase relationship previously exists, the sharing server 441 establishes or releases a return relationship or a return relationship based on the identity information ID 1' (corresponding to the intended sharing target mobile power supply 100C), the identity information ID2 (corresponding to the user terminal 431), and the identity information ID3 (the smart locker 420, i.e., the second sharing operator) according to the sharing request and the lease relationship or the purchase relationship. Therefore, management of dynamic sharing relations of the mobile power supplies among the first intelligent terminals provided by the embodiment of the invention is efficiently and quickly realized.

The intelligent cabinet controls the controllable locking mechanism to lock or unlock the mobile power supply of the target to be shared in the accommodating cavity according to the control information and a second preset control rule, so that a user (corresponding to a user terminal) can rent or purchase the mobile power supply provided by the embodiment of the invention in an unattended intelligent cabinet. Therefore, the technical problem that the mobile power supply provided by the embodiment of the invention is rapidly popularized in a large-area commercial society is solved.

EXAMPLE five

As shown in fig. 1A and fig. 1C, on the basis of the mobile power supply 100A or 100C provided in the second embodiment, the mobile power supply sharing request method provided in this embodiment may be applied to the user terminal 321 or 431 (corresponding to the fourth smart terminal) having the identity information ID2 (corresponding to the sixth identity information) as shown in fig. 3A and fig. 4A, so as to request the mobile power supply 100A or 100C provided in the second embodiment to charge the external load connected to the controllable output circuit 120. The method is executed by the user terminal 321 in the mobile power supply system 300 provided in the third embodiment or the user terminal 431 in the mobile power supply system 400 provided in the fourth embodiment, and may be specifically implemented by hardware and/or software in the deployed user terminal 321 or 431. Among them, the user terminal 321 or 431 may be a smart phone having a smart operating system and having a bluetooth communication function. For example, a specific application scenario of the method may be that, after the user rents or purchases the mobile power supply 100A or 100C provided in one embodiment two from the sharing operator 310 or 410, the mobile power supply 100A or 100C is intended to charge the user terminal of the user, family or friend through the user terminal 321 or 431. As shown in fig. 5, the method includes:

step 510: a first wireless communication connection is established with the mobile power supply 100A or 100C through the wireless communication module 130.

Illustratively, in the case where the bluetooth module 323 or 4312 is configured in the user terminal 321 or 431 and the wireless communication module 130 configured in the portable power source 100A or 100C is a bluetooth module, both the user terminal 321 or 431 and the portable power sources 100A and 100C establish a bluetooth connection (corresponding to the first wireless communication connection) through the respective bluetooth modules.

Step 520: information of a target shared charging mode is received.

For example, when the user application 322 or 4311 is installed on the user terminal 321 or 431, the user may select a certain favorite target sharing charging mode through the user application 322 or 4311 on the user terminal 321 or 431, so that the user terminal 321 or 431 receives information or a control instruction of the certain target sharing charging mode. For example, the target sharing charging mode may include the following several modes, for example:

charging mode of paying: the charging time of a first preset duration is exchanged by paying a first preset number of equivalents; or

A free charging mode: that is, multimedia contents (e.g., advertisement contents) of a second preset duration are played at the user terminal 321 or 431 in exchange for a charging time of the second preset duration.

For example, in the charging mode, the user application 322 or 4311 installed on the user terminal 321 or 431 by the user typically has a corresponding registration account on the shared management server 331 or 441, and the registration account is in one-to-one correspondence with the ID1 or ID 1' of the mobile terminal 321 or 431. The user can pay a certain amount of money (such as 1 rmb) (corresponding to the equivalent) through the credit card of the user by pre-storing a certain amount of money in the registered account number or binding the credit card of the user in the registered account number, so as to exchange the charging time (such as 45 minutes) with a first preset time.

The equivalent may be an entity currency, or may be a general equivalent such as various digital currencies such as Q currency, Q point, etc., virtual wealth, etc. on the internet at present.

Or in the free charging mode, the user may select to watch the advertisement content (e.g., 618 promotional advertisement, brain gold video advertisement, etc.) for a period of time (corresponding to a second preset duration, e.g., 2 minutes) online through the user application 322 or 4311 installed on the user terminal 321 or 431, in exchange for the charging time of the second preset duration (e.g., 30 minutes).

Step 530: and obtaining a first charging duration according to the target sharing charging mode.

When the user selects the pay charging mode, a first charging duration (e.g., 45 minutes) is obtained according to the pay mode selected by the user.

When the user selects the free charging mode, the first charging duration (e.g., 30 minutes) is obtained according to the free mode selected by the user.

Step 540: and sending the first control instruction to the mobile power supply 100A or 100C through the first wireless communication connection, wherein the first control instruction comprises the first charging time length.

Illustratively, when the user selects the free mode, watches 2 minutes of advertisement, and obtains a charging duration of 30 minutes, the user uses the user terminal 321 or 431 to send a control command such as "start charging" to the mobile power supply 100A or 100C through the established bluetooth connection by using the user application 322 or 4311, where the control command includes the execution information of the first charging duration (e.g. 30 minutes).

Subsequently, the microprocessor 140 of the mobile power source 100A or 100C can perform the steps shown in the second embodiment, such as charging the external load connected to the controllable output circuit 120 in fig. 2A or fig. 2B. Since the specific charging mode a and charging mode B of the mobile power supply 100A or 100C are already described in embodiment two, they are not described herein again.

Optionally, after the step of changing the mobile power supply 100A or 100C to the non-shared mobile power supply and not charging the first external load or the second external load connected to the controllable output circuit 120 in the second embodiment, the method may further include the following step.

Step 550: and displaying prompt information for selecting a target charging mode from the preset sharing charging modes.

For example, after the user terminal 321 or 431 detects that the mobile power source 100A or 100C stops charging the external load connected to the controllable output circuit 120, the user application 322 or 4311 may display the information on the user terminal 321 or 431 to prompt the user to continue to select the target charging mode from the preset shared charging modes such as the "paid charging mode" or the "free charging mode", so as to facilitate the user to subsequently select the target shared charging mode from the preset shared charging modes such as the "paid charging mode" or the "free charging mode" for obtaining a further charging duration.

In summary, on the basis of the mobile power source 100A or 100C provided in the second embodiment, in the mobile power source sharing request method provided in this embodiment, the user terminal 321 or 431 is used to establish a bluetooth connection with the mobile power source 100A or 100C through the wireless communication module 130 (such as a bluetooth module); receiving a target shared charging mode (e.g., watching a 1-minute commercial for a free charging period of 30 minutes) selected by a user on the user terminal 321 or 431, and obtaining a first charging period (e.g., 30 minutes) of the mobile power supply 100A or 100C after the user finishes watching the 1-minute commercial on the user terminal 321 or 431; then, the first control instruction is sent to the mobile power supply 100A or 100C through the wireless communication module 130, where the first control instruction includes the first charging time period (e.g., 30 minutes). Therefore, the first microprocessor of the mobile power supply 100A or 100C provided in the second embodiment of the present invention controls the controllable output circuit 120 to be turned on for 30 minutes according to the first control instruction and the first preset control rule. So that the user can conveniently use (share) the mobile power supply 100A or 100C to charge the user terminal 321 or 431 or other electronic devices connected to the controllable output circuit 120 for 30 minutes; meanwhile, the mobile power source 100A or 100C may also better interact with an external object (e.g., the user terminal 321 or 431) according to an external control command and a preset control rule. Therefore, the technical problem that the mobile power supply 100A or 100C provided by the second embodiment of the invention is rapidly popularized in a large-area business in a business society is solved.

EXAMPLE six

On the basis of the mobile power source 100A or 100C provided in the second embodiment and the mobile power source sharing method provided in the fifth embodiment, the present embodiment provides a mobile power source sharing method, which can be applied to the user terminal 321 with the identity information ID2 as shown in fig. 3A to request to rent or purchase the mobile power source 100A or 100C provided in the second embodiment. The method is executed by the user terminal 321 in the mobile power supply system 300 provided in the third embodiment. For example, a specific application scenario of the method may be a lease or purchase scenario when a user wants to lease or purchase a mobile power supply 100A or 100C provided in embodiment two from the sharing operator 310.

As shown in fig. 6, the mobile power source sharing method provided in this embodiment is step 520 in the mobile power source sharing method provided in the fifth embodiment, that is, before the step of receiving the information of the target shared charging mode, the method provided in this embodiment further includes the following steps. Namely:

step 610: a second wireless communication connection is established with the shared management server 331.

Illustratively, the user uses the user application 322 on the user terminal 321 to enable the user terminal 321 to establish a second wireless communication connection (e.g. 4G wireless communication connection) with the sharing management server 331 through WIFI or other common communication methods such as 4G wireless communication network.

Step 620: the first sharing request is transmitted to the sharing management server 331 or 441 through the second wireless communication connection.

Illustratively, through the established second wireless communication connection (e.g., the 4G wireless communication connection), the user terminal 321 sends a lease or purchase request (corresponding to the first sharing request) to the sharing management server 331 through the user application 322 installed on the user terminal 321.

Step 630: receiving the first sharing code sent by the sharing management server 331 according to the first sharing request.

Illustratively, the user receives the lease or purchase request from the user terminal 321, and the share management server 331 sends a lease code or purchase code (e.g., 8899) to the user terminal 321 or the user application 322.

In this embodiment, the specific manner of sending the lease code or the purchase code by the sharing management server 331 is not limited at all, and may be that the sharing management server 331 sends the lease code or the purchase code to the user terminal 321 in the form of a short message; or may be in the form of text messages sent over a data communication connection between the shared server 331 and the user application 322 using a 4G wireless communication network. As long as the lease or purchase code can be issued from the sharing management server 331, the user terminal 321 can normally receive it.

Step 640: the fifth terminal is caused to send the first identity information and the seventh identity information of the first shared operator associated with the fifth terminal to the shared management server 331 according to the first shared code.

Illustratively, upon receiving the lease or purchase code, the user may utilize the user application 322 to connect to the sharing server 331 to locate the sharing operator 310 in the vicinity of the search. If the user finds a kend chain restaurant in the vicinity of the user to be a sharing operator 310, the user walks to the kend chain restaurant, gives the lease code or purchase code to the sharing operator of the chain restaurant, and informs the sharing operator that he or she needs to lease or purchase a portable power source 100A or 100C. A sharing operator of the kentucky chain restaurant scans a two-dimensional code on the mobile power supply 100A or 100C to be rented or sold through an operation application 312 installed on an operation terminal 311 to acquire identity information ID1 or ID 1' of the mobile power supply 100A or 100C to be rented or sold; meanwhile, the sharing operator of the kentucky chain restaurant transmits the lease code or the purchase code to the sharing management server 331 by using the operation application 312, and simultaneously transmits the identity information ID1 or ID 1' of the portable power source 100A or 100C and the identity information (for example, a certain kentucky chain restaurant, corresponding to the seventh identity information) of the sharing operator 310 to the sharing management server 331.

Wherein the operator terminal 311 is configured to associate with the shared operator 310 by means of the identity information ID 3. The specific association manner of the operator terminal 311 with the shared operator 310 through the identity information ID3 is not limited in this embodiment, as long as it is ensured that they can be associated with each other, that is, the shared operator 310 corresponding to the operator terminal 311 can be found through the identity information ID3 of the operator terminal 311. For example, the association may be performed by inputting the identity information ID3 of the operator terminal 311 in the operator application 312 and inputting information that identifies the operator terminal 310, such as a company name, of the shared operator 310.

Step 650: the sharing management server 331 establishes a first sharing relationship based on the first identity information, the sixth identity information, and the seventh identity information according to a first sharing code, where the first sharing relationship includes a lease relationship or a purchase relationship.

Illustratively, the sharing management server 331 receives the lease code or the purchase code transmitted from the operator terminal 311, and the identity information ID1 or ID 1' of the mobile power supply 100A or 100C and the identity information (corresponding to the seventh identity information) of the sharing operator 310, which are transmitted together with the lease code or the purchase code. The sharing management server 331 can query the lease code or purchase code in reverse direction to the sharing management server 331, and allocate and issue the lease or purchase sharing request from the user terminal 321 of the identity information ID 2. Thus, according to the lease code or the purchase code, a lease or purchase relationship (corresponding to the first sharing relationship) is established based on the identity information ID1 or ID 1' (corresponding to the mobile power source 100A or 100C), the identity information ID2 (corresponding to the user terminal 321), and the identity information of the sharing operator 310 (e.g., a kendykey chain restaurant, corresponding to the sharing operator 310).

To sum up, on the basis that the mobile power source 100A or 100C provided in the second embodiment and the mobile power source sharing method provided in the fifth embodiment provide a mobile power source sharing method, by using the sharing management server 331, according to the lease or purchase sharing request sent by the user terminal 321 (which has been associated with the sharing management server 331 through the configuration identity information ID2 thereof) to the sharing management server 331, a lease or purchase code (e.g., 8899) corresponding to the sharing request is sent to the user terminal 321; causing the operator terminal 311, which has been associated with the shared management server 331 and the shared operator 310 by its configured identity information ID3, to transmit a lease code or a purchase code, the identity information ID1 or ID 1' of the intended shared target mobile power supply 100A or 100C, and the identity information of the shared operator 310 associated with the operator terminal 311 to the shared management server 331, according to the intended lease or sale target mobile power supply 100A or 100C; so that the sharing management server 331 can establish a sharing relationship based on the identity information ID1 or ID 1' (corresponding to the target mobile power supply 100A or 100C to be leased or sold), the identity information ID2 (corresponding to the user terminal 321), and the identity information ID3 (corresponding to the sharing operator 310). The management of the dynamic sharing relationship between the plurality of user terminals 321 of the mobile power supplies 100A or 100C provided by the embodiments of the present invention is efficiently and quickly realized, so as to solve the technical problem that the mobile power supplies 100A or 100C provided by the embodiments of the present invention are rapidly and commercially popularized in a large area in a commercial society.

EXAMPLE seven

On the basis of the mobile power sharing method provided in the sixth embodiment, the present embodiment provides a mobile power sharing method, which can be applied to the user terminal 321 with the identity information ID2 as shown in fig. 3A to request to return or return the mobile power 100A or 100C, which is rented or purchased by the user in the sixth embodiment, as provided in the second embodiment. The method is executed by the user terminal 321 in the mobile power supply system 300 provided in the third embodiment. For example, a specific application scenario of the method may be that, when a user rents or purchases one of the mobile power supplies 100A or 100C provided in embodiment two from the sharing operator 310 through the user terminal 321 by using a mobile power supply sharing method provided in embodiment six. After a period of use, the post-lease return or purchase of the mobile power supply 100A or 100C is intended to be returned or returned by the user terminal 321.

As shown in fig. 7, this implementation provides a mobile power source sharing method, which further includes, after step 650 in embodiment six:

step 710: a third wireless communication connection is established with the shared management server 331.

Illustratively, the user uses the user application 322 on the user terminal 321 to enable the user terminal 321 to establish a third wireless communication connection (e.g., a WIFI wireless communication connection) with the sharing management server 331 through WIFI or other common communication methods such as a 4G wireless communication network.

Step 720: a second sharing request is sent to the sharing management server 331 based on the first sharing relationship through the third wireless communication connection.

Illustratively, through the established third wireless communication connection (e.g., WIFI wireless communication connection), based on the lease or purchase relationship (corresponding to the first sharing relationship) already established in step 650 in the sixth embodiment, the user terminal 321 sends a return or refund request (corresponding to the second sharing request) to the sharing management server 331 through the user application 322 installed on the user terminal 321.

Step 730: and receiving the second sharing code sent by the sharing management server 331 according to the second sharing request.

Illustratively, the user receives the return or return code from the user terminal 321, and the sharing management server 331 sends the return or return code (e.g., 8866) to the user terminal 321 or the user application 322 according to the return or return request.

Step 740: the sixth terminal is caused to send the first identity information and the eighth identity information of the second sharing operator associated with the sixth terminal to the sharing management server 331 according to the second sharing code.

Illustratively, upon receiving the return or refund code, the user may utilize the user application 322 to connect to the sharing server 331 to locate the sharing operator 310 in the vicinity of the search. If the user finds that a mcdonald restaurant in the vicinity is a sharing operator 310, the user walks to the mcdonald restaurant, gives the return code or the return code and the mobile power supply 100A or 100C to be returned or returned to the sharing operator of the restaurant, and informs the sharing operator that the mobile power supply 100A or 100C needs to be returned or returned. The sharing operator of the kentucky chain restaurant scans the two-dimensional code on the mobile power supply 100A or 100C to be returned or returned through the operation application 312 installed on the operation terminal 311, and acquires the identification information ID1 or ID 1' of the mobile power supply 100A or 100C to be returned or returned. At the same time, the sharing operator of the kentucky chain restaurant transmits the return code or the return code (corresponding to the second sharing code) to the sharing management server 331 by using the operation application 312, and simultaneously transmits the identity information ID1 or ID 1' of the portable power source 100A or 100C to be returned or returned and the identity information (corresponding to the eighth identity information, for example, in the mcdonald chain restaurant) of the sharing operator 310 to the sharing management server 331.

Wherein the operator terminal 311 is configured to associate with the shared operator 310 by means of the identity information ID 3. The embodiment does not limit the specific association manner of the operator terminal 311 with the shared operator 310 through the identity information ID3, as long as it is ensured that they can be associated with each other.

In this embodiment, there is no limitation on whether the second sharing operator 310 (e.g., a mcdonald restaurant) must rent or buy the mobile power supply 100A or 100B when the user returns or returns the mobile power supply 100A or 100B, or whether the first sharing operator 310 (e.g., a kentucky restaurant) must rent or buy the mobile power supply 100A or 100B. However, if renting and returning or purchasing and returning between different sharing operators 310 are to be realized, the two sharing operators 310 are required to belong to the same operation manager 300, so that sharing of shared data between different sharing operators 310 can be realized.

Step 750: enabling the sharing management server 331 to release the first sharing relationship according to the second sharing code, or to establish a second sharing relationship based on the first identity information, the sixth identity information, and the eighth identity information, wherein the second sharing relationship is a returning relationship when the first sharing relationship is a leasing relationship, and the second sharing relationship is a returning relationship when the first sharing relationship is a purchasing relationship.

Illustratively, the sharing management server 331 receives the return code or the return code (corresponding to the second sharing code) transmitted from the operator terminal 311, and the identity information ID1 or ID 1' of the mobile power supply 100A or 100C and the identity information (corresponding to the eighth identity information) with the sharing operator 310, which are transmitted together with the return code or the return code. The sharing management server 331 can query the return code or the return code in reverse direction through the lease code or the purchase code, and the return code or the return code is assigned and issued by the sharing management server 331 according to the return or return sharing request sent by the user terminal 321 of the identity information ID 2. Thereby, according to the return code or the return code, the lease or purchase relationship (corresponding to the first sharing relationship) between the identity information ID1 or ID 1' (corresponding to the mobile power source 100A or 100C), the identity information ID2 (corresponding to the user terminal 321) and the identity information of the sharing operator 310 (such as a kentucky restaurant, corresponding to the sharing operator 310) in step 650 in the sixth embodiment is released; or additionally establish a returning or returning relationship (corresponding to a second sharing relationship) based on the identity information ID1 or ID 1' (corresponding to the mobile power source 100A or 100C), the identity information ID2 (corresponding to the user terminal 321) and the identity information of the sharing operator 310 (e.g., a mcdonald chain restaurant, corresponding to the sharing operator 310) without removing the original renting or purchasing relationship. Based on the originally established unreleased or purchased relationship and the additionally established return and return relationship, the management server 331 can calculate the real-time sharing status and sharing relationship of the mobile power supply 100A or 100 through the time sequence in which the sharing relationship occurs.

In addition, there is a temporal sequencing between the purchase and return activities due to the lease and return. That is, the return action may occur on the basis of the lease action only if the lease action exists first; similarly, a refund action may occur on the basis of a purchase action only if the purchase action is pre-existent. Therefore, the return relationship (corresponding to the second sharing relationship) corresponds to the purchase relationship (corresponding to the first sharing relationship), and the return relationship (corresponding to the second sharing relationship) corresponds to the purchase relationship (corresponding to the first sharing relationship).

To sum up, on the basis that the mobile power source 100A or 100C provided in the second embodiment and the mobile power source sharing method provided in the sixth embodiment provide a mobile power source sharing method, by using the sharing management server 331, according to the returning or returning sharing request sent by the user terminal 321 (which has been associated with the sharing management server 331 through its configuration identity information ID2) to the sharing management server 331, the mobile power source sharing method provided in this embodiment sends a returning or returning code (e.g., 8866) corresponding to the sharing request to the user terminal 321; causing the operator terminal 311 (with which the configured identity information ID3 has been associated with the shared management server 331 and the shared operator 310) to transmit a return code or a return code, the identity information ID1 or ID 1' of the return or return target mobile power supply 100A or 100C and the identity information of the shared operator 310 associated with the operator terminal 311 to the shared management server 331, according to the return or return to mobile power supply 100A or 100C; so that the sharing management server 331 can establish a sharing relationship based on the identity information ID1 or ID 1' (corresponding to the pseudo-return or return target mobile power supply 100A or 100C), the identity information ID2 (corresponding to the user terminal 321), and the identity information ID3 (corresponding to the sharing operator 310). The management of the dynamic sharing relationship between the plurality of user terminals 321 of the mobile power supplies 100A or 100C provided by the embodiments of the present invention is efficiently and quickly realized, so as to solve the technical problem that the mobile power supplies 100A or 100C provided by the embodiments of the present invention are rapidly and commercially popularized in a large area in a commercial society.

Example eight

As shown in fig. 8, fig. 8 shows a block diagram of an intelligent terminal 8 suitable for implementing the present embodiment. The intelligent terminal 8 shown in fig. 8 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiment of the present invention.

As shown in fig. 8, the smart terminal 8 is in the form of a general purpose computing device. The components of the intelligent terminal 8 may include, but are not limited to: one or more processors or processing units 81, a system memory 82, and a bus 83 that couples the various system components including the system memory 82 and the processing unit 81.

Bus 83 represents one or more of any of several types of bus structures, including a memory bus or memory controller, a peripheral bus, an accelerated graphics port, and a processor or local bus using any of a variety of bus architectures. By way of example, such architectures include, but are not limited to, Industry Standard Architecture (ISA) bus, micro-channel architecture (MAC) bus, enhanced ISA bus, Video Electronics Standards Association (VESA) local bus, and Peripheral Component Interconnect (PCI) bus.

The intelligent terminal 8 typically includes a variety of computer system readable media. Such media may be any available media that is accessible by the smart terminal 8 and includes both volatile and nonvolatile media, removable and non-removable media.

The system memory 82 may include computer system readable media in the form of volatile memory, such as Random Access Memory (RAM)821 and/or cache memory 822. The smart terminal 8 may further include other removable/non-removable, volatile/nonvolatile computer system storage media. By way of example only, storage system 823 may be used to read from and write to non-removable, nonvolatile magnetic media (not shown in FIG. 8, and commonly referred to as "hard drives"). Although not shown in FIG. 8, a magnetic disk drive for reading from and writing to a removable, nonvolatile magnetic disk (e.g., a "floppy disk") and an optical disk drive for reading from or writing to a removable, nonvolatile optical disk (e.g., a CD-ROM, DVD-ROM, or other optical media) may be provided. In these cases, each drive may be connected to bus 83 by one or more data media interfaces. Memory 82 may include at least one program product having a set (e.g., at least one) of program modules that are configured to carry out the functions of embodiments of the invention.

A program/utility 820 having a set (at least one) of program modules 824 may be stored, for example, in memory 82, such program modules 820 including, but not limited to, an operating system, one or more application programs, other program modules, and program data, each of which examples or some combination thereof may include an implementation of a network environment. Program modules 820 generally perform the functions and/or methodologies of the described embodiments of the invention.

The intelligent terminal 8 may also communicate with one or more external devices 84 (e.g., keyboard, pointing device, display 85, etc.), with one or more devices that enable a user to interact with the intelligent terminal 8, and/or with any devices (e.g., network card, modem, etc.) that enable the intelligent terminal 8 to communicate with one or more other computing devices. Such communication may occur via an input/output (I/O) interface 86. Also, the intelligent terminal 8 may communicate with one or more networks (e.g., a Local Area Network (LAN), a Wide Area Network (WAN), and/or a public network such as the internet) through the network adapter 87. As shown, the network adapter 87 communicates with the other modules of the intelligent terminal 8 via the bus 83. It should be understood that although not shown in the figures, other hardware and/or software modules may be used in conjunction with the smart terminal 8, including but not limited to: microcode, device drivers, redundant processing units, external disk drive arrays, RAID systems, tape drives, and data backup storage systems, among others.

The processing unit 81 executes various functional applications and data processing by running the program stored in the system memory 82, for example, to implement the method for sharing the mobile power supply provided by the embodiment of the present invention, which is applied to the fourth intelligent terminal having the sixth identity information, and requests to share the mobile power supply provided by any embodiment of the present invention, and for example, referring to fig. 1A and fig. 1B, the method includes the following steps.

Step 510: establishing a first wireless communication connection with the mobile power supply 100A or 100C through the first wireless communication module 80;

step 520: receiving a target shared charging mode;

step 530: obtaining the first charging duration according to the target sharing charging mode;

step 540: and sending the first control instruction to the mobile power supply 100A or 100C through the first wireless communication connection, wherein the first control instruction comprises the first charging time length.

Example nine

The present embodiment provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the mobile power sharing request method provided in all embodiments of the present invention, and is applied to a fourth intelligent terminal having sixth identity information, and requests to share a mobile power provided in any embodiment of the present invention, and for example, with reference to fig. 1A and fig. 1B, the method includes the following steps.

Step 510: establishing a first wireless communication connection with the mobile power supply 100A or 100C through the first wireless communication module 80;

step 520: receiving a target shared charging mode;

step 530: obtaining the first charging duration according to the target sharing charging mode;

step 540: and sending the first control instruction to the mobile power supply 100A or 100C through the first wireless communication connection, wherein the first control instruction comprises the first charging time length.

Of course, the computer program stored on the computer-readable storage medium provided in the embodiments of the present invention is not limited to the method described above, and may also execute the mobile power supply sharing request method provided in any embodiment of the present invention.

The computer storage media provided in this embodiment may take any combination of one or more computer-readable media. The computer readable medium may be a computer readable signal medium or a computer readable storage medium. A computer readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination of the foregoing. More specific examples (a non-exhaustive list) of the computer readable storage medium would include the following: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the context of this document, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.

A computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated data signal may take many forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device.

Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.

Computer program code for carrying out operations for aspects of the present invention may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, Smalltalk, C + + or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any type of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet service provider).

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (14)

1. A mobile power supply system, comprising:

at least one mobile power source for sharing; the mobile power supply comprises a battery cell;

the controllable output circuit is connected with the battery cell;

a first wireless communication module configured with first identity information; and

a first microprocessor coupled to the controllable output circuit and the first wireless communication module and configured to:

receiving, by the first wireless communication module, a control instruction;

controlling the working state of the controllable output circuit according to the control instruction and a first preset control rule;

a first communication interface, connected to the first microprocessor, for enabling the first microprocessor to report the first identity information to a communication unit connected to the first communication interface based on a preset communication protocol;

the mobile power supply system further includes:

a first sharing management server for managing the sharing-related data;

the first intelligent terminal is configured with second identity information and is configured to be associated with the first sharing management server through the second identity information; and

the second terminal is configured with third identity information and is configured to be associated with the first sharing management server and the first sharing operator through the third identity information;

wherein the first sharing management server is further configured to: storing first geographical position information of the second terminal, and acquiring the first geographical position information after the first intelligent terminal is in communication connection with the first shared management server; the first sharing management server is further configured to:

receiving a sharing request sent by the first intelligent terminal to the first sharing management server, wherein the sharing request comprises a renting request, a returning request, a purchasing request and a refunding request;

sending a sharing code to the first intelligent terminal according to the sharing request;

receiving the sharing code and the first identity information sent by the second terminal to the first sharing management server;

and establishing or releasing a first sharing relation among the first identity information, the second identity information and the third identity information according to the sharing code and the first identity information.

2. The system of claim 1, wherein the second terminal is further configured with:

and the first GPS module is used for acquiring the first geographical position information and enabling the second terminal to report the first geographical position information to the first shared management server.

3. The system of claim 1, wherein when the control command is a first control command, the first control command includes a first charging duration, and the step of controlling the output state of the controllable output circuit according to the control command and according to a first preset control rule includes:

according to the first control instruction, the working state is controlled to be temporarily opened, so that the mobile power supply is changed into a temporarily shared mobile power supply, and an external load connected with the controllable output circuit can be temporarily charged;

recording the first duration of the opening, and when the first duration is equal to the first charging duration, controlling the working state to be switched from the temporary opening state to the temporary closing state, so that the mobile power supply is changed into an unshared mobile power supply and cannot charge the external load; or when the controllable output circuit is detected to be connected with an external load, recording a second duration time of charging, and when the second duration time is equal to the first charging duration time, controlling the working state to be switched from the temporary on state to the temporary off state, so that the mobile power supply is changed into a non-shared mobile power supply and cannot charge the external load.

4. The system of claim 1, wherein when the control command is a third control command, the step of controlling the operating state of the controllable output circuit according to the control command and according to a first preset control rule comprises:

and according to the third control instruction, controlling the working state to be normally open, so that the mobile power supply is changed into a shared mobile power supply without a fixed time limit, and charging a first external load connected with the controllable output circuit without the fixed time limit.

5. The system of claim 1, wherein when the control command is a fourth control command, the step of controlling the operating state of the controllable output circuit according to the control command and according to a first preset control rule comprises:

and according to the fourth control instruction, controlling the working state to be temporarily closed, so that the mobile power supply is changed into a non-shared mobile power supply and cannot charge a first external load connected with the controllable output circuit.

6. The system of claim 1, wherein the first microprocessor is further configured to:

before the step of receiving the control instruction, when the controllable output circuit is detected to be connected with an external load, controlling the working state to be temporarily opened, so that the mobile power supply is changed into a temporarily shared mobile power supply and the external load connected with the controllable output circuit can be temporarily charged;

and recording a third duration time of the charging, and controlling the working state to be temporarily closed when the third duration time is equal to a first preset time length, so that the mobile power supply is changed into a non-shared mobile power supply and cannot charge the external load.

7. A mobile power supply system, comprising:

at least one mobile power source for sharing; the mobile power supply comprises a battery cell;

the controllable output circuit is connected with the battery cell;

a first wireless communication module configured with first identity information; and

a first microprocessor coupled to the controllable output circuit and the first wireless communication module and configured to:

receiving, by the first wireless communication module, a control instruction;

controlling the working state of the controllable output circuit according to the control instruction and a first preset control rule;

a first communication interface, connected to the first microprocessor, for enabling the first microprocessor to report the first identity information to a communication unit connected to the first communication interface based on a preset communication protocol;

the mobile power supply system further includes:

a second sharing management server for managing the sharing-related data;

the third intelligent terminal is configured with fourth identity information and is configured to be associated with the second sharing management server through the fourth identity information; and

at least one intelligent cabinet configured with:

the second communication module is configured with fifth identity information and is configured to be associated with the second shared management server and a second shared operator through the fifth identity information;

at least one holds the chamber, be used for holding portable power source, hold and dispose on the chamber:

a second communication interface, coupled to the first communication interface, and coupled to the second communication module, wherein when the portable power source is locked in the receiving cavity, the second communication interface is communicatively coupled to the first communication interface, such that the microprocessor can report the first identity information to the second communication interface via the first communication interface based on the predetermined communication protocol;

the identity recognition module is connected with the second communication module and used for providing an identity recognition address of the accommodating cavity for the second communication module; and

a controllable locking mechanism for locking and unlocking the mobile power supply accommodated in the accommodating cavity;

a second microprocessor coupled to the controllable locking mechanism and the second communication module and configured to:

reporting first identity information of the mobile power supply locked in the accommodating cavity and a corresponding relation between the first identity information and the identification address to the second shared management server through the second communication module;

receiving control information sent by the second sharing management server through the second communication interface, wherein the control information comprises first identity information and/or the identity identification address corresponding to the mobile power supply of the target to be shared;

according to the control information and a second preset control rule, controlling the controllable locking mechanism to lock or unlock the to-be-shared target mobile power supply accommodated in the accommodating cavity;

the second sharing management server is used for storing second geographical position information of the charging cabinet, and the third intelligent terminal is in communication connection with the second sharing management server to obtain the second geographical position information; the second shared management server is further configured to:

receiving a sharing request sent by the third intelligent terminal to the second sharing management server, wherein the sharing request comprises the fifth identity information, and the sharing request comprises a lease request or a purchase request;

according to the sharing request and a third preset control rule, the control information is sent to the second communication module;

establishing or releasing a second sharing relation among the first identity information, the fourth identity information and the fifth identity information according to the sharing request, wherein the second sharing relation comprises a renting relation or a purchasing relation; or

Receiving first identity information of the mobile power supply locked in the accommodating cavity reported to the second shared management server by the second communication module and a corresponding relation between the first identity information and the identification address;

and establishing or releasing a third sharing relationship among the first identity information, the fourth identity information and the fifth identity information according to the first identity information and the second sharing relationship, wherein the third sharing relationship comprises a return relationship and a return relationship, the third sharing relationship is the return relationship when the second sharing relationship is a lease relationship, and the third sharing relationship is the return relationship when the second sharing relationship is a purchase relationship.

8. The system of claim 7, wherein the charging cabinet is further configured with:

and the second GPS module is in communication connection with the second communication module and is used for acquiring the second geographical position, so that the intelligent cabinet reports the second geographical position information to the second sharing management server through the second communication module.

9. A mobile power supply sharing request method is applied to a fourth intelligent terminal with sixth identity information and is used for requesting to share a mobile power supply, and the method comprises the following steps:

establishing a first wireless communication connection with the mobile power supply through a first wireless communication module;

receiving information of a target shared charging mode;

obtaining a first charging time length according to the information;

sending a first control instruction to the mobile power supply through the first wireless communication connection, wherein the first control instruction comprises a first charging duration;

wherein, prior to the step of receiving information of the target shared charging mode, the method further comprises:

establishing a second wireless communication connection with the shared management server;

transmitting a first sharing request to the sharing management server through the second wireless communication connection;

receiving a first sharing code sent by the sharing management server according to the first sharing request;

enabling a fifth terminal to send first identity information and seventh identity information of a first shared operator associated with the fifth terminal to the shared management server according to the first shared code;

and enabling the sharing management server to establish a first sharing relationship based on the first identity information, the sixth identity information and the seventh identity information according to a first sharing code, wherein the first sharing relationship comprises a renting relationship or a purchasing relationship.

10. The method of claim 9, wherein the target shared charging mode comprises:

paying a first preset number of equivalents for exchanging the charging time for a first preset duration; or

And playing the multimedia content with the second preset time length to exchange for the charging time with the second preset time length.

11. The method of claim 9, wherein after the step of causing the sharing management server to establish a first sharing relationship based on the first identity information, the sixth identity information, and the seventh identity information according to a first sharing code, the method further comprises:

establishing a third wireless communication connection with the shared management server;

transmitting a second sharing request to the sharing management server based on the first sharing relationship through the third wireless communication connection;

receiving a second sharing code sent by the sharing management server according to the second sharing request;

enabling a sixth terminal to send the first identity information and eighth identity information of a second sharing operator associated with the sixth terminal to the sharing management server according to the second sharing code;

enabling the sharing management server to release the first sharing relationship according to the second sharing code, or to establish a second sharing relationship based on the first identity information, the sixth identity information and the eighth identity information, wherein the second sharing relationship is a returning relationship when the first sharing relationship is a leasing relationship, and the second sharing relationship is a returning relationship when the first sharing relationship is a purchasing relationship.

12. The method of claim 9, wherein the mobile power source comprises a battery cell;

the controllable output circuit is connected with the battery cell;

a first wireless communication module configured with first identity information; and

a first microprocessor coupled to the controllable output circuit and the first wireless communication module and configured to:

receiving, by the first wireless communication module, a control instruction;

controlling the working state of the controllable output circuit according to the control instruction and a first preset control rule;

and the first communication interface is connected with the first microprocessor and used for enabling the first microprocessor to report the first identity information to a communication unit connected with the first communication interface based on a preset communication protocol.

13. An intelligent terminal, characterized in that, intelligent terminal includes:

one or more first processors;

a first storage device for storing one or more programs;

when the one or more programs are executed by the one or more first processors, the one or more first processors are enabled to implement the mobile power supply sharing request method according to any one of claims 9-12.

14. A computer-readable storage medium, on which a computer program is stored, the program, when being executed by a processor, implementing the mobile power supply sharing request method according to any one of claims 9 to 12.

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