CN113538796B - Sharing method and sharing system of mobile power supply - Google Patents

Abstract

The invention relates to a sharing method and a sharing system of a mobile power supply, which are applied to interaction among a user side, a charging and battery replacing integrated machine and a cloud server; the sharing method comprises the following steps: sending a mobile power supply purchase request to a cloud server through a user side to obtain a portion M capable of being bought and a power-replaceable number N, wherein N is larger than or equal to M; when the mobile power supply needs to be used, the K mobile power supplies are bought from the cloud server or the charging and switching all-in-one machine or another user side, and the corresponding shards capable of being bought and the times capable of being switched are respectively adjusted to be M-K and N-K; when the obtained L mobile power supplies are stored in the charging and battery replacing integrated machine or transferred to another user side, the corresponding available share is adjusted to be M-K + L, and L is less than or equal to K; if at least one of the conditions that the supportable share is adjusted to be zero and the power-replaceable times are adjusted to be zero is met, the mobile power supply cannot be supported, and the supportable share and/or the power-replaceable times need to be supplemented. The invention is not limited by the use time of the traditional mobile power sharing mode.

Description

Sharing method and sharing system of mobile power supply

Technical Field

The invention belongs to the technical field of mobile power supply sharing, and particularly relates to a sharing method and a sharing system of a mobile power supply.

Background

Currently, the market of a shared mobile power supply, such as a shared power bank, has three main operation modes:

first, mobile sharing in mobile mode. As the name suggests, the charger can be taken away and returned in different places. The mode is similar to a sharing bicycle, and the main profit points are in the aspects of rent of the charging treasure, advertisement on single-machine equipment, sale of matched data lines and the like. In addition, the mode has the advantage that the user is charged a deposit because the charge treasure is loaned, similar to the deposit policy of a shared bicycle. However, even if the user pays the deposit, the charge pal is not owned by the user and cannot be used for a long time; and the rent of treasured charges according to the time, if the user leads to not returning the treasured that charges for a long time because of various reasons, the expense is higher.

Second, mobile sharing in fixed scenarios. After the user borrows the treasured that charges, still move about, return in the place after using. Compared with the first operation mode, the investment is smaller, and the risk is lower compared with the return from different places; however, the user can only move nearby, the use range is limited, and the user needs to return in situ, which is not convenient enough.

And thirdly, fixed sharing under a fixed scene. The shared charger is put in corresponding positions of public places such as hotels, restaurants, coffee houses and KTVs, and is used as a charger and a charger, so that the shared charger can be used as a charger, cannot be borrowed, does not need to pay a deposit, and is convenient and quick. But only at the place of throwing in of sharing charger can realize charging, and the flexibility is poor.

Disclosure of Invention

Based on the above disadvantages and shortcomings of the prior art, an object of the present invention is to solve at least one or more of the above problems of the prior art, in other words, to provide a sharing method and system for a mobile power supply, which satisfies one or more of the above requirements.

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

a sharing method of a mobile power supply is applied to interaction among a user side, a charging and battery replacing all-in-one machine and a cloud server, wherein the charging and battery replacing all-in-one machine is used for storing, charging and fetching the mobile power supply;

the sharing method comprises the following steps:

sending a mobile power supply purchase request to a cloud server through a user side to obtain a portion M capable of being bought and a changeable power number N, wherein M, N is a positive integer, and N is larger than or equal to M;

when the mobile power supply needs to be used, the K mobile power supplies are bought from the cloud server or the charging and switching all-in-one machine or another user side, and the corresponding shards capable of being bought and the times capable of being switched are respectively adjusted to be M-K and N-K; wherein K is a positive integer and is less than or equal to M;

when the obtained L mobile power supplies are stored in the charging and battery replacing integrated machine or transferred to another user side, the corresponding available share is adjusted to be M-K + L, wherein L is a positive integer and is less than or equal to K;

if at least one of the conditions that the available share is adjusted to be zero and the number of times of power interchange is adjusted to be zero is met, the mobile power supply cannot be taken, and the available share and/or the number of times of power interchange are/is required to be supplemented.

Preferably, the method for sharing a mobile power supply further includes:

sending a battery swapping request to a cloud server through a user side;

the cloud server judges whether the current available power times P is zero or not; if so, rejecting the battery swap request; if not, pushing the position information of the adjacent charging and battery replacing integrated machine or another user side according to the current position information of the user side so as to exchange Q mobile power supplies with the charging and battery replacing integrated machine or the other user side, and correspondingly adjusting the current available battery times to be P-Q;

wherein P, Q is a positive integer, and Q is less than or equal to P.

As preferred scheme, it trades the battery to fill to trade portable power source storage to fill includes:

the storage request is sent to the cloud server through the user side, the cloud server pushes the position information of the charging and battery replacing all-in-one machine nearby according to the current position information of the user side, and a corresponding navigation path is provided so as to store the mobile power supply to the charging and battery replacing all-in-one machine.

Preferably, the transferring the mobile power source to another user side includes:

the method comprises the steps that an assignment request is sent to a cloud server through a user side, and the cloud server pushes assignment information to another user side needing electricity according to current position information of the user side; if the other user end needing electricity is matched, the cloud server establishes a communication window between the user end and the other user end needing electricity for chatting, and sends the navigation path to the user end and/or the other user end needing electricity.

Preferably, if one of the user terminal and the other user terminal that needs to use electricity deletes the chat log, the chat log of the other user terminal is also deleted accordingly.

As a preferred scheme, the user side is in signal connection with the mobile power supply which is taken by the user side so as to obtain target information of the mobile power supply and upload the target information to the cloud server; the target information of the mobile power supply comprises an identifier of the mobile power supply, the current residual capacity and the charging and discharging times.

As a preferred scheme, the mobile power supply is stored in the charging and battery replacing integrated machine or transferred to another user side to obtain corresponding points or cash; when the point or cash accumulation reaches the target value, the corresponding power exchange times or the mall points or cash withdrawal is exchanged.

As an optimal scheme, the user side is provided with a shared App, the shared App interacts with the cloud server and the charging and swapping all-in-one machine through the shared App, and interaction between the shared apps of different user sides is realized through the cloud server.

The invention also provides a sharing system of the mobile power supply, which applies the sharing method of any scheme, and the sharing system comprises:

a cloud server;

the charging and battery replacing integrated machine is used for storing, charging and taking the mobile power supply; the charging and battery replacing integrated machine is interacted with a cloud server;

and the user side is respectively interacted with the cloud server, the charging and battery replacing integrated machine and the other user side.

As a preferred scheme, the mobile power supply is packaged by adopting a bin-divided structure, the bin-divided structure comprises a shell and a plurality of charging bins positioned in the shell, and the structure of each charging bin is matched with that of the mobile power supply so as to place the charging power supply;

the charging base is arranged in the charging bin and used for charging the mobile power supply placed in the charging bin; the shell is provided with a charging head which is electrically connected with each charging seat;

the mobile power supply is provided with a charging connector matched with a charging interface of the terminal to be charged and used for directly charging the terminal to be charged.

Compared with the prior art, the invention has the beneficial effects that:

according to the sharing method and the sharing system of the mobile power supply, for the user, the mobile power supply always belongs to the user, the limitation of the traditional mobile power supply sharing mode on the use time is avoided, and the overhigh cost caused by long-time unreturned can be avoided; in addition, the sharing method and the sharing system have the advantages that the design of the shareable share and the power-changeable times is beneficial to improving the sharing flexibility and participation degree of the mobile power supply and saving resources, the shareable share of the mobile power supply which is never in the share of the mobile power supply can be increased due to storage or transfer, and the good operation of the sharing industry is ensured.

Drawings

Fig. 1 is a flowchart of a sharing method of a mobile power supply according to embodiment 1 of the present invention;

fig. 2 is a framework diagram of a sharing system of a mobile power supply of embodiment 1 of the present invention;

fig. 3 is a framework diagram of a cloud server according to embodiment 1 of the present invention;

fig. 4 is a framework diagram of a shared App according to embodiment 1 of the present invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention, the following description will explain the embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

Example 1:

the sharing method of the mobile power supply is applied to interaction among the user side, the charging and battery replacing all-in-one machine and the cloud server. The charging and battery-replacing integrated machine is used for storing, charging and taking the mobile power supply.

As shown in fig. 1, the method for sharing a mobile power supply of this embodiment includes:

(1) sending a mobile power supply purchase request to a cloud server through a user side to obtain a portion M capable of being bought and a changeable power number N, wherein M, N is a positive integer, and N is larger than or equal to M;

the user side is a mobile terminal commonly used by the user, such as a mobile phone, an Ipad, a notebook computer, and the like.

Specifically, a user sends a request for purchasing a mobile power supply to a cloud server through a user side, and then the user correspondingly obtains the authority for drawing the mobile power supply, which is expressed as a portion M capable of being drawn and a power-changeable number N, wherein each portion corresponds to the drawing authority of one mobile power supply, and each power-changeable corresponds to the power-changeable authority of one mobile power supply. Considering that the corresponding power-changeable times need to be deducted when a user draws the mobile power supply, the corresponding power-changeable times are correspondingly configured on the basis of purchasing shares; n is larger than or equal to M, namely the purchased original share can be guaranteed to be freely bought, and corresponding power-changeable times can be given when the original share is purchased according to the actual operation condition.

(2) When the mobile power supply needs to be used, the K mobile power supplies are bought from the cloud server or the charging and switching all-in-one machine or another user side, and the corresponding shards capable of being bought and the times capable of being switched are respectively adjusted to be M-K and N-K; wherein K is a positive integer and is less than or equal to M;

specifically, when the user needs to use the portable power source, the following three ways are available for the user to draw the portable power source:

the first method comprises the following steps: and (5) drawing from the cloud server. Similar to ordering on the Internet, the order can be directly distributed to a mailing address for ordering;

and the second method comprises the following steps: and (5) getting to the charging and battery replacing integrated machine. Specifically, the two-dimensional code on the charging and battery replacing integrated machine can be scanned through the user side and the operation of getting is carried out, so that the mobile power supply is got at the charging and battery replacing integrated machine; other conventional interaction methods can be adopted to draw the portable power source, for example: the method comprises the steps that a user side applies for a cloud server side to draw a mobile power supply, the cloud server issues verification codes to the user side and a charging and battery replacing integrated machine, the user interacts with the charging and battery replacing integrated machine to input the verification codes, and the charging and battery replacing integrated machine outputs the mobile power supply through matching of the verification codes; other existing interaction methods exist, and are not described in detail herein.

And the third is that: and drawing to another user terminal. The sharing among users is realized, so that the users can acquire the mobile power supply at any time and any place. Wherein, the branch square deducts the corresponding branch which can be taken and the number of times of power interchange; the method comprises the steps that the payable party increases corresponding payable shares, in addition, rewards such as points, cash or exchangeable times can be obtained, and when the points or cash accumulation reach a target value, the corresponding exchangeable times or mall points or cash withdrawal is exchanged.

(3) When the obtained L mobile power supplies are stored in the charging and battery replacing integrated machine or transferred to another user side, the corresponding available share is adjusted to be M-K + L, wherein L is a positive integer and is less than or equal to K; and when the mobile power supply is required to be used subsequently, carrying out the operation of getting.

Specifically, the user is saved portable power source to the battery all-in-one that trades that fills, includes:

the user sends a storage request to the cloud server through the user side, the cloud server pushes position information of the charging and battery replacing all-in-one machines nearby according to the current position information of the user side, and provides corresponding navigation paths, so that the user can reach the required charging and battery replacing all-in-one machine in time, and storage operation of the mobile power supply is carried out on the corresponding charging and battery replacing all-in-one machine. After the storage operation is completed, the user-side available share is adjusted accordingly.

Specifically, the transferring of the mobile power source to another user side by the user includes:

the method comprises the steps that a user sends an assignment request to a cloud server through a user side, and the cloud server pushes assignment information to another user side which needs electricity according to current position information of the user side; and if the other user end needing electricity utilization is matched, the cloud server establishes a communication window between the user end and the other user end needing electricity utilization for chatting, and sends the navigation path to the user end and/or the other user end needing electricity utilization so as to facilitate the transfer transaction of the two users. After the transaction is completed, the transferor increases the corresponding chargeable share, and can obtain rewards such as points, cash or exchangeable times, and the like, and when the points or cash accumulation reach a target value, the corresponding exchangeable times or mall points or cash withdrawal is exchanged; the transferee deducts the corresponding available share and the number of times of power change. If one of the user side and the other user side needing power consumption deletes the chat records, the chat records of the other user side are correspondingly deleted, and the chat records can be burnt after being read.

If at least one of the conditions that the available share is adjusted to be zero and the number of times of power interchange is adjusted to be zero is met, the mobile power supply cannot be taken, and the available share and/or the number of times of power interchange are/is required to be supplemented.

Specifically, the supportable share is adjusted to zero, that is, the user has completely supportable all the shares of the mobile power supply, and subsequently, if the user wants to supportable the mobile power supply, the mobile power supply that is previously supportable must be stored in the charging and replacing all-in-one machine or transferred to another user side, or an additional supportable share is purchased, so as to supplement the supportable share;

the power switching times are adjusted to be zero, namely, the user completely uses up all the power switching times, and the mobile power supply cannot be taken; if a mobile power supply is to be taken out subsequently, the number of times of power exchange must be supplemented; the supplementary mode of the number of times of power interchange can adopt the existing common mode, such as: transferring the drawn mobile power supply to another user side, or purchasing additional power-changeable times, or supplementing the power-changeable times in a point exchange mode.

The sharing App is installed at the user side of the embodiment, the interaction with the cloud server and the interaction with the charging and battery replacing all-in-one machine are operated through the sharing App, the interaction between the sharing App at different user sides is realized through the cloud server, the interaction between users is realized, and the operation is convenient and fast.

Corresponding to the sharing method of the mobile power supply of the embodiment, the embodiment further provides a sharing system of the mobile power supply, as shown in fig. 2, the sharing system specifically includes a cloud server, each charging and swapping all-in-one machine and each user side, and the sharing of the mobile power supply is realized through pairwise interaction.

Specifically, as shown in fig. 3, the cloud server of this embodiment includes a communication module, a receiving module, a storage module, a processing module, an interaction module, a pushing module, and a communication window module.

The communication module is used for being in communication connection with each charging and battery replacing integrated machine and each user side so as to transmit signals;

the receiving module is used for receiving a request of purchasing, drawing, storing or transferring the mobile power supply sent by a user side;

the storage module is used for storing interaction information among the user terminals, the charging and battery replacing integrated machines and the cloud server;

the processing module is used for carrying out settlement adjustment on the share which can be bought, the electricity-changeable times and the reward according to the corresponding request;

the interaction module is used for realizing interaction among different user sides and interaction between the user sides and the charging and battery replacing integrated machine;

the pushing module is used for pushing the position information of the charging and battery replacing integrated machine or another user side nearby according to the current position information of the user side and providing a corresponding navigation path;

and the communication window module is used for a communication window between the user side and another user side needing power utilization to carry out chatting.

The charging and battery-replacing all-in-one machine is used for storing, charging and fetching the mobile power supply. The charging and battery-replacing integrated machine can be arranged in various public places, can accommodate charging and battery replacing of dozens or hundreds of mobile power supplies, and meets daily consumption requirements.

The sharing App is installed at the user side of the embodiment, the interaction with the cloud server and the interaction with the charging and battery replacing all-in-one machine are operated through the sharing App, the interaction between the sharing App at different user sides is realized through the cloud server, the interaction between users is realized, and the operation is convenient and fast. Specifically, as shown in fig. 4, the shared App includes:

the mobile power supply purchasing module is used for sending a mobile power supply purchasing request to the cloud server;

the system comprises a support module, a charging and replacing all-in-one machine and a mobile power supply, wherein the support module is used for sending a mobile power supply support request to a cloud server so as to support the mobile power supply to the cloud server or the charging and replacing all-in-one machine or another user side;

the power switching frequency purchasing module is used for sending a power switching frequency purchasing request to the cloud server;

the storage request module is used for sending a storage request to the cloud server;

the transfer module is used for sending a transfer request to the cloud server;

the point exchange module is used for exchanging points into electricity exchange times;

the chat record deleting module is used for deleting the chat records; if one of the user side and the other user side needing power consumption deletes the chat records, the chat records of the other user side are correspondingly deleted, and burning after reading the chat records can be realized.

For the sharing scheme of the embodiment, the mobile power supply belongs to the user, and the user can select storage or transfer and can reserve the mobile power supply; the subsequent power-changeable service can continuously generate interaction with the user, the limitation of service time is not required to be considered, a new mobile power supply is not required to be purchased, and only the power-changeable times are required to be supplemented. In addition, the user can confirm the quantity of the mobile power supply that gets according to actual demand, need not to get completely, and the flexibility is high.

Example 2:

the sharing method of the mobile power supply of the present embodiment is different from that of embodiment 1 in that:

the sharing method of the mobile power supply of the embodiment further includes:

the user can also send a battery replacement request to the cloud server through the user side;

the cloud server judges whether the current available power times P is zero or not;

if so, rejecting the battery swap request; at this time, the mobile power supply can be exchanged only by supplementing the power-changeable times; the supplementary mode of the number of times of power interchange can adopt the existing common mode, such as: transferring the drawn mobile power supply to another user side, or purchasing additional power-changeable times, or supplementing the power-changeable times in a point exchange manner;

if not, pushing the position information of the adjacent charging and battery replacing integrated machine or another user side according to the current position information of the user side so as to exchange Q mobile power supplies with the charging and battery replacing integrated machine or the other user side, and correspondingly adjusting the current available battery times to be P-Q; wherein P, Q is a positive integer, and Q is less than or equal to P.

Other procedures can refer to example 1.

Accordingly, for the sharing system of the mobile power supply of the present embodiment:

the cloud server also comprises a judging module used for judging whether the current available power times P of the user is zero or not;

the shared App further comprises a battery swapping module used for sending a battery swapping request to the cloud server;

other architectures can refer to example 1.

Example 3:

the sharing method of the mobile power supply of the present embodiment is different from that of embodiment 1 in that:

the sharing method of the mobile power supply of the embodiment further includes:

the cloud server can acquire the number of the mobile power supplies stored in each charging and battery replacing all-in-one machine through interaction between the cloud server and the charging and battery replacing all-in-one machines, and if the number of the mobile power supplies stored in each charging and battery replacing all-in-one machine is lower than a preset target number, the mobile power supplies are marked as target charging and battery replacing all-in-one machines; the target charging and battery replacing integrated push is sent to each user side through the cloud server, so that the user is reminded that the mobile power supply which can be bought by the user can be stored in the target charging and battery replacing integrated machine, and extra rewards are obtained, for example: and (4) reward types such as power change times, points, cash, mall points or coupons and the like. The number of the mobile power supplies stored in the charging and battery replacing all-in-one machine with high use frequency is ensured, no extra configuration is required by an operator, the cost is reduced, and the sharing frequency of the mobile power supplies is improved;

other procedures can refer to example 1.

Accordingly, for the sharing system of the mobile power supply of the present embodiment:

the pushing module of the cloud server is also used for pushing the target charging and battery replacing integrated machine to each user side;

other architectures can refer to example 1.

Example 4:

the sharing method of the mobile power supply of the present embodiment is different from that of embodiment 1 in that:

the sharing method of the mobile power supply of the embodiment further includes:

the user side is in signal connection with the mobile power supply which is taken by the user side to obtain target information of the mobile power supply and upload the target information to the cloud server; the target information of the mobile power supply comprises an identifier of the mobile power supply, the current residual capacity and the charging and discharging times so as to realize the sharing of the target information of the mobile power supply;

other procedures can refer to example 1.

Correspondingly, for the sharing system of the mobile power supply of the embodiment, the cloud server further includes:

the information acquisition module is used for acquiring target information of the mobile power supply; the target information of the mobile power supply comprises an identifier of the mobile power supply, the current residual capacity and the charging and discharging times so as to realize the sharing of the target information of the mobile power supply;

the information uploading module is used for uploading the current position information of the user side and the target information of the mobile power supply to the cloud server, so that the corresponding target information of the mobile power supply can be conveniently obtained when the users interact with each other;

other architectures can refer to example 1.

Example 5:

the sharing system of the mobile power supply of the present embodiment is different from that of embodiment 1 in that:

the portable power source is packaged by adopting a bin-divided structure, the bin-divided structure comprises a shell and a plurality of charging bins positioned in the shell, and the structure of each charging bin is matched with that of the portable power source so as to place the charging source; the portable power source adopts the design of strip structure, and the size is little, portable.

The charging base is arranged in the charging bin and used for charging the mobile power supply placed in the charging bin; the shell is provided with a charging head which is electrically connected with each charging seat; the charging head is externally connected with a mains supply, so that integrated charging can be realized.

In addition, the mobile power supply is provided with a charging connector matched with a charging interface of the terminal to be charged, and the mobile power supply is used for directly charging the terminal to be charged without an additional charging wire.

Other architectures can refer to example 1.

Example 6:

the sharing method of the mobile power supply of the present embodiment is different from that of embodiment 1 in that:

when the user side is automatically powered off due to power shortage, the detailed description is given by taking a mobile phone as an example, and the user side cannot interact with the cloud server or the charging and switching all-in-one machine or other user sides at the moment, a user can input a corresponding user name and a corresponding password or perform face recognition on a control display screen of the charging and switching all-in-one machine so as to verify the identity of the user, and the cloud server controls the charging and switching all-in-one machine to output a mobile power supply when the available share and the power switching times of the user are not zero, so that the user can charge the mobile phone; the use experience of the user is improved;

other procedures can refer to example 1.

Example 7:

the sharing method of the mobile power supply of the present embodiment is different from that of embodiment 1 in that:

the charging and battery replacing all-in-one machine serves as a temporary storage station, when the two user ends are matched and shared, the cloud server can be matched with the adjacent charging and battery replacing all-in-one machine according to the positioning information of the user end of the supported party, so that the supported party can temporarily store the mobile power supply in the adjacent charging and battery replacing all-in-one machine, and the supported mobile power supply can be conveniently taken by the supported party;

wherein a temporal threshold for temporary storage may be set; if the paying party pays the mobile power supply in the late future, namely the temporary storage time threshold is exceeded, the paying party needs to pay corresponding points or cash and other remuneration to the operator; by the design, the called party does not need to wait for the coming of the calling party for a long time, and the use experience of a user is improved;

other procedures can refer to example 1.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing has outlined rather broadly the preferred embodiments and principles of the present invention and it will be appreciated that those skilled in the art may devise variations of the present invention that are within the spirit and scope of the appended claims.

Claims (10)

1. A sharing method of a mobile power supply is characterized by being applied to interaction among a user side, a charging and battery replacing all-in-one machine and a cloud server, wherein the charging and battery replacing all-in-one machine is used for storing, charging and fetching the mobile power supply;

the sharing method comprises the following steps:

sending a mobile power supply purchase request to a cloud server through a user side to obtain a portion M capable of being bought and a changeable power number N, wherein M, N is a positive integer, and N is larger than or equal to M;

when the mobile power supply needs to be used, the K mobile power supplies are bought from the cloud server or the charging and switching all-in-one machine or another user side, and the corresponding shards capable of being bought and the times capable of being switched are respectively adjusted to be M-K and N-K; wherein K is a positive integer and is less than or equal to M;

when the obtained L mobile power supplies are stored in the charging and battery replacing integrated machine or transferred to another user side, the corresponding available share is adjusted to be M-K + L, wherein L is a positive integer and is less than or equal to K;

if at least one of the conditions that the available share is adjusted to be zero and the number of times of power interchange is adjusted to be zero is met, the mobile power supply cannot be taken, and the available share and/or the number of times of power interchange are/is required to be supplemented.

2. The method for sharing a mobile power supply according to claim 1, further comprising:

sending a battery swapping request to a cloud server through a user side;

the cloud server judges whether the current available power times P is zero or not; if so, rejecting the battery swap request; if not, pushing the position information of the adjacent charging and battery replacing integrated machine or another user side according to the current position information of the user side so as to exchange Q mobile power supplies with the charging and battery replacing integrated machine or the other user side, and correspondingly adjusting the current available battery times to be P-Q;

wherein P, Q is a positive integer, and Q is less than or equal to P.

3. The sharing method of the mobile power supply according to claim 1 or 2, wherein storing the mobile power supply to the charging and battery replacing all-in-one machine comprises:

the storage request is sent to the cloud server through the user side, the cloud server pushes the position information of the charging and battery replacing all-in-one machine nearby according to the current position information of the user side, and a corresponding navigation path is provided so as to store the mobile power supply to the charging and battery replacing all-in-one machine.

4. The method according to claim 1 or 2, wherein transferring the mobile power source to another user terminal comprises:

the method comprises the steps that an assignment request is sent to a cloud server through a user side, and the cloud server pushes assignment information to another user side needing electricity according to current position information of the user side; if the other user end needing electricity is matched, the cloud server establishes a communication window between the user end and the other user end needing electricity for chatting, and sends the navigation path to the user end and/or the other user end needing electricity.

5. The method as claimed in claim 4, wherein if one of the user terminal and the other user terminal that needs to use electricity deletes the chat log, the chat log of the other user terminal is also deleted accordingly.

6. The method according to claim 1 or 2, wherein the user side is connected to the mobile power source signal taken by the user side to obtain target information of the mobile power source and upload the target information to the cloud server; the target information of the mobile power supply comprises an identifier of the mobile power supply, the current residual capacity and the charging and discharging times.

7. The sharing method of the mobile power supply according to claim 1, wherein the mobile power supply is stored in a charging and battery replacing all-in-one machine or transferred to another user side to obtain corresponding points or cash; when the point or cash accumulation reaches the target value, the corresponding power exchange times or the mall points or cash withdrawal is exchanged.

8. The sharing method of the mobile power supply, according to claim 1, wherein the shared App is installed at the user side, the shared App interacts with the cloud server and the charging and swapping all-in-one machine through the shared App, and the interaction between the shared apps at different user sides is realized through the cloud server.

9. A sharing system of a mobile power supply, applying the sharing method according to any one of claims 1 to 8, wherein the sharing system comprises:

a cloud server;

the charging and battery replacing integrated machine is used for storing, charging and taking the mobile power supply; the charging and battery replacing integrated machine is interacted with a cloud server;

and the user side is respectively interacted with the cloud server, the charging and battery replacing integrated machine and the other user side.

10. The sharing system of the mobile power supply according to claim 9, wherein the mobile power supply is packaged in a bin-divided structure, the bin-divided structure comprises a housing and a plurality of charging bins located in the housing, and the structure of each charging bin is matched with the structure of the mobile power supply to place the charging power supply;

the charging base is arranged in the charging bin and used for charging the mobile power supply placed in the charging bin; the shell is provided with a charging head which is electrically connected with each charging seat;

the mobile power supply is provided with a charging connector matched with a charging interface of the terminal to be charged and used for directly charging the terminal to be charged.

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