CN110599694A - Intelligent lithium ion battery sharing system and method and reservation method thereof - Google Patents

Abstract

The invention provides an intelligent lithium ion battery sharing system, a sharing method and a reservation method thereof, wherein the sharing method comprises the following steps: the system comprises a mobile terminal, a background server and an intelligent lithium ion battery, wherein the background server is used for receiving and storing a battery to be shared with unique ID information and the background server; the battery to be shared comprises a rechargeable battery pack, an electric quantity monitoring module and a positioning module which are integrated in a battery shell; the background server comprises a service mechanism for sharing the battery charging service and a sharing management cloud server so as to realize the functions of sharing and reserving the lithium ion battery.

Description

Intelligent lithium ion battery sharing system and method and reservation method thereof

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of lithium ion batteries, in particular to an intelligent lithium ion battery sharing system, a method and a reservation method thereof.

[ background of the invention ]

As electric equipment such as electric bicycles and electric automobiles become more and more popular in daily life, lithium ion batteries that supply energy to the electric equipment are also attracting more and more attention. Therefore, it is an important issue to effectively manage the battery, ensure the safety of the battery, and maximize the performance of the battery.

At present, a lithium ion battery of electric equipment belongs to a core component with higher value of the electric equipment, and is easy to disassemble and can be replaced and used after being disassembled. However, the lithium ion battery has the problems of short endurance time and long charging time. Especially for users who need to use electric bicycles or electric automobiles in a long distance, when the power of the lithium ion battery mounted on the machine is consumed or is consumed soon, if a charging mode is adopted, the charging time needs to be waited for a longer time, and the situation of inconvenient charging exists because the existing charging system or charging station is rare.

For a replaceable lithium ion battery, it is essential to provide a lithium ion battery sharing system that can share and reserve functions.

[ summary of the invention ]

The invention aims to solve the technical problem of the prior art, and provides an intelligent lithium ion battery sharing system, a sharing method and a reservation method thereof, which can realize the sharing and reservation functions of lithium ion batteries.

In order to achieve the above object, the present invention provides an intelligent lithium ion battery sharing system, comprising: the mobile terminal, the background server and the battery to be shared, wherein the background server is used for receiving and storing the battery to be shared with the unique ID information and the background server; the battery to be shared comprises a rechargeable battery pack, an electric quantity monitoring module and a positioning module which are integrated in a battery shell; the background server comprises a service mechanism for sharing the battery charging service and a sharing management cloud server; the electric quantity monitoring module is used for monitoring the electric quantity of the rechargeable battery pack and communicating with the background server; the positioning module is used for monitoring the position of the battery to be shared in real time; the mobile terminal is provided with a battery sharing APP and is used for acquiring a full-charge to-be-shared battery located in a service mechanism; and the sharing management cloud server is used for managing all batteries to be shared in the service mechanism and sending an authorization key instruction to the mobile terminal and the batteries to be shared.

In an embodiment of the present invention, the battery to be shared further includes a communication module, and the sharing management cloud server includes a sharing battery management module and a positioning management module; the communication module is used for sending sharing information of the battery to be shared to the shared battery management module, wherein the sharing information comprises position information, electric quantity information, battery ID information and binding state information; the shared battery management module is used for updating data information of a battery to be shared in the service mechanism in real time, wherein the data information comprises a state label of the battery to be shared, a name of a current charging service mechanism, current position information, historical charging times and bound user information, and the state label is set to be available from unavailable after the shared battery is fully charged; the positioning management module starts the positioning function of the positioning module when the shared battery state label is available, closes the positioning function of the positioning module when the shared battery state label is unavailable, and cannot share the shared battery when the positioning function is closed.

In an embodiment of the present invention, the communication module includes one or more of a WIFI module, a bluetooth module, a 2G communication module, a 3G communication module, a 4G communication module, and a 5G communication module.

In an embodiment of the present invention, the mobile terminal includes a reservation request module, and the shared management cloud server includes a reservation processing module; the reservation request module is used for sending a reservation request of the selected battery to be shared to the reservation processing module, wherein the reservation request comprises the address of the battery to be shared, the reservation time and the ID information of the battery to be shared; the reservation processing module acquires the ID information of the current shared battery after receiving the reservation request, performs positioning monitoring, and refuses the reservation request and feeds back reservation failure information to the mobile terminal when X is more than or equal to Y according to comparison between the time X required by the current shared battery to be fully charged and the reservation time Y; feeding back reservation success information to the mobile terminal, and setting a corresponding state tag of the battery to be shared as unavailable; and when X is less than Y, receiving a reservation request, reserving successful information, and setting the corresponding state label of the battery to be shared as unavailable.

In an embodiment of the invention, the available state batteries in the service mechanism are all provided with intelligent locks which are communicated with the cloud management server; the mobile terminal comprises a battery selection module used for selecting a battery to be shared and sending a battery selection request to the sharing management cloud server.

In order to achieve the above object, the present invention further provides an intelligent lithium ion battery sharing method, including the following steps:

acquiring to-be-shared battery information: a user acquires the information of the battery to be shared through a mobile terminal, and sends the information and the use application information of the user to a background server, wherein the information comprises ID information, electric quantity residual information and position information of the battery to be shared;

and (3) use authorization: the background server receives and approves the information sent by the mobile terminal, and sends an authorization key instruction to both the mobile terminal and the battery to be shared after approval;

key verification use: and after receiving the key instruction, the user sends the key to the battery to be shared, and the battery to be shared verifies the received key from the mobile terminal and the received key instruction from the background server to complete identity verification and realize shared use of the battery to be shared by the user.

In an embodiment of the present invention, in the step of obtaining the information of the battery to be shared, the user may scan the two-dimensional code of the battery to be shared through the mobile terminal to obtain the information of the battery to be shared, or may display the information of the battery to be shared to the mobile terminal through the sharing management cloud server.

In order to achieve the above object, the present invention further provides an intelligent lithium ion battery reservation method, including the following steps:

a user sends self-service reserved battery use information selected to be shared to a background server through a mobile terminal, wherein the reserved battery use information comprises an address and reserved time of a battery to be shared;

after receiving the reservation request, the background server acquires the use information of the reserved battery, performs positioning monitoring, and refuses the reservation request and feeds back reservation failure information to the mobile terminal when X is larger than or equal to Y according to comparison between the time X required by the current shared battery to be fully charged and the reservation time Y; feeding back reservation success information to the mobile terminal or the vehicle-mounted terminal, and setting a corresponding state label of the battery to be shared as unavailable; and when X is less than Y, receiving a reservation request, reserving successful information, and setting the corresponding state label of the battery to be shared as unavailable.

Compared with the prior art, the invention has the advantages that: the intelligent lithium ion battery can realize sharing and reservation of the intelligent lithium ion battery through wireless connection and communication among the shared battery, the mobile terminal and the background server, and the utilization rate of the lithium ion battery is improved.

[ description of the drawings ]

Fig. 1 is a block schematic diagram of a smart lithium ion battery sharing system according to the present invention.

Fig. 2 is a block schematic diagram of the intelligent lithium ion battery sharing system according to the above embodiment of the present invention.

Fig. 3 is a schematic flow chart of the intelligent lithium ion battery sharing method according to the above embodiment of the present invention.

Fig. 4 is a flowchart illustrating a reservation method of the intelligent lithium ion battery according to the above embodiment of the present invention.

[ detailed description ] embodiments

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1 and fig. 2, the description of the intelligent lithium ion battery sharing system of the present invention is provided, and the intelligent lithium ion battery sharing system includes: the mobile terminal 10, the background server 20 and the battery 30 to be shared, wherein the background server 20 comprises a service mechanism 21 for sharing battery charging service and a sharing management cloud server 22, and is used for receiving and storing the battery 30 to be shared with unique ID information; the battery to be shared 30 comprises a rechargeable battery pack 31, an electric quantity monitoring module 32 and a positioning module 33 which are integrated in a battery shell; the electric quantity monitoring module 32 is configured to monitor the electric quantity of the rechargeable battery pack 31 and communicate with the background server 20; the positioning module 33 is configured to monitor the position of the battery 30 to be shared in real time; the mobile terminal 10 is provided with a battery sharing APP and is used for acquiring a full-charge to-be-shared battery 30 at a service organization 21; the sharing management cloud server 22 is configured to manage all the batteries 30 to be shared in the service mechanism 21, and communicate with the mobile terminal 10 and the background server 20 to issue an authorization key instruction.

Further, in an embodiment of the present invention, the battery to be shared 30 further includes a communication module 34, and the sharing management cloud server 22 includes a sharing battery management module 221 and a positioning management module 222; the communication module 34 is configured to send shared information of the battery 30 to be shared to the shared battery management module 221, where the shared information includes location information, electric quantity information, battery ID information, and binding state information; the shared battery management module 221 is configured to update data information of the to-be-shared battery 30 in the service mechanism 21 in real time, where the data information includes a to-be-shared battery status tag, a name of a current charging service mechanism, current location information, historical charging times, and bound user information, and set the status tag as available from unavailable after the shared battery is fully charged; the positioning management module 222 is configured to turn on the positioning function of the positioning module 33 when the shared battery status flag is available, turn off the positioning function of the positioning module 33 when the to-be-shared battery status 30 flag is unavailable, and turn off the positioning function so that the to-be-shared battery 30 cannot be shared. It is worth saying that the communication module 34 includes one or more of a WIFI module, a bluetooth module, a 2G communication module, a 3G communication module, a 4G communication module, and a 5G communication module.

As shown in fig. 2, the mobile terminal 10 includes a reservation request module 11, and the shared management cloud server 22 includes a reservation processing module 223; the reservation request module 223 is configured to send a reservation request of the selected battery 30 to be shared to the reservation processing module 11, where the reservation request includes an address of the battery to be shared, a reservation time, and ID information of the battery 30 to be shared; the reservation processing module 223 acquires the ID information of the current shared battery after receiving the reservation request, performs positioning monitoring, and refuses the reservation request and feeds back reservation failure information to the mobile terminal when X is larger than or equal to Y according to comparison between the time X required by the current shared battery to be fully charged and the reservation time Y; feeding back the reservation success information to the mobile terminal 10, and setting the corresponding state tag of the battery to be shared as unavailable; and when X is less than Y, receiving a reservation request, reserving successful information, and setting the corresponding state label of the battery to be shared as unavailable.

It is worth mentioning that the available standby batteries in the service organization 21 are all provided with intelligent locks communicating with the cloud management server 22; the mobile terminal 10 includes a battery selection module 12, configured to select a battery 30 to be shared, and send a battery selection request to a sharing management cloud server 22, where the sharing management cloud server 22 is configured to manage all batteries 30 to be shared in a service mechanism 21, communicate with the mobile terminal 10 and a background server 20, issue an authorization key instruction, perform the key instruction of the mobile terminal 10 and the background server 20, and when matching is successful, the user may take down the battery 30 to be shared that is successfully matched.

As shown in fig. 3, a sharing method of an intelligent lithium ion battery according to the present invention is illustrated, wherein the sharing method includes the following steps:

s100, acquiring the information of the battery to be shared: a user acquires the information of the battery to be shared through a mobile terminal and sends the information and the use application information of the user to a background server;

s200, use authorization: the background server receives and approves the information sent by the mobile terminal, and sends an authorization key instruction to both the mobile terminal and the battery to be shared after approval;

s300, key verification and use: and after receiving the key instruction, the user sends the key to the battery to be shared, and the battery to be shared verifies the received key from the mobile terminal and the received key instruction from the background server to complete identity verification and realize shared use of the battery to be shared by the user.

In step S100, the user may acquire information of the battery 30 to be shared by scanning a two-dimensional code on the battery 30 to be shared by the mobile terminal 10 or display the information of the battery 30 to be shared to the mobile terminal 10 by the sharing management cloud server 22. It is worth saying that the application information includes the ID information of the battery to be shared, the remaining power information and the location information

As shown in fig. 4, a method for reserving an intelligent lithium ion battery is set forth, wherein the method for reserving includes the following steps:

s500, a user sends self-service reserved battery use information selected to be shared to a background server through a mobile terminal, wherein the reserved battery use information comprises an address and reserved time of a battery to be shared;

s600, after receiving the reservation request, the background server acquires the use information of the reserved battery, performs positioning monitoring, and refuses the reservation request and feeds back reservation failure information to the mobile terminal when X is larger than or equal to Y according to comparison between the time X required by the current shared battery to be fully charged and the reservation time Y; feeding back reservation success information to the mobile terminal or the vehicle-mounted terminal, and setting a corresponding state label of the battery to be shared as unavailable; and when X is less than Y, receiving a reservation request, reserving successful information, and setting the corresponding state label of the battery to be shared as unavailable.

It should be noted that, when the user needs to take the battery to be shared after making a successful reservation, the battery to be shared still needs to be taken down from the service organization 21 according to the sharing method shown in fig. 3.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (8)

1. An intelligent lithium ion battery sharing system, comprising: the mobile terminal, the background server and the battery to be shared, wherein the background server is used for receiving and storing the battery to be shared with the unique ID information and the background server; the battery to be shared comprises a rechargeable battery pack, an electric quantity monitoring module and a positioning module which are integrated in a battery shell; the background server comprises a service mechanism for sharing the battery charging service and a sharing management cloud server; the electric quantity monitoring module is used for monitoring the electric quantity of the rechargeable battery pack and communicating with the background server; the positioning module is used for monitoring the position of the battery to be shared in real time; the mobile terminal is provided with a battery sharing APP and is used for acquiring a full-charge to-be-shared battery located in a service mechanism; and the sharing management cloud server is used for managing all batteries to be shared in the service mechanism and sending an authorization key instruction to the mobile terminal and the batteries to be shared.

2. The intelligent lithium ion battery sharing system of claim 1, wherein the battery to be shared further comprises a communication module, and the sharing management cloud server comprises a sharing battery management module and a positioning management module; the communication module is used for sending the sharing information of the battery to be shared to the sharing battery management module; the shared battery management module is used for updating data information of a battery to be shared in the service mechanism in real time and setting a state tag from unavailable to available after the battery to be shared is fully charged; and the positioning management module is used for starting the positioning function of the positioning module when the shared battery state label is available, closing the positioning function of the positioning module when the shared battery state label is unavailable, and making the shared battery not be shared when the positioning function is closed.

3. The intelligent lithium ion battery sharing system of claim 2, wherein the communication module comprises one or more of a WIFI module, a bluetooth module, a 2G communication module, a 3G communication module, a 4G communication module, and a 5G communication module.

4. The intelligent lithium ion battery sharing system of claim 2 wherein the mobile terminal comprises a reservation request module and the sharing management cloud server comprises a reservation processing module; the reservation request module is used for sending a reservation request of the selected battery to be shared to the reservation processing module; the reservation processing module acquires the ID information of the current shared battery after receiving the reservation request, performs positioning monitoring, and refuses the reservation request and feeds back reservation failure information to the mobile terminal when X is more than or equal to Y according to comparison between the time X required by the current shared battery to be fully charged and the reservation time Y; feeding back reservation success information to the mobile terminal, and setting a corresponding state tag of the battery to be shared as unavailable; and when X is less than Y, receiving a reservation request, reserving successful information, and setting the corresponding state label of the battery to be shared as unavailable.

5. The intelligent lithium ion battery sharing system of claim 4, wherein the available standby batteries in the service organization are all provided with an intelligent lock which is communicated with the cloud management server; the mobile terminal comprises a battery selection module used for selecting a battery to be shared and sending a battery selection request to the sharing management cloud server.

6. An intelligent lithium ion battery sharing method is characterized by comprising the following steps:

acquiring to-be-shared battery information: a user acquires the information of the battery to be shared through a mobile terminal, and sends the information and the use application information of the user to a background server, wherein the information comprises ID information, electric quantity residual information and position information of the battery to be shared;

and (3) use authorization: the background server receives and approves the information sent by the mobile terminal, and sends an authorization key instruction to both the mobile terminal and the battery to be shared after approval;

key verification use: and after receiving the key instruction, the user sends the key to the battery to be shared, and the battery to be shared verifies the received key from the mobile terminal and the received key instruction from the background server to complete identity verification and realize shared use of the battery to be shared by the user.

7. The intelligent lithium ion battery sharing method according to claim 6, wherein in the step of obtaining the information of the battery to be shared, a user can scan a two-dimensional code of the battery to be shared through a mobile terminal to obtain the information of the battery to be shared or display the information of the battery to be shared to the mobile terminal through a sharing management cloud server.

8. An intelligent lithium ion battery reservation method is characterized by comprising the following steps:

a user sends self-service reserved battery use information selected to be shared to a background server through a mobile terminal, wherein the reserved battery use information comprises an address and reserved time of a battery to be shared;

after receiving the reservation request, the background server acquires the use information of the reserved battery, performs positioning monitoring, and refuses the reservation request and feeds back reservation failure information to the mobile terminal when X is larger than or equal to Y according to comparison between the time X required by the current shared battery to be fully charged and the reservation time Y; feeding back reservation success information to the mobile terminal or the vehicle-mounted terminal, and setting a corresponding state label of the battery to be shared as unavailable; and when X is less than Y, receiving a reservation request, reserving successful information, and setting the corresponding state label of the battery to be shared as unavailable.