CN111079957B - Battery monitoring management method, device, equipment and storage medium - Google Patents

Abstract

The invention discloses a battery monitoring management method, a device, equipment and a storage medium, wherein the method comprises the following steps: receiving battery reporting information sent by a shared vehicle side, wherein the battery reporting information comprises a battery number, residual electric quantity and position information of a battery installed on the shared vehicle; judging whether the residual electric quantity of the battery reaches a virtual electricity condition; when the residual electric quantity of the battery reaches a virtual electric condition, marking the battery corresponding to the battery number as a virtual electric state; and generating a recycling reminding message by using the battery number and the position information corresponding to the battery marked as the virtual electricity state, wherein the recycling reminding message is used for reminding operation and maintenance personnel to recycle and replace the battery marked as the virtual electricity state. According to the invention, the batteries are uniformly recycled and distributed according to the battery state, the current state of the batteries can be intuitively obtained, the batteries are classified and managed, and the operation cost is reduced, so that the batteries are intuitively, efficiently and conveniently managed.

Description

Battery monitoring management method, device, equipment and storage medium

Technical Field

The present invention relates to the field of battery management technologies, and in particular, to a method, an apparatus, a device, and a storage medium for battery monitoring management.

Background

The sharing economy has become a current social hotspot, and generally refers to a new economic mode based on strangers and temporary transfer of the right to use articles, which aims to obtain a certain reward, and is essentially to integrate off-line idle articles, labor force and educational medical resources.

One of the most prominent resources in the sharing economy is vehicles, such as sharing bicycles, sharing mopeds (sharing electric vehicles), sharing automobiles and the like, which are new vehicles, can be unlocked by code scanning, and are circularly shared, which is a contributing result of the sharing economy in the new era. As a novel leasing mode like sharing bicycles, the novel leasing mode is seen everywhere in the city along with the rapid development of the Internet, great convenience is brought to the travel of people in the city, and on the other hand, the management standard of the novel leasing mode is relatively difficult due to the fact that the number of sharing electric vehicles in the city is greatly increased, and accordingly a plurality of problems are brought. For example, many shared electric vehicles can have conditions of too low electric quantity, so that users can ride the electric vehicles very inconvenient, and the users can possibly encounter the event of too low electric quantity in the riding process to increase potential safety hazards.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention aims to solve the technical problem that the battery-assisted shared vehicle in the prior art can only regularly and uniformly recover and replace the full-power battery, which results in resource waste and useless cost increase.

In order to achieve the above object, the present invention provides a battery monitoring management method, including:

receiving battery reporting information sent by a shared vehicle side, wherein the battery reporting information comprises a battery number, residual electric quantity and position information of a battery installed on the shared vehicle;

judging whether the residual electric quantity of the battery reaches a virtual electric condition or not;

when the residual electric quantity of the battery reaches the virtual electricity condition, marking the battery corresponding to the battery number as a virtual electricity state;

and generating a recycling reminding message by using the battery number and the position information corresponding to the battery marked as the virtual electricity state, wherein the recycling reminding message is used for reminding operation and maintenance personnel to recycle and replace the battery marked as the virtual electricity state.

Optionally, the shared vehicle side is configured to send battery report information periodically, and the battery monitoring management method further includes:

acquiring a battery list containing all battery numbers;

Judging whether a shared traffic tool which does not send battery report information exceeds a preset time length exists or not based on the battery list;

when judging that a shared traffic tool which does not send battery report information beyond the preset duration exists, marking the battery on the shared traffic tool as a defective battery;

and generating a recycling reminding message by using the battery number and the position information corresponding to the defective battery.

Optionally, after generating the recycling alert message, the method further includes:

storing the battery number and the position information of the state update in a database;

and updating the label of the corresponding battery in the monitoring map by using the battery number and the position information updated by the state.

Optionally, after generating the recycling alert message, the battery monitoring management method further includes:

receiving a delivery request for creating a battery delivery bill;

judging whether the warehouse in and out of the warehouse is the same warehouse or not, and judging whether the number of the inventory batteries is smaller than that of the warehouse out batteries or not;

when the warehouse in and out of the warehouse is the same warehouse or the number of the inventory batteries is smaller than the number of the warehouse out batteries, a response message that the warehouse out bill cannot be created is returned;

And when the in-out warehouse in the out-of-warehouse request is not the same warehouse and the number of the inventory batteries is greater than or equal to the number of the out-of-warehouse batteries, creating an out-of-warehouse bill based on the out-of-warehouse request.

Optionally, after generating the recycling alert message, the battery monitoring management method further includes:

and automatically generating a warehouse-in bill corresponding to the warehouse-out bill.

Optionally, after creating the ex-warehouse document based on the ex-warehouse request, the method further includes:

receiving a binding request of a current transfer box and the ex-warehouse bill and/or the in-warehouse bill;

judging whether the current transfer box is bound with other documents or not;

and when the current transfer box is already bound with other documents, the current transfer box fails to bind with the ex-warehouse document or the in-warehouse document.

Optionally, when the operation and maintenance personnel perform the battery recycling and replacing operation, the batteries are bound to the corresponding transfer boxes, then the transfer boxes are bound to the corresponding ex-warehouse bill or the warehouse bill, each battery is bound to one transfer box, and each transfer box is bound to one ex-warehouse bill or the warehouse bill.

Optionally, the receiving a binding request of the current transfer box and the out-of-warehouse document and/or the in-warehouse document includes:

The binding request is sent by way of a sweep code,

when the current transfer box is successfully bound with the ex-warehouse bill or the in-warehouse bill, the code scanning is successful; and when the binding fails, indicating that the code scanning fails.

On the other hand, the invention also provides a battery monitoring and managing device, which comprises:

the receiving module is used for receiving battery reporting information sent by a shared vehicle side, wherein the battery reporting information comprises a battery number, residual electric quantity and position information of a battery installed on the shared vehicle;

the judging module is used for judging whether the residual electric quantity of the battery reaches a virtual electric condition or not;

the marking module is used for marking the battery corresponding to the battery number as a virtual power state when the residual electric quantity of the battery reaches the virtual power condition;

the generation module is used for generating a recycling reminding message by utilizing the battery number and the position information corresponding to the battery marked as the virtual electricity state, and the recycling reminding message is used for reminding operation and maintenance personnel to recycle and replace the battery marked as the virtual electricity state.

On the other hand, the invention also provides a computer device which comprises a memory and a processor, wherein the memory stores a computer program which can be run on the processor, and the processor realizes the steps of the battery monitoring management method when executing the computer program.

In another aspect, the present invention also provides a readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the above battery monitoring management method.

According to the embodiment of the invention, through reporting information of the battery sent by the shared vehicle side, whether the battery is in the virtual power state currently can be judged, if the battery is in the virtual power state, a recovery reminding message is generated, and an operation and maintenance person only needs to recover and replace the corresponding battery based on the recovery reminding message without recovering and replacing all the batteries. Therefore, the battery is uniformly recovered and distributed according to the battery state, the current state of the battery can be intuitively obtained, the battery is classified and managed, and the operation cost is reduced, so that the battery is intuitively, efficiently and conveniently managed.

The conception, specific structure, and technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, features, and effects of the present invention.

Drawings

FIG. 1 is a schematic diagram of a battery monitoring system according to an embodiment of the present invention;

FIG. 2 is a flow chart of a battery monitoring management method according to an embodiment of the present invention;

FIG. 3 is a flow chart of another battery monitoring management method according to an embodiment of the present invention;

fig. 4 is a schematic view of a battery monitoring management device according to an embodiment of the present invention;

fig. 5 is an internal structural diagram of a computer device according to an embodiment.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention. In addition, the technical features of the different embodiments of the present invention described below may be combined with each other as long as they do not collide with each other.

In order to carry out intelligent management on batteries, the embodiment of the invention provides a battery monitoring management method based on intelligent tags, a transfer box and a unified warehouse, which realizes real-time monitoring, recycling and replacement of special states of the batteries. Specifically, after the battery reports the information such as the state and/or the position of the battery, the information is analyzed and processed, a warehouse entry list is created by operation and maintenance, and the battery is bound to a unified warehouse in a transfer box bound to the warehouse entry list.

Before describing the embodiment of the present invention, an application environment of the battery monitoring management method of the embodiment of the present invention is described.

As shown in fig. 1, an embodiment of the present invention provides a battery monitoring system including a battery 21 and a server 22, where the battery 21 and the server 22 communicate through a wireless network, such as an Intranet (Intranet), the Internet (Internet), a global system for mobile communications (Global System of Mobile communication, GSM), wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA), a 4G network, a 5G network, bluetooth (Bluetooth), wi-Fi, or a call network.

The battery monitoring management method is mainly used in a background server and is executed by the server. The server is capable of communicating with the shared vehicles for transmitting status data and the like, for example, for sending battery report information. The shared vehicle in the embodiments of the present invention refers to a vehicle boosted by a battery, and the battery may be recovered and replaced, for example, a shared-power-assisted vehicle, which is not limited to the shared-power-assisted vehicle. The server can directly communicate with the battery entity of the shared traffic tool, namely, a monitoring module and a communication module are arranged on the battery entity, wherein the monitoring module is used for detecting the state of the battery, such as electric quantity information and the like; the communication module is in wireless remote communication with the server and is used for returning the detected battery state information. Of course, a positioning module, such as a GPS, may also be disposed in the battery entity, for obtaining the position information of the shared vehicle, so that after uploading to the server, the operation and maintenance personnel can position and retrieve in time.

On the other hand, the above modules may also be disposed on a shared vehicle, and the specific functions are the same as those described above, and how they are disposed specifically belongs to the application scenario described in the embodiment of the present invention, which is not limited specifically.

The embodiment of the invention provides a battery monitoring and management method, which is mainly implemented by a server as described above, and as shown in fig. 2, the method comprises the following steps:

step S201, receiving battery report information sent by the shared vehicle side, where the battery report information includes a battery number, a remaining power, and position information of a battery installed on the shared vehicle.

The battery report information may be transmitted to the server by the battery itself, or may be transmitted to the server by the above module provided on the shared vehicle independently of the battery. Since both the battery and the other modules are provided on the shared vehicle, they belong to the information transmitted from the shared vehicle side. The battery number is mainly used for uniquely identifying the battery so as to facilitate the identification and replacement of the battery. The remaining power may be a specific value of the power, or may be a percentage value of the power. The location information refers to the location where the shared vehicle is located. The category of the information reported by the battery comprises the position, the model, the voltage and the electric quantity of the battery; the state label comprises a good label or a weak full-power label.

In the embodiment of the invention, all the sharing vehicles can periodically send the battery reporting information to the server for timely informing the sharing vehicles of the current electric quantity condition. At the same time, the information reported by the battery sent by a huge amount of shared vehicles may be sent out, and for each piece of received information, the subsequent judgment is respectively carried out.

Step S202, judging whether the residual electric quantity of the battery reaches the virtual electric condition.

Step S203, when the residual electric quantity of the battery reaches the virtual electricity condition, the battery corresponding to the battery number is marked as a virtual electricity state; when the virtual electricity condition is not reached, the subsequent processing is not performed, and the information reported by the next battery can be judged.

In the embodiment of the invention, the virtual electricity condition can be set according to the actual application requirement, and a corresponding electric quantity threshold value is calculated mainly in a statistical mode, for example, the electric quantity below 70% can be regarded as virtual electricity, and the electric quantity above can be regarded as full electricity.

Therefore, determining whether the remaining power of the battery reaches the virtual power condition may be determining whether the remaining power is less than a preset power ratio (e.g., 70%), and if so, marking the battery as a virtual power state, otherwise, not marking the battery. Of course, it is also possible to directly determine whether the remaining capacity is smaller than the preset capacity value, if yes, the battery is marked as in the virtual state, otherwise, the battery is not marked. In the embodiment of the invention, the battery in the virtual electric state is marked and labeled, so that the subsequent battery state identification can be facilitated, and the electric quantity state of the battery is determined only by the label.

And step S204, generating a recycling reminding message by using the battery number and the position information corresponding to the battery marked as the virtual electricity state, wherein the recycling reminding message is used for reminding operation and maintenance personnel to recycle and replace the battery marked as the virtual electricity state.

This allows the number of batteries marked as a virtual power state to be also large, since the battery report information sent to the server contains multiple shared vehicles. In the embodiment of the invention, the battery judged to be in the virtual electricity state is marked, the label in the virtual electricity state is marked, then the marked battery number and position information are utilized to generate the recovery reminding message, and the recovery reminding message can be sent to the terminal used by the operation and maintenance personnel to remind the operation and maintenance personnel to recover and replace the battery. The recovery message prompt can carry a battery number list marked as a virtual electricity state and the position information of each battery, an operation and maintenance person only needs to go to the appointed position to find the battery with the corresponding number for recovery, and the recovery replacement of all the batteries is not needed, and the replacement battery is a good battery with the full electricity corresponding model.

The recovery and replacement comprises the steps of marking the battery with the reported information as virtual electricity, recovering the battery, replacing the full-electricity battery pulled by the inner bin, and recovering the defective warehouse for the battery which is not reported for a long time according to the position information finally sent by the battery or the bound shared transportation means information. And when the battery is recovered, recovering the defective battery according to the position information of the shared transportation means bound by the battery, the position information of the last transmitted position, the electric quantity and the voltage information of the battery, and the position information of one of the last transmitted position, the electric quantity and the voltage information.

According to the embodiment of the invention, through reporting information of the battery sent by the shared vehicle side, whether the battery is in the virtual power state currently can be judged, if the battery is in the virtual power state, a recovery reminding message is generated, and an operation and maintenance person only needs to recover and replace the corresponding battery based on the recovery reminding message without recovering and replacing all the batteries. Therefore, the battery is uniformly recovered and distributed according to the battery state, the current state of the battery can be intuitively obtained, the battery is classified and managed, and the operation cost is reduced, so that the battery is intuitively, efficiently and conveniently managed.

As an optional implementation manner of the embodiment of the present invention, the side of the shared vehicle is configured to periodically send battery report information, that is, the shared vehicle adopts actively periodically reporting the related information of its battery, and the acquired server receives the battery report information sent by each shared vehicle. In this process, some shared vehicles may not report related information, and the server is required to determine the related information, and specifically, the battery monitoring management method further includes:

step S11, a battery list containing all battery numbers is obtained.

The battery list records the battery numbers of all batteries. Since the shared vehicles are managed in regions, and the number of the background servers is plural, battery information of the region content can be commonly maintained, and battery information of the shared vehicles of the respective segments can be maintained separately. The battery list here may refer to a list of all batteries maintained on the current server, and in the list of all batteries maintained by the server, theoretically, all the shared vehicles report information related to the batteries, but when the situation that no report occurs, further judgment needs to be made.

Step S12, judging whether the shared vehicles which do not send the battery report information are in existence or not based on the battery list.

And step S13, when judging that the shared traffic tool which does not send the battery report information exceeds the preset time, marking the battery on the shared traffic tool as a defective battery.

Since the shared vehicle is configured to periodically send battery report information, the server may record each reported battery related information. When the condition of unreported is occurred, judging whether the unreported battery reporting information corresponding to the battery is not received for more than a preset time period (for example, 24 hours), and when the unreported battery exceeds the preset time period, determining that the battery is abnormal, and marking the battery as a defective battery. If the preset time period is not exceeded, the next judgment is needed. In the embodiment of the invention, the battery which can not timely send the battery reporting information is marked as the defective battery, so that the subsequent generation of the recovery reminding message and the recovery of operation and maintenance personnel are facilitated.

The specific judgment of whether the preset time length is exceeded or not can be performed by calculating the number of times that the battery report information is not received, for example, when the battery report information is not acquired, the number of times of failure is increased by 1, when the number of times of failure is greater than a preset time threshold, the battery report information is not received when the preset time length is exceeded, and the battery is marked as a defective battery.

And S14, generating a recycling reminding message by using the battery number and the position information corresponding to the defective battery.

The recycling reminding message can be a message used for reminding the recycling of the defective battery only and used for reminding operation and maintenance personnel to recycle and replace the judged defective battery. Of course, in the embodiment of the invention, the defective battery and the battery in the virtual electricity state can be together generated to generate the corresponding recovery reminding message, and the operation and maintenance personnel can recover and replace the defective battery and the battery in the virtual electricity state. The specific recycling and replacing process is as above described for recycling the battery in the virtual power state, and will not be described herein.

In the embodiment of the invention, whether the defective battery appears is determined by judging the time length when the battery report information is not received, then the corresponding marking is carried out, and the recovery reminding message is generated for the operation and maintenance personnel to recover and replace, so that the message of the operation and maintenance recovery battery is provided, and the operation cost is reduced.

Of course, in the embodiment of the present invention, if the battery report information is not received beyond the preset duration, it may also indicate that the corresponding shared vehicle is abnormal, so that the battery report information cannot be sent, and at this time, the recovery reminding message may help the operation and maintenance personnel to find the shared vehicle, and then perform corresponding maintenance.

In the embodiment of the present invention, after the recovery reminding message is generated, the method is equivalent to updating the state of the battery, that is, updating the label of the battery, where the battery monitoring management method further includes: storing the battery number and the position information of the state update in a database; and updating the label of the corresponding battery in the monitoring map by using the battery number and the position information updated by the state. According to the identity information of the battery, the updating result of the binding state label is simultaneously stored in a local database and a redis; and outputting the updated result of the relevant state label of the battery to a monitoring map, wherein the monitoring map system is stored in the server or a client in communication with the server. In the embodiment of the invention, the state of the label of the battery in the monitoring map is updated, so that an operation and maintenance person can check the state and the position of the corresponding battery through the monitoring map, and when the battery needs to be recovered, the corresponding shared transportation means can be found by directly utilizing the position positioning on the map.

In the embodiment of the invention, when the operation and maintenance personnel perform battery recycling and replacement operation, the batteries are bound to the corresponding transfer boxes, the transfer boxes are bound to the corresponding ex-warehouse bill or the warehouse bill, each battery is bound to one transfer box, and each transfer box is bound to one ex-warehouse bill or warehouse bill. If the corresponding transfer box is bound with the battery during the recovery and delivery, and the corresponding recovery and delivery bill is bound with the transfer box, the delivery bill can not be scanned by the transfer box or the battery therein at the moment, and the corresponding other transfer boxes can not be scanned again by the battery in the transfer box. When the battery is replaced on the power-assisted vehicle, or the virtual battery is recovered to the inner bin for charging, the corresponding transfer box is unbinding, and after the storage is confirmed, the transfer box is unbinding corresponding bill.

In the embodiment of the invention, the transfer box is used for uniformly managing the batteries, and uniformly scanning codes are bound into the transfer box when the recovered batteries are distributed out of a warehouse; the code scanning binding comprises binding of a battery and a transfer box and binding of the transfer box and a bill. The warehouse is used for receiving the recovered batteries or distributing the batteries and operating the batteries; wherein the battery operation includes charging of the battery and shipping of defective batteries back to a manufacturer; the warehouse can be divided into an inner warehouse full-charge area and a virtual-charge area, wherein the full-charge area is used for storing full-charge batteries, and the virtual-charge area is used for storing virtual-charge batteries. The operation and maintenance are carried out, virtual batteries or defective batteries are recovered, then the virtual batteries are bound into a transfer box through a unified code scanning, then the transfer box is bound to corresponding documents, the virtual batteries are recovered and enter a virtual electric area of a common inner bin, then the virtual batteries are charged through a unified upper frame and a lower frame, and after being charged, the virtual batteries are placed into a full electric area of a warehouse; and the defective battery is recovered and enters a defective warehouse and is used for returning to a full-electricity area of the common inner bin after being recovered in a recovery factory.

As an alternative implementation, in the process of monitoring and managing the battery, the battery needs to be managed in and out of the warehouse. Optionally, after generating the recycling alert message, the battery monitoring management method further includes:

step S21, receiving a delivery request for creating a battery delivery document. The operation and maintenance personnel can edit the battery ex-warehouse request through the client side for creating an ex-warehouse bill. After receiving the request for leaving the warehouse, the background needs to make further judgment.

Step S22, judging whether the warehouse in and out in the warehouse request is the same warehouse or not, and judging whether the number of the inventory batteries is smaller than the number of the warehouse out batteries or not.

Step S23, when the warehouse in and out in the warehouse out request is the same warehouse or the number of the stock batteries is smaller than the number of the warehouse out batteries, a response message that the warehouse out bill cannot be created is returned.

Step S24, when the warehouse in and warehouse out in the warehouse out request is not the same warehouse and the number of the inventory batteries is greater than or equal to the number of the warehouse out batteries, a warehouse out bill is created based on the warehouse out request.

The delivery bill is an unacknowledged delivery bill, and binding operation of a transfer station and a battery is needed. When the warehouse in and out is the same warehouse, the user editing error is indicated, in this case, the warehouse in and out cannot be performed, and in addition, when the number of the warehouse out batteries is larger than the number of the warehouse in and out, the normal warehouse out and out cannot be performed. In the embodiment of the invention, the situation that the subsequent operation of battery delivery cannot be performed or the abnormality occurs after the delivery bill is created is avoided by judging the situation.

Further optionally, after generating the recycling alert message, the battery monitoring management method further includes: and automatically generating a warehouse-in bill corresponding to the warehouse-out bill. The warehouse-in bill is also a confirmed warehouse-in bill, and the final available warehouse-in bill can be formed only by carrying out subsequent binding judgment.

As an optional implementation manner, after creating the ex-warehouse document based on the ex-warehouse request, the method further includes:

step S31, receiving a binding request of the current transfer box and an ex-warehouse bill and/or an in-warehouse bill.

Optionally, receiving a binding request of the current transfer box and the out-of-warehouse document and/or the in-warehouse document includes: a binding request is sent in a code scanning mode, wherein when the current transfer box is successfully bound with an ex-warehouse bill or an in-warehouse bill, the code scanning is successful; and when the binding fails, indicating that the code scanning fails.

And step S32, judging whether other documents are bound in the current transfer box.

And step S33, when the current transfer box is already bound with other documents, the binding of the current transfer box and the ex-warehouse document or the in-warehouse document fails.

Specifically, as shown in fig. 3, an optional embodiment specifically includes:

1. Creating a delivery bill, setting corresponding delivery battery model numbers, virtual full power areas and corresponding delivery quantity, and performing the following steps:

judging whether the access warehouse is the same warehouse or not, and if the access warehouse is the same warehouse, failing to be taken out of the warehouse.

Judging the inventory quantity of the warehouse, and if the inventory quantity is smaller than the ex-warehouse quantity, failing to ex-warehouse.

2. Sweep a yard transfer box, sweep a yard successful transfer box and bind the library bill, as follows:

if other documents are bound, the code scanning fails, and the two-dimensional code of the transfer box in the code scanning is scanned again.

And (3) binding library documents by a transfer box after code scanning is completed, and storing data in a redis.

3. Sweep a yard battery and bind the transfer box, transfer box bear the weight of number-1, correspond to the number +1 of the virtual, full electric district under the battery type, each type sweep the yard and accomplish the battery and bind after accomplishing, the following example:

judging whether the battery is bound by other documents or the quantity exceeds the quantity, if so, the code scanning fails, and prompting that the documents are bound or the quantity of the virtual full-charge areas of the type is full and the code scanning is not performed.

Judging whether the model is met, and whether the battery meets the virtual and full power conditions, otherwise, the code scanning fails, and prompting that the model of the battery is not consistent or is not virtual and full power;

judging whether the number of the load-bearing boxes exceeds the number of the load-bearing boxes, if so, the code scanning fails, and the next transfer box is requested to be scanned when the transfer box is full;

The battery is locked to ensure that only one person can operate the battery.

The operation of the carrying number of the transfer box is locked, so that only one person can change the carrying number of the transfer box at a time.

The battery number operation is locked to ensure that only one person is changing the battery number at a time.

4. Creating a delivery bill, wherein the delivery bill is mainly used for calculating the transportation cost of a driver, one delivery bill can comprise a plurality of delivery bills, and the transportation cost is settled according to the number of the bills, as follows:

filtering the unacknowledged delivery document which is not fully scanned by the battery;

selecting unacknowledged delivery documents;

judging whether drivers of all the selected delivery documents are the same person, otherwise prompting failure of creating the delivery document, and prompting that the drivers of the selected delivery documents can only be the same person;

creation was successful.

5. Submitting the handover form.

Locking, judging whether the inventory of the warehouse is larger than or equal to the sum of the quantity of various batteries, otherwise, submitting the handover list fails, prompting that the inventory is insufficient, and if so, subtracting the inventory;

releasing the lock, and updating the state of the document to be checked;

the battery information in the redis is stored in a database and recorded into a battery detail table and a bill battery detail table, and binding relation between the bill in the redis and a transfer box is cleaned;

6. The system automatically creates a warehouse-in bill corresponding to a warehouse-out bill, and the state is unacknowledged, as follows:

the code scanning transfer box judges whether the code scanning transfer box is bound by other documents, if so, the code scanning fails, the transfer box is prompted to be bound, and other transfer boxes are requested to be scanned;

binding the warehouse-in bill by a transfer box;

the newly increased number of the corresponding battery types is equal to the number of the batteries bound by the transfer box;

judging whether the number of the various types of batteries is full, if not, continuing to sweep the code transfer box;

and finishing the code scanning of the battery.

7. And (5) confirming warehousing, wherein the following examples are as follows:

updating the warehouse-in bill state to be confirmed, and recording battery information to a battery detail and a bill battery detail list;

unbinding the relation between the corresponding bill and the transfer box as well as between the transfer box and the battery, and clearing the related data in redis;

and (5) warehousing and adding an inventory.

Through the above description, the following technical effects can be achieved by the embodiments of the present invention:

the method comprises the steps of receiving information reported by a battery, comparing the information with preset comparison conditions corresponding to state information of each category, updating corresponding state labels of the battery, converting the reported information into labels, carrying out unified recovery, distribution and other operations according to the label information, and carrying out warehouse moving, borrowing, receiving and other operations on the battery in a warehouse. According to the invention, the state label related to the battery is set according to the state of the battery, and the battery is uniformly managed through the state label, so that on one hand, the current state of the battery can be intuitively obtained, the special state of the battery can be monitored in real time, and on the other hand, the operation cost is greatly reduced, so that the battery can be intuitively, efficiently and conveniently managed. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The embodiment of the invention also provides a battery monitoring and managing device, which can be arranged on a server and used for executing the battery monitoring and managing method in the embodiment, as shown in fig. 4, the device comprises:

the receiving module 401 is configured to receive battery report information sent by the shared vehicle side, where the battery report information includes a battery number, a remaining power, and location information of a battery installed on the shared vehicle.

The judging module 402 is configured to judge whether the remaining battery power reaches a virtual power condition.

And the marking module 403 is configured to mark the battery corresponding to the battery number as a virtual power state when the remaining battery power reaches the virtual power condition.

The generating module 404 is configured to generate a recycling reminder message by using the battery number and the position information corresponding to the battery marked as the virtual power state, where the recycling reminder message is used to remind the operation and maintenance personnel to recycle and replace the battery marked as the virtual power state.

Optionally, the shared vehicle side is configured to periodically send battery report information, and the battery monitoring management device further includes:

the acquisition module is used for acquiring a battery list containing all battery numbers;

the judging module is also used for judging whether a shared traffic tool which does not send the battery report information exceeds a preset duration exists in the battery list;

The marking module is also used for marking the battery on the shared traffic tool as a defective battery when judging that the shared traffic tool which does not send the battery reporting information exceeds the preset time length exists;

the generating module is also used for generating a recycling reminding message by utilizing the battery number and the position information corresponding to the defective battery.

Optionally, the apparatus further comprises:

the storage module is used for storing the battery number and the position information updated in the state in the database after the recovery reminding message is generated;

and the updating module is used for updating the label of the corresponding battery in the monitoring map by using the battery number and the position information updated by the state.

Optionally, the apparatus further comprises:

the request receiving module is used for receiving a delivery request for creating a battery delivery bill after the recovery reminding message is generated;

the request judging module is used for judging whether the warehouse in and out in the warehouse request is the same warehouse or not and judging whether the number of the inventory batteries is smaller than the number of the warehouse out batteries or not;

the response module is used for returning a response message that an ex-warehouse bill cannot be created when the in-warehouse and out-warehouse in the ex-warehouse request is the same warehouse or the number of the inventory batteries is smaller than that of the ex-warehouse batteries;

The creation module is used for creating the ex-warehouse bill based on the ex-warehouse request when the in-warehouse and out-warehouse in the ex-warehouse request are not the same warehouse and the number of the inventory batteries is greater than or equal to the number of the ex-warehouse batteries.

Optionally, the apparatus further comprises: and the automatic generation module is used for automatically generating the warehouse-in bill corresponding to the warehouse-out bill.

Optionally, the apparatus further comprises:

the binding receiving module is used for receiving a binding request of the current transfer box and the ex-warehouse bill and/or the in-warehouse bill after the ex-warehouse bill is created based on the ex-warehouse request;

the binding judgment module is used for judging whether other documents are bound in the current transfer box or not;

the determining module is used for failing to bind the current transfer box with the ex-warehouse bill or the in-warehouse bill when the current transfer box is bound with other bills.

Optionally, when performing the battery recycling and replacing operation, the operation and maintenance personnel bind the batteries to the corresponding transfer boxes, then bind the transfer boxes to the corresponding ex-warehouse documents or in-warehouse documents, bind one transfer box to each battery, and bind one ex-warehouse document or in-warehouse document to each transfer box.

Optionally, the binding receiving module is specifically configured to send a binding request in a code scanning manner, where when the current transfer box is successfully bound with an ex-warehouse document or an in-warehouse document, the code scanning is successful; and when the binding fails, indicating that the code scanning fails.

According to the embodiment of the invention, through reporting information of the battery sent by the shared vehicle side, whether the battery is in the virtual power state currently can be judged, if the battery is in the virtual power state, a recovery reminding message is generated, and an operation and maintenance person only needs to recover and replace the corresponding battery based on the recovery reminding message without recovering and replacing all the batteries. Therefore, the battery is uniformly recovered and distributed according to the battery state, the current state of the battery can be intuitively obtained, the battery is classified and managed, and the operation cost is reduced, so that the battery is intuitively, efficiently and conveniently managed.

The battery monitoring management device in the embodiment of the present invention corresponds to the battery monitoring management method completely, and the functions and actions of specific modules can be referred to the above method embodiment, which is not described herein again.

In one embodiment, a computer device is provided, the internal structure of which may be as shown in FIG. 5. The computer device includes a processor, memory, a network interface, and may also include a display screen and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The network interface of the computer device is used for communicating with an external computer device through a network connection. The computer program when executed by the processor can realize a battery monitoring management method, and can comprise a display screen and an input device, wherein the display screen can be a liquid crystal display screen or an electronic ink display screen, the input device of the computer equipment can be a touch layer covered on the display screen, can be a key, a track ball or a touch pad arranged on a shell of the computer equipment, and can also be an external keyboard, a touch pad or a mouse and the like. The computer device may also not include a display and an input device, and is mainly used to implement the battery monitoring management method described in fig. 2 and/or fig. 3.

It will be appreciated by those skilled in the art that the structure shown in FIG. 5 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements may be applied, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

In one embodiment, a computer device is provided comprising a memory and a processor, the memory having stored therein a computer program, the processor when executing the computer program performing the steps of:

receiving battery reporting information sent by a shared vehicle side, wherein the battery reporting information comprises a battery number, residual electric quantity and position information of a battery installed on the shared vehicle;

judging whether the residual electric quantity of the battery reaches a virtual electric condition or not;

when the residual electric quantity of the battery reaches the virtual electricity condition, marking the battery corresponding to the battery number as a virtual electricity state;

and generating a recycling reminding message by using the battery number and the position information corresponding to the battery marked as the virtual electricity state, wherein the recycling reminding message is used for reminding operation and maintenance personnel to recycle and replace the battery marked as the virtual electricity state.

In one embodiment, a readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

receiving battery reporting information sent by a shared vehicle side, wherein the battery reporting information comprises a battery number, residual electric quantity and position information of a battery installed on the shared vehicle;

judging whether the residual electric quantity of the battery reaches a virtual electric condition or not;

when the residual electric quantity of the battery reaches the virtual electricity condition, marking the battery corresponding to the battery number as a virtual electricity state;

and generating a recycling reminding message by using the battery number and the position information corresponding to the battery marked as the virtual electricity state, wherein the recycling reminding message is used for reminding operation and maintenance personnel to recycle and replace the battery marked as the virtual electricity state.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The foregoing examples illustrate only a few embodiments of the application and are described in detail herein without thereby limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

The foregoing describes in detail preferred embodiments of the present application. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the application without requiring creative effort by one of ordinary skill in the art. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. A battery monitoring management method, characterized by comprising:

receiving battery reporting information sent by a shared vehicle side, wherein the battery reporting information comprises a battery number, residual electric quantity and position information of a battery installed on the shared vehicle;

Judging whether the residual electric quantity of the battery reaches a virtual electric condition or not;

when the residual electric quantity of the battery reaches the virtual electricity condition, marking the battery corresponding to the battery number as a virtual electricity state;

generating a recycling reminding message by using the battery number and the position information corresponding to the battery marked as the virtual electricity state, wherein the recycling reminding message is used for reminding operation and maintenance personnel to recycle and replace the battery marked as the virtual electricity state;

the shared traffic tool side is arranged to periodically send battery reporting information, and for batteries which are not reported for a long time, defective batteries are recovered according to the position information of the shared traffic tool bound by the batteries and the position of the last sent battery, wherein the position information of one of the two last sent batteries;

the battery monitoring management method further comprises the following steps:

acquiring a battery list containing all battery numbers;

judging whether a shared traffic tool which does not send battery report information exceeds a preset time length exists or not based on the battery list;

when judging that a shared traffic tool which does not send battery report information beyond the preset time length exists, marking the battery on the shared traffic tool as a defective battery;

And generating a recycling reminding message by using the battery number and the position information corresponding to the defective battery.

2. The battery monitoring management method according to claim 1, further comprising, after generating the recycle alert message:

storing the battery number and the position information of the state update in a database;

and updating the label of the corresponding battery in the monitoring map by using the battery number and the position information updated by the state.

3. The battery monitoring management method according to claim 1, wherein after generating the recycle alert message, the battery monitoring management method further comprises:

receiving a delivery request for creating a battery delivery bill;

judging whether the warehouse in and out of the warehouse is the same warehouse or not, and judging whether the number of the inventory batteries is smaller than that of the warehouse out batteries or not;

when the warehouse in and out of the warehouse is the same warehouse or the number of the inventory batteries is smaller than the number of the warehouse out batteries, a response message that the warehouse out bill cannot be created is returned;

and when the in-out warehouse in the out-of-warehouse request is not the same warehouse and the number of the inventory batteries is greater than or equal to the number of the out-of-warehouse batteries, creating an out-of-warehouse bill based on the out-of-warehouse request.

4. The battery monitoring management method according to claim 3, wherein after generating the recycle alert message, the battery monitoring management method further comprises:

and automatically generating a warehouse-in bill corresponding to the warehouse-out bill.

5. The battery monitoring management method according to claim 3 or 4, further comprising, after creating an outgoing document based on the outgoing request:

receiving a binding request of a current transfer box and the ex-warehouse bill and/or the in-warehouse bill;

judging whether the current transfer box is bound with other documents or not;

and when the current transfer box is already bound with other documents, the current transfer box fails to bind with the ex-warehouse document or the in-warehouse document.

6. The battery monitoring and management method according to claim 5, wherein the operation and maintenance personnel bind the battery to the corresponding transfer box and bind the transfer box to the corresponding ex-warehouse document or in-warehouse document when performing the battery recycling and replacing operation, each battery is bound to one transfer box, and each transfer box is bound to one ex-warehouse document or in-warehouse document.

7. The battery monitoring and management method according to claim 5, wherein the receiving a binding request of the current transfer box and the out-of-stock document and/or the in-stock document includes:

The binding request is sent by way of a sweep code,

when the current transfer box is successfully bound with the ex-warehouse bill or the in-warehouse bill, the code scanning is successful; and when the binding fails, indicating that the code scanning fails.

8. A battery monitoring and management device, characterized by comprising:

the receiving module is used for receiving battery reporting information sent by a shared vehicle side, wherein the battery reporting information comprises a battery number, residual electric quantity and position information of a battery installed on the shared vehicle;

the judging module is used for judging whether the residual electric quantity of the battery reaches a virtual electric condition or not;

the marking module is used for marking the battery corresponding to the battery number as a virtual power state when the residual electric quantity of the battery reaches the virtual power condition;

the generation module is used for generating a recovery reminding message by utilizing the battery number and the position information corresponding to the battery marked as the virtual electricity state, wherein the recovery reminding message is used for reminding an operation and maintenance person to recover and replace the battery marked as the virtual electricity state;

the shared vehicle side is arranged to periodically send battery reporting information, and for batteries which are not reported for a long time, defective batteries are recovered according to the position information of the shared vehicle bound by the batteries and the last sent position of the batteries, wherein the position information of one of the two batteries is sent later;

The battery monitoring management device further includes:

the acquisition module is used for acquiring a battery list containing all battery numbers;

the judging module is further used for judging whether a shared vehicle which does not send battery report information exceeds a preset duration exists or not based on the battery list;

the marking module is used for marking the battery on the shared traffic tool as a defective battery when judging that the shared traffic tool which does not send the battery reporting information exceeds the preset time length exists;

and the generating module is used for generating a recycling reminding message by utilizing the battery number and the position information corresponding to the defective battery.

9. A computer device comprising a memory, a processor, the memory having stored thereon a computer program executable on the processor, characterized in that the processor implements the steps of the method according to any of claims 1-7 when the computer program is executed.

10. A readable storage medium having stored thereon a computer program, which when executed by a processor performs the steps of the method according to any of claims 1-7.