CN111047297A - Battery life cycle management system and method - Google Patents

Abstract

The invention relates to the field of computer systems, in particular to a battery full-life cycle management system and a battery full-life cycle management method, wherein the battery full-life cycle management system comprises: the system comprises a login module, a data management module, a system management module, a message management module, other function modules, a resource management module, an alarm management module, a work order management module, a report management module and an operation management module; the login module is respectively connected with the data management module, the system management module, the message management module and other functional modules; the data management module is connected with the resource management module and the alarm module; the alarm module is connected with the work order management module; the work order management module is respectively connected with the report management module and the operation management module. The system and the method for managing the full life cycle of the battery realize data acquisition and data analysis of the storage battery and related equipment.

Description

Battery life cycle management system and method

Technical Field

The invention relates to the field of computer systems, in particular to a battery full life cycle management system and a battery full life cycle management method.

Background

A base station, i.e. a public mobile communication base station, is an interface device for a mobile device to access the internet, and is a form of a radio station, which is a radio transceiver station for information transmission with a mobile phone terminal through a mobile communication switching center in a certain radio coverage area.

Due to the high reliability requirements of communication, a sophisticated communication power supply solution requires that the switching power supply system be configured with a battery having high reliability and high safety. However, lead-acid batteries have short service life and frequent maintenance and supply power to communication equipment. How to better understand the condition of the storage battery and the related equipment becomes a problem to be solved.

In order to solve the problems, the invention provides a system and a method for managing the full life cycle of a battery, which can realize data acquisition and data analysis of a storage battery and related equipment.

Disclosure of Invention

The invention provides a battery full-life-cycle management system and a battery full-life-cycle management method. The battery full life cycle management system and the battery full life cycle management method achieve data acquisition and data analysis of the storage battery and the related equipment.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

a battery full lifecycle management system, comprising:

the system comprises a login module, a data management module, a system management module, a message management module, other function modules, a resource management module, an alarm management module, a work order management module, a report management module and an operation management module;

the login module is respectively connected with the data management module, the system management module, the message management module and other functional modules;

the data management module is connected with the resource management module and the alarm module; the alarm module is connected with the work order management module; the work order management module is respectively connected with the report management module and the operation management module.

Preferably, the resource management module includes a storage battery management unit, a single management unit, a base station management unit, a warehouse management unit, and a shared manager management unit. The resources are integrated through the resource management module and are embodied in the system, and monitoring can be carried out at any time.

Further preferably, the resource management module is used for adding, editing, deleting and checking the storage battery, the single body, the base station, the warehouse and the sharing manager.

Preferably, the report management module includes: the system comprises a work order statistical report unit, an equipment statistical report unit and a storage battery statistical report unit. The report counting module can count the fault conditions according to the work order counting report, and is convenient to look up.

Preferably, the other functional modules include: the system comprises a personal center unit, a password modification unit, an APP downloading unit, a help center unit and an interface setting unit.

A battery full lifecycle management method, comprising:

the data management module receives information of a base station storage battery pack and a storage battery monomer;

the alarm management module transmits the abnormal condition to the work order management module after detecting the information abnormality;

the work order management module generates a work order list according to the abnormal information;

and the operation management module receives the work order list and generates work order cost.

Preferably, the data management module receives information of the base station storage battery pack and the single storage battery, which is obtained through detection information of the storage battery polling instrument and the single storage battery polling instrument.

Further preferably, the detection information includes charge and discharge current, total voltage, busbar total voltage, PCB internal temperature and surface temperature of the storage battery pack, and voltage value of the storage battery cell.

Preferably, the work order cost is confirmed after being generated, and the confirmation process of the work order cost is as follows:

receiving selection operation of a user, acquiring a selected work order and printing the work order;

acquiring the checked work order;

uploading the checked work order;

and generating the detail information of the work order according to the uploaded work order.

Preferably, the generating of the work order list by the work order management module according to the abnormal information further includes: and the report management module counts the work order list to generate a report.

Compared with the prior art, the invention has the beneficial effects that: the system provided by the invention has the functions of monitoring, routing inspection, maintenance and service life prolonging management of the storage battery, realizes the fine management of the whole life cycle of the storage battery, and helps customers to scientifically and comprehensively plan, plan and manage the storage battery, thereby reducing the comprehensive operation cost of enterprises and improving the economic benefit.

The data acquisition and data analysis of the storage battery and the related equipment are realized, the problems are found, and the problems are solved; receiving/dispatching orders in real time, returning work orders in real time, and positioning and replaying the track of operation and maintenance personnel in real time; the system analyzes the service life cycle of the battery based on historical data, summarizes the data and provides more comprehensive data and decision basis for managers.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of a battery full-life cycle management system according to the present invention;

fig. 2 is a schematic flow chart of a battery full-life-cycle management method according to the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate only the basic flow diagram of the invention, and therefore they show only the flow associated with the invention.

Example 1

As shown in fig. 1, the present invention relates to a battery full-life cycle management system:

the system comprises a login module 1, a data management module 2, a system management module 3, a message management module 4, other functional modules 5, a resource management module 6, an alarm management module 7, a work order management module 8, a report management module 9 and an operation management module 10;

the login module 1 is respectively connected with the data management module 2, the system management module 3, the message management module 4 and other functional modules 5;

the data management module 2 is connected with the resource management module 6 and the alarm module 7; the alarm module 7 is connected with the work order management module 8; the work order management module 8 is respectively connected with the report management module 9 and the operation management module 10.

Specifically, the method comprises the following steps:

the login module 1 is used for acquiring an account and a login password of a user to log in a platform.

The resource management module 6 includes a storage battery management unit, a single management unit, a base station management unit, a warehouse management unit, and a shared manager management unit.

The resource management module is used for adding, editing, deleting and checking the storage battery, the single body, the base station, the warehouse and the shared manager. Specifically, the method comprises the following steps:

the storage battery management unit is used for managing the storage battery, and comprises adding, editing, stopping using and deleting;

the monomer management unit is used for managing the storage battery monomer, newly adding, checking the laggard monomer, deleting and checking the unit use record, and the data collected by the monomer can be checked by checking the condition of the monomer.

The base station management unit is used for adding and editing the base station, importing and exporting the base station through EXCEL, importing and exporting the base station according to a specified format, and displaying a map interface on the base station. And inquiring the condition of the base station by clicking the mark in the map.

The warehouse management unit is used for managing the storage batteries of the warehouse, and the operation comprises adding, editing, stopping, deleting and monomer management. The warehouse quantity can be counted according to the nominal capacity, the battery type, the manufacturer and the production date.

The sharing manager management unit is used for the base station to perform sharing manager management operation, and the operation comprises addition, edition and deletion.

The data management module 2: the method can collect data, count the data collected by the base station, count the accumulated data in different time periods, and count the battery pack, the monomer serial number and the time period of the storage battery respectively. The data management module receives information of the base station storage battery pack and the storage battery monomer and acquires the information through detection information of the storage battery patrol instrument and the storage battery monomer patrol instrument. The detection information comprises the charge and discharge current, the total voltage, the busbar total voltage, the PCB internal temperature and the surface temperature of the storage battery pack and the voltage value of the storage battery monomer.

The system management module 3: the system management module is provided for the administrator user to use, and manages the user, such as: and adding, deleting, editing and distributing the authority to the user. Companies may be added, deleted, and edited.

The message management module 4: the message management module is used for sending various types of information to related personnel, wherein the various types of information comprise: announcements, notifications, news, meetings, or other information.

The other functional modules 5: the other functional modules comprise: the system comprises a personal center unit, a password modification unit, an APP downloading unit, a help center unit and an interface setting unit.

Personal central unit: the personal center is used for viewing and modifying personal information;

a password modification unit: the password modification unit is used for modifying the password;

APP download unit: the APP downloading unit is used for providing an APP two-dimensional code;

help center unit: the help center is used for inquiring common problems of the system;

an interface setting unit: the interface setting unit is used for setting an interface.

The alarm management module 7: the alarm management module is used for displaying the hidden danger information of the base station, and the hidden danger can be checked, deleted and processed. And (3) clicking the 'checking base station information', 'checking base station hidden danger information', 'processing hidden danger information' and 'deleting hidden danger information' in the hidden danger list to process and delete the hidden danger.

The work order management module 8: the work order management module comprises a newly added work order, the newly added work order generates a new work order after acquiring relevant information and stores the new work order in my work order, the work order management module also comprises my work order, and the my work order can perform relevant operations in my work order list, such as: submitting a work order, modifying the work order, canceling the work order and deleting the work order. Meanwhile, after the work order is clicked, the details of the work order, namely the repair type work order, can be checked, a repair data analysis report interface is entered, and the storage battery repair information can be checked. The work order management module also comprises a finished work order.

The report management module 9: the report management module comprises: the system comprises a work order statistical report unit, an equipment statistical report unit and a storage battery statistical report unit. The work order statistical form unit: the operation and maintenance wages can be checked into a wage sheet statistical form, and statistics can be carried out according to the period of days, months, seasons, half years and the like. And the equipment statistical report unit checks the equipment statistical report corresponding to the market payroll. The storage battery statistical form can be checked by a corresponding city company: statistics can be made by type, use status, manufacturer, date of manufacture, nominal capacity, etc.

The operation management module 10: the operation module comprises an expense unit and an expense confirmation unit, wherein the expense unit is used for carrying out expense setting operation on the operation and maintenance company, and the operation comprises adding, editing and deleting. The expense confirmation module realizes online feedback and offline confirmation, clicks an operation management-expense confirmation menu to enter, and can confirm the unsettled work order expense. 1) Selecting: checking the work order to be settled on a fee settlement confirmation interface; 2) beating: clicking a print button on the upper right corner to print the calculation worksheet; 3) labeling: signing and confirming the printed expense work order confirmation table; 4) transmission: after both sides of the paper work order confirmation form sign, the two-dimensional code scanning is carried out through the APP, and then the picture is taken and uploaded. The confirmed cost can be checked; and the work order confirmation table uploaded by signing, photographing and uploading can be checked by clicking the 'checking picture'.

Example 2

As shown in fig. 2, the present invention provides a battery full-life cycle management method, including:

s1, a data management module receives information of a base station storage battery pack and a storage battery monomer;

s2, the alarm management module transmits the abnormal condition to the work order management module after detecting the information abnormality;

s3, the work order management module generates a work order list according to the abnormal information;

and S4, the operation management module receives the work order list and generates work order cost.

Step S1: the data management module receives information of the base station storage battery pack and the storage battery monomer, and the information of the base station storage battery pack received by the data management module is obtained through detection information of the storage battery patrol instrument. The data management module also comprises information of receiving the single storage battery, and the information of the single storage battery is acquired through detection information of the single battery polling instrument. The data management module receives information of the base station storage battery pack and the storage battery monomer and acquires the information through detection information of the storage battery patrol instrument and the storage battery monomer patrol instrument. The detection information comprises the charge and discharge current, the total voltage, the busbar total voltage, the PCB internal temperature and the surface temperature of the storage battery pack and the voltage value of the storage battery monomer.

Step S2: the alarm management module transmits the abnormal condition to the work order management module after detecting the information abnormality;

step S3: the work order management module generates a work order list according to the abnormal information;

step S4: the operation management module receives the work order list and generates work order cost, the work order cost is confirmed after being generated, and the confirmation process of the work order cost is as follows:

receiving selection operation of a user, acquiring a selected work order and printing the work order;

acquiring the checked work order;

uploading the checked work order;

and generating the detail information of the work order according to the uploaded work order.

The work order management module generates a work order list according to the abnormal information, and the work order list further comprises: and the report management module counts the work order list to generate a report.

The above detailed description is specific to possible embodiments of the present invention, and the above embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included in the present claims.

Claims (10)

1. A system for full life cycle management of a battery, comprising:

the system comprises a login module, a data management module, a system management module, a message management module, other function modules, a resource management module, an alarm management module, a work order management module, a report management module and an operation management module;

the login module is respectively connected with the data management module, the system management module, the message management module and other functional modules;

the data management module is connected with the resource management module and the alarm module; the alarm module is connected with the work order management module; the work order management module is respectively connected with the report management module and the operation management module.

2. The system of claim 1, wherein the resource management module comprises a battery management unit, a cell management unit, a base station management unit, a warehouse management unit, and a common manager management unit.

3. The system as claimed in claim 2, wherein the resource management module is used for adding, editing, deleting and checking the storage battery, the single battery, the base station, the warehouse and the sharing manager.

4. The battery full-life-cycle management system according to claim 1, wherein the report management module comprises: the system comprises a work order statistical report unit, an equipment statistical report unit and a storage battery statistical report unit.

5. The system of claim 1, wherein the other functional modules comprise: the system comprises a personal center unit, a password modification unit, an APP downloading unit, a help center unit and an interface setting unit.

6. A battery full-life cycle management method, comprising:

the data management module receives information of a base station storage battery pack and a storage battery monomer;

the alarm management module transmits the abnormal condition to the work order management module after detecting the information abnormality;

the work order management module generates a work order list according to the abnormal information;

and the operation management module receives the work order list and generates work order cost.

7. The method according to claim 6, wherein the data management module receives information of the storage battery pack and the storage battery cells of the base station, and the information is obtained through detection information of the storage battery polling instrument and the storage battery cell polling instrument.

8. The battery full-life-cycle management method according to claim 7, wherein the detection information includes charging and discharging currents, total voltage, busbar total voltage, PCB internal temperature and surface temperature of the storage battery pack, and voltage values of the storage battery cells.

9. The battery full-life-cycle management method according to claim 6, wherein the work order cost is confirmed after being generated, and the confirmation process of the work order cost comprises the following steps:

receiving selection operation of a user, acquiring a selected work order and printing the work order;

acquiring the checked work order;

uploading the checked work order;

and generating the detail information of the work order according to the uploaded work order.

10. The battery full-life-cycle management system of claim 6, wherein the work order management module generating the work order list according to the abnormal information further comprises: and the report management module counts the work order list to generate a report.

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