CN-122028015-A - Bluetooth-based lead-acid battery safety monitoring method and system

Abstract

The invention discloses a lead-acid battery safety monitoring method and a system based on Bluetooth, which bind and position each lead-acid battery through TBOX, register and monitor, the lead-acid battery protection and monitoring device is used for protecting and monitoring the lead-acid battery on the electric bicycle, preventing charge and discharge ignition caused by privately replacing the inferior battery, and avoiding property and personnel loss. And the waste lead-acid battery which is replaced or discarded can be tracked and positioned, so that the recovery and supervision of the lead-acid battery are facilitated, and the pollution of the lead-acid battery to the environment is avoided.

Inventors

• CHEN HU

Assignees

• 深圳市新源润产品信息技术有限公司

Dates

Publication Date

20260512

Application Date

20241111

Claims (6)

1. 1. The Bluetooth-based lead-acid battery safety monitoring method is characterized by comprising the following steps of: s01, logging in APP through IMEI number of TBOX; s02, enabling the lead-acid battery to be bound to be close to the mobile phone, selecting a Bluetooth tag with the strongest signal to bind according to signal intensity arrangement through APP scanning, uploading a Bluetooth MAC address to a server by the APP, comparing a platform with a background database, and legally issuing the Bluetooth MAC address to a TBOX; S03, scanning a corresponding binding Bluetooth tag by TBOX, connecting, namely, rapidly flashing a lead-acid battery Bluetooth indicator lamp after connection success for 3 seconds, uploading a server after flashing the TBOX lamp for 3 seconds, returning the APP to display that the binding of the first battery is successful, displaying a corresponding MAC address, and sequentially binding the rest lead-acid batteries; S04, scanning the Bluetooth tag in real time by TBOX for 3-5 minutes, and reporting the platform if the Bluetooth tag is missing in 3 continuous scans.
2. 2. The method for monitoring the safety of a bluetooth-based lead acid battery according to claim 1, further comprising: s05, if the battery is replaced, the platform issues an instruction to the TBOX, unbinding is carried out through the TBOX, and then the APP scans again to form a new binding.
3. 3. The method for monitoring the safety of the lead-acid battery based on the Bluetooth, as claimed in claim 1, wherein in the step S01, the T-BOX is used for communicating with a background system/a mobile phone APP, so that the mobile phone APP can display and control the battery position information.
4. 4. The bluetooth-based lead-acid battery safety monitoring system applied to the bluetooth-based lead-acid battery safety monitoring method as claimed in claim 1 or 2, is characterized by comprising a bluetooth tag, a TBOX and an APP, wherein: Bluetooth tags, each battery is provided with a Bluetooth tag, and power is supplied through a lead-acid battery; the TBOX and the GPS localizer scan the Bluetooth tag in real time, and send alarm data to the server abnormally through the 4G channel; APP scans battery Bluetooth tag, uploads platform, and platform confirms legal tag, issues and binds, and bluetooth tag information after binding is transmitted to TBOX.
5. 5. The system of claim 3, wherein the TBOX has a GPS, GSM, CAN bus and a bluetooth module, and is capable of collecting information such as battery power and position status.
6. 6. A bluetooth based lead acid battery safety monitoring system according to claim 3 wherein said bluetooth tag is replaceable and has data transmission and battery location positioning functions.

Description

Bluetooth-based lead-acid battery safety monitoring method and system Technical Field The invention relates to the technical field of battery monitoring, in particular to a Bluetooth-based lead-acid battery safety monitoring method and a Bluetooth-based lead-acid battery safety monitoring system. Background The electric bicycle brings great convenience to the work and life of people, and particularly to some cities with traffic jam. The protection and monitoring of the aluminate battery, which is the most important part of the electric bicycle, is particularly important, especially for protecting and monitoring the original battery, and when the battery of the electric bicycle is damaged, many people privately replace the inferior battery which is not matched with the original battery for saving cost or other reasons, so that the charging and discharging fire is sometimes caused, and accidents are caused, resulting in property and even personnel loss. Meanwhile, due to the fact that the batteries are replaced privately, some batteries can be discarded randomly, and therefore pollution of the lead-acid batteries to the environment is caused. Therefore, it is important to perfect the protection and monitoring of lead-acid batteries on electric bicycles. Disclosure of Invention The invention mainly aims to provide a Bluetooth-based lead-acid battery safety monitoring method and a Bluetooth-based lead-acid battery safety monitoring system, so as to realize the protection and monitoring of a lead-acid battery on an electric bicycle. In order to achieve the above purpose, according to one aspect of the present invention, a method for monitoring safety of a bluetooth-based lead-acid battery is provided, which includes the following steps: s01, logging in APP through IMEI number of TBOX; s02, enabling the lead-acid battery to be bound to be close to the mobile phone, selecting a Bluetooth tag with the strongest signal to bind according to signal intensity arrangement through APP scanning, uploading a Bluetooth MAC address to a server by the APP, comparing a platform with a background database, and legally issuing the Bluetooth MAC address to a TBOX; S03, scanning a corresponding binding Bluetooth tag by TBOX, connecting, namely, rapidly flashing a lead-acid battery Bluetooth indicator lamp after connection success for 3 seconds, uploading a server after flashing the TBOX lamp for 3 seconds, returning the APP to display that the binding of the first battery is successful, displaying a corresponding MAC address, and sequentially binding the rest lead-acid batteries; s04, scanning a Bluetooth tag in real time by TBOX, scanning once in 3 minutes, and reporting to a platform if the Bluetooth tag is missing in 3 continuous scans; S05, if the battery is replaced, the platform issues a command TBOX to unbind, and then the APP scans again to form a new binding. The invention provides a lead-acid battery safety monitoring system based on Bluetooth, which comprises a Bluetooth tag, TBOX and APP, wherein: Bluetooth tags, each battery is provided with a Bluetooth tag, and power is supplied through a lead-acid battery; the TBOX and the GPS localizer scan the Bluetooth tag in real time, and send alarm data to the server abnormally through the 4G channel; APP scans battery Bluetooth tag, uploads platform, and platform confirms legal tag, issues and binds, and bluetooth tag information after binding is transmitted to TBOX. According to the Bluetooth-based lead-acid battery safety monitoring method and system, each lead-acid battery is bound and positioned through TBOX, and registration and monitoring are carried out, so that the lead-acid battery is protected and monitored on an electric bicycle, charge and discharge ignition caused by privately replacing a bad battery is prevented, and property and personnel losses are avoided. And the waste lead-acid battery which is replaced or discarded can be tracked and positioned, so that the recovery and supervision of the lead-acid battery are facilitated, and the pollution of the lead-acid battery to the environment is avoided. Drawings In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art. Fig. 1 is a flowchart of a method for monitoring safety of a lead-acid battery based on bluetooth according to an embodiment of the invention; Fig. 2 is a schematic diagram of a bluetooth-based lead-acid battery safety monitoring system according to an embodiment of the present invention. The achievement of the objects, functional features and advantages of the present