CN-120601570-B - Positioning method and system for shared charger baby and shared charger baby

CN120601570BCN 120601570 BCN120601570 BCN 120601570BCN-120601570-B

Abstract

The invention provides a positioning method and a system for a shared charge pal and the shared charge pal, wherein the positioning method comprises the steps of entering a positioning transmission mode and transmitting positioning data to a management platform once when a charge interface is converted from a charge state to an unused state, transmitting the positioning data once every other set time after entering the positioning transmission mode, exiting the positioning transmission mode and transmitting the positioning data once to a cabinet machine and the management platform when a battery cell is converted into a charge state. According to the method and the system for positioning the shared charger, the shared charger analyzes the state of the shared charger to determine the time to send positioning data, and the management platform performs positioning of the shared charger through the sent positioning data, so that the shared charger can be sent to a pre-configured manager after positioning, and recovery of the lost shared charger is realized.

Inventors

ZHAO ZHIXING
OU WEICHANG
TANG ZAIJUN
LIAO PING
HU PING

Assignees

湖南炬神电子有限公司
湖南鹏耀科技有限公司

Dates

Publication Date: 20260512
Application Date: 20250605

Claims (10)

1. A method for locating a shared charger baby, comprising: when the charging interface is converted from a charging state to an unused state, entering a positioning transmission mode and transmitting positioning data once to the management platform; Transmitting positioning data once every other set time after entering a positioning transmission mode; When the battery core is converted into a charging state, the positioning transmission mode is exited and positioning data is transmitted to the cabinet machine and the management platform once; Further comprises: when receiving a trigger signal from a first type of positioning terminal, entering a positioning sending mode; If the position of the continuous N positioning data transmitted after entering the positioning transmission mode is in the area associated with the first type of positioning terminal, the positioning transmission mode is exited, otherwise, whether the trigger signal module is activated is judged according to the self state of the shared charger, and when the trigger signal module is activated, a trigger signal is transmitted outwards; When the self state drops to a preset closing condition, the trigger signal module is closed, or when the trigger signal from the first type positioning terminal is received again, the trigger signal module is closed; the activation condition of the activation trigger signal module comprises that the electric quantity of the battery core is larger than or equal to a preset first electric quantity threshold value, and the closing condition comprises that the electric quantity of the battery core is smaller than a preset second electric quantity threshold value; the trigger signal is received by other shared charging treasures which are not arranged in the cabinet machine, and then a feedback signal is output; The configuration interval time is adjustable, an adjustable range is configured, the fixed interval time is adopted in the initial stage, and the subsequent interval time determination steps are as follows: determining initial time from a pre-configured time table according to the distance between the self-positioning of the two previous charging treasures and the last interval time, wherein the smaller the last interval time in the time table is, the smaller the determined initial time is; The array formed by the previous M-1 times of distances is used for determining the adjustment coefficients through a pre-configured coefficient table, wherein the arrays in the coefficient table are in one-to-one correspondence with the adjustment coefficients; the method comprises the steps of taking a determined value as an interval time by an adjustment coefficient and an initial time, taking the minimum value as the interval time when the interval time is smaller than the minimum value of the adjustable range, and taking the maximum value as the interval time when the interval time is larger than the maximum value of the adjustable range.
2. The method for locating a shared charger as claimed in claim 1, wherein the set time is relatively prolonged after each transmission of the locating data, and the prolonged time is obtained by looking up a delay table according to the remaining power of the battery cell and the number of transmitted locating data.
3. The method for locating a shared charger baby of claim 1, further comprising: the first type positioning terminal sends first indirect positioning data to the management platform according to the feedback signal; the first type of positioning terminals comprise cabinet machines and/or positioning terminals placed in fixed-point configuration.
4. The method for locating a shared charger baby of claim 1, further comprising: the second type positioning terminal sends second indirect positioning data to the management platform according to the feedback signal; the second type of positioning terminal comprises a mobile phone and/or a positioning terminal carried on the movable equipment.
5. The method for locating a shared charger baby of claim 1, further comprising: when the electric energy of the battery core is reduced below a preset electric energy threshold value, the charging interface is made unavailable and enters a positioning transmission mode.
6. The positioning system for the shared charger baby is characterized by comprising a triggering module, a sending module and an exiting module; The system comprises a charging interface, a triggering module, a sending module, a withdrawing module, a cabinet machine and a management platform, wherein the charging interface is used for charging the battery cell, the triggering module is used for entering a positioning sending mode and sending positioning data to the management platform once when the charging interface is converted from a charging state to an unused state; the trigger module is also used for entering a positioning sending mode when receiving a trigger signal from the first type of positioning terminal; When the positions of the continuous N positioning data transmitted by the transmitting module are all positioned in the area associated with the first type of positioning terminal after entering the positioning transmitting mode, the exiting module controls to exit the positioning transmitting mode, otherwise, whether the triggering signal module is activated or not is judged according to the self state of the shared charger, and a triggering signal is transmitted outwards when the triggering signal module is activated; When the self state drops to a preset closing condition, the trigger signal module is closed, or when the trigger signal from the first type positioning terminal is received again, the trigger signal module is closed; the activation condition of the activation trigger signal module comprises that the electric quantity of the battery core is larger than or equal to a preset first electric quantity threshold value, and the closing condition comprises that the electric quantity of the battery core is smaller than a preset second electric quantity threshold value; the trigger signal is received by other shared charging treasures which are not arranged in the cabinet machine, and then a feedback signal is output; The configuration interval time is adjustable, an adjustable range is configured, the fixed interval time is adopted in the initial stage, and the subsequent interval time determination steps are as follows: determining initial time from a pre-configured time table according to the distance between the self-positioning of the two previous charging treasures and the last interval time, wherein the smaller the last interval time in the time table is, the smaller the determined initial time is; The array formed by the previous M-1 times of distances is used for determining the adjustment coefficients through a pre-configured coefficient table, wherein the arrays in the coefficient table are in one-to-one correspondence with the adjustment coefficients; the method comprises the steps of taking a determined value as an interval time by an adjustment coefficient and an initial time, taking the minimum value as the interval time when the interval time is smaller than the minimum value of the adjustable range, and taking the maximum value as the interval time when the interval time is larger than the maximum value of the adjustable range.
7. The positioning system of the shared charger baby of claim 6, wherein the set time is relatively prolonged after each transmission of the positioning data, and the prolonged time is obtained by looking up the delay table according to the remaining power of the battery cell and the number of transmitted positioning data.
8. The system of claim 6, further comprising a feedback module configured to output a feedback signal to the first type of positioning terminal when receiving a trigger signal from the first type of positioning terminal; the first type of positioning terminals comprise cabinet machines and/or positioning terminals placed in fixed-point configuration.
9. The system of claim 6, further comprising a feedback module for outputting a feedback signal to the second class of positioning terminals when receiving the trigger signal from the second class of positioning terminals, wherein the second class of positioning terminals sends second indirect positioning data to the management platform according to the feedback signal; the second type of positioning terminal comprises a mobile phone and/or a positioning terminal carried on the movable equipment.
10. The shared charger baby comprises a shell, a battery core, a control module and a charging interface, and is characterized by further comprising a positioning module, wherein an executable program is configured in the control module, and the positioning method according to any one of claims 1 to 5 is realized after the execution of the executable program.

Description

Positioning method and system for shared charger baby and shared charger baby Technical Field The invention relates to the technical field of charging and power supply devices, in particular to a positioning method and system for a shared charger baby and the shared charger baby. Background The charger baby is a first choice for people to use as a standby power supply in daily life, provides electric energy supply for people when the electric quantity of equipment such as a mobile phone and a tablet is low, provides convenience for life, and provides convenience for people to charge the equipment such as the mobile phone and the tablet when forgetting to take the charger baby when going out. However, after the use, people have the situation that the shared charger is not returned and is left behind, and how to find the shared charger is a technical problem to be solved. Disclosure of Invention The invention aims at providing a positioning method and a system for a shared charger, and the shared charger, wherein the shared charger analyzes the state of the shared charger to determine the sending of positioning data, and a management platform performs the positioning of the shared charger through the sent positioning data, and can send the positioning data to a pre-configured manager to realize the recovery of the lost shared charger. The positioning method for the shared charger baby provided by the embodiment of the invention comprises the following steps: when the charging interface is converted from a charging state to an unused state, entering a positioning transmission mode and transmitting positioning data once to the management platform; Transmitting positioning data once every other set time after entering a positioning transmission mode; When the battery core is converted into a charging state, the positioning transmission mode is exited and positioning data is transmitted to the cabinet machine and the management platform once. Preferably, after each time of transmitting the positioning data, the set time is relatively prolonged, and the prolonged time is obtained by inquiring the delay table according to the residual electric quantity of the battery cell and the quantity of the transmitted positioning data. Preferably, the positioning method of the shared charger baby further comprises the following steps: the first type positioning terminal sends first indirect positioning data to the management platform according to the feedback signal; the first type of positioning terminals comprise cabinet machines and/or positioning terminals placed in fixed-point configuration. Preferably, the positioning method of the shared charger baby further comprises the following steps: the second type positioning terminal sends second indirect positioning data to the management platform according to the feedback signal; the second type of positioning terminal comprises a mobile phone and/or a positioning terminal carried on the movable equipment. Preferably, the positioning method of the shared charger baby further comprises the following steps: when the electric energy of the battery core is reduced below a preset electric energy threshold value, the charging interface is made unavailable and enters a positioning transmission mode. The invention also provides a positioning system for the shared charger baby, which comprises a triggering module, a sending module and an exiting module; The trigger module is used for entering a positioning transmission mode and transmitting positioning data to the management platform once when the charging interface is converted from a charging state to an unused state, the transmission module transmits the positioning data once every other set time after entering the positioning transmission mode, and the exit module is used for exiting the positioning transmission mode and transmitting the positioning data once to the cabinet machine and the management platform when the battery cell is converted into a charging state. Preferably, after each time of transmitting the positioning data, the set time is relatively prolonged, and the prolonged time is obtained by inquiring the delay table according to the residual electric quantity of the battery cell and the quantity of the transmitted positioning data. Preferably, the positioning system for sharing the charging treasures further comprises a feedback module, a first indirect positioning data sending module, a second indirect positioning data sending module and a second indirect positioning data sending module, wherein the feedback module is used for outputting a feedback signal to the first positioning terminal when receiving a trigger signal from the first positioning terminal; the first type of positioning terminals comprise cabinet machines and/or positioning terminals placed in fixed-point configuration. Preferably, the positioning system for sharing the charging treasures further comprises a feedback module, a second type positionin