CN113922454A - Charging control method of mobile power supply charging terminal - Google Patents

Abstract

The invention discloses a control method of a mobile power supply charging terminal, wherein the charging terminal can read information data of the inserted mobile power supply, such as the model of a battery unit, the battery capacity performance, the residual capacity and the like through a bus line; the central server remotely sets a charging starting electric quantity parameter and a charging stopping electric quantity parameter in the corresponding charging process of the mobile power supply according to the information data of the mobile power supply; after the device end obtains the charging and stopping strategies set by the server end, whether each charging treasure needs to be charged or stopped is flexibly judged, the phenomenon of disordered charging of the mobile power supply is avoided, the service life of the mobile power supply is prolonged, and the fault problems of current overload and the like of the charging device are avoided.

Description

Charging control method of mobile power supply charging terminal

Technical Field

The invention relates to the technical field of mobile power supply control, in particular to the technical field of charging control of a mobile power supply charging terminal on a mobile power supply.

Background

The shared mobile power supply industry in the mobile power supply industry is an important portable mobile power supply industry. The charging management process of the mobile power supply in the mobile power supply charging terminal is a core technology in the field of mobile power supply charging terminal control. Present battery charging outfit just charges after portable power source puts into charge terminal, perhaps detects to charge precious electric quantity and just charges after low excessively, still along with the loss of battery electric quantity after charging to battery electric quantity 100%, charge and keep the state at full electricity all the time not stopping. Easily cause the treasured that charges to overcharge, shorten life, or danger such as the battery charging outfit electric current too big production explosion. The existing mobile power supply charging management scheme faces the problems of how to safely and reasonably charge the mobile power supply in the equipment, ensure the charging safety, ensure the charging controllability and the like.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a method for controlling a mobile power charging terminal, which can remotely set charging start and stopping amount criteria of the charging terminal on a mobile power through a central server. In order to achieve the purpose, the invention adopts the technical scheme that:

when a mobile power supply is inserted into the mobile power supply charging terminal, the charging terminal realizes data interaction between the terminal and the mobile power supply through a bus circuit;

the mobile power supply charging terminal reads mobile power supply data to obtain mobile power supply battery state data, wherein the mobile power supply battery state data comprise the type of a battery unit and the residual electric quantity of a mobile power supply;

the mobile power supply charging terminal uploads the recorded battery state data of each mobile power supply to the central server;

the central server sets a charging starting electric quantity parameter and a charging stopping electric quantity parameter when the corresponding mobile power supply is charged according to the battery state data of the mobile power supply;

the central server sends the set starting charging electric quantity parameters and stopping charging electric quantity parameters of each mobile power supply to the mobile power supply charging terminal;

and the mobile power supply charging terminal charges the mobile power supply according to the charging starting electric quantity parameter and the charging stopping electric quantity parameter.

The mobile power supply battery state data also comprises the charging times of the mobile power supply battery; and the central server sets the parameters of the starting charging electric quantity and the stopping charging electric quantity of the mobile power supply according to the model of the mobile power supply battery unit, the current electric quantity storage performance of the mobile power supply and the battery charging times in sequence.

The mobile power supply charging terminal can place mobile power supplies of different models therein according to the setting of the central server, and the mobile power supplies respectively and independently set corresponding mobile power supply starting charging electric quantity parameters and stopping charging electric quantity parameters.

The mobile power supply charging terminal can place the mobile power supply of the same model therein according to the setting of the central server, and the mobile power supply starting charging electric quantity parameter and the stopping charging electric quantity parameter are set independently according to different battery storage electric quantity performances of the mobile power supply.

The charging terminal can upload the set region information of the mobile power supply charging terminal to the central server, and the central server sets the charging starting electric quantity parameter and the charging stopping electric quantity parameter of the mobile power supply according to the mobile power supply battery state data and the set region information of the mobile power supply charging terminal.

The mobile power supply charging terminal reads mobile power supply data to obtain mobile power supply battery state data and mobile power supply battery temperature; when the temperature of the battery unit of the mobile power supply is higher than the preset temperature threshold value, the charging terminal stops charging the mobile power supply or adjusts the mobile power supply to be in a trickle charging mode.

When a mobile power supply is inserted into the mobile power supply charging terminal, the charging terminal is connected with a bus circuit to realize data interaction between the terminal and the mobile power supply;

the mobile power supply charging terminal reads mobile power supply data to obtain mobile power supply battery state data, wherein the mobile power supply battery state data comprise the type of a battery unit and the residual electric quantity of a mobile power supply;

the mobile power supply charging terminal uploads the recorded battery state data of each mobile power supply to the central server;

the charging terminal uploads the set region information of the mobile power supply to a central server, and the central server sets the charging starting electric quantity parameter and the charging stopping electric quantity parameter of the mobile power supply according to the set region information of the charging terminal and sends the parameters to the mobile power supply charging terminal;

the central server sends the set starting charging electric quantity parameters and stopping charging electric quantity parameters of each mobile power supply to the mobile power supply charging terminal;

and the mobile power supply charging terminal charges the mobile power supply according to the charging starting electric quantity parameter and the charging stopping electric quantity parameter.

The central server sets a plurality of mobile power supply starting charging electric quantity parameters and stopping charging electric quantity parameter modes according to the setting position and the using scene of the charging terminal, wherein the mobile power supply charging modes comprise a first starting charging electric quantity parameter and a first stopping charging electric quantity parameter which are set in an area with higher use requirement of the mobile power supply, and a second starting charging electric quantity parameter and a second stopping charging electric quantity parameter which are set in an area with lower use requirement of the mobile power supply;

the first starting charging electric quantity parameter value is higher than the second starting charging electric quantity parameter, and the first stopping charging electric quantity parameter is higher than the second stopping charging electric quantity parameter.

The mobile power supply battery state data also comprises the charging times of the mobile power supply battery; and the central server sets the parameters of the starting charging electric quantity and the stopping charging electric quantity of the mobile power supply according to the model of the mobile power supply battery unit, the current electric quantity storage performance of the mobile power supply and the battery charging times in sequence.

The mobile power supply charging terminal reads mobile power supply data to obtain mobile power supply battery state data and mobile power supply battery temperature; when the temperature of the battery unit of the mobile power supply is higher than the preset temperature threshold value, the charging terminal stops charging the mobile power supply or adjusts the mobile power supply to be in a trickle charging mode.

Compared with the prior art, the invention has the following beneficial technical effects:

according to the control method of the mobile power supply charging terminal, the charging terminal can acquire the inserted mobile power supply including information data such as the type of the battery unit, the battery capacity performance and the residual capacity through the bus line; the central server remotely sets a charging starting electric quantity parameter and a charging stopping electric quantity parameter when the corresponding mobile power supply is charged according to the information data of the mobile power supply; the device side flexibly judges whether each charger bank should be started or stopped after acquiring the charging and stopping strategies set by the server side according to the charging and stopping strategies, the disordered charging phenomenon of the mobile power supply is avoided, the service life of the mobile power supply is prolonged, and the fault problems of overload current and the like of the charging device are avoided.

Drawings

Fig. 1 is a schematic diagram of a mobile power supply charging terminal control method according to the present invention;

fig. 2 is a schematic diagram of a method for identifying mobile power supply battery information by a mobile power supply control terminal according to the present invention;

fig. 3 is a schematic diagram illustrating a detailed method for controlling charging of the mobile power supply control terminal according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be further clearly and completely described below with reference to the embodiments of the present invention. It should be noted that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like, are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present invention.

The terms "first," "second," "third," "fourth," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, the definitions of "first", "second", "third", "fourth" features may explicitly or implicitly include one or more of such features.

As shown in fig. 1, in the control method of the mobile power supply charging terminal, the charging terminal 1 can read information data, such as the model of a battery unit, the battery capacity performance, the remaining capacity and the like, of an inserted mobile power supply 2 through a bus line; the charging terminal 1 uploads the battery information of the mobile power supply to the central server 3, and the central server 3 remotely sets a charging starting electric quantity parameter and a charging stopping electric quantity parameter when the corresponding mobile power supply 2 is charged according to the battery information data of the mobile power supply 2; after the charging terminal 1 obtains the charging start and stopping strategies set by the server, the mobile power supply is charged according to the charging strategies set by the central server.

As shown in fig. 2, after the mobile power supply is placed in the charging terminal, the information identification process of the charging terminal on the mobile power supply battery is as follows: firstly, the charging terminal is connected with a mobile power supply through a bus connection circuit in a data chain mode, identifies the type of a battery core of the mobile power supply (such as the battery types of F016, F018 or F018B) and reads standard battery capacity setting information of the battery of the type, charging voltage of the battery core of the mobile power supply, current input parameter requirements, internal impedance parameters of the mobile power supply, interface information of a data line of the mobile power supply and the like in a database through the determination of the battery type.

The second step is that: the charging terminal reads the information data of the battery use times, judges the attenuation degree of the capacity performance of the battery core and further estimates the effective electric quantity capacity of the current mobile power supply battery core.

The third step: and storing the mobile power supply battery information data in an information storage unit in the charging terminal, and transmitting the mobile power supply battery information data to the central server.

As an optional step of the control method of the charging terminal, the mobile power supply charging terminal can preset a charging terminal area or scene setting step before use, that is, firstly, the mobile power supply charging terminal is identified by address information of the charging terminal, the setting area of the charging terminal is determined, the use scene of the mobile power supply charging terminal is further set, for example, application occasions such as shopping malls, restaurants, cinemas, and KTVs are further set, after the use area and the use scene are set, a plurality of charging modes are preset for charging the mobile power supply, and the charging starting charging value and the charging stopping charging value in each mode can be adjusted by combining information of mobile power supply battery information parameters.

Setting a first starting charging capacity parameter (such as 65% or 60% of battery capacity) and a first stopping charging capacity parameter (such as 98% or 96% of battery capacity) for an area with high mobile power use demand and long average lease duration, and setting a second starting charging capacity parameter (such as 55% or 50% of battery capacity) and a second stopping charging capacity parameter (such as 95% or 92% of battery capacity) for an area with low mobile power use demand and short average lease duration;

the first starting charging electric quantity parameter value is higher than the second starting charging electric quantity parameter, the first stopping charging electric quantity parameter is higher than or equal to the second stopping charging electric quantity parameter, and the first stopping charging electric quantity parameter can also be lower than the second stopping charging electric quantity parameter in a frequently-used scene so as to ensure that the average electric quantity of the loaned battery is maintained at a higher level.

Under different use scenes, the central server can further remotely set the charging starting electric quantity parameter and the charging stopping electric quantity parameter when the corresponding mobile power supply 2 is charged according to the mobile power supply battery information data collected by the charging terminal.

Fig. 3 shows a detailed method for controlling charging of a mobile power supply by a mobile power supply control terminal according to the present invention, wherein the mobile power supply is self-detected after being powered on, and ID information of the mobile power supply charging terminal, the mobile power supply placed therein, and device control authority setting information are detected through information connection with a central server and transmitted back to the central server, so as to determine the control authority of the charging terminal.

The charging terminal is connected with the mobile power supply through a bus connection circuit in a data link mode to acquire state information of the battery: firstly, judging whether the battery is damaged, if faults such as damage of a battery data line, damage of a battery main body structure and the like of the mobile power supply battery are detected, recording ID information of the mobile power supply by the charging terminal, marking the fault type of the mobile power supply, and uploading the fault type to the central server.

For the condition that the mobile power supply is not damaged, the charging terminal judges whether the mobile power supply is charged or not, if the mobile power supply is not in a charging state, whether a charging circuit of the mobile power supply is damaged or not, whether a charging circuit in the mobile power supply is damaged or not, and the mobile power supply cannot be charged, and whether the battery is stopped due to overheating faults or not are judged; if the fault occurs after detection, the charging terminal records the ID information and the fault type of the mobile power supply and uploads the ID information and the fault type to the central server.

If the battery does not meet the charging starting standard, whether the battery meets the charging starting standard is further judged, if the battery does not meet the charging starting standard, the charging stopping state is continuously kept, if the electric quantity of the battery of the mobile power supply is lower than the charging starting standard, the charging terminal is controlled to start charging the mobile power supply, and after charging, charging information is obtained in real time and uploaded to a server.

And for the condition that the mobile power supply is not damaged, when the charging terminal judges whether the mobile power supply is in a charging state, the charging terminal judges whether the charging is to be stopped according to a charging stop and charge standard of the mobile power supply returned by the central server, and if the electric quantity of the mobile power supply reaches the charging stop and charge standard, the charging of the mobile power supply is stopped. And if the charging stopping standard is not reached, continuing to charge the battery until the charging stopping standard is reached. In the charging process, the mobile power supply charging terminal also acquires the charging state information of the mobile power supply at regular time and sends the information to the central server.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (12)

1. The charging control method of the mobile power supply charging terminal is characterized in that when a mobile power supply is inserted into the mobile power supply charging terminal, the mobile power supply charging terminal reads the mobile power supply data to obtain mobile power supply battery state data;

the mobile power supply charging terminal uploads the recorded battery state data of each mobile power supply to a central server;

the central server sets a charging starting electric quantity parameter and a charging stopping electric quantity parameter when the corresponding mobile power supply is charged according to the mobile power supply battery state data;

the central server sends the set parameters of the starting charging electric quantity and the stopping charging electric quantity of each mobile power supply to the mobile power supply charging terminal;

and the mobile power supply charging terminal charges the mobile power supply according to the starting charging electric quantity parameter and the stopping charging electric quantity parameter.

2. The charging control method of the mobile power charging terminal according to claim 1, wherein the mobile power charging terminal sets a charging start parameter and a charging stop parameter of the mobile power independently for different types of the mobile power according to the setting of the central server.

3. The charging control method of the mobile power charging terminal according to claim 1, wherein the mobile power charging terminal sets the charging start parameter and the charging stop parameter of the mobile power independently for the mobile power with the same type according to different battery power storage performances of the mobile power according to the setting of the central server.

4. The charging control method of the mobile power charging terminal according to claim 1, wherein the mobile power charging terminal uploads the setting location information of the mobile power charging terminal to a central server, and the central server sets the charging start parameter and the charging stop parameter of the mobile power according to the mobile power battery status data and the setting location information.

5. The charge control method of a mobile power supply charging terminal according to claim 1, wherein said mobile power supply battery status data includes a mobile power supply battery temperature;

when the temperature of the mobile power supply battery is higher than a preset temperature threshold value, the mobile power supply charging terminal stops charging the mobile power supply or adjusts the mobile power supply to be in a trickle charging mode.

6. The charging control method of the mobile power supply charging terminal according to any one of claims 1 to 5, wherein the charging terminal is connected with a bus circuit to realize data interaction between the charging terminal and the mobile power supply.

7. The charge control method of the mobile power supply charging terminal according to any one of claims 1 to 5, wherein the mobile power supply battery state data includes a model number of the battery unit, and a remaining capacity of the mobile power supply.

8. The charging control method of the mobile power supply charging terminal is characterized in that when a mobile power supply is inserted into the mobile power supply charging terminal, the mobile power supply charging terminal reads mobile power supply data to obtain mobile power supply battery state data;

the mobile power supply charging terminal uploads the recorded battery state data of each mobile power supply to a central server;

the charging terminal uploads the set position information of the mobile power supply to the central server, and the central server sets the charging starting electric quantity parameter and the charging stopping electric quantity parameter of the mobile power supply according to the mobile power supply battery state data and the set position information;

the central server sends the set parameters of the starting charging electric quantity and the stopping charging electric quantity of each mobile power supply to the mobile power supply charging terminal;

and the mobile power supply charging terminal charges the mobile power supply according to the starting charging electric quantity parameter and the stopping charging electric quantity parameter.

9. The charging control method of the mobile power supply charging terminal according to claim 8, wherein the central server sets a plurality of mobile power supply charging start capacity parameter and charging stop capacity parameter modes according to the setting position and the using scene of the charging terminal, the mobile power supply charging mode includes setting a first charging start capacity parameter and a first charging stop capacity parameter in an area with higher mobile power supply using requirement, and setting a second charging start capacity parameter and a second charging stop capacity parameter in an area with lower mobile power supply using requirement;

the first starting charging electric quantity parameter value is higher than the second starting charging electric quantity parameter.

10. The charge control method of a mobile power supply charging terminal according to claim 8 or 9, said power supply battery state data comprising a mobile power supply battery temperature;

and when the temperature of the battery unit of the mobile power supply is higher than a preset temperature threshold value, the mobile power supply charging terminal stops charging the mobile power supply or adjusts the mobile power supply to be in a trickle charging mode.

11. The charging control method for the mobile power supply charging terminal according to claim 8 or 9, wherein the charging terminal is connected to a bus circuit to realize data interaction between the terminal and the mobile power supply.

12. The charge control method of the mobile power supply charging terminal according to claim 8 or 9, wherein the mobile power supply battery status data includes a model of a battery unit, and a remaining capacity of the mobile power supply.

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