CN112531819B

CN112531819B - Charging control method and device for mobile power supply

Info

Publication number: CN112531819B
Application number: CN202011314504.2A
Authority: CN
Inventors: 谢建松
Original assignee: Yinfuli Co ltd
Current assignee: Yinfuli Co ltd
Priority date: 2020-11-20
Filing date: 2020-11-20
Publication date: 2024-04-09
Anticipated expiration: 2040-11-20
Also published as: CN112531819A

Abstract

The invention discloses a charging control method and a device of a mobile power supply, wherein the method comprises the steps of determining the charging quantity of the mobile power supply to be charged in an intelligent charging cabinet, and judging whether the charging quantity is greater than or equal to a determined charging quantity threshold value; when judging that the charging quantity threshold value is larger than or equal to the charging quantity threshold value, generating a rotating charging instruction of the mobile power supply in the intelligent charging cabinet; and executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction. Therefore, when the mobile power supply to be charged in the intelligent charging cabinet is judged to be large in charging quantity, the method and the device automatically and directly generate the alternate charging instruction of the mobile power supply, and execute time-sharing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction, so that the power resource redundancy of the intelligent charging cabinet can be reduced, and the manufacturing cost of the intelligent charging cabinet is saved.

Description

Charging control method and device for mobile power supply

Technical Field

The present invention relates to the field of mobile power technologies, and in particular, to a method and an apparatus for controlling charging of a mobile power.

Background

Along with the popularization of intelligent equipment (such as a smart phone), the time for people to use the intelligent equipment is greatly prolonged, and the demand for the intelligent equipment to be capable of supplementing electric quantity at any time is more and more intense, so the problem that the people cannot timely supplement electric quantity when using the intelligent equipment for a long time is solved due to the sharing of the charger.

In practical application, the general design on the existing charger cabinet is how many treasured interface accesses that charges can be supported in the charger cabinet design, just can charge simultaneously to how many treasures that charges simultaneously, for example: and 10 charging devices can be connected to the maximum of 10 charging devices, and the default charging power of each charging device is 8W, so that the power supply of the 10 charging devices is at least 8W X10=80W. However, it is found in practice that, due to the non-uniformity of the lease frequency of the charging treasures, the situation that each charging port simultaneously has a charging treasure and/or the situation that the charging treasures need to be charged simultaneously rarely occurs in the charging machine cabinet, which can cause that the power resource of the charging machine cabinet has great redundancy and the cost is high.

Disclosure of Invention

The invention aims to solve the technical problem of providing a charging control method and device for a mobile power supply, which can reduce the power resource redundancy of an intelligent charging cabinet and save the manufacturing cost of the intelligent charging cabinet.

In order to solve the technical problem, a first aspect of the embodiment of the present invention discloses a charging control method for a mobile power supply, where the method includes:

determining the charging quantity of a mobile power supply to be charged in an intelligent charging cabinet, and judging whether the charging quantity is greater than or equal to a determined charging quantity threshold value;

When judging that the charging quantity threshold value is larger than or equal to the charging quantity threshold value, generating a rotation charging instruction of the mobile power supply in the intelligent charging cabinet;

and executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction.

In an optional implementation manner, in a first aspect of the embodiment of the present invention, the performing, according to the alternate charging instruction, an alternate charging operation on a mobile power supply in the intelligent charging cabinet includes:

selecting all target mobile power sources needing to be charged with priority from all mobile power sources in the intelligent charging cabinet according to the alternate charging instruction;

and executing preferential charging operation on all the target mobile power supplies according to the alternate charging instruction.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, after the performing, according to the alternate charging instruction, a preferential charging operation on all the target mobile power sources, the method further includes:

monitoring the real-time electric quantity of all the target mobile power supplies, and judging whether a certain target mobile power supply in all the target mobile power supplies meets the determined rentable condition according to the real-time electric quantity of all the target mobile power supplies;

When judging that the certain target mobile power supply meets the rentable condition, stopping executing charging operation on the certain target mobile power supply, and executing charging operation on one of all mobile power supplies except all the target mobile power supplies in the intelligent charging cabinet, wherein one of the mobile power supplies comprises the mobile power supply with the highest residual electric quantity in all the mobile power supplies except all the target mobile power supplies in the intelligent charging cabinet or any one of all the mobile power supplies except all the target mobile power supplies in the intelligent charging cabinet; or,

monitoring the real-time electric quantity of all the target mobile power supplies, and judging whether all the target mobile power supplies meet the determined rentable conditions according to the real-time electric quantity of all the target mobile power supplies;

and when the judgment result is yes, stopping executing the charging operation on all the target mobile power supplies, and executing the charging operation on all the mobile power supplies except all the target mobile power supplies in the intelligent charging cabinet.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the selecting, according to the alternate charging instruction, all target mobile power sources that need to be charged with priority from all mobile power sources in the intelligent charging cabinet includes:

Obtaining the residual electric quantity of all the mobile power supplies in the intelligent charging cabinet, and sequencing the residual electric quantity of all the mobile power supplies to obtain the sequencing situation of the residual electric quantity of all the mobile power supplies;

and screening the mobile power supplies with the residual electric quantity sequenced before the preset ranking from all the mobile power supplies according to the residual electric quantity sequencing conditions of all the mobile power supplies, and taking the mobile power supplies as target mobile power supplies needing to be charged.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the method further includes:

detecting whether the number of the mobile power supplies in the intelligent charging cabinet changes or not in the process of executing alternate charging operation on the mobile power supplies in the intelligent charging cabinet;

when the change of the number of the mobile power supplies in the intelligent charging cabinet is detected, acquiring the change condition of the number of the mobile power supplies in the intelligent charging cabinet;

and executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction.

In an optional implementation manner, in a first aspect of the embodiment of the present invention, the executing, according to the quantity change condition and the alternate charging instruction, an alternate charging operation on a mobile power supply in the intelligent charging cabinet includes:

When the quantity change condition is used for indicating that a newly returned mobile power supply exists in the intelligent charging cabinet, acquiring the residual electric quantity of the newly returned mobile power supply, and judging whether the residual electric quantity of the newly returned mobile power supply is smaller than or equal to the mobile power supply with the lowest real-time electric quantity in all the mobile power supplies in a charging state in the intelligent charging cabinet;

stopping performing charging operation on the mobile power supply with the lowest real-time electric quantity when judging that the residual electric quantity of the newly returned mobile power supply is larger than the mobile power supply with the lowest real-time electric quantity, and performing charging operation on the newly returned mobile power supply;

when the quantity change condition is used for indicating that a certain mobile power supply exists and is popped up from the intelligent charging cabinet, judging whether the popped-up certain mobile power supply is one of all the mobile power supplies in a charging state in the intelligent charging cabinet;

and when the judgment result is yes, executing charging operation on one of all the mobile power supplies except the mobile power supplies with the residual electric quantity meeting the determined rentable condition and/or in the charging state in the intelligent charging cabinet.

when the situation that the charging quantity threshold value is not greater than or equal to the charging quantity threshold value is judged, the people flow of the scene where the intelligent charging cabinet is currently located is obtained, and the mobile power supply demand quantity matched with the people flow is determined according to the people flow;

and screening the required mobile power supplies with the required quantity of the mobile power supplies from all the mobile power supplies in the intelligent charging cabinet, and executing charging operation on all the required mobile power supplies.

The second aspect of the embodiment of the invention discloses a charging control device of a mobile power supply, which comprises:

the determining module is used for determining the charging quantity of the mobile power supply needing to be charged in the intelligent charging cabinet;

the judging module is used for judging whether the charging quantity is larger than or equal to the determined charging quantity threshold value;

the generation module is used for generating a rotation charging instruction of the mobile power supply in the intelligent charging cabinet when the judgment module judges that the charging quantity threshold value is larger than or equal to the charging quantity threshold value;

and the first charging module is used for executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, the first charging module includes:

the selection sub-module is used for selecting all target mobile power sources needing to be charged preferentially from all mobile power sources in the intelligent charging cabinet according to the alternate charging instruction;

and the charging sub-module is used for executing preferential charging operation on all the target mobile power supplies according to the alternate charging instruction.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the first charging module further includes:

the monitoring sub-module is used for monitoring the real-time electric quantity of all the target mobile power supplies after the charging sub-module executes the priority charging operation on all the target mobile power supplies according to the alternate charging instruction;

the judging sub-module is used for judging whether a certain target mobile power supply in all the target mobile power supplies meets the determined rentable condition according to the real-time electric quantity of all the target mobile power supplies;

the charging submodule is further used for stopping the charging operation of the certain target mobile power supply when the judging submodule judges that the certain target mobile power supply meets the rentable condition;

The charging submodule is further used for executing charging operation on one of all mobile power supplies except all target mobile power supplies in the intelligent charging cabinet, wherein one of the mobile power supplies comprises the mobile power supply with the highest residual electric quantity in all mobile power supplies except all target mobile power supplies in the intelligent charging cabinet or any one of all mobile power supplies except all target mobile power supplies in the intelligent charging cabinet; or,

the monitoring sub-module is used for monitoring the real-time electric quantity of all the target mobile power supplies;

the judging sub-module is used for judging whether all the target mobile power supplies meet the determined rentable conditions according to the real-time electric quantity of all the target mobile power supplies;

the charging submodule is further used for stopping charging operation on all the target mobile power supplies when the judging result of the judging submodule is yes;

the charging submodule is further used for executing charging operation on all mobile power sources except all target mobile power sources in the intelligent charging cabinet.

In a second aspect of the embodiment of the present invention, the selecting submodule selects, according to the alternate charging instruction, all target mobile power sources that need to be charged with priority from all mobile power sources in the intelligent charging cabinet, specifically:

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the apparatus further includes:

the detection module is used for detecting whether the number of the mobile power supplies in the intelligent charging cabinet changes or not in the process that the first charging module carries out alternate charging operation on the mobile power supplies in the intelligent charging cabinet;

the first acquisition module is used for acquiring the quantity change condition of the mobile power supplies in the intelligent charging cabinet when the detection module detects that the quantity of the mobile power supplies in the intelligent charging cabinet is changed;

and the second charging module is used for executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction.

In a second aspect of the embodiment of the present invention, the manner in which the second charging module performs the alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction is specifically:

the second acquisition module is used for acquiring the people flow of the scene where the intelligent charging cabinet is currently located when the judgment module judges that the charging quantity threshold value is not more than or equal to the charging quantity threshold value;

the determining module is further used for determining the number of mobile power supply requirements matched with the people flow according to the people flow;

the selection module is used for screening the required mobile power supplies of the required quantity of the mobile power supplies from all the mobile power supplies in the intelligent charging cabinet;

and the third charging module is used for executing charging operation on all the required mobile power supplies.

The third aspect of the present invention discloses another charging control device for a mobile power supply, the device comprising:

a memory storing executable program code;

a processor coupled to the storage;

the processor invokes the executable program codes stored in the storage device to execute the charging control method of the mobile power supply disclosed in the first aspect of the invention.

In a fourth aspect, the present invention discloses a computer storage medium storing

Computer instructions are provided for executing the method for controlling charging of the mobile power supply disclosed in the first aspect of the present invention when the computer instructions are called.

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

the embodiment of the invention provides a charging control method and device of a mobile power supply, wherein the method comprises the steps of determining the charging quantity of the mobile power supply to be charged in an intelligent charging cabinet, and judging whether the charging quantity is greater than or equal to a determined charging quantity threshold value; when judging that the charging quantity threshold value is larger than or equal to the charging quantity threshold value, generating a rotating charging instruction of the mobile power supply in the intelligent charging cabinet; and executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction. Therefore, when the embodiment of the invention is implemented, the alternate charging instruction of the mobile power supply is automatically and directly generated when the larger charging quantity of the mobile power supply which needs to be charged in the intelligent charging cabinet is judged, and the time-sharing alternate charging operation is carried out on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction, so that the power resource redundancy of the intelligent charging cabinet can be reduced, and the manufacturing cost of the intelligent charging cabinet is saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a charging control method of a mobile power supply according to an embodiment of the present invention;

fig. 2 is a flow chart of another charging control method of a mobile power supply according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a charging control device of a mobile power supply according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a charging control device of another portable power source according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a charging control device of another mobile power supply according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an intelligent charging cabinet according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or device that comprises a list of steps or elements is not limited to the list of steps or elements but may, in the alternative, include other steps or elements not expressly listed or inherent to such process, method, article, or device.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The invention discloses a charging control method and a device for a mobile power supply, which can automatically and directly generate alternate charging instructions of the mobile power supply when the large charging quantity of the mobile power supply needed to be charged in an intelligent charging cabinet is judged, and execute time-sharing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instructions, so that the power resource redundancy of the intelligent charging cabinet can be reduced, and the manufacturing cost of the intelligent charging cabinet is saved. The following will describe in detail.

Example 1

Referring to fig. 1, fig. 1 is a flow chart of a charging control method of a mobile power supply according to an embodiment of the invention. The charging control method of the mobile power supply described in fig. 1 may be applied to an intelligent charging cabinet or a server of the intelligent charging cabinet, where the server of the intelligent charging cabinet includes a local server or a cloud server. Further, the intelligent charging cabinet and the server of the intelligent charging cabinet can be in communication connection with a user terminal, wherein the user terminal comprises a smart phone (Android mobile phone, iOS mobile phone, etc.), a smart phone watch, a tablet computer, a palm computer, a vehicle-mounted computer, a desktop computer, a netbook, a personal digital assistant (Personal Digital Assistant, PDA), an intelligent navigator, a mobile internet device (Mobile Internet Devices, MID), and other terminals, and the embodiment of the invention is not limited. As shown in fig. 1, the charging control method of the mobile power supply may include the following operations:

101. determining the charging quantity of a mobile power supply to be charged in the intelligent charging cabinet, and judging whether the charging quantity is greater than or equal to a determined charging quantity threshold value; when it is determined that the charge amount threshold is greater than or equal to the charge amount threshold, the execution of step 102 may be triggered; when the charging quantity threshold value is not greater than or equal to the charging quantity threshold value, the process can be ended, and the charging operation can be directly executed on the mobile power supply needing to be charged in the intelligent charging cabinet.

In the embodiment of the invention, the intelligent charging cabinet is used for storing and charging a mobile power supply (also called a mobile power supply and a mobile charger, such as a shared charger). The mobile power supply comprises any mobile power supply with a charging function, such as a pure charging function or a mobile power supply with illumination. Optionally, the intelligent charging cabinet has a plurality of storage spaces for storing mobile power sources, and a Pogo PIN pad (also called a thimble) is arranged in each storage space (for example, the bottom in the storage space). The power supply system comprises a charging cabinet and is characterized in that the Pogo PIN public seat of the charging cabinet comprises a sending end and a receiving end, namely, the Pogo PIN public seat of each storage space of the intelligent charging cabinet comprises a sending end and a receiving end, wherein the sending end comprises a first grounding end, a data sending end and a first power supply end, and the receiving end comprises a second grounding end, a data receiving end and a second power supply end. The data receiving end is used for receiving the data fed back by the mobile power supply, and further is also used for sending the data to the mobile power supply.

In the embodiment of the invention, optionally, the number of mobile power supplies to be charged in the intelligent charging cabinet may be the number of mobile power supplies currently stored in the intelligent charging cabinet, or may be the number of mobile power supplies except for the mobile power supplies with the residual electric quantity greater than or equal to the determined threshold value of the chargeable electric quantity in all the mobile power supplies currently stored in the intelligent charging cabinet.

In the embodiment of the present invention, the threshold value of the charging quantity may be half of the full load of the intelligent charging cabinet, for example: the storage quantity of the mobile power supplies fully loaded in the intelligent charging cabinet is 10, and the threshold value of the charging quantity can be 5.

102. And generating a rotation charging instruction of the mobile power supply in the intelligent charging cabinet.

103. And executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction.

Therefore, the implementation of the method for controlling the charging of the mobile power supply described in fig. 1 can automatically and directly generate the alternate charging instruction of the mobile power supply when the larger charging quantity of the mobile power supply to be charged in the intelligent charging cabinet is judged, and execute the time-sharing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction, so that the power resource redundancy of the intelligent charging cabinet can be reduced, and the manufacturing cost of the intelligent charging cabinet is saved.

In an alternative embodiment, performing a rotation charging operation on a mobile power supply in an intelligent charging cabinet according to rotation charging instructions includes:

selecting all target mobile power sources needing to be charged in priority from all mobile power sources in the intelligent charging cabinet according to the alternate charging instruction;

It can be seen that this alternative embodiment can realize alternate time-sharing charging of the mobile power sources in the intelligent charging cabinet by selecting the mobile power source that needs to be charged with priority from all the mobile power sources in the intelligent charging cabinet and performing the charging operation on the mobile power source.

In this optional embodiment, further optionally, after performing the preferential charging operation on all the target mobile power sources according to the alternate charging instruction, the charging control method of the mobile power source may further include the following operations:

when judging that a certain target mobile power supply meets the rentable condition, stopping executing charging operation on the certain target mobile power supply, and executing charging operation on one of all mobile power supplies except all target mobile power supplies in the intelligent charging cabinet; or,

In this alternative embodiment, one of the mobile power sources includes the mobile power source of the highest remaining power of all mobile power sources in the intelligent charging cabinet except for all target mobile power sources or any one of all mobile power sources in the intelligent charging cabinet except for all target mobile power sources.

In this optional embodiment, optionally, when the real-time power of the mobile power supply is greater than or equal to the determined threshold value of the available power, it is determined that the mobile power supply meets the determined available condition. Further, different scenes correspond to different borrowable power thresholds; different scenes correspond to different preset number thresholds, for example: in a scene that the people flow is greater than or equal to a preset people flow threshold, the borrowable power threshold is 60%, and the preset number threshold is 3; in the scene that the people flow is smaller than the preset people flow threshold, the borrowable power threshold is 80%, and the preset number threshold is 5. Therefore, the generation accuracy and the reliability of the quick charging instruction of the mobile power supply can be improved by setting the borrowable power threshold value and the preset quantity threshold value of different mobile power supplies individually according to different scenes, so that the quick charging accuracy and the reliability of the mobile power supply are improved.

It can be seen that, in this optional embodiment, when it is detected that a mobile power supply that meets a rentable condition exists in the mobile power supplies in a charged state, charging of the mobile power supplies that meet the rentable condition is stopped, and remaining mobile power supplies in the intelligent charging cabinet are charged one by one, so that it is beneficial to further fully utilize power resources of the intelligent charging cabinet, and to enable more mobile power supplies to be charged as soon as possible, so that the rentable condition is reached as soon as possible, and convenience is brought to users to rent and use; or when the mobile power supplies in the charging state are monitored to meet the rentable condition, the charging operation is uniformly carried out on the remaining mobile power supplies in the intelligent charging cabinet, so that the occurrence of the error of the charging interface conversion of the intelligent charging cabinet can be reduced, the alternate time-sharing charging mode of the mobile power supplies of the intelligent charging cabinet is enriched, and the intelligent function of the intelligent charging cabinet is improved.

In another alternative embodiment, selecting all target mobile power sources that need to be charged with priority from all mobile power sources in the intelligent charging cabinet according to the alternate charging instruction includes:

In the optional embodiment, optionally, ranking the remaining power of all the mobile power supplies in the intelligent charging cabinet according to the order from high to low to obtain a ranking of the remaining power supplies, and selecting the mobile power supplies ranked before the preset ranking from the ranking of the remaining power supplies as target mobile power supplies; the remaining power of all the mobile power supplies in the intelligent charging cabinet can be not ordered, and the mobile power supplies with high power and preset ranking number can be directly selected from all the mobile power supplies in the intelligent charging cabinet to serve as target mobile power supplies. It should be noted that, when the remaining power of all the mobile power sources in the intelligent charging cabinet are ranked from high to low, the target mobile power sources with preset ranking number can be selected after the ranking of all the mobile power sources is completed; the ranking of the mobile power supplies can be stopped when the target mobile power supplies are selected to reach the preset number of ranking.

For example, 20 mobile power sources are stored in the intelligent charging cabinet, and if a priority charging operation is required to be performed on the 4 mobile power sources currently, the mobile power sources with larger residual electric quantity and ordered in the first 4 mobile power sources are selected from the 20 mobile power sources, and a rotation charging instruction of the mobile power sources ordered in the first 4 mobile power sources is generated, so that rotation charging operation is performed on the mobile power sources ordered in the first 4 mobile power sources.

Therefore, the alternative embodiment can also obtain the residual electric quantity of the mobile power supply, and select the mobile power supply with higher electric quantity from the residual electric quantity as the mobile power supply needing to be charged preferentially, so that the mobile power supply with higher electric quantity is beneficial to preferentially meeting the continuous borrowing condition, and the mobile power supply meeting the continuous borrowing condition can be leased as soon as possible by a user, and the time-sharing charging accuracy of the mobile power supply in turn is further improved when the mobile power supply is corresponding to the lease peak time of the mobile power supply.

In this optional embodiment, further optionally, the mobile power sources with the remaining power sequenced before the preset ranking are selected from all the mobile power sources, and after being used as the target mobile power source to be charged, the charging control method of the mobile power sources may further include the following operations:

and judging whether a mobile power supply matched with a certain user needs to be charged in the current time period, when the judging result is yes, replacing the target mobile power supply with the lowest electric quantity in all the target mobile power supplies needing to be charged by the mobile power supply matched with the certain user so as to update all the target mobile power supplies, and triggering and executing the operation of executing the preferential charging operation on all the target mobile power supplies according to the alternate charging instruction.

In this alternative embodiment, if the current time period matches the historical charging time period corresponding to the mobile power source matched by a certain user, for example: the current time period is 12:00-13:00, and the historical charging time period corresponding to a mobile power supply matched with a certain user is 11:00-12:30, so that the mobile power supply matched with the certain user in the current time period is judged to need to be charged; or if a user terminal of a certain user sends a use request for the required mobile power supply, judging that the mobile power supply matched with the certain user exists in the current time period to be charged, wherein the use request can comprise an identifier uniquely corresponding to the required mobile power supply. The unique identification information of the mobile power supply comprises one or more of a digital identification (such as a serial number SN of the mobile power supply), a graphic identification, a shape identification, a color identification and a text identification.

In this optional embodiment, optionally, when it is determined that there is no mobile power source matched with a certain user in the current time period that needs to be charged, the current flow is ended.

Therefore, in the optional embodiment, after the mobile power supply with higher electric quantity is screened out to be used as the power supply for preferential charging, whether the mobile power supply matched with the user needs to be charged in the current time period is further judged, if so, the mobile power supply with higher electric quantity is updated based on the mobile power supply matched with the user, so that alternate time-sharing charging of the mobile power supply can be realized, the power resource redundancy of the intelligent charging cabinet is reduced, and the manufacturing cost of the intelligent charging cabinet is saved; the mobile power supply required by the user can be charged preferentially, so that the user can use the required mobile power supply as soon as possible, the experience of using the mobile power supply by the user is improved, and the use viscosity of the user is improved.

In still another alternative embodiment, the charging control method of the mobile power supply may further include the operations of:

when the number of the mobile power supplies in the intelligent charging cabinet is detected to change, acquiring the number change condition of the mobile power supplies in the intelligent charging cabinet;

and carrying out alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction.

Therefore, in the alternative embodiment, when the number of the mobile power sources in the intelligent charging cabinet is detected to change in the alternative embodiment in the process of performing the alternative charging operation on the mobile power sources, the alternative time-sharing charging operation is performed on the mobile power sources in the intelligent charging cabinet again according to the number change condition, so that the alternative time-sharing charging accuracy of the mobile power sources can be further improved, and the intelligent function of the intelligent charging cabinet is enriched.

In yet another alternative embodiment, the performing the alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction includes:

When the quantity change condition is used for indicating that the newly returned mobile power supply exists in the intelligent charging cabinet, acquiring the residual electric quantity of the newly returned mobile power supply, and judging whether the residual electric quantity of the newly returned mobile power supply is smaller than or equal to the mobile power supply with the lowest real-time electric quantity in all the mobile power supplies in the charging state in the intelligent charging cabinet;

when judging that the residual electric quantity of the newly returned mobile power supply is larger than the mobile power supply with the lowest real-time electric quantity, stopping performing charging operation on the mobile power supply with the lowest real-time electric quantity, and performing charging operation on the newly returned mobile power supply;

when the quantity change condition is used for indicating that a certain mobile power supply is popped up from the intelligent charging cabinet, judging whether the popped up certain mobile power supply is one of all mobile power supplies in a charging state in the intelligent charging cabinet;

Therefore, when the mobile power supply is detected to return to the intelligent charging cabinet or taken out from the intelligent charging cabinet, the alternative embodiment is beneficial to further improving the accuracy and reliability of alternate time-sharing charging by reallocating the rechargeable batteries.

In yet another alternative embodiment, performing the preferential charging operation on all the target mobile power sources according to the alternate charging instruction may include:

controlling a current mode of the intelligent charging cabinet to enter a quick charging mode based on the alternate charging instruction;

and performing a priority charging operation on all the target mobile power sources based on the fast charging mode.

In this alternative embodiment, the alternate charging instruction includes unique identification information corresponding to each target mobile power source. Therefore, the mobile power supplies needing to be charged in priority can be distinguished from all the mobile power supplies conveniently, and the time-sharing charging accuracy of the mobile power supplies in turn is further improved.

Therefore, after the alternative embodiment generates the alternate charging instruction, the current mode of the intelligent charging cabinet is automatically controlled to enter the rapid charging mode, and the priority charging operation can be performed on the mobile power supply based on the rapid charging mode, so that the mobile power supply can acquire the electricity quantity meeting the rentable condition as soon as possible, and the alternate time-sharing charging accuracy and efficiency of the mobile power supply are improved.

In this optional embodiment, optionally, performing the preferential charging operation on all the target mobile power sources based on the fast charging mode may include:

Determining charging electricity matched with the quick charging mode according to the quick charging mode;

and performing a preferential charging operation on all the target mobile power sources based on the charging electricity.

In this alternative embodiment, the intelligent charging cabinet is optionally provided with a charging system that may include a fast charging mode and a low-speed charging mode. Wherein the different charging modes correspond to different charging electrics, wherein the charging electrics comprise charging currents or charging voltages. For example: the charging current corresponding to the fast charging mode is 2.4A, and the charging current corresponding to the low charging mode is 1.5A. Therefore, by providing a plurality of charging modes, the intelligent charging cabinet is beneficial to selecting an appropriate charging mode according to actual conditions to execute charging operation on the mobile power supply. Further alternatively, the fast charge mode may be divided into a plurality of sub-fast charge modes, and the low-speed charge mode may be divided into a plurality of sub-low-speed charge modes. Thus, the charging accuracy of the mobile power supply can be further improved by subdividing the charging mode.

It can be seen that this alternative embodiment is also capable of performing a fast charging operation on the mobile power supply based on the matched charging current by automatically selecting the charging electricity matched with the fast charging mode, thereby being beneficial to further improving the accuracy and efficiency of implementing alternate time-sharing charging of the mobile power supply.

and counting the mobile power supply charging data corresponding to the intelligent charging cabinet, generating a charging rule aiming at the mobile power supply in the intelligent charging cabinet according to the counted mobile power supply charging data, and storing the charging rule.

In this alternative embodiment, optionally, the intelligent charging cabinet counts the charging data of the mobile power supply in the current scene at regular or non-regular time. Still further alternatively, the existing charging rule is updated every time the charging data of the mobile power supply is counted, so as to obtain a new charging rule. Therefore, the charging rule is updated in a self-adaptive mode through the mobile power supply charging data counted in a timing/non-timing mode, and the generation accuracy and reliability of the charging rule are improved.

In this alternative embodiment, the mobile power charging data may include a traffic of people in the current scene, a number of mobile power required by the traffic of people, a duration of renting the mobile power in the current scene, a time of returning the mobile power in the current scene, and the like. Further, the mobile power supply charging data further comprises identification information uniquely corresponding to the mobile power supply to be charged in the current scene. Still further, the mobile power supply charging data further includes a borrower type of the mobile power supply in the current scenario. Therefore, the more the mobile power supply charging data comprise, the more the generation accuracy and the reliability of the charging rule of the mobile power supply are facilitated to be improved.

It can be seen that, this optional embodiment is favorable to follow-up to carry out the operation of charging to portable power source according to the rule of charging that charges of portable power source in the intelligent charging rack through automatic statistics portable power source charging data to automatic according to portable power source charging data generation, for example: and the mobile power supply is slowly charged or quickly charged, so that the requirement of a user on the mobile power supply is met.

in the process of executing alternate charging operation on the mobile power supplies in the intelligent charging cabinet according to the alternate charging instruction, acquiring the current and the value of the charging current of each mobile power supply in a charging state, and acquiring the total current acquired by the total current sensor of the intelligent charging cabinet;

judging whether the current difference value between the current sum value and the total current is larger than or equal to the determined current value threshold value, and calculating the difference value between the current difference value and the current value threshold value when the current difference value is larger than or equal to the current value threshold value;

and determining the number of the charging paths to be closed according to the difference value of the current difference value and the current value threshold value, screening the mobile power sources of the number of the charging paths from all the mobile power sources in the charging state in the intelligent charging cabinet, and stopping executing charging operation on the mobile power sources of the number of the charging paths.

Therefore, in the alternative embodiment, in the process of executing the alternate time-sharing charging on the mobile power sources, the charging on part of the mobile power sources is stopped according to the comparison result of the current sum value of the charging currents of all the mobile power sources in the charging state and the total current acquired by the total current sensor, so that the occurrence of unstable charging circuit caused by overlarge charging current can be reduced, and the reliability of the alternate time-sharing charging of the mobile power sources is improved.

Example two

Referring to fig. 2, fig. 2 is a flow chart of a charging control method of a mobile power supply according to another embodiment of the invention. The charging control method of the mobile power supply described in fig. 2 may be applied to an intelligent charging cabinet or a server of the intelligent charging cabinet, where the server of the intelligent charging cabinet includes a local server or a cloud server. Further, the intelligent charging cabinet and the server of the intelligent charging cabinet can be in communication connection with a user terminal, wherein the user terminal comprises a smart phone (Android mobile phone, iOS mobile phone, etc.), a smart phone watch, a tablet computer, a palm computer, a vehicle-mounted computer, a desktop computer, a netbook, a personal digital assistant (Personal Digital Assistant, PDA), an intelligent navigator, a mobile internet device (Mobile Internet Devices, MID), and other terminals, and the embodiment of the invention is not limited. As shown in fig. 2, the charging control method of the mobile power supply may include the following operations:

201. Determining the charging quantity of a mobile power supply to be charged in the intelligent charging cabinet, and judging whether the charging quantity is greater than or equal to a determined charging quantity threshold value; when it is determined that the charge amount threshold is greater than or equal to the charge amount threshold, the execution of step 202 may be triggered; when it is determined that the charge amount threshold is not greater than or equal to the charge amount threshold, step 204 may be performed.

202. And generating a rotation charging instruction of the mobile power supply in the intelligent charging cabinet.

203. And executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction.

In the embodiment of the present invention, please refer to the embodiment for the detailed description of step 101 to step 103 for other related descriptions of step 201 to step 203, and the detailed description of the embodiment of the present invention is omitted.

204. And acquiring the people flow of the scene where the intelligent charging cabinet is currently located, and determining the number of mobile power supply requirements matched with the people flow according to the people flow.

205. And screening the required mobile power supplies with the required quantity of the mobile power supplies from all the mobile power supplies in the intelligent charging cabinet, and executing charging operation on all the required mobile power supplies.

Therefore, when the embodiment of the invention judges that the charging quantity of the mobile power supplies needing to be charged in the intelligent charging cabinet is smaller, the charging operation can be further executed on the mobile power supplies with the quantity matched with the current people flow of the scene where the intelligent charging cabinet is located, so that the requirement of the current people flow on the mobile power supplies is met, and the intelligent function of the intelligent charging cabinet is enriched.

In an alternative embodiment, the charging control method of the mobile power supply may further include the following operations:

judging whether a charging request triggered by a mobile power supply in the intelligent charging cabinet is received or not;

after the required mobile power sources of the required quantity of the mobile power sources are screened from all the mobile power sources in the intelligent charging cabinet and before the charging operation is performed on all the required mobile power sources, the intelligent charging cabinet comprises the following steps:

and determining the mobile power supply required to be charged by the trigger of the quick charging request according to the charging request, updating the required mobile power supply for screening the required quantity of the mobile power supplies from all the mobile power supplies in the intelligent charging cabinet based on the mobile power supply required to be charged by the trigger, and triggering the step of executing the charging operation on all the required mobile power supplies.

In this alternative embodiment, the charging request includes one or more combinations of identification information uniquely corresponding to the mobile power source required to be charged by the trigger of the charging request, a usage time of the mobile power source, and information for indicating an amount of power required by the trigger. Therefore, identification information of the mobile power supply required by the user is sent to the intelligent charging cabinet, so that the intelligent charging cabinet is beneficial to identifying and preferentially executing charging operation on the mobile power supply required by the user, and the user can quickly use the required mobile power supply; the intelligent charging cabinet is beneficial to executing charging operation on the mobile power supply according to the service time by sending the service time of the mobile power supply to the intelligent charging cabinet by a user, so that the charging flexibility of the mobile power supply is improved; and through sending the information of the required electric quantity of user to the intelligent charging cabinet, be favorable to the intelligent charging cabinet to charge the required electric quantity of user more than or equal to the electric quantity that the portable power source charged, promote the experience that the user used portable power source to be favorable to improving portable power source's use viscosity, be favorable to portable power source's popularization. The identification information uniquely corresponding to the mobile power supply required to be charged by the trigger comprises one or more of a digital identification (for example, a serial number SN of the mobile power supply), a graphic identification, a shape identification, a color identification and a text identification. The information for indicating the electric quantity required by the trigger includes, but is not limited to, at least one of an electric quantity value (for example, 1300 mA) determined by the trigger, a time period (for example, 3 hours of charging) for indicating that the trigger needs to be used, identification information uniquely corresponding to the charged object, and the number of the charged objects (for example, 2 mobile phones). The charged object is an object that the trigger needs to charge by using the leased shared power source, for example: some is a mobile phone, a tablet personal computer and the like of the brand. The more the content included in the quick charging request is, the more the quick charging accuracy and reliability of the mobile power supply are improved, and the intelligent function of the intelligent charging cabinet is enriched. Further, the quick charging request further includes the emergency degree of the mobile power supply, so that the intelligent charging cabinet is convenient to select a corresponding charging mode to execute quick charging operation on the mobile power supply according to the emergency degree of the mobile power supply.

In this alternative embodiment, optionally, when it is determined that the quick charge request is not received, the current flow may be ended.

Therefore, according to the embodiment of the invention, the determination that the mobile power supply needs to be charged can be realized according to the received rapid charging request triggered by the mobile power supply, so that the rapid charging instruction is generated, and further the mobile power supply is favorably charged according to the rapid charging instruction.

Example III

Referring to fig. 3, fig. 3 is a schematic structural diagram of a charging control device of a mobile power supply according to an embodiment of the invention. The charging control device of the mobile power supply described in fig. 3 may be applied to an intelligent charging cabinet or a server of the intelligent charging cabinet, where the server of the intelligent charging cabinet includes a local server or a cloud server. Further, the intelligent charging cabinet and the server of the intelligent charging cabinet can be in communication connection with a user terminal, wherein the user terminal comprises a smart phone (Android mobile phone, iOS mobile phone, etc.), a smart phone watch, a tablet computer, a palm computer, a vehicle-mounted computer, a desktop computer, a netbook, a personal digital assistant (Personal Digital Assistant, PDA), an intelligent navigator, a mobile internet device (Mobile Internet Devices, MID), and other terminals, and the embodiment of the invention is not limited. As shown in fig. 3, the charging control device of the mobile power supply may include: a determining module 301, a judging module 302, a generating module 303, and a first charging module 304, wherein:

The determining module 301 is configured to determine a charging amount of the mobile power supply that needs to be charged in the intelligent charging cabinet.

The determining module 302 is configured to determine whether the charging amount is greater than or equal to the determined charging amount threshold.

And the generating module 303 is configured to generate an alternate charging instruction of the mobile power supply in the intelligent charging cabinet when the judging module 302 judges that the charging quantity threshold is greater than or equal to the charging quantity threshold.

The first charging module 304 is configured to perform a rotation charging operation on the mobile power supply in the intelligent charging cabinet according to the rotation charging instruction.

Therefore, the mobile power supply charging control device shown in fig. 3 can automatically and directly generate the alternate charging instruction of the mobile power supply when the mobile power supply charging quantity required to be charged in the intelligent charging cabinet is determined to be large, and execute time-sharing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction, so that the power resource redundancy of the intelligent charging cabinet can be reduced, and the manufacturing cost of the intelligent charging cabinet is saved.

In an alternative embodiment, as shown in fig. 4, the first charging module 304 may include a selection submodule 3041 and a charging submodule 3042, where:

the selection submodule 3041 is used for selecting all target mobile power sources needing to be charged preferentially from all mobile power sources in the intelligent charging cabinet according to the alternate charging instruction.

And the charging submodule 3042 is used for executing preferential charging operation on all the target mobile power supplies according to the alternate charging instruction.

Therefore, the device shown in fig. 4 can be implemented by selecting the mobile power source needing to be charged preferentially from all the mobile power sources of the intelligent charging cabinet and executing the charging operation on the mobile power source, so that the mobile power sources in the intelligent charging cabinet can be charged alternately in a time-sharing manner.

In yet another alternative embodiment, as shown in fig. 4, the first charging module 304 may further include a monitoring submodule 3043 and a judging submodule 3044, where:

the monitoring submodule 3043 is configured to monitor real-time electric quantities of all the target mobile power supplies after the charging submodule 3042 performs the preferential charging operation on all the target mobile power supplies according to the alternate charging instruction.

And the judging submodule 3044 is used for judging whether a certain target mobile power supply exists in all the target mobile power supplies according to the real-time electric quantity of all the target mobile power supplies so as to meet the determined rentable condition.

The charging submodule 3042 is further configured to stop performing a charging operation on a certain target mobile power supply when the judging submodule 3044 judges that the certain target mobile power supply meets the rentable condition.

The charging submodule 3042 is further configured to perform a charging operation on one of all mobile power supplies except for all target mobile power supplies in the intelligent charging cabinet, where one of the mobile power supplies includes a mobile power supply with a highest remaining power among all mobile power supplies except for all target mobile power supplies in the intelligent charging cabinet or any one of all mobile power supplies except for all target mobile power supplies in the intelligent charging cabinet. Or,

and the monitoring submodule 3043 is used for monitoring the real-time electric quantity of all the target mobile power supplies.

And the judging submodule 3044 is used for judging whether all the target mobile power supplies meet the determined rentable conditions according to the real-time electric quantity of all the target mobile power supplies.

The charging sub-module 3042 is further configured to stop performing charging operations on all the target mobile power sources when the determination result of the determination sub-module 3044 is yes.

The charging submodule 3042 is further configured to perform a charging operation on all the mobile power sources except for all the target mobile power sources in the intelligent charging cabinet.

In this alternative embodiment, after the charging submodule 3042 performs the preferential charging operation on all the target mobile power sources according to the alternate charging instruction, the monitoring submodule 3043 may be triggered to perform the above-described operation of monitoring the real-time power amounts of all the target mobile power sources.

As can be seen, the device shown in fig. 4 can also be implemented by stopping charging the mobile power supplies satisfying the rentable condition and charging the remaining mobile power supplies in the intelligent charging cabinet one by one when only the mobile power supplies satisfying the rentable condition are detected to exist in the mobile power supplies in the charged state, so that the power resources of the intelligent charging cabinet can be fully utilized, and more mobile power supplies can be charged as soon as possible, and the rentable condition can be reached as soon as possible, so that the user can rent the mobile power supplies; or when the mobile power supplies in the charging state are monitored to meet the rentable condition, the charging operation is uniformly carried out on the remaining mobile power supplies in the intelligent charging cabinet, so that the occurrence of the error of the charging interface conversion of the intelligent charging cabinet can be reduced, the alternate time-sharing charging mode of the mobile power supplies of the intelligent charging cabinet is enriched, and the intelligent function of the intelligent charging cabinet is improved.

In yet another alternative embodiment, as shown in fig. 4, the selecting sub-module 3041 selects all the target mobile power sources that need to be charged with priority from all the mobile power sources in the intelligent charging cabinet according to the alternate charging instruction specifically includes:

Therefore, the device shown in fig. 4 can also obtain the residual electric quantity of the mobile power supply, and select the mobile power supply with higher electric quantity from the residual electric quantity as the mobile power supply needing to be charged preferentially, which is favorable for the mobile power supply with higher electric quantity to meet the condition of renewability preferentially, so that the user can rent the mobile power supply meeting the condition of renewability as soon as possible, and the time-sharing charging accuracy of the mobile power supply in turn is further improved in response to the time-sharing peak of the mobile power supply.

In yet another alternative embodiment, as shown in fig. 4, the apparatus may further include a detection module 305, a first acquisition module 306, and a second charging module 307, where:

the detecting module 305 is configured to detect whether the number of mobile power sources in the intelligent charging cabinet changes during the process of performing the alternate charging operation on the mobile power sources in the intelligent charging cabinet by the first charging module 304.

The first obtaining module 306 is configured to obtain a change situation of the number of mobile power sources in the intelligent charging cabinet when the detecting module 305 detects that the number of mobile power sources in the intelligent charging cabinet changes.

The second charging module 307 is configured to perform the alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction.

In this alternative embodiment, during the process of performing the alternate charging operation on the mobile power sources in the intelligent charging cabinet by the first charging module 304, the detecting module 305 may be triggered to perform the above-mentioned operation of detecting whether the number of mobile power sources in the intelligent charging cabinet is changed.

It can be seen that the device shown in fig. 4 can also be implemented in the process of performing the alternate charging operation on the mobile power supply, and can also perform the alternate time-sharing charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition when detecting that the quantity of the mobile power supply in the intelligent charging cabinet changes, so that the alternate time-sharing charging accuracy of the mobile power supply can be further improved, and the intelligent function of the intelligent charging cabinet is enriched.

In yet another alternative embodiment, as shown in fig. 4, the manner in which the second charging module 307 performs the alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction is specifically as follows:

It can be seen that implementing the device shown in fig. 4 can also be beneficial to further improving the accuracy and reliability of alternate time-sharing charging by redistributing rechargeable batteries when detecting that there is a return of the mobile power supply to the intelligent charging cabinet or that there is a removal of the mobile power supply from the intelligent charging cabinet.

In yet another alternative embodiment, as shown in fig. 4, the apparatus may further include a second obtaining module 308, a selecting module 309, and a third charging module 310, where:

the second obtaining module 308 is configured to obtain the traffic of the person in the current scene of the intelligent charging cabinet when the judging module 302 judges that the traffic of the person is not greater than or equal to the charging quantity threshold.

The determining module 301 is further configured to determine, according to the traffic of people, a number of mobile power requirements matching the traffic of people.

A selection module 309 is configured to screen the required mobile power sources of the required number of mobile power sources from all mobile power sources in the intelligent charging cabinet.

The third charging module 310 is configured to perform a charging operation on all the required mobile power sources.

It can be seen that the device shown in fig. 4 can further execute the charging operation on the mobile power supply with the quantity matched with the current people flow of the scene where the intelligent charging cabinet is located when the charging quantity of the mobile power supply which needs to be charged in the intelligent charging cabinet is smaller, so as to meet the requirement of the current people flow on the mobile power supply and enrich the intelligent function of the intelligent charging cabinet.

Example IV

Referring to fig. 5, fig. 5 is a schematic diagram illustrating a charging control device of a mobile power supply according to another embodiment of the invention. As shown in fig. 5, the charging control device of the mobile power supply may include:

A memory 501 in which executable program codes are stored;

a processor 502 coupled to the storage 501;

further, an input interface 503 coupled to the processor 502 and an output interface 504 may also be included;

the processor 502 invokes executable program codes stored in the storage 501, for executing steps in the charging control method of the mobile power supply described in the first or second embodiment.

Example six

Referring to fig. 6, fig. 6 is a schematic diagram of an intelligent charging cabinet according to an embodiment of the present invention, where the intelligent charging cabinet includes a charging control device of a mobile power supply as shown in fig. 3, 4 or 5, and the intelligent charging cabinet is used for executing the steps in the charging control method of the mobile power supply described in the first embodiment or the second embodiment.

Example six

The embodiment of the invention discloses a computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a computer to execute the steps in the charging control method of a mobile power supply described in the first embodiment or the second embodiment.

Example seven

Embodiments of the present invention disclose a computer program product comprising a non-transitory computer-readable storage medium storing a computer program, the computer program being operable to cause a computer to perform the steps of the method for controlling charging of a mobile power supply described in embodiment one or embodiment two.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in a software product that may be stored in a computer-readable storage medium including a Read-Only Memory (ROM), a random-access Memory (Random Access Memory, RAM), a programmable-Only Memory (Programmable Read-Only Memory, PROM), an erasable programmable-Only Memory (Erasable Programmable Read Only Memory, EPROM), a One-time programmable-Only Memory (OTPROM), an Electrically erasable-rewritable-Only Memory (EEPROM), a compact disc-Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used to carry or store data.

Finally, it should be noted that: the embodiment of the invention discloses a charging control method and a charging control device for a mobile power supply, which are disclosed by the embodiment of the invention only for illustrating the technical scheme of the invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. A method for controlling charging of a mobile power supply, the method comprising:

performing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction;

And executing the alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction, wherein the alternate charging operation comprises the following steps:

selecting all target mobile power sources needing to be charged with priority from all the mobile power sources in the intelligent charging cabinet according to the alternate charging instruction;

performing preferential charging operation on all the target mobile power supplies according to the alternate charging instruction;

and selecting all target mobile power sources needing to be charged with priority from all the mobile power sources in the intelligent charging cabinet according to the alternate charging instruction, wherein the method comprises the following steps of:

obtaining the residual electric quantity of all the mobile power supplies in the intelligent charging cabinet, and sequencing the residual electric quantity of all the mobile power supplies to obtain the sequencing situation of the residual electric quantity of all the mobile power supplies; the remaining power sequencing condition is obtained by sequencing the remaining power of all the mobile power supplies from high to low;

screening the mobile power supplies with the residual electric quantity sequenced before the preset ranking from all the mobile power supplies according to the residual electric quantity sequencing conditions of all the mobile power supplies, and taking the mobile power supplies as target mobile power supplies to be charged;

The mobile power supplies with the residual electric quantity sequenced before the preset ranking are screened from all the mobile power supplies, and after the mobile power supplies are used as target mobile power supplies needing to be charged, the method further comprises the following steps:

judging whether a mobile power supply matched with a certain user needs to be charged in the current time period, when the judging result is yes, replacing the target mobile power supply with the lowest electric quantity in all the target mobile power supplies to be charged with the mobile power supply matched with the certain user so as to update all the target mobile power supplies, and triggering and executing the operation of executing the preferential charging operation on all the target mobile power supplies according to the alternate charging instruction;

and executing preferential charging operation on all the target mobile power supplies according to the alternate charging instruction, wherein the preferential charging operation comprises the following steps:

determining charging electricity matched with the rapid charging mode according to the rapid charging mode;

performing a priority charging operation on all of the target mobile power sources based on the charging electricity;

wherein the intelligent charging cabinet includes the fast charging mode and a low-speed charging mode; different charging modes correspond to different charging electric, and the charging electric comprises a charging current or a charging voltage; the fast charge mode includes a plurality of sub-fast charge modes, and the low-speed charge mode includes a plurality of sub-low-speed charge modes;

The method further comprises the steps of:

counting mobile power supply charging data corresponding to the intelligent charging cabinet;

generating a charging rule for the mobile power supply in the intelligent charging cabinet according to the counted mobile power supply charging data, and storing the charging rule; the charging rule is used for executing charging operation on the mobile power supply subsequently;

the method further comprises the steps of:

in the process of executing alternate charging operation on the mobile power supplies in the intelligent charging cabinet according to the alternate charging instruction, acquiring the current and the value of the charging current of each mobile power supply in a charging state, and acquiring the total current acquired by a total current sensor of the intelligent charging cabinet;

judging whether the current difference value between the current sum value and the total current is larger than or equal to a determined current value threshold value, and calculating the difference value between the current difference value and the current value threshold value when the current difference value is larger than or equal to the current value threshold value;

determining the number of the charging paths to be closed according to the difference value between the current difference value and the current value threshold value;

and screening out the mobile power supplies with the number of the charging paths from all the mobile power supplies in the charging state in the intelligent charging cabinet, and stopping performing charging operation on the mobile power supplies with the number of the charging paths.

2. The method according to claim 1, wherein after the performing of the preferential charging operation on all the target mobile power sources according to the alternate charging instruction, the method further comprises:

3. The charging control method of a portable power source according to claim 1 or 2, characterized in that the method further comprises:

4. The method for controlling charging of a mobile power supply according to claim 3, wherein the performing the alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the quantity change condition and the alternate charging instruction includes:

5. A method of charging control of a mobile power supply according to claim 1, 2 or 3, characterized in that the method further comprises:

6. A charging control device for a mobile power supply, the device comprising:

the first charging module is used for executing alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction;

the method for the first charging module to execute the alternate charging operation on the mobile power supply in the intelligent charging cabinet according to the alternate charging instruction specifically includes:

the method for selecting all target mobile power sources needing to be charged in priority from all the mobile power sources in the intelligent charging cabinet by the first charging module according to the alternate charging instruction specifically comprises the following steps:

the device is also for:

screening the mobile power supplies with the residual electric quantity sequenced before the preset ranking from all the mobile power supplies by the first charging module, judging whether a mobile power supply matched with a certain user needs to be charged in the current time period after the mobile power supplies are used as target mobile power supplies needing to be charged, replacing the target mobile power supply with the lowest electric quantity in all the target mobile power supplies needing to be charged by the mobile power supplies matched with the certain user when the judgment result is yes, updating all the target mobile power supplies, and triggering and executing the operation of executing the priority charging operation on all the target mobile power supplies according to the alternate charging instruction;

The first charging module performs the preferential charging operation on all the target mobile power sources according to the alternate charging instruction specifically includes:

the device is also for:

The device is also for:

in the process that the first charging module executes alternate charging operation on the mobile power supplies in the intelligent charging cabinet according to the alternate charging instruction, acquiring the current sum value of the charging current of each mobile power supply in a charging state, and acquiring the total current acquired by a total current sensor of the intelligent charging cabinet;

7. An intelligent charging cabinet for performing the charging control method of the mobile power supply according to any one of claims 1 to 5.

8. A charging control device for a mobile power supply, the device comprising:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the method of controlling charging of a mobile power supply according to any one of claims 1 to 5.