CN113346573A - Charging management method and device for mobile power supply charging cabinet and computer equipment - Google Patents

Abstract

The application relates to a charging management method and device for a mobile power supply charging cabinet, computer equipment and a storage medium. The method comprises the following steps: detecting the electric quantity value of each mobile power supply in the charging cabinet; setting the mobile power supply with the electric quantity value smaller than the over-low electric quantity threshold as a first charging priority; setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority; when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets which can be charged simultaneously, charging the M mobile power supplies with the first charging priority; and when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets capable of being charged simultaneously, and the number N of the mobile power supplies with the second priority is larger than or equal to M-L, charging the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority. By adopting the method, the mobile power supply can be more accurately controlled to be charged.

Description

Charging management method and device for mobile power supply charging cabinet and computer equipment

Technical Field

The application relates to the field of computer software, in particular to a charging management method and device for a mobile power supply charging cabinet, computer equipment and a storage medium.

Background

With the development of computer technology and economy, shared mobile power supply technology has emerged. The shared mobile power supply refers to charging rental equipment provided by an enterprise, a user can rent the mobile power supply by scanning a two-dimensional code on a screen of the equipment by using equipment such as a mobile phone and the like to deliver a deposit, and the deposit can be withdrawn and returned to an account at any time after the mobile power supply is successfully returned.

In the field of shared charging, the number of mobile power supplies in a charging cabinet is generally large, and based on cost consideration, a certain number of mobile power supplies can only be charged at the same time in the charging cabinet, rather than all the mobile power supplies.

However, the charging management method for the mobile power supply charging cabinet at present cannot accurately control the mobile power supply to charge.

Disclosure of Invention

In view of the above, it is necessary to provide a charging management method and apparatus for a mobile power supply charging cabinet, a computer device, and a storage medium, which can accurately control a mobile power supply to charge.

A charging management method for a mobile power supply charging cabinet, the method comprising:

detecting the electric quantity value of each mobile power supply in the charging cabinet;

setting the mobile power supply with the electric quantity value smaller than the over-low electric quantity threshold as a first charging priority;

setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority;

when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets which can be charged simultaneously, charging the M mobile power supplies with the first charging priority;

and when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets capable of being charged simultaneously, and the number N of the mobile power supplies with the second priority is larger than or equal to M-L, charging the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority.

A charging management device for a mobile power supply charging cabinet, the device comprising:

the electric quantity detection module is used for detecting the electric quantity value of each mobile power supply in the charging cabinet;

the setting module is used for setting the mobile power supply with the electric quantity value smaller than the low electric quantity threshold as a first charging priority;

the setting module is further used for setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority;

the charging module is used for charging the M mobile power supplies with the first charging priority when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets which can be charged simultaneously;

the charging module is further used for charging the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets capable of being charged simultaneously and the number N of the mobile power supplies with the second priority is larger than or equal to M-L.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the method described above when executing the computer program.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method.

According to the charging management method and device for the mobile power supply charging cabinet, the computer equipment and the storage medium, the electric quantity of each mobile power supply in the charging cabinet is detected; setting the mobile power supply with the electric quantity value smaller than the over-low electric quantity threshold as a first charging priority; setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority; when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets capable of charging simultaneously, the mobile power supplies with the M first charging priorities are charged preferentially, the problem that the mobile power supplies cannot be subjected to data detection due to too low electric quantity of the mobile power supplies is avoided, and the mobile power supplies can be controlled to be charged accurately. When the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies with the second priority is larger than or equal to M-L, the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority are charged, the mobile power supplies with the low electric quantity are charged preferentially, and the charging resources in the charging cabinets are utilized to the maximum extent, so that the mobile power supplies can be accurately controlled to be charged.

Drawings

Fig. 1 is an application environment diagram of a charging management method for a mobile power supply charging cabinet in an embodiment;

fig. 2 is a schematic flowchart of a charging management method for a charging cabinet of a mobile power supply in an embodiment;

fig. 3 is a schematic flowchart of a charging management method for a charging cabinet of a mobile power supply in another embodiment;

fig. 4 is a schematic flowchart of a charging management method for a charging cabinet of a mobile power supply in another embodiment;

FIG. 5 is a block diagram of a charging management device of a charging cabinet of a mobile power supply according to an embodiment;

FIG. 6 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The charging management method for the mobile power supply charging cabinet can be applied to the application environment shown in fig. 1. The charging cabinet 102 includes a memory, a controller, and a charging module; the memory is used for storing data of each mobile power supply, such as the electric quantity value of the mobile power supply, the identification of the mobile power supply and the like; the controller is used for controlling whether the mobile power supply is charged or not, controlling the mobile power supply to move out of the charging cabinet and the like; the charging module is used for charging the mobile power supply. The charging cabinet may charge one or more mobile power sources 104.

In an embodiment, as shown in fig. 2, a charging management method for a charging cabinet of a mobile power supply is provided, and this embodiment is exemplified by applying the method to the charging cabinet. In this embodiment, the method includes the steps of:

step 202, detecting the electric quantity value of each mobile power supply in the charging cabinet.

The charging cabinet is a device for charging the mobile power supply. The portable power source is a portable charger which can be carried around and can store electric energy. For example, the mobile power source may be a power bank. Before the mobile power supply is charged or when a new mobile power supply is detected to return to the charging cabinet, the electric quantity value of the mobile power supply is detected and recorded.

Step 204, the mobile power supply with the electric quantity value smaller than the low electric quantity threshold is set as a first charging priority.

An excessively low power threshold is a threshold of excessively low power. The too low power threshold may be set as desired. When the electric quantity value of the mobile power supply is smaller than the low electric quantity threshold value, the electric quantity value of the mobile power supply is low, and the mobile power supply has the risk that the electric quantity value is 0; based on cost consideration, the condition that the electric quantity is too low is not considered in the current mobile power supply hardware design, and the electric quantity value of the mobile power supply is 0, so that the mobile power supply cannot be identified by a charging cabinet, and further the leasing and returning of the mobile power supply are failed, and the use of a user is influenced. The first charging priority is a priority of the mobile power supply having a charge value less than a too low charge threshold.

After detecting the electric quantity value of each mobile power supply, the charging cabinet compares the electric quantity value of each mobile power supply with the excessively low electric quantity threshold value respectively, screens out the mobile power supplies with the electric quantity values smaller than the excessively low electric quantity threshold value, and sets the priority of the screened mobile power supplies as a first charging priority.

In step 206, the mobile power source with the electric quantity value greater than or equal to the low electric quantity threshold and less than the loaned electric quantity threshold is set as the second charging priority.

The loanable power threshold refers to a power threshold that the mobile power supply can borrow. The loanable power threshold may be set as desired. When the electric quantity value of the mobile power supply is smaller than the loanable electric quantity threshold value, the mobile power supply cannot be loaned; when the electric quantity value of the mobile power supply is larger than or equal to the loanable electric quantity threshold value, the mobile power supply can loan.

The loaned power threshold is greater than the too low power threshold. For example, the loaned power threshold is 75% and the low power threshold is 10%.

After detecting the electric quantity value of each mobile power supply, the charging cabinet compares the electric quantity value of each mobile power supply with the low electric quantity threshold value and the loanable electric quantity threshold value respectively, screens out the mobile power supplies of which the electric quantity value is greater than or equal to the low electric quantity threshold value and is less than the loanable electric quantity threshold value, and sets the priority of the screened mobile power supplies as a second charging priority.

And step 208, when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets which can be charged simultaneously, charging the M mobile power supplies with the first charging priority.

The number M of the charging cabinets which can be charged simultaneously is the number of the mobile power supplies which can be charged simultaneously in the charging cabinets. The number M of the charging cabinets which can be charged simultaneously can be set according to the requirement. For example, the number of charging cabinets that can be charged simultaneously M may be 10.

The charging cabinet counts the number L of the mobile power supplies with the first charging priority, compares the number L with the number M of the charging cabinets capable of being charged simultaneously, and screens M mobile power supplies with the first charging priority from the L mobile power supplies with the first charging priority for charging when the number L is larger than or equal to M.

And step 210, when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets charged simultaneously, and the number N of the mobile power supplies with the second priority is larger than or equal to M-L, charging the mobile power supplies with the L first charging priorities and the mobile power supplies with the M-L second charging priorities.

When L < M, the charging cabinet is enough to support the simultaneous charging of all the mobile power supplies with the first charging priority, the charging capacity of the charging cabinet is surplus, and in order to fully utilize the charging capacity of the charging cabinet, the mobile power supplies with the electric quantity value larger than or equal to the loaned electric quantity threshold value are supplemented for charging.

And counting the mobile power supplies N with the second charging priority by the charging cabinet, screening M-L mobile power supplies with the second charging priority from the mobile power supplies with the second priority when the N is larger than or equal to M-L, and charging the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority, so that the charging cabinet can run at full load.

In this embodiment, the electric quantity of each mobile power supply in the charging cabinet is detected; setting the mobile power supply with the electric quantity value smaller than the over-low electric quantity threshold as a first charging priority; setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority; when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets capable of charging simultaneously, the mobile power supplies with the M first charging priorities are charged preferentially, the problem that the mobile power supplies cannot be subjected to data detection due to too low electric quantity of the mobile power supplies is avoided, and the mobile power supplies can be controlled to be charged accurately. When the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies with the second priority is larger than or equal to M-L, the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority are charged, the mobile power supplies with the low electric quantity are charged preferentially, and the charging resources in the charging cabinets are utilized to the maximum extent, so that the mobile power supplies can be accurately controlled to be charged.

In one embodiment, a charging method for charging M mobile power sources with a first charging priority includes: sequencing the mobile power supplies with the first charging priority according to the magnitude of the electric quantity value to form a first sub-charging sequence; in the first sub-charging sequence, the M mobile power supplies are selected to be charged according to the sequence of the electric quantity values from small to large.

The first sub-charging sequence is a sequence formed by sorting the mobile power supplies of the first charging priority by the magnitude of the electric quantity.

In this embodiment, the charging cabinet selects M mobile power supplies to charge according to the sequence of the electric quantity values from small to large in the first sub-charging sequence, so that the fault caused by the excessively low electric quantity value of the mobile power supply can be avoided.

In one embodiment, when the number L of the mobile power supplies of the first charging priority is less than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies of the second priority is greater than or equal to M-L, the method further includes: sequencing the mobile power supplies with the second charging priority according to the electric quantity value to form a second sub-charging sequence; in the second sub-charging sequence, M-L mobile power supplies are selected according to the sequence of the electric quantity values from large to small.

The second sub-charging sequence is a sequence formed by sorting the mobile power supplies of the second charging priority according to the magnitude of the electric quantity. It can be understood that the more quickly the mobile power sources closer to the loanable power amount threshold recover to the loanable state, the mobile power sources are preferentially charged, which is beneficial to improving the circulation efficiency of the mobile power sources.

In this embodiment, the charging rack selects M-L mobile power sources to charge according to the order of the electric quantity value from large to small in the second sub-charging sequence, so that the electric quantity value of the mobile power source can reach the loaning electric quantity threshold value more quickly, and thus the mobile power source can be loaned out, and the enterprise income is guaranteed.

In one embodiment, as shown in fig. 3, the method further comprises:

step 302, the mobile power source with the electric quantity value greater than or equal to the loaned electric quantity threshold and less than the sufficient electric quantity threshold is set as the third charging priority.

A sufficient charge threshold refers to a threshold for a sufficient charge. The sufficient charge threshold may be set as desired. The sufficient charge threshold is greater than the loanable charge threshold. For example, the sufficient charge threshold is 90%.

After detecting the electric quantity value of each mobile power supply, the charging cabinet compares the electric quantity value of each mobile power supply with the borrowable electric quantity threshold and the sufficient electric quantity threshold respectively, screens out the mobile power supplies of which the electric quantity value is greater than or equal to the borrowable electric quantity threshold and is less than the sufficient electric quantity threshold, and sets the priority of the screened mobile power supplies as a third charging priority.

And step 304, when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies with the second priority is smaller than M-L, counting the number K of the mobile power supplies with the third charging priority.

And step 306, when the mobile power supply K with the third charging priority is larger than or equal to M-L-N, charging the L mobile power supplies with the first charging priority, the N mobile power supplies with the second charging priority and the M-L-N mobile power supplies with the third charging priority.

When the mobile power supply K with the third charging priority is larger than or equal to M-L-N, the charging cabinet screens M-L-N mobile power supplies with third charging priorities from the K mobile power supplies with third charging priorities, and the L mobile power supplies with the first charging priorities, the N mobile power supplies with the second charging priorities and the M-L-N mobile power supplies with the third charging priorities are charged.

In general, after the mobile power source is fully charged, that is, the power reaches 100%, the power is inevitably consumed over time or after the user rents the mobile power source. However, the service life of the mobile power supply is limited, and if the power of the mobile power supply is lower than 100%, the power of the mobile power supply is replenished, which is very unfavorable for prolonging the service life of the mobile power supply. Therefore, the sufficient electric quantity threshold value is set in the embodiment, and is used for judging whether the mobile power supply needs to supplement the electric quantity or not, the mobile power supply needing to supplement the electric quantity is set only under the sufficient electric quantity threshold value, and therefore charging accuracy can be improved, and the service life of the mobile power supply can be prolonged.

In this embodiment, when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies with the second priority is smaller than M-L, the mobile power supplies K with the third charging priority are counted, and when the number K of the mobile power supplies with the third charging priority is larger than or equal to M-L-N, the L mobile power supplies with the first charging priority, the N mobile power supplies with the second charging priority, and the M-L-N mobile power supplies with the third charging priority are charged, so that the charging resources in the charging cabinets can be utilized to the maximum extent, and the utilization rate of the charging resources in the charging cabinets is improved.

In one embodiment, when the mobile power supply K of the third charging priority is greater than or equal to M-L-N, the method further comprises the following steps: sequencing the mobile power supplies with the third charging priority according to the electric quantity value to form a third sub-charging sequence; in the third sub-charging sequence, M-L-N mobile power supplies are selected according to the sequence of the electric quantity values from small to large.

The third sub-charging sequence is a sequence formed by sorting the mobile power supplies of the third charging priority by the magnitude of the electric quantity.

In this embodiment, in the third sub-charging sequence, the charging rack selects M-L-N mobile power sources for charging according to the order of the electric quantity values from small to large, so as to prevent the electric quantity values of the mobile power sources in the third sub-charging sequence from decreasing below the loanable electric quantity threshold, and keep the electric quantity values of the mobile power sources in the third sub-charging sequence to be greater than the loanable electric quantity threshold.

In one embodiment, the priority degrees of the first charging priority, the second charging priority and the third charging priority are sequentially decreased; detect each portable power source's in the cabinet that charges electric quantity value, include: detecting the electric quantity value of each mobile power supply in the charging cabinet in real time; the method further comprises the following steps: and charging the mobile power supplies in real time according to the sequence of the priority degrees of the charging priorities of the mobile power supplies in the charging cabinet from high to low.

The charging cabinet detects the electric quantity value of each mobile power supply in real time, the charging priority of the mobile power supply can be determined according to the electric quantity value of the mobile power supply, and the charging priority of the mobile power supply belongs to one of a first charging priority, a second charging priority and a third charging priority; and charging the mobile power supplies in real time according to the sequence of the priority degree of the charging priority of each mobile power supply from high to low.

In this embodiment, the charging rack charges each portable power source in real time according to the priority degree from high to low of the charging priority of each portable power source, and can preferentially ensure that the portable power source with higher charging priority is charged, thereby improving the charging accuracy.

In one embodiment, the charging of the mobile power supplies in real time is performed according to the priority of the charging priority of the mobile power supplies in the charging cabinet from high to low, and the charging method includes: when the electric quantity value of the mobile power supply with the first charging priority is charged to the low electric quantity threshold, or the electric quantity value of the mobile power supply with the second charging priority is charged to the loaned electric quantity threshold, or the electric quantity value of the mobile power supply with the third charging priority is charged to the sufficient electric quantity threshold, the mobile power supply charged to the low electric quantity threshold, or the mobile power supply charged to the loaned electric quantity threshold, or the mobile power supply charged to the sufficient electric quantity threshold is used as the mobile power supply to be replaced; according to the charging priority of each mobile power supply to be replaced and each mobile power supply in the uncharged state, selecting a first mobile power supply with the highest charging priority from each mobile power supply to be replaced and each mobile power supply in the uncharged state, replacing the mobile power supply to be replaced with the first mobile power supply, and charging the first mobile power supply.

The first portable power source is the portable power source with the highest charging priority in the portable power sources to be replaced and in the uncharged state.

It is understood that, if the charge value of the mobile power source with the first charging priority is charged to the low charge threshold, the charge value of the mobile power source is greater than or equal to the low charge threshold and less than the loaned charge threshold, and the charging priority of the mobile power source is updated to the second charging priority with the lower charging priority.

Similarly, if the charge value of the mobile power source with the second charging priority is charged to the loaned charge threshold, the charge value of the mobile power source is greater than or equal to the loaned charge threshold and less than the sufficient charge threshold, and the charging priority of the mobile power source is updated to a third charging priority with a lower charging priority. The electric quantity value of the mobile power supply with the third charging priority is charged to the sufficient electric quantity threshold, which indicates that the electric quantity value of the mobile power supply is relatively sufficient and the charging is not required to be continued. The charging cabinet can set the mobile power supply with the electric quantity value larger than or equal to the sufficient electric quantity threshold as a fourth charging priority; the priority degree of the fourth charging priority is lower than the priority degree of the third charging priority.

The charging cabinet takes the mobile power supply charged to the low electric quantity threshold value, or the mobile power supply charged to the loaning electric quantity threshold value, or the mobile power supply charged to the sufficient electric quantity threshold value as the mobile power supply to be replaced; according to the charging priority of each mobile power supply to be replaced and each mobile power supply in the uncharged state, selecting a first mobile power supply with the highest charging priority from each mobile power supply to be replaced and each mobile power supply in the uncharged state, replacing the mobile power supply to be replaced with the first mobile power supply, and charging the first mobile power supply.

In this embodiment, the charging cabinet selects the first mobile power supply with the highest charging priority from the mobile power supplies to be replaced, and replaces the mobile power supply to be replaced with the first mobile power supply, so that the charging of the mobile power supply with the highest charging priority in the charging cabinet can be kept in real time, and the charging accuracy is improved.

In one embodiment, according to the charging priorities of the mobile power supplies to be replaced and the mobile power supplies in the uncharged state, the first mobile power supply with the highest charging priority is selected from the mobile power supplies to be replaced and the mobile power supplies in the uncharged state, and the method comprises the following steps: when mobile power supplies with a first charging priority exist in the mobile power supplies to be replaced and in the uncharged state, selecting the mobile power supply with the lowest electric quantity from the mobile power supplies with the first charging priority and in the uncharged state as a first mobile power supply; when the mobile power supply with the first charging priority does not exist in the mobile power supplies to be replaced and in the uncharged state and the mobile power supply with the second charging priority exists, the mobile power supply with the highest electric quantity is selected as the first mobile power supply from the mobile power supplies with the second charging priority and in the uncharged state.

When the mobile power supplies to be replaced and the mobile power supplies in the uncharged state have the first charging priority, the mobile power supply with the lowest electric quantity is selected from the mobile power supplies in the uncharged state and the first charging priority has the highest priority, so that the fault caused by the fact that the electric quantity value of the mobile power supply with the lowest electric quantity is 0 is avoided, and the charging accuracy is improved.

When the mobile power supplies to be replaced and the mobile power supplies in the uncharged state do not have the mobile power supply with the first charging priority and the mobile power supply with the second charging priority exists, the mobile power supply with the second charging priority is the mobile power supply with the highest charging priority in the mobile power supplies to be replaced and the mobile power supplies in the uncharged state, the mobile power supply with the highest electric quantity is selected from the mobile power supplies in the second charging priority and the uncharged state as the first mobile power supply, and the electric quantity value of the mobile power supply with the second charging priority can be charged to the loanable electric quantity threshold value as soon as possible, so that the mobile power supply can enter the loanable state in time, the loaning rate of the mobile power supplies of the charging cabinet is improved, and the benefit of enterprises is guaranteed.

In one embodiment, the method further comprises: when detecting that a new mobile power supply is inserted into the charging cabinet, determining a second mobile power supply with the lowest charging priority from all mobile power supplies in a charging state; and replacing the second mobile power supply with the new mobile power supply, and charging the new mobile power supply.

The second portable power source is the portable power source with the lowest charging priority among the portable power sources in the charging state.

The user rents the mobile power supply from the charging cabinet for use, and after the use is completed, the mobile power supply is inserted into the charging cabinet and returned. When the charging cabinet detects that a new mobile power supply is inserted into the charging cabinet, a second mobile power supply with the lowest charging priority is determined from all the mobile power supplies in the charging state, the second mobile power supply is replaced by the new mobile power supply, and the new mobile power supply is charged.

It is understood that when a new mobile power source is inserted into the charging cabinet, the electric quantity value of the new mobile power source may be greater than 0 or equal to 0. When the electric quantity value of the mobile power supply is equal to 0, the charging cabinet cannot identify the mobile power supply, and the mobile power supply may fail due to long-term non-charging. Therefore, when a new mobile power supply is inserted into the charging cabinet, the new mobile power supply is replaced by the second mobile power supply with the lowest charging priority, the new mobile power supply is charged preferentially, the mobile power supply is prevented from being broken down, and the charging accuracy can be improved.

In one embodiment, the method further comprises: identifying a mobile power supply with the electric quantity value larger than or equal to the loanable electric quantity threshold as a loanable state, and identifying a mobile power supply with the electric quantity value smaller than the loanable electric quantity threshold as a non-loanable state; when a mobile power supply leasing request initiated by a user is received, the electric quantity of the mobile power supplies in the lendable state is sequenced, the lended mobile power supplies are determined from the sequenced mobile power supplies in the lendable state, and the lended mobile power supplies are controlled to move out of the charging cabinet.

And if the mobile power supply with the electric quantity value larger than or equal to the loanable electric quantity threshold value indicates that the electric quantity value of the mobile power supply is higher, and the mobile power supply with the electric quantity value larger than or equal to the loanable electric quantity threshold value can be loaned, the mobile power supply is identified as a loanable state. When the electric quantity value of the mobile power supply is charged from a value smaller than the loanable electric quantity threshold value to a loanable electric quantity threshold value, updating the mobile power supply identifier of the mobile power supply from a non-loanable state to a loanable state; and when the electric quantity value of the mobile power supply falls to be lower than the loanable electric quantity threshold from being larger than or equal to the loanable electric quantity threshold, updating the mobile power supply identifier of the mobile power supply from the loanable state to the non-loanable state.

When the charging cabinet receives a mobile power supply leasing request initiated by a user, the electric quantity of the mobile power supplies in the lendable state is sequenced, the lended mobile power supplies are determined from the sequenced mobile power supplies in the lendable state, and the lended mobile power supplies are controlled to move out of the charging cabinet. Optionally, the charging cabinet may select a mobile power supply with the highest electric quantity value from the sorted mobile power supplies in the loanable state as the loaned mobile power supply; the mobile power supplies with the highest electric quantity value may be selected as the lending mobile power supplies from the sorted lendable state mobile power supplies, or the mobile power supplies may be randomly selected as the lending mobile power supplies from the sorted lendable state mobile power supplies, but the present invention is not limited thereto.

In this embodiment, the charging cabinet identifies the mobile power supply with the electric quantity value greater than or equal to the threshold value of the loanable electric quantity as the loanable state, and when a mobile power supply lease request initiated by a user is received, the loanable mobile power supply is determined from the mobile power supply in the loanable state, and the loanable mobile power supply is controlled to move out of the charging cabinet, so that the mobile power supply with the electric quantity greater than or equal to the threshold value of the loanable electric quantity can be accurately moved out, and the charging requirement of the user is met.

In an embodiment, as shown in fig. 4, another charging management method for a charging rack of a mobile power supply is provided, which is applied to the charging rack, and is described by taking an example that an excessively low power threshold is 10%, a loanable power threshold is 75%, and a sufficient power threshold is 90%, and includes the following steps:

step 402: detecting the electric quantity value of each mobile power supply in the charging cabinet, and acquiring the quantity L of the mobile power supplies with the electric quantity value less than 10%.

Step 404: judging whether L is larger than or equal to M; when L is larger than or equal to M, executing step 406; when L < M, step 408 is performed. Wherein M is the number of charging cabinets that can be charged simultaneously.

Step 406: and sequencing the L mobile power supplies, and charging the M mobile power supplies according to the sequence of the electric quantity values from small to large.

Step 408: and acquiring the quantity N of the mobile power supplies with the electric quantity value more than or equal to 10% and less than 75%.

Step 410: judging whether N is larger than or equal to M-L; when N is greater than or equal to M-L, go to step 412; when N < M-L, step 414 is performed.

Step 412: the N mobile power supplies are sequenced, M-L mobile power supplies are selected according to the sequence of the electric quantity values from large to small, and the L mobile power supplies and the M-L mobile power supplies are charged.

Step 414: and acquiring the quantity K of the mobile power supplies with the electric quantity value more than or equal to 75% and less than 90%.

Step 416: the K mobile power supplies are sequenced, M-L-N mobile power supplies are selected according to the sequence of the electric quantity values from small to large, and the L mobile power supplies, the N mobile power supplies and the M-L-N mobile power supplies are charged.

It should be understood that, although the steps in the flowcharts of fig. 2 to 4 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2 to 4 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least some of the other steps or stages.

In one embodiment, as shown in fig. 5, there is provided a charging management device for a mobile power supply charging cabinet, including: electric quantity detection module 502, setting module 504 and charging module 506, wherein:

and an electric quantity detection module 502, configured to detect an electric quantity value of each mobile power supply in the charging cabinet.

The setting module 504 is configured to set the mobile power source with the power value smaller than the low power threshold as the first charging priority.

The setting module 504 is further configured to set the mobile power source with the charge value greater than or equal to the low charge threshold and less than the loaned charge threshold as the second charging priority.

The charging module 506 is configured to charge the M mobile power sources with the first charging priority when the number L of the mobile power sources with the first charging priority is greater than or equal to the number M of the charging cabinets that can be charged simultaneously.

The charging module 506 is further configured to charge the L mobile power sources with the first charging priority and the M-L mobile power sources with the second charging priority when the number L of the mobile power sources with the first charging priority is smaller than the number M of the charging cabinets charged simultaneously and the number N of the mobile power sources with the second priority is greater than or equal to M-L.

The charging management device of the mobile power supply charging cabinet detects the electric quantity of each mobile power supply in the charging cabinet; setting the mobile power supply with the electric quantity value smaller than the over-low electric quantity threshold as a first charging priority; setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority; when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets capable of charging simultaneously, the mobile power supplies with the M first charging priorities are charged preferentially, the problem that the mobile power supplies cannot be subjected to data detection due to too low electric quantity of the mobile power supplies is avoided, and the mobile power supplies can be controlled to be charged accurately. When the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies with the second priority is larger than or equal to M-L, the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority are charged, the mobile power supplies with the low electric quantity are charged preferentially, and the charging resources in the charging cabinets are utilized to the maximum extent, so that the mobile power supplies can be accurately controlled to be charged.

In one embodiment, the charging module 506 is further configured to sort the mobile power sources with the first charging priority according to the magnitude of the electric quantity value, so as to form a first sub-charging sequence; in the first sub-charging sequence, the M mobile power supplies are selected to be charged according to the sequence of the electric quantity values from small to large.

In one embodiment, the device further comprises a selection module, when the number L of the mobile power supplies of the first charging priority is smaller than the number M of the charging cabinets charged simultaneously, and the number N of the mobile power supplies of the second priority is greater than or equal to M-L, the selection module is configured to sort the mobile power supplies of the second charging priority according to the magnitude of the electric quantity value to form a second sub-charging sequence; in the second sub-charging sequence, M-L mobile power supplies are selected according to the sequence of the electric quantity values from large to small.

In one embodiment, the charging module 506 is further configured to set the mobile power source with the electric quantity value greater than or equal to the loaned electric quantity threshold and less than the sufficient electric quantity threshold as the third charging priority; when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies with the second priority is smaller than M-L, counting the mobile power supplies K with the third charging priority; and when the mobile power supply K with the third charging priority is larger than or equal to M-L-N, charging the L mobile power supplies with the first charging priority, the N mobile power supplies with the second charging priority and the M-L-N mobile power supplies with the third charging priority.

In one embodiment, when the mobile power supply K of the third charging priority is greater than or equal to M-L-N, the selection module is further configured to sort the mobile power supplies of the third charging priority according to the magnitude of the electric quantity to form a third sub-charging sequence; in the third sub-charging sequence, M-L-N mobile power supplies are selected according to the sequence of the electric quantity values from small to large.

In one embodiment, the priority degrees of the first charging priority, the second charging priority and the third charging priority are sequentially decreased; the electric quantity detection module 502 is further configured to detect electric quantity values of the mobile power supplies in the charging cabinet in real time; the charging module 506 is further configured to charge the mobile power supplies in real time according to the priority of the charging priority of each mobile power supply in the charging cabinet from high to low.

In an embodiment, the charging module 506 is further configured to charge the mobile power source with the too low power threshold, or charge the mobile power source with the second charging priority to the loanable power threshold, or charge the mobile power source with the third charging priority to the sufficient power threshold, when the power value of the mobile power source with the first charging priority is charged to the too low power threshold, or charge the mobile power source with the third charging priority to the loanable power threshold, or charge the mobile power source with the sufficient power threshold as the mobile power source to be replaced; according to the charging priority of each mobile power supply to be replaced and each mobile power supply in the uncharged state, selecting a first mobile power supply with the highest charging priority from each mobile power supply to be replaced and each mobile power supply in the uncharged state, replacing the mobile power supply to be replaced with the first mobile power supply, and charging the first mobile power supply.

In one embodiment, the charging module 506 is further configured to, when there is a mobile power source with a first charging priority in the mobile power sources to be replaced and in the uncharged state, select a mobile power source with a lowest electric quantity from the mobile power sources with the first charging priority and in the uncharged state as the first mobile power source; when the mobile power supply with the first charging priority does not exist in the mobile power supplies to be replaced and in the uncharged state and the mobile power supply with the second charging priority exists, the mobile power supply with the highest electric quantity is selected as the first mobile power supply from the mobile power supplies with the second charging priority and in the uncharged state.

In one embodiment, the charging module 506 is further configured to determine a second mobile power source with the lowest charging priority from the mobile power sources in the charging state when it is detected that a new mobile power source is inserted into the charging cabinet; and replacing the second mobile power supply with the new mobile power supply, and charging the new mobile power supply.

In one embodiment, the apparatus further includes a move-out module, configured to identify a mobile power source with a power value greater than or equal to the loanable power threshold as a loanable state, and identify a mobile power source with a power value less than the loanable power threshold as a non-loanable state; when a mobile power supply leasing request initiated by a user is received, the electric quantity of the mobile power supplies in the lendable state is sequenced, the lended mobile power supplies are determined from the sequenced mobile power supplies in the lendable state, and the lended mobile power supplies are controlled to move out of the charging cabinet.

For specific limitations of the charging management device of the mobile power supply charging cabinet, reference may be made to the above limitations of the charging management method of the mobile power supply charging cabinet, and details are not described herein again. All or part of each module in the charging management device of the mobile power supply charging cabinet can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a charging cabinet, the internal structure of which may be as shown in fig. 6. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to realize a charging management method of the mobile power supply charging cabinet. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is further provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the steps of the above method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (13)

1. A charging management method for a charging cabinet of a mobile power supply is characterized by comprising the following steps:

detecting the electric quantity value of each mobile power supply in the charging cabinet;

setting the mobile power supply with the electric quantity value smaller than the over-low electric quantity threshold as a first charging priority;

setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority;

when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets which can be charged simultaneously, charging the M mobile power supplies with the first charging priority;

and when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets capable of being charged simultaneously, and the number N of the mobile power supplies with the second priority is larger than or equal to M-L, charging the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority.

2. The charging management method according to claim 1, wherein the charging method for charging the M mobile power sources with the first charging priority includes:

sequencing the mobile power supplies with the first charging priority according to the magnitude of the electric quantity value to form a first sub-charging sequence;

in the first sub-charging sequence, M mobile power supplies are selected to be charged according to the sequence of the electric quantity values from small to large.

3. The method of claim 1, wherein when the number L of mobile power supplies of the first charging priority is less than the number M of charging cabinets that can be charged simultaneously, and the number N of mobile power supplies of the second priority is greater than or equal to M-L, the method further comprises:

sequencing the mobile power supplies with the second charging priority according to the electric quantity value to form a second sub-charging sequence;

and in the second sub-charging sequence, M-L mobile power supplies are selected according to the sequence of the electric quantity values from large to small.

4. The method of claim 1, further comprising:

setting the mobile power supply with the electric quantity value larger than or equal to the loaned electric quantity threshold and smaller than the sufficient electric quantity threshold as a third charging priority;

when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets which can be charged simultaneously, and the number N of the mobile power supplies with the second priority is smaller than M-L, counting the mobile power supplies K with the third charging priority;

and when the mobile power supply K with the third charging priority is larger than or equal to M-L-N, charging the L mobile power supplies with the first charging priority, the N mobile power supplies with the second charging priority and the M-L-N mobile power supplies with the third charging priority.

5. The method of claim 4, wherein when the mobile power source K ≧ M-L-N of the third charging priority, the method further comprises:

sequencing the mobile power supplies with the third charging priority according to the electric quantity value to form a third sub-charging sequence;

and in the third sub-charging sequence, selecting M-L-N mobile power supplies according to the sequence of the electric quantity values from small to large.

6. The method of claim 4, wherein the first, second, and third charging priorities are sequentially lower in priority; detect each portable power source's in the cabinet that charges electric quantity value, include:

detecting the electric quantity value of each mobile power supply in the charging cabinet in real time;

the method further comprises the following steps:

and charging the mobile power supplies in real time according to the sequence from high priority to low priority of the charging priority of the mobile power supplies in the charging cabinet.

7. The method according to claim 6, wherein the charging the mobile power supplies in real time according to the priority of the charging priority of the mobile power supplies in the charging cabinet from high to low comprises:

when the electric quantity value of the mobile power supply with the first charging priority is charged to the low electric quantity threshold, or the electric quantity value of the mobile power supply with the second charging priority is charged to the loanable electric quantity threshold, or the electric quantity value of the mobile power supply with the third charging priority is charged to the sufficient electric quantity threshold, the mobile power supply charged to the low electric quantity threshold, or the mobile power supply charged to the loanable electric quantity threshold, or the mobile power supply charged to the sufficient electric quantity threshold is used as a mobile power supply to be replaced;

according to the charging priority of each mobile power supply to be replaced and each mobile power supply in the uncharged state, selecting a first mobile power supply with the highest charging priority from each mobile power supply to be replaced and each mobile power supply in the uncharged state, replacing the mobile power supply to be replaced with the first mobile power supply, and charging the first mobile power supply.

8. The method according to claim 7, wherein the selecting a first mobile power supply with a highest charging priority from the mobile power supplies to be replaced and in the uncharged state according to the charging priority of each mobile power supply to be replaced and in the uncharged state comprises:

when the mobile power supply with the first charging priority exists in the mobile power supplies to be replaced and in the uncharged state, selecting the mobile power supply with the lowest electric quantity from the mobile power supplies with the first charging priority and in the uncharged state as a first mobile power supply;

and when the mobile power supply with the first charging priority does not exist in the mobile power supplies to be replaced and in the uncharged state and the mobile power supply with the second charging priority exists, selecting the mobile power supply with the highest electric quantity from the mobile power supplies with the second charging priority and in the uncharged state as the first mobile power supply.

9. The method of claim 6, further comprising:

when detecting that a new mobile power supply is inserted into the charging cabinet, determining a second mobile power supply with the lowest charging priority from all mobile power supplies in a charging state;

and replacing the second mobile power supply with the new mobile power supply, and charging the new mobile power supply.

10. The method of claim 1, further comprising:

identifying a mobile power supply with a power value greater than or equal to the loanable power amount threshold as a loanable state, and identifying a mobile power supply with a power value less than the loanable power amount threshold as a non-loanable state;

when a mobile power supply leasing request initiated by a user is received, sequencing the electric quantity of the mobile power supplies in the lendable state, determining a lended mobile power supply from the sequenced mobile power supplies in the lendable state, and controlling the lended mobile power supply to move out of the charging cabinet.

11. A charging management device of a mobile power supply charging cabinet is characterized by comprising:

the electric quantity detection module is used for detecting the electric quantity value of each mobile power supply in the charging cabinet;

the setting module is used for setting the mobile power supply with the electric quantity value smaller than the low electric quantity threshold as a first charging priority;

the setting module is further used for setting the mobile power supply with the electric quantity value larger than or equal to the low electric quantity threshold value and smaller than the loaned electric quantity threshold value as a second charging priority;

the charging module is used for charging the M mobile power supplies with the first charging priority when the number L of the mobile power supplies with the first charging priority is larger than or equal to the number M of the charging cabinets which can be charged simultaneously;

the charging module is further used for charging the L mobile power supplies with the first charging priority and the M-L mobile power supplies with the second charging priority when the number L of the mobile power supplies with the first charging priority is smaller than the number M of the charging cabinets capable of being charged simultaneously and the number N of the mobile power supplies with the second priority is larger than or equal to M-L.

12. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor realizes the steps of the method of any one of claims 1 to 10 when executing the computer program.

13. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 10.

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