CN115240326B - Management method and system for sharing mobile power supply - Google Patents

Abstract

The application relates to a management method and a system for sharing a mobile power supply, wherein the method comprises the following steps: acquiring the borrowing duration theory use duration of the mobile power supply; judging whether the borrowing time length is longer than the theoretical use time length; if the borrowing time length is longer than the theoretical use time length, acquiring out-of-period expense for returning the mobile power supply; acquiring price adjustment factors, wherein the price adjustment factors comprise weather conditions and power supply electric quantity; and reducing the out-of-date expense of the mobile power supply based on the price adjustment factors. The method and the device have the effects of guaranteeing leasing experience of leasers as much as possible and improving leasing frequency of the mobile power supply.

Description

Management method and system for sharing mobile power supply

Technical Field

The present disclosure relates to the field of shared mobile power sources, and in particular, to a method and a system for managing a shared mobile power source.

Background

With the development of economy and the progress of science and technology, mobile power supplies are also becoming popular with the masses. In order to facilitate the use of people and increase the income of merchants, many merchants currently provide leasing services of mobile power supplies.

At present, during the renting process of the mobile power supply, the return time is over-run due to various reasons, and the renting cost of the mobile power supply is increased along with the longer over-run time. As rental fees rise, poor rental experience is provided to renters, which severely reduces the rental frequency of the mobile power supply.

Disclosure of Invention

In order to ensure leasing experience of leasers as much as possible and improve leasing frequency of a mobile power supply, the application provides a management method and system for sharing the mobile power supply.

In a first aspect, the present application provides a method for managing a shared mobile power, which adopts the following technical scheme:

a method of managing a shared mobile power source, comprising:

obtaining borrowing time length and theoretical use time length of a mobile power supply;

judging whether the borrowing duration is longer than the theoretical use duration;

if the borrowing time is longer than the theoretical use time, acquiring out-of-period expense for returning the mobile power supply;

acquiring price adjustment factors, wherein the price adjustment factors comprise weather conditions and power supply electric quantity;

and reducing the out-of-date expense of the mobile power supply based on the price adjustment factor.

By adopting the technical scheme, when the borrowing time is longer than the theoretical use time, the out-of-date expense is adjusted and reduced according to the weather condition and the power supply electric quantity, namely the price adjustment factor. The method and the system can adjust the out-of-date expense of leasing the mobile power supply, so that leasing experience of a leaser can be guaranteed as much as possible, and leasing frequency of the mobile power supply is improved.

Preferably, the reducing the overhead cost of the mobile power supply based on the price adjustment factor includes:

judging whether the charging station of the mobile power supply is abnormal or not based on the weather conditions;

if the charging station is abnormal, the out-of-period cost is reduced;

if the charging station is not abnormal, acquiring the power supply electric quantity when the mobile power supply is restored, and taking the power supply electric quantity as a restored electric quantity;

judging whether the return electric quantity is larger than or equal to a preset electric quantity or not;

if the return electric quantity is larger than or equal to the preset electric quantity, the out-of-date expense is reduced;

and if the return electric quantity is smaller than the preset electric quantity, maintaining the overtime expense unchanged.

By adopting the technical scheme, whether the charging station is abnormal or not is judged according to the weather conditions, and the out-of-date expense is reduced when the charging station is abnormal. And then judging whether the returned electric quantity is larger than or equal to the preset electric quantity when the charging station is abnormal, and further determining whether the super expense is reduced. According to whether the charging station is normal or not and whether the return electric quantity meets the preset electric quantity or not, the accuracy of judging whether the out-of-date expense is reduced or not can be improved.

Preferably, the reducing the overtime cost if the charging station is abnormal includes:

when the charging station is abnormal, judging whether a standby power station exists in a preset range;

if not, reducing the out-of-date cost;

if so, judging whether the standby power station is affected by the weather conditions and abnormal;

if the standby power station is abnormal, the out-of-date expense is reduced;

and if the standby power station is not abnormal, maintaining the out-of-date expense unchanged.

Through adopting above-mentioned technical scheme, when the charging station takes place unusual, through judging whether there is the reserve power station in the scope of predetermineeing, judge again when there is the reserve power station whether take place unusual to further confirm whether the expense reduces in excess, and then improve the accuracy of judgement.

Preferably, if no abnormality occurs in the backup power station, the maintaining the overhead cost is unchanged, including:

when the standby power station is not abnormal, acquiring the return electric quantity;

judging whether the return electric quantity is larger than or equal to the preset electric quantity or not;

if the return electric quantity is larger than or equal to the preset electric quantity, the out-of-date expense is reduced;

and if the return electric quantity is smaller than the preset electric quantity, maintaining the overtime expense unchanged.

By adopting the technical scheme, when the standby power station returns to the mobile power supply, whether the out-of-date expense is reduced or not is determined by judging the return electric quantity and the preset electric quantity, and the judgment accuracy can be improved.

Preferably, obtaining the theoretical use time length includes:

acquiring the power supply electric quantity when the mobile power supply is leased, and taking the power supply electric quantity as a borrowed electric quantity;

acquiring a preset minimum power consumption speed;

acquiring the service time of the mobile power supply based on the borrowed electric quantity and the preset minimum power consumption speed;

and taking the using time as the theoretical using time length.

By adopting the technical scheme, the service time is determined and used as the theoretical service time through lending the electric quantity and the lowest power consumption speed, and the magnitude relation between the lending time and the theoretical service time can be judged according to different conditions.

Preferably, after the obtaining the power supply electric quantity at the time of the portable power source lease is used as the borrowed electric quantity, the method further includes:

if the borrowing duration is less than or equal to the theoretical use duration, obtaining the conventional cost of renting the mobile power supply;

acquiring the power supply electric quantity when the mobile power supply is returned as the residual electric quantity;

judging whether the residual electric quantity is larger than or equal to the borrowed electric quantity;

if the residual electric quantity is larger than or equal to the borrowed electric quantity, reducing the conventional cost;

and if the residual electric quantity is smaller than the borrowed electric quantity, maintaining the conventional expense unchanged.

By adopting the technical scheme, when the borrowing duration is less than or equal to the theoretical use duration, whether the conventional cost is reduced is determined by judging whether the residual electric quantity is greater than or equal to the borrowed electric quantity, so that the renting cost is saved conveniently, and the renting frequency of renters is improved.

Preferably, before the borrowing time length and the theoretical use time length of the obtained mobile power supply, the method further includes:

acquiring the charging time length of the mobile power supply;

acquiring the current electric quantity of the mobile power supply based on the charging time length;

acquiring theoretical electric quantity of the mobile power supply based on the charging time length;

acquiring an electric quantity difference value based on the current electric quantity and the theoretical electric quantity;

judging whether the electric quantity difference value is matched with a difference value threshold value or not;

and if the charging failure information is not matched, generating the charging failure information.

Through adopting above-mentioned technical scheme, when electric quantity difference and difference threshold mismatch, generate the trouble information that charges, make things convenient for relevant staff to inspect charging station and portable power source, guarantee charging station and portable power source's normal work as far as possible.

In a second aspect, the present application provides a management system for sharing a mobile power supply, which adopts the following technical scheme:

a management system for sharing a mobile power supply, comprising:

the time length acquisition module is used for acquiring borrowing time length and theoretical use time length of the mobile power supply;

the time length judging module is used for judging whether the borrowing time length is longer than the theoretical use time length;

the charge acquisition module is used for acquiring the out-of-date charge for returning the mobile power supply if the borrowing time is longer than the theoretical use time;

the factor acquisition module is used for acquiring price adjustment factors, wherein the price adjustment factors comprise weather conditions and power supply electric quantity;

and the expense adjustment module is used for reducing the out-of-date expense of the mobile power supply based on the price adjustment factors.

By adopting the technical scheme, the time length acquisition module acquires the borrowing time length and the theoretical use time length of the mobile power supply and sends the borrowing time length and the theoretical use time length to the time length judgment module connected with the borrowing time length and the theoretical use time length. And then the time length judging module judges whether the borrowing time length is larger than the theoretical use time length, and sends the judging result to the expense obtaining module connected with the borrowing time length judging module.

And when the borrowing time is longer than the theoretical use time, the expense acquisition module acquires the out-of-date expense for returning the mobile power supply. The factor acquisition module acquires price adjustment factors and sends the price adjustment factors to the expense adjustment module connected with the price adjustment factors, wherein the price adjustment factors comprise weather conditions and power supply electric quantity.

Finally, the expense adjustment module reduces the excessive expense of the mobile power supply according to the price adjustment factors, and further can adjust the excessive expense of the leased mobile power supply, so that leasing experience of a leaser can be ensured as much as possible, and the leasing frequency of the mobile power supply is improved.

Preferably, the fee adjustment module includes:

the state judging sub-module is used for judging whether the charging station of the mobile power supply is abnormal or not based on the weather conditions;

the charge adjustment sub-module is used for reducing the out-of-date charge if the charging station is abnormal;

the electric quantity acquisition sub-module is used for acquiring the electric quantity of the power supply when the mobile power supply is returned if the charging station is not abnormal, and the electric quantity is used as the returned electric quantity;

the electric quantity judging sub-module is used for judging whether the return electric quantity is larger than or equal to a preset electric quantity or not;

the expense adjustment sub-module is further used for reducing the out-of-date expense if the return electric quantity is greater than or equal to the preset electric quantity;

and the expense adjustment sub-module is further used for maintaining the out-of-date expense unchanged if the return electric quantity is smaller than the preset electric quantity.

By adopting the technical scheme, the state judging submodule judges whether the charging station of the mobile power supply is abnormal according to the weather condition, and sends the judging result to the charge adjusting submodule and the electric quantity obtaining submodule which are connected with the charge adjusting submodule. When the charging station is abnormal, the charge adjustment submodule reduces the out-of-date charge; when the charging station is not abnormal, the electric quantity acquisition sub-module acquires the electric quantity of the power supply when the mobile power supply is restored, and the electric quantity is used as the restored electric quantity and is sent to the electric quantity judgment sub-module connected with the electric quantity acquisition sub-module.

The electric quantity judging submodule judges whether the returned electric quantity is larger than or equal to the preset electric quantity or not and sends the electric quantity to the expense adjusting submodule connected with the electric quantity judging submodule. When the electric quantity of the angelica is larger than or equal to the preset electric quantity, the expense adjustment submodule reduces the out-of-date expense; when the electric quantity of the Chinese angelica is smaller than the preset electric quantity, the expense adjustment submodule maintains the overtime expense unchanged. Therefore, the accuracy of judging whether to reduce the out-of-date expense can be improved according to whether the charging station is normal or not and whether the return electric quantity meets the preset electric quantity or not.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the borrowing time is longer than the theoretical use time, the out-of-date expense is adjusted and reduced according to the weather condition and the power supply electric quantity, namely the price adjusting factor. The over-period expense of the leased mobile power supply can be adjusted, so that the leasing experience of a leaser can be ensured as much as possible, and the leasing frequency of the mobile power supply is improved;

2. the accuracy of judging whether to reduce the out-of-date expense can be improved according to whether the charging station is normal or not and whether the return electric quantity meets the preset electric quantity or not;

3. when the charging station is abnormal, whether the standby power station exists in the preset range or not is judged, and whether the standby power station is abnormal or not is judged when the standby power station exists, so that whether the out-of-date expense is reduced or not is further determined, and the judgment accuracy is improved.

Drawings

Fig. 1 is an overall flow schematic diagram of a management method of a shared mobile power supply according to an embodiment of the present application;

FIG. 2 is a flow chart of steps S11 to S16 in one embodiment of the present application;

FIG. 3 is a schematic flow chart of steps S21 to S25 in one embodiment of the present application;

FIG. 4 is a flow chart of steps S31 to S34 in one embodiment of the present application;

FIG. 5 is a flow chart of steps S41 to S44 in one embodiment of the present application;

FIG. 6 is a flow chart of steps S51 to S55 in one embodiment of the present application;

FIG. 7 is a flow chart of steps S61 to S66 in one embodiment of the present application;

fig. 8 is a block diagram of a management system for sharing a mobile power supply according to an embodiment of the present application.

Reference numerals illustrate:

1. a duration acquisition module; 2. a duration judging module; 3. a fee acquisition module; 4. a factor acquisition module; 5. a cost adjustment module; 51. a state judgment sub-module; 52. a fee adjustment sub-module; 53. an electric quantity acquisition sub-module; 54. and the electric quantity judging sub-module.

Detailed Description

The present application is described in further detail below in conjunction with figures 1 to 8.

The embodiment of the application discloses a management method for sharing a mobile power supply.

Referring to fig. 1, the management method of the shared mobile power source includes:

s1, acquiring borrowing time and theoretical use time of a mobile power supply;

s2, judging whether the borrowing duration is longer than the theoretical use duration;

s3, if the borrowing time is longer than the theoretical use time, acquiring out-of-period cost for returning the mobile power supply;

s4, acquiring price adjustment factors, wherein the price adjustment factors comprise weather conditions and power supply electric quantity;

s5, reducing the out-of-date expense of the mobile power supply based on the price adjustment factors.

The current mobile power supply is usually a small power supply, namely a mobile charging device, which is often called a mobile charging device, and the current mobile charging device can only charge some small electronic devices, such as mobile phones, tablet computers, mobile small fans and the like, and is very convenient to use due to the small size and portability. However, for some electrical devices with larger power, such as outdoor induction cookers, electric cookers, etc., mobile charging devices become impractical.

Therefore, the management method of the shared mobile power supply is suitable for the shared mobile power supply equipment which can supply power to larger electric equipment. The shared mobile power source has a charging station connected to the grid, and a mobile power source that can be charged using the charging station. The mobile power supply is provided with various charging interfaces, such as a delta-shaped charging interface, a contact type charging port and the like, and is also provided with various discharging interfaces, such as a delta-shaped discharging interface, a USB discharging interface and the like.

The portable power source can be placed in the charging station and charge through the charging end with contact type charging port adaptation, also can be through charging with the charging wire of the I-shaped interface adaptation of charging connection. There is corresponding two-dimensional code in the charging station, and the renter can open corresponding protection device, such as electronic lock, electro-magnet etc. through scanning two-dimensional code to can take out corresponding portable power source from the charging station, and then make things convenient for the renter to take and use.

The management method for the shared mobile power supply comprises the steps of firstly obtaining borrowing duration and theoretical using duration of the mobile power supply, wherein the borrowing duration can be obtained by a renter scanning and opening a protection device to take the mobile power supply out of a charging station, recording the current borrowing time by a management system, recording the current returning time by the management system when the renter returns the mobile power supply to the charging station, and subtracting the borrowing time from the returning time, wherein the obtained value is the borrowing duration. The theoretical use time is the longest use time that the corresponding mobile power supply can use.

Then judging whether the borrowing time length is longer than the theoretical use time length, namely judging whether the renter returns the mobile power supply in time after the electric quantity of the mobile power supply is used up, so that the mobile power supply can be charged in time, and the service life of the mobile power supply is prevented from being reduced as far as possible due to the fact that the mobile power supply is not conductive.

If the borrowing duration is less than or equal to the theoretical use duration, no other operation is needed; if the borrowing time length is longer than the theoretical use time length, the mobile power supply is proved not to be returned in time, and the out-of-time expense of the mobile power supply is acquired at the moment, the acquiring mode can be to acquire the current time and the theoretical mobile power supply return time, wherein the acquiring mode of the theoretical mobile power supply return time can be to borrow the time plus the longest use time, and the theoretical power supply return time can be obtained. Then subtracting the theoretical power return time from the current time to obtain the out-of-date time. And then acquiring corresponding out-of-date fees according to a preset out-of-date price schedule.

The overtime price schedule comprises an overtime price and a corresponding overtime time length, for example, the overtime price is 5 yuan when the overtime is 0 to 1 hour, the overtime price is 10 yuan when the overtime price is 1 to 2 hours, the overtime price is 2 to 3 hours, and the overtime price is 15 yuan. If the overtime period is 30 minutes, the overtime period is matched with 0 to 1 hour, so that the overtime price is 5 yuan, namely the overtime cost is 5 yuan.

However, the reason for the excessive period of the mobile power supply may be affected by weather, and even if the excessive period is exceeded, there may be a case where the renter charges the mobile power supply, and at this time, the excessive period cost may be adjusted to some extent.

Under the above circumstances, the price adjustment factors are obtained, wherein the price adjustment factors comprise weather conditions and power supply electric quantity, and finally the out-of-date expense of the mobile power supply is reduced according to the price adjustment factors, so that the out-of-date expense of the leased mobile power supply can be adjusted, the leasing experience of a leaser can be guaranteed as much as possible, the leaser can lease the mobile power supply with confidence, and the leasing frequency of the mobile power supply is improved.

Referring to fig. 2, further, in order to increase accuracy of the over-time fee adjustment as much as possible, in another embodiment, step S5, that is, reducing the over-time fee of the mobile power supply based on the price adjustment factor, includes:

s11, judging whether the charging station of the mobile power supply is abnormal or not based on weather conditions;

s12, if the charging station is abnormal, the out-of-period cost is reduced;

s13, if the charging station is not abnormal, acquiring the power supply electric quantity when the mobile power supply is restored, and taking the power supply electric quantity as the restored electric quantity;

s14, judging whether the return electric quantity is larger than or equal to a preset electric quantity;

s15, if the return electric quantity is larger than or equal to the preset electric quantity, reducing the out-of-date expense;

s16, if the return electric quantity is smaller than the preset electric quantity, maintaining the out-of-date expense unchanged.

Specifically, whether the charging station of the mobile power supply is abnormal or not is judged according to the weather condition, namely, the influence range of severe weather is obtained according to the weather condition, the weather condition can be obtained according to weather forecast, and the weather condition can be detected according to real-time weather monitoring equipment, wherein the severe weather comprises: hail, typhoon, heavy rain, etc. And judging whether the charging station of the mobile power supply is positioned in the influence range, if the charging station is positioned in the influence range, the charging station can not be normally used at the moment, namely, abnormality occurs, and if not, the charging station is normally proved.

If the charging station is abnormal, the mobile power supply cannot be returned normally, so that the time exceeding occurs, the time exceeding cost can be reduced, the reduced value can be set according to the requirement, for example, the fixed value can be reduced, the reduction can be carried out according to the fixed percentage, and the time exceeding cost can be completely eliminated.

If the charging station is not abnormal, the mobile power supply can be returned normally, but the mobile power supply is returned for a longer period, so that the power supply electric quantity of the mobile power supply is acquired when a renter returns the mobile power supply, the acquired electric quantity can be detected by an electric quantity detection device on the charging station and can be acquired by identifying the number displayed on an electric quantity display screen of the mobile power supply in a numerical identification mode.

And judging whether the return electric quantity is larger than or equal to the preset electric quantity, wherein the preset electric quantity is the lowest electric quantity which can be normally placed by the mobile power supply, and the preset electric quantity can be larger than the lowest electric quantity, namely the mobile power supply can be set according to actual conditions.

If the return electric quantity is larger than or equal to the preset electric quantity, the renter is proved to use less electricity, or the mobile power supply is charged, so that the normal service life of the mobile power supply is not influenced by the over-time, and the over-time expense is reduced at the moment.

If the return electric quantity is smaller than the preset electric quantity, the renter is proved to not carry out corresponding maintenance work on the mobile power supply, the mobile power supply is returned for an excessive time at the moment, and the excessive cost is not adjusted, namely, the excessive cost is maintained unchanged. Therefore, the method can more humanized manage the excessive cost, and further improve the accuracy of judging whether to reduce the excessive cost.

Referring to fig. 3, further, there are usually a plurality of charging stations, and when one charging station is abnormal, the mobile power source can be returned through the other charging stations, so in another embodiment, step S12 reduces the overhead cost if the charging station is abnormal, including:

s21, judging whether a standby power station exists in a preset range when the charging station is abnormal;

s22, if the special-purpose agent does not exist, the out-of-date expense is reduced;

s23, if so, judging whether the standby power station is affected by weather conditions and abnormal;

s24, if the standby power station is abnormal, the out-of-period cost is reduced;

s25, if the standby power station is not abnormal, maintaining the out-of-date expense unchanged.

Specifically, when an abnormality occurs in the charging station, that is, when an abnormality occurs in the charging station that borrows the mobile power supply used by the current renter, it is determined whether or not there is a backup power station within a preset range. The preset range is a range with the current charging station as a center and a preset length as a radius, and the preset length can be set arbitrarily, for example, 10 km, 15 km or 20 km. The obtaining mode can determine the respective positions through the charging station and the positioning system of the standby power station, then obtain the distance between the charging station and the standby power station, judge whether the distance is smaller than or equal to the preset length, if yes, prove that the standby power station is located in the preset range, otherwise, no standby power station exists in the preset range.

If the standby power station does not exist, the situation that the mobile power supply cannot be returned in time is proved when the charging station is abnormal, and the out-of-date cost is reduced. If the standby power station exists, judging whether the standby power station is affected by the weather condition and abnormal, namely judging whether the standby power station is located in the influence range of severe weather, wherein the judging mode can also be to obtain the influence range of the severe weather according to weather forecast, and then judging whether the position of the standby power station is located in the influence range of the severe weather. And if the standby power station is in the influence range, proving that the standby power station is abnormal, otherwise proving that the standby power station is not abnormal.

If the spare power station is abnormal, the spare power station can not be used normally, and the out-of-date cost can be reduced. If the standby power station is not abnormal, the standby power station is proved to be abnormal, and if the mobile power supply returns to be out of date, the out-of-date expense is maintained unchanged. Thereby, the accuracy of judging whether the out-of-date cost is reduced can be further improved.

Referring to fig. 4, further, if the renter has special circumstances and cannot timely return the mobile power supply, it can be considered whether the renter has related maintenance work on the mobile power supply. Therefore, step S25, i.e. if no abnormality occurs in the backup power station, maintains the overhead charge unchanged, includes:

s31, when no abnormality occurs in the standby power station, acquiring return electric quantity;

s32, judging whether the return electric quantity is larger than or equal to a preset electric quantity;

s33, if the return electric quantity is larger than or equal to the preset electric quantity, reducing the out-of-date expense;

s34, if the return electric quantity is smaller than the preset electric quantity, maintaining the out-of-date expense unchanged.

Specifically, when no abnormality occurs in the standby power station, the returned electric quantity is obtained, and then whether the returned electric quantity is larger than or equal to the preset electric quantity is judged, namely, whether the renter returns the mobile power supply to the standby power station or not is judged, and whether the mobile power supply is maintained.

If the return electric quantity is larger than or equal to the preset electric quantity, the renter is proved to maintain the mobile power supply, and the mobile power supply is proved not to have reduced normal service life due to the fact that the electric quantity is too low at the moment, so that the out-of-date expense is reduced at the moment.

If the return electric quantity is smaller than the preset electric quantity, the fact that the renter does not perform corresponding maintenance work when the mobile power supply returns in an exceeding period is proved, and the normal service life of the mobile power supply is reduced, so that the exceeding period expense is maintained unchanged, and the accuracy of exceeding period expense adjustment can be further improved.

Referring to fig. 5, further, in order to make different decisions for different mobile power sources, in another embodiment, obtaining the theoretical usage time length includes:

s41, acquiring the power supply electric quantity when the mobile power supply is leased, and taking the power supply electric quantity as a borrowed electric quantity;

s42, acquiring a preset minimum power consumption speed;

s43, acquiring the service time of the mobile power supply based on the borrowed electric quantity and a preset minimum power consumption speed;

s44, using the using time as a theoretical using time.

Specifically, the charging station acquires the power supply electric quantity of the mobile power supply in real time, and then when the renter rents the mobile power supply, the power supply electric quantity when the mobile power supply leaves the charging station is recorded as the borrowed electric quantity. Meanwhile, the preset minimum power consumption speed is obtained, wherein the preset minimum power consumption speed is pre-stored data and can be obtained by direct reading, for example, the power consumption speed of the most commonly used equipment such as a common mobile phone is taken as the minimum power consumption speed, and the power consumption speed can be the charging speed of other equipment.

And then the service time of the mobile power supply is obtained according to the borrowed electric quantity and the power consumption speed, namely, the borrowed electric quantity is divided by the preset minimum power consumption speed, the obtained value is the service time, and the service time is used as the theoretical service time length, so that the theoretical service time length of the mobile power supply can be updated in real time, and the real-time service time length is obtained more accurately.

Of course, in an implementation manner of the embodiment of the application, after the theoretical use time is obtained, the theoretical use time can be displayed on a display screen of the charging station, so that a renter can be prompted, the renter can better return time of the control mobile power supply, the mobile power supply is conveniently returned in time, and meanwhile, the normal service life of the mobile power supply is guaranteed as much as possible.

Referring to fig. 6, in order to further eliminate the consumption concern of the renter, to increase the enthusiasm of the renter for using the mobile power, in another embodiment, the method further includes, after obtaining the power supply amount at the time of renting the mobile power as the loan power amount in step S41:

s51, acquiring the conventional cost of leasing the mobile power supply;

s52, acquiring the power supply electric quantity when the mobile power supply is restored, and taking the power supply electric quantity as the residual electric quantity;

s53, judging whether the residual electric quantity is larger than or equal to the borrowed electric quantity;

s54, if the residual electric quantity is larger than or equal to the borrowed electric quantity, reducing the conventional cost;

and S55, if the residual electric quantity is smaller than the borrowed electric quantity, maintaining the conventional cost unchanged.

Specifically, if the borrowing duration is less than or equal to the theoretical use duration, it is proved that the renter returns the mobile power supply in time at this time, but in the borrowing duration, the renter may charge the mobile power supply, and at this time, the renting cost of the renter can be reduced, so that the conventional cost of renting the mobile power supply is obtained at this time. The conventional cost refers to the cost of returning the mobile power supply in the normal return time, and the conventional cost can be set according to actual conditions.

Then, the power supply electric quantity when the mobile power supply is returned is obtained and used as the residual electric quantity, and the obtaining mode is the same as that of the returned electric quantity. And judging whether the return electric quantity is larger than or equal to the borrowed electric quantity, namely judging whether the renter carries out overcharging action on the mobile power supply or whether the mobile power supply is not used after renting.

If the remaining power is less than the borrowed power, the renter is proved to use the mobile power supply, but the mobile power supply is not charged with high probability or is insufficient in charging amount, and the conventional expense is not adjusted at the moment.

If the remaining power is greater than or equal to the borrowed power, it is proved that the renter performs the overcharge operation on the mobile power supply or does not use the mobile power supply, and at this time, it is proved that the power consumption of the mobile power supply is low, so that the conventional cost can be reduced at this time. Therefore, the consumption concern of the renter is reduced, and the enthusiasm of the renter for using the mobile power supply is further improved.

Referring to fig. 7, in order to ensure normal operation of the mobile power source and the charging station as much as possible, in another embodiment, before step S1, that is, acquiring the borrowing duration and the theoretical use duration of the mobile power source, the method further includes:

s61, acquiring the charging time of the mobile power supply;

s62, acquiring the current electric quantity of the mobile power supply based on the charging time length;

s63, acquiring theoretical electric quantity of the mobile power supply based on the charging time length;

s64, acquiring an electric quantity difference value based on the current electric quantity and the theoretical electric quantity;

s65, judging whether the electric quantity difference value is matched with a difference value threshold value or not;

s66, if the charging failure information is not matched, charging failure information is generated.

Specifically, in the charging process of the mobile power supply, self-checking work can be performed, specifically, before the borrowing time length and the theoretical use time length of the mobile power supply are obtained, the charging time length of the mobile power supply is obtained, namely, the mobile power supply is placed into a charging station to start charging and timing, so that the charging time length is obtained, and of course, the timing is stopped after the charging is completed.

Then, according to the charging time length, the current electric quantity of the mobile power supply is obtained, namely, the charging electric quantity of the mobile power supply under the current charging time length is obtained, the electric quantity of the mobile power supply when being charged is obtained, then the current electric quantity under the charging time length is obtained, then the electric quantity of the mobile power supply when being charged is obtained by using the current electric quantity, and the obtained value is the current electric quantity.

And meanwhile, acquiring the theoretical electric quantity of the mobile power supply according to the charging time length, namely acquiring the charging speed of the charging station on the mobile power supply, and multiplying the value acquired by the charging speed by the charging time length to obtain the theoretical electric quantity. And then obtaining an electric quantity difference value according to the current and the theoretical electric quantity, namely subtracting the absolute value of the value obtained by the theoretical electric quantity from the current electric quantity, and obtaining the electric quantity difference value.

And then judging whether the electric quantity difference value is matched with a difference value threshold, wherein the difference value threshold is a range value, and judging whether the electric quantity difference value and the difference value are matched, namely judging whether the electric quantity difference value is in the range of the difference value threshold. If the difference value of the electric quantity is within the range of the difference value threshold value, the difference value and the electric quantity are proved to be matched, otherwise, the difference value is not matched.

If the charging states of the mobile power supply by the charging station are matched, the charging states of the mobile power supply by the charging station are proved to be normal; if the charging states of the charging station to the mobile power supply are abnormal, the charging fault information is generated at the moment and is sent to the background display screen to warn related staff, so that the staff can check the charging station and the mobile power supply in time. Therefore, the safety of the charging station and the mobile power supply in the use process can be ensured as much as possible, and the normal operation of the mobile power supply and the charging station can be ensured as much as possible.

The implementation principle of the management method of the shared mobile power supply in the embodiment of the application is as follows: firstly, obtaining borrowing time length and theoretical use time length of a mobile power supply, and then judging whether the borrowing time length is greater than the theoretical use time length. When the borrowing time length is longer than the theoretical use time length, the out-of-period expense of the mobile power supply is obtained, and then the out-of-period expense is adjusted and reduced according to the weather condition and the power supply electric quantity, namely the price adjustment factors. The method and the system can adjust the out-of-date expense of leasing the mobile power supply, so that leasing experience of a leaser can be guaranteed as much as possible, and leasing frequency of the mobile power supply is improved.

The embodiment of the application also discloses a management system of the shared mobile power supply, which can achieve the same technical effects as the management method of the shared mobile power supply.

Referring to fig. 8, the management system for sharing a mobile power supply includes:

the time length acquisition module 1 is used for acquiring borrowing time length and theoretical use time length of the mobile power supply;

the time judging module 2 is used for judging whether the borrowing time length is longer than the theoretical use time length;

the expense obtaining module 3 is used for obtaining the out-of-period expense for returning the mobile power supply if the borrowing time is longer than the theoretical use time;

the factor acquisition module 4 is used for acquiring price adjustment factors, wherein the price adjustment factors comprise weather conditions and power supply electric quantity;

and the expense adjustment module 5 is used for reducing the out-of-date expense of the mobile power supply based on the price adjustment factors.

Specifically, the time length acquisition module 1 acquires the borrowing time length and the theoretical use time length of the mobile power supply, and sends the borrowing time length and the theoretical use time length to the time length judgment module 2 connected with the borrowing time length and the theoretical use time length. Then, the time length judging module 2 judges whether the borrowing time length is larger than the theoretical use time length, and sends the judging result to the fee obtaining module 3 connected with the borrowing time length.

When the borrowing time period is longer than the theoretical use time period, the fee acquisition module 3 acquires and returns the excessive fee of the mobile power supply to the fee adjustment module 5 connected with the fee acquisition module. The factor obtaining module 4 then obtains the price adjustment factors, which include weather conditions and power supply capacity, and sends the price adjustment factors to the fee adjustment module 5 connected thereto.

Finally, the expense adjustment module 5 reduces the excessive expense of the mobile power supply according to the price adjustment factors, and further can adjust the excessive expense of the leased mobile power supply, so that the leasing experience of a leaser can be ensured as much as possible, and the leasing frequency of the mobile power supply is improved.

Further, in another embodiment, the fee adjustment module 5 includes:

a state judging sub-module 51 for judging whether or not an abnormality occurs in the charging station of the mobile power supply based on weather conditions;

a charge adjustment sub-module 52 for reducing the excess charge if the charging station is abnormal;

the electric quantity obtaining sub-module 53 is configured to obtain, as a return electric quantity, a power supply electric quantity when the mobile power supply is returned if no abnormality occurs in the charging station;

the electric quantity judging sub-module 54 is configured to judge whether the return electric quantity is greater than or equal to a preset electric quantity;

the expense adjustment sub-module 52 is further configured to reduce the expense if the return electric quantity is greater than or equal to the preset electric quantity;

the fee adjustment sub-module 52 is further configured to maintain the excessive fee unchanged if the returned electric quantity is less than the preset electric quantity.

Specifically, the factor obtaining module 4 sends the weather condition to the state judgment sub-module 51 connected thereto, and sends the power supply amount to the amount obtaining sub-module 53 connected thereto. The fee acquisition module 3 sends the out-of-date fee to the fee adjustment sub-module 52 connected thereto. The state judging sub-module 51 judges whether or not an abnormality occurs in the charging station of the mobile power supply according to the weather condition, and sends the result of the judgment to the charge adjusting sub-module 52 and the electric quantity obtaining sub-module 53 connected thereto. When an abnormality occurs in the charging station, the charge adjustment sub-module 52 reduces the excess charge; when no abnormality occurs in the charging station, the electric quantity acquisition sub-module 53 acquires the electric quantity of the power supply at the time of returning the portable power supply as the returned electric quantity, and sends it to the electric quantity judgment sub-module 54 connected thereto.

The charge determination sub-module 54 determines whether the return charge is greater than or equal to a preset charge and sends it to the charge adjustment sub-module 52 connected thereto. When the electric quantity of the angelica is larger than or equal to the preset electric quantity, the expense adjustment submodule 52 reduces the out-of-date expense; when the electric quantity of the angelica is smaller than the preset electric quantity, the expense adjustment sub-module 52 maintains the overtime expense unchanged. Therefore, the accuracy of judging whether to reduce the out-of-date expense can be improved according to whether the charging station is normal or not and whether the return electric quantity meets the preset electric quantity or not.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. A method for managing a shared mobile power source, comprising:

obtaining borrowing time length and theoretical use time length of a mobile power supply;

judging whether the borrowing duration is longer than the theoretical use duration;

if the borrowing time is longer than the theoretical use time, acquiring out-of-period expense for returning the mobile power supply;

acquiring price adjustment factors, wherein the price adjustment factors comprise weather conditions and power supply electric quantity;

reducing the out-of-date cost of the mobile power supply based on the price adjustment factor;

the reducing the excess cost of the mobile power supply based on the price adjustment factor includes:

judging whether the charging station of the mobile power supply is abnormal or not based on the weather conditions;

if the charging station is abnormal, the out-of-period cost is reduced;

if the charging station is not abnormal, acquiring the power supply electric quantity when the mobile power supply is restored, and taking the power supply electric quantity as a restored electric quantity;

judging whether the return electric quantity is larger than or equal to a preset electric quantity or not, wherein the preset electric quantity is the lowest electric quantity which can be normally placed by the mobile power supply;

if the return electric quantity is larger than or equal to the preset electric quantity, the out-of-date expense is reduced;

if the return electric quantity is smaller than the preset electric quantity, maintaining the overtime expense unchanged;

obtaining the theoretical use time length includes:

acquiring the power supply electric quantity when the mobile power supply is leased, and taking the power supply electric quantity as a borrowed electric quantity;

acquiring a preset minimum power consumption speed;

acquiring the service time of the mobile power supply based on the borrowed electric quantity and the preset minimum power consumption speed;

and taking the using time as the theoretical using time length.

2. The method of claim 1, wherein the reducing the overhead charge if the charging station is abnormal comprises:

when the charging station is abnormal, judging whether a standby power station exists in a preset range;

if not, reducing the out-of-date cost;

if so, judging whether the standby power station is affected by the weather conditions and abnormal;

if the standby power station is abnormal, the out-of-date expense is reduced;

and if the standby power station is not abnormal, maintaining the out-of-date expense unchanged.

3. The method of managing as set forth in claim 2, wherein if no abnormality occurs in the backup power station, maintaining the overhead charge unchanged includes:

when the standby power station is not abnormal, acquiring the return electric quantity;

judging whether the return electric quantity is larger than or equal to the preset electric quantity or not;

if the return electric quantity is larger than or equal to the preset electric quantity, the out-of-date expense is reduced;

and if the return electric quantity is smaller than the preset electric quantity, maintaining the overtime expense unchanged.

4. The method according to claim 1, wherein after the obtaining the power supply capacity at the time of the portable power supply rental as the borrowed power supply capacity, further comprising:

if the borrowing duration is less than or equal to the theoretical use duration, obtaining the conventional cost of renting the mobile power supply;

acquiring the power supply electric quantity when the mobile power supply is returned as the residual electric quantity;

judging whether the residual electric quantity is larger than or equal to the borrowed electric quantity;

if the residual electric quantity is larger than or equal to the borrowed electric quantity, reducing the conventional cost;

and if the residual electric quantity is smaller than the borrowed electric quantity, maintaining the conventional expense unchanged.

5. The method of managing as set forth in claim 1, further comprising, prior to the acquiring the borrowing period and the theoretical use period of the portable power source:

acquiring the charging time length of the mobile power supply;

acquiring the current electric quantity of the mobile power supply based on the charging time length;

acquiring theoretical electric quantity of the mobile power supply based on the charging time length;

acquiring an electric quantity difference value based on the current electric quantity and the theoretical electric quantity;

judging whether the electric quantity difference value is matched with a difference value threshold value or not;

and if the charging failure information is not matched, generating the charging failure information.

6. A management system for sharing a mobile power supply, comprising:

the time length acquisition module (1) is used for acquiring borrowing time length and theoretical use time length of the mobile power supply;

a time length judging module (2) for judging whether the borrowing time length is longer than the theoretical use time length;

the expense acquisition module (3) is used for acquiring the out-of-date expense for returning the mobile power supply if the borrowing time is longer than the theoretical use time;

a factor acquisition module (4) for acquiring price adjustment factors including weather conditions and power supply electric quantity;

a cost adjustment module (5) for reducing an excess cost of the mobile power supply based on the price adjustment factor;

the expense adjustment module (5) comprises:

a state judgment sub-module (51) for judging whether or not an abnormality occurs in a charging station of the mobile power supply based on the weather condition;

a charge adjustment sub-module (52) for reducing the excess charge if the charging station is abnormal;

the electric quantity acquisition sub-module (53) is used for acquiring the electric quantity of the power supply when the mobile power supply is restored if the charging station is not abnormal, and the electric quantity is used as the restored electric quantity;

the electric quantity judging sub-module (54) is used for judging whether the return electric quantity is larger than or equal to a preset electric quantity, wherein the preset electric quantity is the lowest electric quantity which can be normally placed by the mobile power supply;

the expense adjustment sub-module (52) is further configured to reduce the out-of-date expense if the return electric quantity is greater than or equal to the preset electric quantity;

the expense adjustment sub-module (52) is further configured to maintain the out-of-date expense unchanged if the return electric quantity is smaller than the preset electric quantity;

obtaining the theoretical use time length includes:

acquiring the power supply electric quantity when the mobile power supply is leased, and taking the power supply electric quantity as a borrowed electric quantity;

acquiring a preset minimum power consumption speed;

acquiring the service time of the mobile power supply based on the borrowed electric quantity and the preset minimum power consumption speed;

and taking the using time as the theoretical using time length.