CN114211992B - Charging management method, device, equipment and storage medium - Google Patents

Abstract

The invention discloses a charging management method, a device, equipment and a storage medium, and relates to the technical field of charging management, wherein the method comprises the following steps: acquiring charging power and charging duration of the charging equipment; judging whether the charging power is within a power class threshold value range purchased by a user; if the charging power is within the power class threshold range, acquiring a first duration according to the charging duration; if the charging power is not in the power class threshold range, obtaining a second duration according to the charging duration and a preset coefficient; and obtaining the residual precharge time according to the precharge time purchased by the user and the first time or the second time. The invention solves the problem that the merchant cannot accurately estimate the cost and the income in the prior art, achieves the purpose of charging and charging management, is convenient for users to reasonably purchase the charging card according to the actual charging power of the charging equipment, and is convenient for the merchant to more accurately estimate the cost and the income.

Description

Charging management method, device, equipment and storage medium

Technical Field

The present invention relates to the field of charging management technologies, and in particular, to a charging management method, device, apparatus, and storage medium.

Background

The charging mode of the electric vehicle charging station is generally a monthly charging mode, and particularly comprises monthly limiting times and monthly unlimited times, and most of the charging modes are in a form of entity cards, so that a user can charge once by swiping the cards once. However, in the actual charging process, the electric vehicles have different charging powers, which is not considered in the existing charging and charging methods, so that some high-power electric vehicles are charged beyond estimated benefits of merchants, which may cause the loss of the merchants to operate, and some low-power electric vehicles are charged less, which may cause the situations of large difference between user consumption and actual use and unfair transaction.

Therefore, in the prior art, charging and charging management does not consider that the electric vehicle has different charging powers, and the problem that a merchant cannot accurately estimate cost and income and therefore cannot reasonably price exists.

Disclosure of Invention

The main purpose of the invention is that: the invention provides a charging management method, a device, equipment and a storage medium, and aims to solve the technical problem that a merchant cannot accurately estimate cost and income in the charging management method in the prior art.

In order to achieve the above purpose, the invention adopts the following technical scheme:

in a first aspect, the present invention provides a charging management method, the method comprising:

Acquiring charging power and charging duration of the charging equipment;

judging whether the charging power is within a power class threshold range purchased by a user;

If the charging power is within the power class threshold range, acquiring a first duration according to the charging duration;

if the charging power is not in the power level threshold range, obtaining a second duration according to the charging duration and a preset coefficient;

and obtaining the residual precharge duration according to the precharge duration purchased by the user and the first duration or the second duration.

Optionally, in the above charge management method, the step of obtaining the charging power and the charging duration of the charging device includes:

acquiring charging power of charging equipment sent by a charging pile; the charging power is obtained when the charging pile detects that the charging equipment is connected;

acquiring the charging time length of the charging equipment sent by the charging pile; the charging duration is based on the fact that the charging pile starts timing when detecting that the charging equipment is connected, and the timing is stopped when detecting that the charging equipment is disconnected.

Optionally, in the foregoing charge management method, if the charging power is not within the power class threshold range, the step of obtaining the second duration according to the charging duration and a preset coefficient includes:

If the charging power is not in the power level threshold range, obtaining the actual power level of the charging power according to a preset charging rule;

obtaining a time length deduction conversion coefficient according to a preset coefficient corresponding to the actual power level and a preset coefficient corresponding to the power level purchased by a user;

And deducting a conversion coefficient according to the charging duration and the duration to obtain a second duration.

Optionally, in the above charge management method, the step of obtaining the remaining precharge duration according to the precharge duration purchased by the user and the first duration or the second duration includes:

Subtracting the first time length or the second time length according to the pre-charging time length purchased by the user to obtain a first residual pre-charging time length; or alternatively

And subtracting the first time length or the second time length according to the first residual pre-charging time length to obtain a second residual pre-charging time length.

Optionally, in the above charge management method, before the step of obtaining the charging power and the charging duration of the charging device, the method further includes:

obtaining a plurality of power levels and threshold ranges thereof according to a preset power level dividing rule;

Aiming at each power grade, obtaining the electric charge cost corresponding to the power grade according to the preset electric charge and the preset power consumption corresponding to the power grade;

Obtaining a preset charging rule according to a plurality of power levels and the corresponding electric charge cost so as to be purchased by a user; the preset charging rule comprises a power level, a power level threshold range, a precharge duration and expense corresponding to the power level, and a preset period.

Optionally, in the above charging management method, after the step of obtaining a preset charging rule according to a plurality of power levels and the corresponding electric charge costs, the method further includes:

And obtaining expected benefits of merchants according to the precharge duration and the charge corresponding to the power level and the electricity fee cost corresponding to the power level.

Optionally, in the above charge management method, after the step of obtaining the remaining precharge duration according to the precharge duration purchased by the user and the first duration or the second duration, the method further includes:

when the preset period is detected to be reached, acquiring the total charging time length actually used by the charging equipment according to the residual charging time length and the pre-charging time length;

And obtaining actual benefits of merchants according to the total charging duration, the electricity fee cost and the fees in the preset charging rule.

In a second aspect, the present invention provides a charge management device, the device comprising:

the charging data acquisition module is used for acquiring the charging power and the charging duration of the charging equipment;

The charging power judging module is used for judging whether the charging power is in a power class threshold range purchased by a user or not;

The first time length acquisition module is used for acquiring a first time length according to the charging time length if the charging power is within the power class threshold range;

The second duration obtaining module is used for obtaining a second duration according to the charging duration and a preset coefficient if the charging power is not in the power class threshold range;

The remaining duration calculation module is used for obtaining the remaining precharge duration according to the precharge duration purchased by the user and the first duration or the second duration.

In a third aspect, the present invention provides a charging management apparatus, the apparatus comprising a processor and a memory, the memory storing a charging management program, the charging management program, when executed by the processor, implementing a charging management method as described above.

In a fourth aspect, the present invention provides a computer readable storage medium having stored thereon a computer program executable by one or more processors to implement a charge management method as described above.

The one or more technical schemes provided by the invention can have the following advantages or at least realize the following technical effects:

According to the charging management method, the device, the equipment and the storage medium, after the charging power and the charging time length of the charging equipment are obtained, whether the charging power is in the power class threshold range purchased by a user is judged, so that the first time length or the second time length which is actually required to be deducted is calculated, and the remaining charging time length is calculated by combining the pre-charging time length purchased by the user, so that the purpose of charging charge management is achieved. The invention fully considers the characteristic that different charging equipment has different charging power, carries out charging and charging management according to the power levels, is convenient for users to reasonably purchase the charging cards according to the actual charging power of the charging equipment, avoids excessive consumption of the users, is convenient for merchants to compare sales conditions of the charging cards with different power levels and corresponding electric charge costs, more accurately predicts cost and income, avoids the operation of merchant loss, and thereby more reasonably pricing the charging cards, and realizes fair transaction between the users and the merchants.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are required in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings may be obtained from the drawings provided without inventive effort for a person skilled in the art.

FIG. 1 is a flowchart of a charging management method according to a first embodiment of the present invention;

fig. 2 is a schematic hardware configuration diagram of a charge management device according to the present invention;

FIG. 3 is a flowchart illustrating a charging management method according to a second embodiment of the present invention;

Fig. 4 is a schematic functional block diagram of a first embodiment of the charge management device according to the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, in the present disclosure, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element. In addition, in the present invention, if there is a description referring to "first", "second", etc., the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance thereof or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.

In the present invention, suffixes such as "module", "part" or "unit" used for representing elements are used only for facilitating the description of the present invention, and have no specific meaning per se. Thus, "module," "component," or "unit" may be used in combination. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

Analysis of the prior art finds that the charging mode of the electric vehicle charging station is generally a monthly charging mode, specifically comprises monthly limiting times and monthly unlimited times, and most of the charging modes are in a form of entity cards, and a user can charge electricity once by swiping the cards once. The physical charging of the moon card is inconvenient, for example, the recharging process of the moon card is complicated, and the original residual times or the residual time limit cannot be retrieved after the card is lost.

In the actual charging process, the electric vehicle has different charging powers, and the existing charging methods do not take the point into consideration, but uniformly set the charging cost for a month, i.e. the charging cost for an electric bicycle with unlimited power can be uniformly set for how many times a month, for example, the charging cost for an electric bicycle with unlimited power can be set for 10 times a month 30 yuan, or the charging cost for an electric bicycle with unlimited power can be set for 50 times a month. The actual charging power of the user may be between tens and hundreds of W, the electricity fee cost generated by different charging powers is different, and the generated electricity fee cost may be greater than the charge fee of the month card after the month card is purchased by the high-power electric vehicle, which may cause the business to lose money. In order to avoid the loss of money, merchants may increase the cost of the rechargeable moon card, which in turn leads to some users with lower charging power to spend more money to purchase the rechargeable moon card than their actual charging situation, which may cause unfair trade. In summary, the charging manner may cause some high-power electric vehicles to charge beyond estimated profits of merchants, resulting in lost business of merchants, and some low-power electric vehicles to charge less, which may cause situations of large gap between user consumption and actual use and unfair transaction.

Therefore, in the prior art, charging and charging management does not consider that the electric vehicle has different charging powers, and the problem that a merchant cannot accurately estimate cost and income and therefore cannot reasonably price exists.

In view of the technical problem that the merchant cannot accurately estimate the cost and the income in the prior art, the invention provides a charging management method, and the general thinking is as follows:

Acquiring charging power and charging duration of the charging equipment; judging whether the charging power is within a power class threshold range purchased by a user; if the charging power is within the power class threshold range, acquiring a first duration according to the charging duration; if the charging power is not in the power level threshold range, obtaining a second duration according to the charging duration and a preset coefficient; and obtaining the residual precharge duration according to the precharge duration purchased by the user and the first duration or the second duration.

Through the technical scheme, after the charging power and the charging time length of the charging equipment are obtained, whether the charging power is in the power class threshold range purchased by the user is judged, so that the first time length or the second time length which is actually required to be deducted is calculated, and the remaining charging time length is calculated by combining the pre-charging time length purchased by the user, so that the purpose of charging charge management is achieved. The invention fully considers the characteristic that different charging equipment has different charging power, carries out charging and charging management according to the power levels, is convenient for users to reasonably purchase the charging cards according to the actual charging power of the charging equipment, avoids excessive consumption of the users, is convenient for merchants to compare sales conditions of the charging cards with different power levels and corresponding electric charge costs, more accurately predicts cost and income, avoids the operation of merchant loss, and thereby more reasonably pricing the charging cards, and realizes fair transaction between the users and the merchants.

Example 1

Referring to the flow chart of fig. 1, a first embodiment of the charge management method of the present invention is presented, which is applied to a charge management device.

The charging management device refers to terminal devices or network devices capable of realizing network connection, and the charging management device can be terminal devices such as mobile phones, computers, tablet computers, embedded industrial personal computers and the like, and can also be network devices such as servers and cloud platforms.

As shown in fig. 2, a schematic hardware structure of the charge management device is shown. The apparatus may include: a processor 1001, such as a CPU (Central Processing Unit ), a communication bus 1002, a user interface 1003, a network interface 1004, a memory 1005.

It will be appreciated by those skilled in the art that the hardware configuration shown in fig. 2 is not limiting of the charge management device of the present invention, and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.

In particular, communication bus 1002 is configured to enable connective communication between these components;

the user interface 1003 is used for connecting the charging pile, and is in data communication with the charging pile, and the user interface 1003 can comprise an output unit, such as a display screen, and an input unit, such as a keyboard;

The network interface 1004 is used to connect to and communicate data with a background server, and the network interface 1004 may include an input/output interface, such as a standard wired interface, a wireless interface, such as a Wi-Fi interface;

The memory 1005 is used for storing various types of data, which may include, for example, instructions of any application program or method in the charge management device, and application program related data, and the memory 1005 may be a high-speed RAM memory, or may be a stable memory, such as a disk memory, and optionally, the memory 1005 may also be a storage device independent of the processor 1001;

Specifically, with continued reference to fig. 2, the memory 1005 may include an operating system, a network communication module, a user interface module, and a charging management program, where the network communication module is mainly used to connect to a server and perform data communication with the server;

the processor 1001 is configured to call a charge management program stored in the memory 1005, and perform the following operations:

Acquiring charging power and charging duration of the charging equipment;

judging whether the charging power is within a power class threshold range purchased by a user;

If the charging power is within the power class threshold range, acquiring a first duration according to the charging duration;

if the charging power is not in the power level threshold range, obtaining a second duration according to the charging duration and a preset coefficient;

and obtaining the residual precharge duration according to the precharge duration purchased by the user and the first duration or the second duration.

Based on the above-described charge management apparatus, the charge management method of the present embodiment is described in detail below with reference to the flowchart shown in fig. 1. The method may comprise the steps of:

step S110: acquiring charging power and charging duration of the charging equipment;

The charging device may be a chargeable device such as an electric bicycle, an electric vehicle, or the like. The charging power refers to the charging power of a charger used when the charging device is charged or a transmission line used for charging the charging device. The charging time period refers to the time period from the insertion of the charging device into the charging post to the disconnection of the charging post.

In this embodiment, the method is applied to electronic devices such as a mobile phone and a tablet, for example, as an application program or a WeChat applet of the mobile phone. The charging pile can upload data to the micro-communication applet through the server, or can upload data to the electronic device in a wireless mode, such as Bluetooth, by adopting a user interface or a communication interface of a mobile phone. It can be understood that the charging pile is provided with a device capable of detecting whether the charging device is inserted or separated, and the device can be a hardware detection device or a software detection program, and the device can be specifically set according to actual conditions and is not limited herein.

This embodiment is illustrated with an electric bicycle with a charging power of 250W. The electric bicycle is supposed to be charged on a charging pile of a certain charging station, and the specific charging time period is 2 hours.

Specifically, the step S100 may include:

step S111: acquiring charging power of charging equipment sent by a charging pile; the charging power is obtained when the charging pile detects that the charging equipment is connected.

After the charging pile detects that the charging equipment is connected according to the self-detection device, the charging power of the charging equipment is detected, then the obtained charging power is directly transmitted to the electronic equipment in a Bluetooth mode or is forwarded to the electronic equipment through the server, and the electronic equipment can obtain the charging power of the charging equipment transmitted by the charging pile. For example, in this embodiment, the electronic device may obtain the charging power of the electric bicycle to be 250W (watts).

Step S112: acquiring the charging time length of the charging equipment sent by the charging pile; the charging duration is based on the fact that the charging pile starts timing when detecting that the charging equipment is connected, and the timing is stopped when detecting that the charging equipment is disconnected.

The charging pile starts timing according to the self-detection device when detecting that the charging equipment is connected, and then stops timing when the charging equipment is disconnected, so that the charging time of the charging equipment is obtained; and then the obtained charging time length is directly transmitted to the electronic equipment in a Bluetooth mode or is forwarded to the electronic equipment through a server, and the electronic equipment can obtain the charging time length of the charging equipment transmitted by the charging pile. For example, in this embodiment, the electronic device may obtain that the charging duration of the electric bicycle is 2 hours.

Step S120: and judging whether the charging power is within a power class threshold value range purchased by a user.

The user may pre-purchase a charging card, for example, the user purchases a charging card having a power level of a second level, assuming the power level has a threshold range of 150W to 250W. The electronic device may determine whether the acquired charging power is within a threshold range of 150W to 250W. For another example, the user purchases a charging card having a first power level, assuming that the threshold range of the power level is 0-150W. The electronic device may determine whether the acquired charging power is within a threshold range of 0 to 150W.

Step S130: and if the charging power is within the power class threshold range, acquiring a first duration according to the charging duration.

When step S120 determines that the charging power is within the power class threshold range purchased by the user, the charging duration obtained in step S110 is directly used as the first duration. For example, the charging power of the electric bicycle of this embodiment is 200W, and it is known through the determination in step S120 that the charging power is within the threshold range of 150W to 250W purchased by the user, and the first duration of the electric bicycle is 2 hours according to the charging duration 2 hours obtained in step S110.

And judging whether the charging power of the charging equipment is consistent with the charging power corresponding to the charging card purchased by the user, and if so, normally obtaining the first duration to be deducted. The user is conveniently reminded of buying the charging card according to the actual charging power of the charging equipment, and the buying duration and the using duration are realized.

Step S140: and if the charging power is not in the power level threshold range, obtaining a second duration according to the charging duration and a preset coefficient.

When step S120 determines that the charging power is not within the power class threshold range purchased by the user, the charging duration acquired in step S110 is converted according to the preset coefficient, so as to obtain a second duration of the charging device. For example, the charging power of the electric bicycle in this embodiment is 200W, and it is known through the determination in step S120 that the charging power is not within the threshold range of 0-150W purchased by the user, and then a charging duration is obtained again according to the charging duration 2 hours and the preset coefficient obtained in step S110, for example, the second duration of the electric bicycle may be 4 hours. That is, the charging power purchased by the user is low, but the charging power of the actual charging device is high, and correspondingly, the charging time is converted into the second time period of 4 hours for deduction after 2 hours.

Judging whether the charging power of the charging equipment is consistent with the charging power corresponding to the charging card purchased by the user, and if not, converting the charging time length according to a preset coefficient to obtain a second time length to be deducted. Therefore, the situation that the charging expense exceeds the actual benefit of a merchant and the merchant loss is caused because the user purchases the charging card with low charging power to charge the charging equipment with high charging power can not occur. Meanwhile, the charging equipment with different charging powers can be charged conveniently by a user.

Specifically, the step S140 may include:

step S141: and if the charging power is not in the power level threshold range, obtaining the actual power level of the charging power according to a preset charging rule.

The preset charging rules are charging rules set by merchants and comprise different charging power levels, threshold ranges corresponding to each power level, different pre-charging duration and cost and preset time limit. For example, in the present embodiment, a preset charging rule may be set as shown in table 1 below.

TABLE 1

If step S120 determines that the charging power is not within the power class threshold range purchased by the user, the actual power class of the charging power is obtained according to the preset charging rule preset by the merchant. For example, assume that a user purchases a charging card having a first level of power, i.e., a charging power threshold in the range of 0-150W, and that a specific purchase is 20 yuan for one month, a 50 hour charging month card may be charged. Based on the obtained charging power of the charging device being 200W, it is determined that the charging power is not within the charging power threshold range corresponding to the charging month card purchased by the user, it can be known from the above table 1 that the actual power level of the charging power of the charging device being 200W is the second level, that is, the power level of the charging power threshold being 150W to 250W.

Step S142: and obtaining a time length deduction conversion coefficient according to the preset coefficient corresponding to the actual power level and the preset coefficient corresponding to the power level purchased by the user.

And calculating the ratio of the two preset coefficients according to the preset coefficient set for each power level in the preset charging rule, the preset coefficient corresponding to the actual power level and the preset coefficient corresponding to the power level of the month card purchased by the user, which are obtained in the step S141, and obtaining the time length deduction conversion coefficient. For example, in this embodiment, the actual power level, that is, the preset coefficient corresponding to the second level is 2, and the preset coefficient corresponding to the first level of the power level purchased by the user is 1, so that the duration deduction conversion coefficient is 2. In the same way, for example, if the first level is actually used and the second level is purchased by the user, the time length deduction conversion coefficient is 0.5.

Step S143: and deducting a conversion coefficient according to the charging duration and the duration to obtain a second duration.

Specifically, the conversion coefficient is subtracted according to the charging duration obtained in step S110 and the duration calculated in step S142, and after multiplication, the second duration, that is, the charging duration to be subtracted, is calculated. For example, in this embodiment, the charging duration of the charging device is 2 hours, and the duration deduction conversion coefficient calculated in step S142 is 2, so that the second duration is 4 hours. Similarly, for example, if the charging duration of the charging device is 2 hours and the duration deduction conversion coefficient calculated in step S142 is 0.5, the second duration may be 1 hour. That is, when the user purchases the second-stage moon card, the charging power of the actual charging device is the first-stage, and the actual time to be deducted is shorter than the actual charging time, which is exactly half of the actual charging time, so that the user can charge the charging device with the charging power of the first-stage for more time, thereby avoiding the user from generating the thoughts of depletion and making the transaction fairer.

Step S150: and obtaining the residual precharge duration according to the precharge duration purchased by the user and the first duration or the second duration.

The rechargeable time length, namely the pre-charging time length, is set by a merchant corresponding to the charging card purchased by the user, namely the month card, the week card or the quarter card. In this embodiment, according to the step S130, the user purchases the second level moon card, and according to the preset charging rule of table 1, the corresponding precharge time periods may be multiple, and the corresponding charges may be multiple. Assuming that the user purchases a 40-element charging month card, the corresponding precharge duration is 50 hours, and then the remaining charge duration is 48 hours according to the first duration obtained in step S130 being 2 hours; for another example, according to the case of step S140, the user purchases a 20-element charging month card of the first stage, and the corresponding precharge time period is 50 hours, and then the remaining charging time period is 46 hours according to the second time period obtained in step S143 being 4 hours. The method can calculate the reasonable residual pre-charge time length according to the actual situation no matter what grade of charging card is purchased by the user. The user can use the product more reasonably, and the income of the merchant is more clear.

Specifically, the step S150 may include:

step S151: subtracting the first time length or the second time length according to the pre-charging time length purchased by the user to obtain a first residual pre-charging time length; or alternatively

Step S152: and subtracting the first time length or the second time length according to the first residual pre-charging time length to obtain a second residual pre-charging time length.

According to the above steps, after the user purchases the charging card, the charging device is charged for the first time, and the first remaining precharge duration may be obtained according to the method of step S151; the second time of charging the charging device may obtain a second remaining precharge duration according to the method of step S152, and then the remaining precharge duration may be decremented directly according to the calculated first duration or second duration until the duration purchased by the user is over, which may further charge for the first duration or the second duration, and may further remind the user to further purchase the duration, which is specifically set according to the actual situation.

In this embodiment, after the user purchases the charging month card on the application program or the WeChat applet, the charging month card is automatically bound with the applet account, and the user does not need to purchase the physical month card, so that the situation of card loss and the like can not occur, meanwhile, the user does not need to recharge by an off-line machine, and the charging month card can be directly charged in the air on the application program or the WeChat applet for renewal, so that the charging month card suitable for self charging equipment is purchased, and the operation is convenient.

According to the charging management method provided by the embodiment, after the charging power and the charging time length of the charging equipment are obtained, whether the charging power is in the power class threshold range purchased by the user is judged, so that the first time length or the second time length which is actually required to be deducted is calculated, and the remaining charging time length is calculated by combining the pre-charging time length purchased by the user, so that the purpose of charging management is achieved. The invention fully considers the characteristic that different charging equipment has different charging power, carries out charging and charging management according to the power levels, is convenient for users to reasonably purchase the charging cards according to the actual charging power of the charging equipment, avoids excessive consumption of the users, is convenient for merchants to compare sales conditions of the charging cards with different power levels and corresponding electric charge costs, more accurately predicts cost and income, avoids the operation of merchant loss, and thereby more reasonably pricing the charging cards, and realizes fair transaction between the users and the merchants.

Example two

Based on the same inventive concept, on the basis of the first embodiment, referring to fig. 3, a second embodiment of the charge management method of the present invention is proposed, which is applied to a charge management device.

The charging management method of the present embodiment is described in detail below with reference to the flowchart shown in fig. 3. The method may comprise the steps of:

step S210: and obtaining a plurality of power levels and threshold ranges thereof according to a preset power level dividing rule.

The power class division rule is set by a merchant according to the actual charging power condition of the electric vehicle, for example, the charging power of the existing electric bicycle generally has a plurality of different values of 120W, 180W, 350W and the like, and the method can be used for charging stations of the electric bicycle and the electric vehicle, and only needs to correspondingly set the power class division rule and the charging rule according to the charging power of the electric vehicle. In this embodiment, for an electric bicycle, the corresponding power class division rule may be set to 0 to 150W,150W to 250W,250W to 500W, etc., and specifically, three power classes and threshold ranges thereof may be obtained with reference to those shown in table 1.

Step S220: aiming at each power grade, obtaining the electric charge cost corresponding to the power grade according to the preset electric charge and the preset power consumption corresponding to the power grade;

Because the power levels are clearly divided, the power consumption per hour (preset power consumption) of the charging equipment is basically fixed, a merchant can calculate the power cost per hour of the charging equipment with a certain power level by combining the self power cost (preset power cost), and then the corresponding charging rule is reasonably set based on the power cost.

In this embodiment, assuming that the electricity fee cost of the merchant is 1.2 yuan/degree, the power consumption corresponding to the power level of the first stage is 0.2 degree/hour, and the power consumption corresponding to the power level of the second stage is 0.4 degree/hour, the electricity fee cost corresponding to each power level can be calculated, for example:

first stage: electric charge cost=1.2 yuan/degree×0.2 yuan/hour=0.24 yuan/hour;

Second stage: electricity cost=1.2 yuan/degree×0.4 yuan/hour=0.48 yuan/hour.

Step S230: obtaining a preset charging rule according to a plurality of power levels and the corresponding electric charge cost so as to be purchased by a user; the preset charging rule comprises a power level, a power level threshold range, a precharge duration and expense corresponding to the power level, and a preset period.

The merchant may further calculate the electricity fee costs of different precharge durations of the first stage based on the electricity fee costs corresponding to each power stage obtained in step S220 and the specifically set precharge duration, and the corresponding set fees, for example, the embodiment calculates the electricity fee costs corresponding to the power stage of the first stage to be 0.24 yuan/hour in step S220 and the electricity fee costs corresponding to the power stage of the second stage to be 0.48 yuan/hour.

First-stage 20-hour charging month card electricity fee cost: 0.24 element/hour x 20 hour = 4.8 element;

electric charge cost of 50-hour charging month card in first stage: 0.24 yuan/hr x 50 hr = 10 yuan;

Electric charge cost of first-stage 100-hour charging month card: 0.24 yuan/hr x 100 hr = 24 yuan;

the electricity fee cost of different precharge time periods of the second stage can also be calculated:

Second-stage electricity fee cost of 20-hour charging month card: 0.48 element/hour x 20 hour = 9.6 element;

Second-stage 50-hour charging month card electricity fee cost: 0.48 element/hour x 50 hour = 24 element;

second-stage electricity fee cost of 100-hour charging month card: 0.48 yuan/hr x 100 hr = 48 yuan;

According to the method, the electricity fee cost of different pre-charging time periods corresponding to a plurality of different power levels can be obtained, and the merchant sets the fee or the preset time period by himself, so that the preset charging rule shown in the table 1 can be obtained, wherein the preset charging rule can comprise the power level, the power level threshold range, the pre-charging time period and the fee corresponding to the power level and the preset time period; and the power level can also comprise a preset coefficient corresponding to the power level.

Step S240: and obtaining expected benefits of merchants according to the precharge duration and the charge corresponding to the power level and the electricity fee cost corresponding to the power level.

Specifically, according to the preset charging rule obtained in step S230, the expected profit of the merchant can be estimated, for example, for a user purchasing the first-stage 20-hour charging month card, the corresponding electricity fee cost is 4.8 yuan, and according to the fee set by the merchant in the preset charging rule shown in table 1, the profit of the merchant based on the user can be calculated to be 10 yuan-4.8 yuan = 5.2 yuan; for another example, for a user purchasing a second-level 50-hour charging month card, the corresponding electricity fee cost is 24 yuan, and according to the fee set by the merchant in the preset charging rule shown in table 1, the profit of the merchant based on the user can be calculated to be 40 yuan-24 yuan = 16 yuan. Thus, the expected benefits of the merchant can be calculated clearly and accurately based on the purchase conditions of all users.

Step S310: acquiring charging power and charging duration of the charging equipment;

Step S320: judging whether the charging power is within a power class threshold range purchased by a user;

Step S330: if the charging power is within the power class threshold range, acquiring a first duration according to the charging duration;

Step S340: if the charging power is not in the power level threshold range, obtaining a second duration according to the charging duration and a preset coefficient;

Step S350: and obtaining the residual precharge duration according to the precharge duration purchased by the user and the first duration or the second duration.

For more details of the implementation in the implementation based on steps S310 to S350, reference may be made to the description in the implementation based on steps S110 to S150 in example one, and for brevity of description, details are not repeated here.

Step S410: and when the preset period is detected to be reached, acquiring the total charging time length actually used by the charging equipment according to the residual charging time length and the pre-charging time length.

Whether it is a month card or a week card, i.e. the corresponding preset period is 30 days or 7 days, when the period arrives, the precharge period purchased by the user may not be completely used up, and to calculate the actual benefit of the merchant more accurately, this part of the benefit should be considered. For example, in this embodiment, assuming that the user purchases a charging month card with a second-stage precharge duration of 50 hours, when the preset period of 30 days is detected, and assuming that the remaining charging duration is still 5 hours, the total charging duration actually used by the user may be calculated to be 50 hours-5 hours=45 hours.

Step S420: and obtaining actual benefits of merchants according to the total charging duration, the electricity fee cost and the fees in the preset charging rule.

In this embodiment, the second-stage electricity fee cost is calculated according to step S220 to be 0.48 yuan/hour, and the actual cost can be calculated by combining the total charging time calculated in step S410 to be 45 hours, where the actual cost is 0.48 yuan/hour×45 hours=21.6 yuan; and the second-stage 50-hour cost set in the preset charging rule is 40 yuan, so that the actual benefit of the merchant based on the user can be calculated to be 40 yuan-21.6 yuan = 18.4 yuan. Therefore, the actual benefits of the merchant can be correspondingly calculated according to the actual charging time of each user, and the results can be counted and displayed, so that the merchant can check conveniently.

According to the charging management method provided by the embodiment, through preset electric charge and preset power consumption corresponding to different power levels, electric charge cost corresponding to different power levels is calculated, so that merchants can conveniently correspond to different power levels and electric charge cost thereof, and proper charging rules are set. And the estimated benefits are calculated by merchants conveniently, so that the selective popularization of the charging cards with different power levels, different preset periods and different precharge durations can be better performed, and larger benefits are realized. In addition, the actual benefits are calculated according to the residual charging time length which is not used up by each user, the actual benefits of the merchant are obtained through statistics, convenience is further provided, and the intelligent degree of charging management is improved. The method is convenient for operation of merchants or users, has wide adaptability, and accurate income estimation and actual calculation.

Example III

Based on the same inventive concept, referring to fig. 4, a first embodiment of the charge management device of the present invention is presented, which may be a virtual device, applied to a charge management apparatus.

The charging management device provided in this embodiment is described in detail below with reference to a functional block diagram shown in fig. 4, where the device may include:

the charging data acquisition module is used for acquiring the charging power and the charging duration of the charging equipment;

The charging power judging module is used for judging whether the charging power is in a power class threshold range purchased by a user or not;

The first time length acquisition module is used for acquiring a first time length according to the charging time length if the charging power is within the power class threshold range;

The second duration obtaining module is used for obtaining a second duration according to the charging duration and a preset coefficient if the charging power is not in the power class threshold range;

The remaining duration calculation module is used for obtaining the remaining precharge duration according to the precharge duration purchased by the user and the first duration or the second duration.

Further, the charging data acquisition module may include:

a charging power acquisition unit for acquiring the charging power of the charging equipment sent by the charging pile; the charging power is obtained when the charging pile detects that the charging equipment is connected;

A charging time length obtaining unit, configured to obtain a charging time length of the charging device sent by the charging pile; the charging duration is based on the fact that the charging pile starts timing when detecting that the charging equipment is connected, and the timing is stopped when detecting that the charging equipment is disconnected.

Further, the second duration acquisition module may include:

a power level obtaining unit, configured to obtain an actual power level of the charging power according to a preset charging rule if the charging power is not within the power level threshold range;

the conversion coefficient acquisition unit is used for acquiring a time length deduction conversion coefficient according to a preset coefficient corresponding to the actual power level and a preset coefficient corresponding to the power level purchased by a user;

the second duration obtaining unit is used for obtaining a second duration by deducting a conversion coefficient according to the charging duration and the duration.

Further, the remaining duration calculation module may include:

The first charging calculation unit is used for subtracting the first time length or the second time length according to the pre-charging time length purchased by the user to obtain a first residual pre-charging time length; or alternatively

And the subsequent charging calculation unit is used for subtracting the first duration or the second duration according to the first residual pre-charging duration to obtain a second residual pre-charging duration.

Further, the apparatus may further include:

The power class dividing module is used for obtaining a plurality of power classes and threshold ranges thereof according to a preset power class dividing rule;

the electricity charge cost calculation module is used for obtaining the electricity charge cost corresponding to the power grade according to the preset electricity charge and the preset power consumption corresponding to the power grade;

The charging rule setting module is used for obtaining a preset charging rule according to a plurality of power levels and the corresponding electric charge cost so as to be purchased by a user; the preset charging rule comprises a power level, a power level threshold range, a precharge duration and expense corresponding to the power level, and a preset period.

Still further, the apparatus may further include:

And the estimated profit calculation module is used for obtaining estimated profit of a merchant according to the precharge time length and the charge corresponding to the power level and the electricity fee cost corresponding to the power level.

Still further, the apparatus may further include:

The total charging duration calculation module is used for obtaining the total charging duration actually used by the charging equipment according to the residual charging duration and the pre-charging duration when the preset period is detected to be reached;

And the actual profit calculation module is used for obtaining the actual profit of the merchant according to the total charging time length, the electricity fee cost and the fee in the preset charging rule.

It should be noted that, the functions that can be achieved by each module in the charging management device and the technical effects that can be achieved by the corresponding modules in the charging management device provided in this embodiment may refer to descriptions of specific implementations in each embodiment of the charging management method of the present invention, and for brevity of description, details are not repeated here.

Example IV

Based on the same inventive concept, referring to fig. 2, a schematic hardware structure of a charge management device according to embodiments of the present invention is shown. The embodiment provides a charging management device, which may include a processor and a memory, where the memory stores a charging management program, and when the charging management program is executed by the processor, all or part of steps of each embodiment of the charging management method of the present invention are implemented.

Specifically, the charging management device refers to a terminal device or a network device capable of realizing network connection, which may be a terminal device such as a mobile phone, a computer, a tablet computer, a portable computer, or a network device such as a server and a cloud platform.

It will be appreciated that the device may also include a communication bus, a user interface, and a network interface.

Wherein the communication bus is used to enable connection communication between these components.

The user interface is for connecting the charging post in data communication with the charging post and may include an output unit, such as a display screen, an input unit, such as a keyboard.

The network interface is used to connect to and communicate data with the background server, and may include an input/output interface such as a standard wired interface, a wireless interface such as a Wi-Fi interface.

The memory is used to store various types of data, which may include, for example, instructions of any application or method in the charge management device, as well as application-related data. The Memory may be implemented by any type of volatile or non-volatile Memory device or combination thereof, such as static random access Memory (Static Random Access Memory, SRAM for short), erasable programmable Read-Only Memory (Erasable Programmable Read-Only Memory, EPROM for short), programmable Read-Only Memory (Programmable Read-Only Memory, ROM for short), magnetic Memory, flash Memory, magnetic or optical disk, optionally, the Memory may also be a storage device independent of the processor.

The Processor is used to call up the charge management program stored in the memory and execute the charge management method as described above, and the Processor may be an Application SPECIFIC INTEGRATED Circuit (ASIC), a digital signal Processor (DIGITAL SIGNAL Processor, DSP), a digital signal processing device (DIGITAL SIGNAL Processing Device, DSPD), a programmable logic device (Programmable Logic Device, PLD), a field programmable gate array (Field Programmable GATE ARRAY, FPGA), a controller, a microcontroller, a microprocessor, or other electronic component for executing all or part of the steps of the embodiments of the charge management method as described above.

Example five

Based on the same inventive concept, the present embodiment provides a computer readable storage medium such as a flash memory, a hard disk, a multimedia card, a card memory (e.g., SD or DX memory, etc.), a Random Access Memory (RAM), a Static Random Access Memory (SRAM), a Read Only Memory (ROM), an Electrically Erasable Programmable Read Only Memory (EEPROM), a Programmable Read Only Memory (PROM), a magnetic memory, a magnetic disk, an optical disk, a server, an App application mall, etc., having stored thereon a computer program executable by one or more processors, which when executed by the processors may implement all or part of the steps of the respective embodiments of the charge management method of the present invention.

It should be noted that, the foregoing reference numerals of the embodiments of the present invention are merely for describing the embodiments, and do not represent the advantages and disadvantages of the embodiments.

The foregoing description is only of the optional embodiments of the present invention, and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions of the present invention and the accompanying drawings, or direct or indirect application in other related technical fields are included in the scope of the invention.

Claims (9)

1. A method of charge management, the method comprising:

Acquiring charging power and charging duration of a charging device, wherein the charging duration is actual charging duration after the charging device is charged, and the charging duration is acquired based on the time when the charging device is accessed and the charging device is disconnected;

judging whether the charging power is within a power class threshold range purchased by a user;

If the charging power is within the power class threshold range, acquiring a first duration according to the charging duration;

If the charging power is not in the power level threshold range, obtaining a second duration according to the charging duration and a preset coefficient; the preset coefficient is used for converting the charging duration;

obtaining the residual precharge duration according to the precharge duration purchased by the user and the first duration or the second duration;

Before the step of obtaining the charging power and the charging duration of the charging device, the method further includes:

obtaining a plurality of power levels and threshold ranges thereof according to a preset power level dividing rule;

Aiming at each power grade, obtaining the electric charge cost corresponding to the power grade according to the preset electric charge and the preset power consumption corresponding to the power grade;

Obtaining a preset charging rule according to a plurality of power levels and the corresponding electric charge cost so as to be purchased by a user; the preset charging rule comprises a power level, a power level threshold range, a precharge duration and expense corresponding to the power level, and a preset period.

2. The charge management method according to claim 1, wherein the step of acquiring the charge power and the charge duration of the charging device includes:

acquiring charging power of charging equipment sent by a charging pile; the charging power is obtained when the charging pile detects that the charging equipment is connected;

acquiring the charging time length of the charging equipment sent by the charging pile; the charging duration is based on the fact that the charging pile starts timing when detecting that the charging equipment is connected, and the timing is stopped when detecting that the charging equipment is disconnected.

3. The charge management method according to claim 1, wherein the step of obtaining a second duration from the charge duration and a preset coefficient if the charge power is not within the power class threshold range includes:

If the charging power is not in the power level threshold range, obtaining the actual power level of the charging power according to a preset charging rule;

obtaining a time length deduction conversion coefficient according to a preset coefficient corresponding to the actual power level and a preset coefficient corresponding to the power level purchased by a user;

And deducting a conversion coefficient according to the charging duration and the duration to obtain a second duration.

4. The charge management method according to claim 1, wherein the step of obtaining the remaining precharge period based on the precharge period purchased by the user and the first period or the second period includes:

Subtracting the first time length or the second time length according to the pre-charging time length purchased by the user to obtain a first residual pre-charging time length; or alternatively

And subtracting the first time length or the second time length according to the first residual pre-charging time length to obtain a second residual pre-charging time length.

5. The charge management method according to claim 1, wherein after the step of obtaining a preset charging rule according to a plurality of the power levels and the corresponding electric charge costs, the method further comprises:

And obtaining expected benefits of merchants according to the precharge duration and the charge corresponding to the power level and the electricity fee cost corresponding to the power level.

6. The charge management method according to claim 1, wherein after the step of obtaining the remaining precharge period based on the precharge period purchased by the user and the first period or the second period, the method further comprises:

When the preset period is detected to be reached, acquiring the total charging time length actually used by the charging equipment according to the residual pre-charging time length and the pre-charging time length;

And obtaining actual benefits of merchants according to the total charging duration, the electricity fee cost and the fees in the preset charging rule.

7. A charge management device, the device comprising:

The charging data acquisition module is used for acquiring charging power and charging duration of the charging equipment, wherein the charging duration is actual charging duration after the charging equipment is charged, and the charging duration is acquired based on the fact that the charging equipment is started and started when the charging equipment is started;

The charging power judging module is used for judging whether the charging power is in a power class threshold range purchased by a user or not;

The first time length acquisition module is used for acquiring a first time length according to the charging time length if the charging power is within the power class threshold range;

The second duration obtaining module is used for obtaining a second duration according to the charging duration and a preset coefficient if the charging power is not in the power class threshold range; the preset coefficient is used for converting the charging duration;

the remaining duration calculation module is used for obtaining the remaining precharge duration according to the precharge duration purchased by the user and the first duration or the second duration;

The power class dividing module is used for obtaining a plurality of power classes and threshold ranges thereof according to a preset power class dividing rule;

the electricity charge cost calculation module is used for obtaining the electricity charge cost corresponding to the power grade according to the preset electricity charge and the preset power consumption corresponding to the power grade;

The charging rule setting module is used for obtaining a preset charging rule according to a plurality of power levels and the corresponding electric charge cost so as to be purchased by a user; the preset charging rule comprises a power level, a power level threshold range, a precharge duration and expense corresponding to the power level, and a preset period.

8. A charge management device comprising a memory and a processor, the memory having stored thereon a charge management program which, when executed by the processor, implements the charge management method of any of claims 1 to 6.

9. A computer-readable storage medium having stored thereon a computer program executable by one or more processors to implement the charge management method of any of claims 1 to 6.