CN115130928A - Solar charging management system and method - Google Patents

Abstract

The application provides a solar charging management system and a solar charging management method, which relate to the field of solar management, and the solar charging management method comprises the following steps: establishing an initial electricity credit value of a user; charging according to the electricity consumption of the user to obtain the actual electricity consumption cost; adjusting the actual electricity credit value of the user according to the actual payment and the actual electricity charge of the user; and adjusting the charging mode for the user according to the actual electricity credit value. The payment condition is linked with the electricity utilization credit of the user, the actual electricity utilization credit value of the user is adjusted according to the actual payment and the actual electricity utilization cost of the user, the charging mode for the user is adjusted according to the actual electricity utilization credit value, an adaptation period is provided for the user, different electricity utilization credit values correspond to different charging modes, the lower the credit value is, the higher the charging is, the higher the bad electricity utilization habit constraint is formed for the user, the electricity utilization habit of the user is promoted to be improved, the effective utilization rate of solar energy is improved, and waste is reduced.

Description

Solar charging management system and method

Technical Field

The application relates to the technical field of solar management, in particular to a solar charging management system and method.

Background

Solar energy refers to the general term of solar illumination energy, and generally refers to the electrical energy generated by solar panels.

In the prior art, a solar panel is generally installed in an array in an area, and then electric power is transmitted to a user terminal (including a plurality of users, the users generally set a watt-hour meter for measuring power consumption, and then the user charges and pays according to the power consumption) by using a line and a power distribution facility, however, since power generation by the solar panel is a new energy application, even if the price of the electric power generated by the solar panel is reduced to be lower than that of the common power (the price of the electric power transmitted by a conventional utility pole or a utility tower), there are many people who reject the electric power generated by the solar panel in the countryside, and even if some people are willing to use the electric power generated by the solar panel, in practice, some users find that the cost of the electric power generated by the solar panel is low (the unit price is low, for example, the conventional electricity consumption unit price is 0.5 yuan per degree, and the unit price of the electric energy generated by the solar panel is 0.3 yuan per degree or even lower), so that unreasonable electricity consumption is performed, electric energy waste is caused, the waste generated electricity fee causes a phenomenon that part of users arrear the electricity fee (the part of users think that the part of users do not actually use more electricity), and the phenomenon is usually temporary, the electricity consumption habits of the part of users are gradually improved along with the lapse of time, if the phenomenon occurs, the cooperation of the part of users is cancelled, more users are lost, the user quantity is reduced, the input cost is not reduced, and the less the user quantity is, the more difficult the addition of new users is, and a vicious circle is formed.

Therefore, a system capable of managing solar energy needs to be developed, so that a corresponding charging mode is adopted for different users, an adaptation period is provided for the users, the electricity utilization habits of the users are improved, the effective utilization rate of the solar energy is improved, and waste is reduced.

Disclosure of Invention

The application provides a solar charging management system and method, which are used for adopting corresponding charging modes aiming at different users, providing adaptation periods for the users, improving the electricity utilization habits of the users, improving the effective utilization rate of solar energy and reducing waste.

In order to achieve the above object, in an aspect 1 of the present application, there is provided a solar billing management method, including the steps of:

establishing an initial electricity credit value of a user;

charging according to the electricity consumption of the user to obtain the actual electricity consumption cost;

adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge;

and adjusting the charging mode for the user according to the actual electricity credit value.

In some embodiments of aspect 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

if the actual payment is divided by the actual electricity consumption charge and is less than 0.2, the actual electricity consumption credit value is 0.

In some embodiments of aspect 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

if the actual payment is not less than 0.2 and not more than 0.8, the actual electricity credit value is the actual electricity credit value multiplied by the actual payment and not more than 0.8.

In some embodiments of aspect 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

if the actual payment is not less than 0.8 and not more than the actual electricity consumption is less than 1, the actual electricity consumption credit value is equal to the actual electricity consumption credit value-1.

In some embodiments of aspect 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

and if the actual payment is not less than 1 and not more than the actual electricity consumption fee, the actual electricity consumption credit value is equal to the actual electricity consumption credit value plus the initial electricity consumption credit value and is not less than 3, and the actual electricity consumption credit value corresponding to the latest full payment period is not less than 3.

In some embodiments of aspect 1, said adjusting the charging of the user according to the actual electricity credit value comprises:

if the actual electricity credit value is divided by the initial electricity credit value and is less than 0.2, the standard charging is stopped.

In some embodiments of aspect 1, said adjusting the charging of the user according to the actual electricity credit value comprises:

if the actual electricity credit value is not less than 0.2 and not more than 0.8 and the initial electricity credit value is less than 0.8, the standard charging is limited continuously.

In some embodiments of aspect 1, said adjusting the charging of the user according to the actual electricity credit value comprises:

if the actual electricity credit value is not less than 0.8 and not more than the initial electricity credit value is less than 1, intermittently limiting the standard charging;

and if the actual electricity credit value is not less than 1 and divided by the initial electricity credit value, standard charging is carried out.

In the 2 nd aspect of the present application, there is provided a solar billing management system, comprising:

the power distribution module is respectively connected with the solar power generation end and the user end and is used for collecting the power consumption of each user of the user end;

and the cloud end is in communication connection with the power distribution module and is used for charging according to the power consumption to obtain actual power consumption, adjusting the actual power consumption credit value of the user according to the actual payment of the user and the actual power consumption, and adjusting the charging mode for the user according to the actual power consumption credit value.

In some embodiments of aspect 2, the power distribution module comprises: the first communication module is connected with the watt-hour meter;

the cloud end comprises a second communication module, a processor and a memory which are sequentially connected;

the memory comprises a credit value database, a power consumption database, a payment database and a computer program;

the first communication module is in communication connection with the second communication module, and the first communication module is used for sending the power consumption acquired by the power distribution module to the cloud;

the watt-hour meter is used for collecting the electricity consumption;

the credit value database is used for storing an initial electricity utilization credit value and an actual electricity utilization credit value of a user, the electricity consumption database is used for storing the electricity consumption, and the payment database is used for storing the actual payment and the actual electricity utilization fee;

the computer program is adapted to be executed by the processor to implement the solar charging management method according to aspect 1.

The application has the following beneficial effects:

the solar charging management system and the method provided by the application can provide an adaptation period for the user by establishing a connection between the payment condition and the user's power utilization credit, adjusting the actual power utilization credit value of the user according to the actual payment and the actual power utilization charge of the user, and adjusting the charging mode for the user according to the actual power utilization credit value, so that the user can improve the power utilization habits, the user arrests the power utilization charge when the user uses the electricity unreasonable for the first time to cause unnecessary power consumption, the user can properly reduce the power utilization credit value of the user without directly consuming the cooperation of the user, different power utilization credit values correspond to different charging modes, the lower the credit value is, the higher the unit price of the power is, the bad power utilization constraint is formed for the user, the user is promoted to improve the power utilization habits, and after the user improves the power utilization habits, the subsequent payment in the payment period can improve the power utilization credit value of the user, the charging mode for the user is improved, the effective utilization rate of solar energy is finally improved, and waste is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic flow chart of a solar billing management method in an embodiment of the present application;

FIG. 2 is a schematic diagram illustrating a flowchart of an algorithm for adjusting an actual credit value according to an embodiment of the present application;

FIG. 3 is a schematic diagram illustrating an algorithm flow for adjusting a charging mode in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a solar billing management system in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a power distribution module in an embodiment of the present application;

fig. 6 is a schematic structural diagram of a cloud in an embodiment of the present application;

fig. 7 is a schematic structural diagram of a memory in the embodiment of the present application.

Reference numerals are as follows:

100. a solar power generation end; 200. a user side; 300. a power distribution module; 310. a first communication module; 320. a controller; 330. an electric meter; 340. a relay; 400. a cloud end; 410. a second communication module; 420. a processor; 430. a memory; 431. a credit value database; 432. a power consumption database; 433. a payment database; 434. a computer program.

Detailed Description

Embodiments of the present application are described in further detail below with reference to the figures and examples, and the terminology used in the description of the embodiments of the present application is for the purpose of describing particular embodiments of the present application only and is not intended to be limiting of the present application.

As shown in fig. 1, in embodiment 1 of the present application, a solar billing management method is provided, which includes the following steps:

establishing an initial electricity credit value of a user;

charging according to the electricity consumption of the user to obtain the actual electricity consumption cost;

adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge;

and adjusting the charging mode for the user according to the actual electricity credit value.

Different electricity usage habits of users and different concepts of electricity value, some users have the condition of electricity consumption and consider that the electricity charge is high, if the cooperation of the users is directly cancelled, the popularization of solar energy application is not facilitated, therefore, the payment condition can be linked with the electricity credit of the users (the first actual electricity credit value of the user is the initial electricity credit value, the initial electricity credit value is set as 100 in the embodiment), the actual electricity credit value of the users is adjusted according to the actual payment and the actual electricity charge of the users, the charging mode for the users is adjusted according to the actual electricity credit value, an adaptation period is provided for the users, so that the electricity usage habits of the users are improved, the users can use the electricity for the first time to cause unnecessary electricity consumption, the users can default the electricity charge, the electricity credit value of the users can be properly reduced without directly cancelling the cooperation of the users, and different electricity credit values correspond to different charging modes, the lower the credit value, the higher the unit price of the electric charge, the higher the restriction on bad electricity utilization habits of the user, the improvement of the electricity utilization habits of the user is promoted, after the electricity utilization habits of the user are improved, the sufficient payment in the subsequent payment period is carried out, the electricity utilization credit value of the user is improved, the charging mode of the user is improved, the effective utilization rate of solar energy is finally improved, and the waste is reduced.

As shown in fig. 2, in some embodiments of example 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge includes:

if the actual payment is divided by the actual electricity consumption charge and is less than 0.2, the actual electricity consumption credit value is 0.

Through the above embodiment, the smaller the ratio between the actual payment of the user and the actual electricity consumption, the larger the reduction of the actual electricity credit value, when the ratio between the actual payment of the user and the actual electricity consumption is less than 0.2, that is, the actual payment amount does not reach 20% of the actual electricity consumption, it is determined that the user has malicious behavior, it is difficult to prompt the user to improve the electricity consumption habit or payment attitude, at this time, the actual electricity credit value of the user is adjusted to 0, the standard payment right benefit of the user in 3 payment periods is cancelled, that is, the standard payment is no longer taken for the user within 3 months (each payment period is one month long), but the electricity price is increased to 1.5 times of the standard price, that is, the electricity fee required to be paid in each charging period is increased by 1.5 times compared with the standard charging, for example, the standard charging is 100 yuan, 150 yuan is required after the standard payment right benefit is cancelled, and after 3 months, the actual electricity credit value of the user is restored, namely, the actual electricity credit value is equal to the initial electricity credit value.

In some embodiments of example 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

if the actual payment is not less than 0.2 and not more than 0.8, the actual electricity credit value is the actual electricity credit value multiplied by the actual payment and not more than 0.8.

Through the embodiment, if the actual payment exceeds 20% of the actual electricity consumption, it is determined that the user does not have the malicious situation of defaulting the electricity charge, the actual electricity consumption credit value of the user can be properly reduced, and the charging mode for the user is correspondingly adjusted, for example, the electricity charge unit price in the peak electricity consumption period is increased to 1.2 times of the standard unit price, so that the user is prompted to improve the electricity consumption habits and the payment attitude, the ineffective utilization of solar energy by the user can be reduced, and the adaptation period can be provided for the user.

In some embodiments of example 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

and if the actual payment is not less than 0.8 and not more than 1 and the actual electricity consumption is less than 1, the actual electricity consumption credit value is equal to-1.

Through the above embodiment, the actual payment exceeds 80% of the actual electricity consumption, which determines that the user does not have malicious situation of defaulting on the electricity consumption, but only has slight price-cutting behavior, for example, the user considers that a certain benefit needs to be provided, but actually the solar electricity consumption unit price is lower than the traditional electricity consumption unit price, and actually a benefit exists, so that in order to avoid waste caused by unreasonable electricity consumption of the user due to too low electricity consumption unit price, the actual electricity consumption credit value of the user is slightly reduced, and the charging mode of the user, such as the payment defaulting part and interest thereof, is correspondingly adjusted to remind the user of properly improving electricity consumption habits and payment habits.

In some embodiments of example 1, the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

and if the actual payment is not less than 1 and not more than the actual electricity consumption fee, the actual electricity consumption credit value is equal to the actual electricity consumption credit value plus the initial electricity consumption credit value and is not less than 3, and the actual electricity consumption credit value corresponding to the latest full payment period is not less than 3.

Through the above embodiment, when the actual payment is full, it is determined that the payment habit of the user is good, and if the previous actual power credit value of the user is low and the charging is high, the user can persist the full payment in 3 payment cycles to recover the initial power credit value, for example, if the actual power credit value corresponding to the current payment cycle is 88, after the current payment cycle is full, the actual power credit value is 88 + (100-88) ÷ 3 ═ 92, and the actual payment in the next payment cycle is still full, the next actual power credit value is 92 + (100-88) ÷ 3 ÷ 96, and the actual payment in the next payment cycle is still full, the next actual power credit value is 96 + (100-88) ÷ 3 ═ 100; if the next payment in the latest payment period has no sufficient amount, when the subsequent full amount payment period is needed, establishing an actual electricity credit value corresponding to the subsequent full amount payment period; thereby promoting the user to keep the habit of paying the full amount in each payment period.

As shown in fig. 3, in some embodiments of example 1, the adjusting the charging manner for the user according to the actual electricity credit value includes:

if the actual electricity credit value is divided by the initial electricity credit value and is less than 0.2, the standard charging is stopped.

The period of stopping the standard charging is 3 months (namely 3 payment periods), and in the 3 months, the unit price of the electric charge of each payment period is calculated according to 1.5 times of the unit price of the standard electric charge, namely the charging after stopping the standard charging is 1.5 times of the standard charging.

In some embodiments of example 1, the adjusting the charging manner for the user according to the actual electricity credit value includes:

if the actual electricity credit value is not less than 0.2 and not more than 0.8 and the initial electricity credit value is less than 0.8, the standard charging is limited continuously.

The continuous limit standard charging means that the unit price of the electric charge in the peak period of the electricity consumption is increased to 1.2 times of the standard unit price after 2 months (namely 2 payment periods) are continuously carried out.

In some embodiments of example 1, said adjusting the charging mode for the user according to the actual electricity credit value includes:

if the actual electricity credit value is not less than 0.8 and not more than the initial electricity credit value is less than 1, intermittently limiting the standard charging;

and if the actual electricity credit value is not less than 1 and divided by the initial electricity credit value, standard charging is carried out.

The intermittent limit standard charging refers to that the debt part and the interest thereof are paid after 2 months (namely 2 payment periods) continuously, if the 2 payment periods have payment full amount (comprising the debt part and the interest part), the intermittent limit standard charging is cancelled, and the subsequent payment periods are charged according to a standard charging mode.

The standard charging is to charge by using the original price of the electric charge, and the original price of the electric charge is lower than the traditional price of the electric charge.

As shown in fig. 4 to 7, in embodiment 2 of the present application, there is provided a solar billing management system including:

the power distribution module 300 is respectively connected with the solar power generation end 100 and the user end 200, and is used for collecting power consumption of each user of the user end 200;

and the cloud 400 is in communication connection with the power distribution module 300 and is used for charging according to the power consumption to obtain actual power consumption, adjusting the actual power consumption credit value of the user according to the actual payment of the user and the actual power consumption, adjusting the charging mode of the user according to the actual power consumption credit value and sending the adjustment result to the power distribution module 300.

In some implementations of example 2, the power distribution module 300 includes: the first communication module 310, the controller 320, the watt-hour meter 330 and the relay 340 are connected in sequence;

the cloud 400 comprises a second communication module 410, a processor 420 and a memory 430 which are connected in sequence;

the memory 430 comprises a credit value database 431, a power consumption database 432, a payment database 433 and a computer program 434;

the first communication module 310 is in communication connection with the second communication module 410, and the first communication module 310 is configured to send the power consumption collected by the power distribution module 300 to the cloud 400;

the controller 320 is used for controlling the relay 340 to work, the watt-hour meter 330 is used for collecting the electricity consumption, and the relay 340 is used for switching the on-off of a circuit between the solar power generation end 100 and the user end 200;

the credit value database 431 is used for storing an initial electricity utilization credit value and the actual electricity utilization credit value of a user, the electricity consumption database 432 is used for storing the electricity consumption, and the payment database 433 is used for storing the actual payment and the actual electricity utilization charge;

the computer program 434 is adapted to be executed by the processor 420 to implement the solar billing management method according to embodiment 1.

The above examples are only for explaining the present application and are not intended to limit the present application, and those skilled in the art can make modifications to the embodiments of the present application without inventive contribution as needed after reading the present specification, but are protected by patent laws within the scope of the claims of the present application.

Claims (10)

1. A solar charging management method is characterized by comprising the following steps:

establishing an initial electricity credit value of a user;

charging according to the electricity consumption of the user to obtain the actual electricity consumption cost;

adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge;

and adjusting the charging mode for the user according to the actual electricity credit value.

2. The solar billing management method of claim 1, wherein the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

if the actual payment is divided by the actual electricity consumption charge and is less than 0.2, the actual electricity consumption credit value is 0.

3. The solar charging management method of claim 1, wherein the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

if the actual payment is not less than 0.2 and not more than 0.8, the actual electricity credit value is the actual electricity credit value multiplied by the actual payment and not more than 0.8.

4. The solar billing management method of claim 1, wherein the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

and if the actual payment is not less than 0.8 and not more than 1 and the actual electricity consumption is less than 1, the actual electricity consumption credit value is equal to-1.

5. The solar charging management method of claim 1, wherein the adjusting the actual electricity credit value of the user according to the actual payment of the user and the actual electricity charge comprises:

and if the actual payment is not less than 1 and not more than the actual electricity consumption fee, the actual electricity consumption credit value is equal to the actual electricity consumption credit value plus the initial electricity consumption credit value and is not less than 3, and the actual electricity consumption credit value corresponding to the latest full payment period is not less than 3.

6. The solar charging management method of claim 1, wherein the adjusting the charging mode for the user according to the actual electricity credit value comprises:

if the actual electricity credit value is divided by the initial electricity credit value and is less than 0.2, the standard charging is stopped.

7. The solar billing management method of claim 1, wherein the adjusting the billing method for the user according to the actual electricity credit value comprises:

if the actual electricity credit value is not less than 0.2 and not more than 0.8 and the initial electricity credit value is less than 0.8, the standard charging is limited continuously.

8. The solar charging management method of claim 1, wherein the adjusting the charging mode for the user according to the actual electricity credit value comprises:

if the actual electricity credit value is not less than 0.8 and not more than the initial electricity credit value is less than 1, intermittently limiting standard charging;

if the actual electricity credit value is not less than 1 and not more than the initial electricity credit value, standard charging is carried out.

9. A solar billing management system, comprising:

the power distribution module is respectively connected with the solar power generation end and the user end and is used for collecting the power consumption of each user of the user end;

the cloud end is in communication connection with the power distribution module and used for charging according to the power consumption to obtain actual power consumption, adjusting the actual power consumption credit value of the user according to the actual payment of the user and the actual power consumption, and adjusting the charging mode of the user according to the actual power consumption credit value.

10. The solar billing management system of claim 9 wherein the power distribution module comprises: the first communication module is connected with the watt-hour meter;

the cloud end comprises a second communication module, a processor and a memory which are sequentially connected;

the memory comprises a credit value database, a power consumption database, a payment database and a computer program;

the first communication module is in communication connection with the second communication module, and the first communication module is used for sending the power consumption acquired by the power distribution module to the cloud;

the electric meter is used for collecting the electricity consumption;

the credit value database is used for storing an initial electricity utilization credit value and an actual electricity utilization credit value of a user, the electricity consumption database is used for storing the electricity consumption, and the payment database is used for storing the actual payment and the actual electricity utilization fee;

the computer program is adapted to be executed by the processor to implement the solar charging management method according to any of claims 1 to 8.

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