CN111932320A - Method and device for generating electricity charge preferential multidimensional code for contra-rotating power supply terminal user - Google Patents

Abstract

The embodiment of the application provides a method and a device for generating a power consumption preferential multidimensional code for a power supply transfer terminal user, and the method comprises the steps of receiving power consumption data reported by the power supply transfer terminal user, and analyzing the power consumption data to obtain a power supply transfer user label and power consumption cost; judging the category of the power transfer user based on the power transfer user label to obtain a first judgment value; determining electricity charge pricing corresponding to a power transfer terminal user according to the category of the power transfer user, and calculating the floating proportion of the electricity charges by combining the analyzed electricity charges to obtain a second judgment value; and drawing the preferential multi-dimensional code according to the first judgment value and the electric charge pricing, and modifying the color of the preferential multi-dimensional code based on the second judgment value. Judging the category and the electricity consumption cost of the user by using the electricity consumption data reported by the user to generate a discount code corresponding to the terminal user; and then the generated preferential codes are identified in different colors based on the judgment result, so that the cognition of the reasonability of the terminal user on the self-charged fee is enhanced.

Description

Method and device for generating electricity charge preferential multidimensional code for contra-rotating power supply terminal user

Technical Field

The application belongs to the field of data processing, and particularly relates to a method and a device for generating a multi-dimensional code with a preferential electric charge for a power supply terminal user.

Background

At present, the requirements of the state on the policy of charging work in the practical cleaning standard transfer power supply link are comprehensively implemented, a method for inquiring the implementation situation of the price reduction and expense reduction preferential policy is provided for a transfer power supply terminal user, the price reduction and expense reduction preferential policy is ensured to really benefit the terminal user, and the enterprise burden is practically reduced.

The power supply transfer is the behavior that the terminal user does not directly apply for the establishment of a household or does not have the condition of independent establishment of a household and is transferred by other power utilization main bodies. Mainly for the users who have power supply conversion links in commercial complexes, industrial parks, office buildings, property and the like. The users of the power supply are provided with different power price preferential ranges according to the current policy of the power supply enterprise. However, as the user does not know, certain property and intermediaries charge the user for the electricity fee, the benefit of the user is damaged, and the preferential policy cannot be implemented correctly.

Disclosure of Invention

In order to solve the defects and shortcomings in the prior art, the application provides the method and the device for generating the electric charge preferential multidimensional code for the power supply transfer terminal users.

Specifically, on one hand, the embodiment of the present application provides a method for generating a multi-dimensional code for a power transfer terminal user electric charge privilege, including:

receiving power consumption data reported by a power transfer terminal user by a double encryption algorithm, and analyzing the power consumption data to obtain a power transfer user label and power consumption cost;

judging the category of the power transfer user based on the power transfer user label to obtain a first judgment value;

determining electricity charge pricing corresponding to a power transfer terminal user according to the category of the power transfer user, calculating a floating proportion of electricity charges by combining the analyzed electricity charges, and obtaining a second judgment value according to different intervals corresponding to the floating proportion;

and drawing the preferential multi-dimensional code according to the first judgment value and the electric charge pricing, and modifying the color of the preferential multi-dimensional code based on the second judgment value.

Optionally, the receiving power consumption data reported by the power transfer terminal user by using a dual encryption algorithm, and analyzing the power consumption data to obtain a power transfer user tag and a power consumption fee includes:

controlling a power transfer terminal user to encrypt a power transfer user label and power consumption cost according to a double encryption algorithm to obtain a power consumption data packet;

and receiving the electricity utilization data packet, analyzing the electricity utilization data in sequence according to the processing mode corresponding to the data packet name, and respectively obtaining a power supply conversion user label and electricity utilization cost.

Optionally, the power consumption data is analyzed sequentially according to the processing mode corresponding to the data packet name, and a power supply user tag and power consumption cost are respectively obtained, including:

decrypting the power consumption data according to the secret key corresponding to the power supply user tag to obtain a primary ciphertext;

and decrypting the primary ciphertext according to the secret key corresponding to the electricity consumption to obtain the power supply conversion user tag and the electricity consumption.

Optionally, the determining, based on the label of the power transfer user, the category to which the power transfer user belongs to obtain a first determination value includes:

extracting power utilization property information in a power conversion user label;

and judging the payment grade corresponding to the power supply user according to the power utilization property information, and taking the payment grade as a first judgment value.

Optionally, the step of calculating a floating proportion of the electricity consumption according to the electricity consumption pricing corresponding to the category to which the power transfer user belongs, in combination with the electricity consumption obtained through analysis, and obtaining a second determination value according to different intervals corresponding to the floating proportion includes:

calculating the absolute value of the electricity charge difference obtained by pricing and analyzing the electricity charges;

calculating to obtain the percentage of the absolute value and the electricity fee pricing quotient value, and taking the obtained percentage as the floating proportion of the electricity fee;

and obtaining corresponding interval grades according to different intervals in which the floating proportion is positioned, and taking the obtained interval grades as second judgment values.

Optionally, the drawing the preferential multidimensional code according to the first determination value and the electricity fee pricing, and modifying the color of the preferential multidimensional code based on the second determination value includes:

determining preferential electric charge unit price enjoyed by the power transfer terminal user relative to electric charge pricing according to the payment grade corresponding to the first judgment value;

drawing a preferential multidimensional code corresponding to a power supply terminal user according to the preferential unit price of the electric charge;

and adjusting the color of the preferential multi-dimensional code according to a preset color rule and a second judgment value to obtain the preferential multi-dimensional code representing the current payment category of the power transfer terminal user.

On the other hand, the embodiment of the present application provides a device for generating a multi-dimensional code for a power transfer terminal user's electric charge privilege, including: the data processing unit is used for receiving the electricity utilization data reported by the power transfer terminal user by using a double encryption algorithm, and analyzing the electricity utilization data to obtain a power transfer user label and electricity utilization cost;

the first judging unit is used for judging the category of the power transfer user based on the power transfer user label to obtain a first judging value;

the second judgment unit is used for determining electricity charge pricing corresponding to the power transfer terminal user according to the category of the power transfer user, calculating the floating proportion of the electricity charge by combining the analyzed electricity charge, and obtaining a second judgment value according to different intervals corresponding to the floating proportion;

and the multi-dimensional code modification unit is used for drawing the preferential multi-dimensional code according to the first judgment value and the electric charge pricing and modifying the color of the preferential multi-dimensional code based on the second judgment value.

Optionally, the data processing unit includes:

the data encryption subunit is used for controlling a power transfer terminal user to encrypt the power transfer user label and the power consumption cost according to a double encryption algorithm to obtain a power consumption data packet;

and the data analysis subunit is used for receiving the electricity utilization data packet, analyzing the electricity utilization data in sequence according to the processing mode corresponding to the name of the data packet, and respectively obtaining a power supply conversion user label and electricity utilization cost.

Optionally, the data parsing subunit includes:

the first decryption subunit is used for decrypting the power consumption data according to the secret key corresponding to the power supply user tag to obtain a primary ciphertext;

and the second decryption subunit is used for decrypting the primary ciphertext according to the secret key corresponding to the electricity consumption cost to obtain the power supply user tag and the electricity consumption cost.

Optionally, the first determining unit includes:

the information extraction subunit is used for extracting the electricity utilization property information in the power supply user label;

and the first judgment subunit is used for judging the payment grade corresponding to the power supply user according to the power utilization property information, and taking the payment grade as a first judgment value.

Optionally, the second determining unit includes:

the difference calculating subunit is used for calculating the absolute value of the electricity charge difference obtained by pricing and analyzing the electricity charges;

the proportion determining subunit is used for calculating the percentage of the absolute value and the electricity fee pricing quotient value, and taking the obtained percentage as the floating proportion of the electricity fee;

and the second judgment subunit is used for obtaining corresponding section grades according to different sections where the floating proportion is located, and taking the obtained section grades as second judgment values.

Optionally, the multidimensional code modification unit includes:

the discount determining subunit is used for determining a discount electric charge unit price enjoyed by the power transfer terminal user relative to electric charge pricing according to the payment grade corresponding to the first judgment value;

the multi-dimensional code drawing subunit is used for drawing the preferential multi-dimensional codes corresponding to the power supply terminal users according to the preferential unit price of the electric charge;

and the color modifying subunit is used for adjusting the color of the preferential multi-dimensional code according to a preset color rule and by combining the second judgment value to obtain the preferential multi-dimensional code representing the current payment category of the power supply transfer terminal user.

The beneficial effect that technical scheme that this application provided brought is:

judging the category and the electricity consumption cost of the user by using the electricity consumption data reported by the user to generate a discount code corresponding to the terminal user; and then the generated preferential codes are identified in different colors based on the judgment result, so that the cognition of the reasonability of the terminal user on the self-charged fee is enhanced.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic flowchart of a method for generating a power transfer terminal user electric charge preference multidimensional code according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a device for generating a power transfer terminal user electric charge preference multidimensional code according to an embodiment of the present application.

Detailed Description

To make the structure and advantages of the present application clearer, the structure of the present application will be further described with reference to the accompanying drawings.

Example one

On one hand, the embodiment of the present application provides a method for generating a multi-dimensional code for a power transfer terminal user electric charge privilege, as shown in fig. 1, including:

11. receiving power consumption data reported by a power transfer terminal user by a double encryption algorithm, and analyzing the power consumption data to obtain a power transfer user label and power consumption cost;

12. judging the category of the power transfer user based on the power transfer user label to obtain a first judgment value;

13. determining electricity charge pricing corresponding to a power transfer terminal user according to the category of the power transfer user, calculating a floating proportion of electricity charges by combining the analyzed electricity charges, and obtaining a second judgment value according to different intervals corresponding to the floating proportion;

14. and drawing the preferential multi-dimensional code according to the first judgment value and the electric charge pricing, and modifying the color of the preferential multi-dimensional code based on the second judgment value.

In implementation, an embodiment of the present application provides a multi-dimensional code generation method, which is used for identifying whether a power supply terminal user enjoys an electric charge payment privilege policy. The method comprises the steps that a main object based on the multi-dimensional code generation process is power utilization data including a user label and power utilization fees, which are automatically reported by a power transfer terminal user, the power utilization pricing of the power transfer terminal user corresponding to the type is determined based on the user label, then the power utilization fees are compared with the received power utilization fees, the multi-dimensional code corresponding to the power transfer terminal user is generated, the price expansion range is obtained according to the comparison result, the color of the multi-dimensional code is further modified, on one hand, the preferential multi-dimensional code for payment after the user corresponding to the type enjoys the preferential policy is obtained, on the other hand, different colors are used for prompting whether the user currently enjoys the preferential payment policy, and therefore the rationality of charging the power transfer terminal user can be determined, and the preferential payment policy is guaranteed to be correct.

Specifically, the main idea of the method for generating the power transfer terminal user electric charge preference multidimensional code provided by the embodiment of the application is as follows:

firstly, receiving power utilization data reported by a power transfer terminal user. The corresponding step 11 comprises: controlling a power transfer terminal user to encrypt a power transfer user label and power consumption cost according to a double encryption algorithm to obtain a power consumption data packet;

and receiving the electricity utilization data packet, analyzing the electricity utilization data in sequence according to the processing mode corresponding to the data packet name, and respectively obtaining a power supply conversion user label and electricity utilization cost.

In implementation, since the electricity consumption data includes the user tag and the electricity consumption fee, in the subsequent step, the user tag can be used to determine the category to which the user uploading the electricity consumption data belongs, so as to determine whether the power supply transfer terminal user has the qualification of enjoying the payment privilege, and meanwhile, whether the power supply transfer terminal user has the phenomenon of not enjoying the payment privilege policy, such as multiple charges, and the like, is determined based on the electricity consumption fee.

Specifically, the steps of obtaining the tag of the power supply and the electricity charge include:

decrypting the power consumption data according to the secret key corresponding to the power supply user tag to obtain a primary ciphertext;

and decrypting the primary ciphertext according to the secret key corresponding to the electricity consumption to obtain the power supply conversion user tag and the electricity consumption.

Furthermore, in order to improve the reliability of data used in detailed processing in subsequent steps, encryption processing is required to be performed on the electricity consumption data before uploading in the step. Different from single encryption adopted by normal data encryption, the step adopts keys which respectively use two types of data to perform full-data double encryption processing aiming at the particularity of the two types of data contained in the uploaded power consumption data, so that the problem that external personnel of a power enterprise can simply decrypt and acquire the private message of the power transfer terminal user after acquiring the power consumption data based on an abnormal means can be prevented to a certain extent.

Secondly, after the power consumption data which adopts double encryption is received, the power consumption data is analyzed to obtain a power supply transfer user label which can judge whether the power supply transfer terminal user has the payment preferential qualification, and then the high-quality qualification judgment is carried out according to the power supply transfer user label to obtain a first judgment value. The corresponding step 12 comprises:

extracting power utilization property information in a power conversion user label;

and judging the payment grade corresponding to the power supply user according to the power utilization property information, and taking the payment grade as a first judgment value.

In implementation, in order to subsidize power supply terminal main bodies of different types to different degrees, enterprise registration information in a province public data platform is matched with customer archive data in an electric power system, power utilization property information including enterprise names, addresses, related persons, contact ways and unified social credit codes is obtained, large data algorithms such as text similarity are adopted, one-to-one matching analysis is carried out, and the highest value of 5 matching objects is used as a preferential power supply enterprise user.

For example, for different energy consumption levels, the preferential conversion power supply enterprise is divided into a plurality of levels, and the preferential users are divided into 95 discount payment preferential users, 98 discount payment preferential users and non-payment preferential users in sequence from low to high according to the energy consumption levels. And combining the corresponding levels of the power transfer terminal users and the payment discount proportion to obtain a first judgment value.

Thirdly, a second determination value is obtained, and the corresponding step 13 includes:

calculating the absolute value of the electricity charge difference obtained by pricing and analyzing the electricity charges;

calculating to obtain the percentage of the absolute value and the electricity fee pricing quotient value, and taking the obtained percentage as the floating proportion of the electricity fee;

and obtaining corresponding interval grades according to different intervals in which the floating proportion is positioned, and taking the obtained interval grades as second judgment values.

In the implementation, after judging whether the power transfer terminal user enjoys the payment privilege and the first judgment value corresponding to the privilege amplitude obtained in the previous step, if the power transfer terminal user enjoys the payment privilege, then the floating proportion of the extra electric charge generated by the user due to the fact that the user does not enjoy the payment privilege is calculated according to the electric charge obtained by analyzing the electric power consumption data (called monthly electric price of the power transfer terminal user) and the electric charge pricing corresponding to the privilege of the power transfer terminal user (called monthly comprehensive average electric price of the power transfer main user), and the second judgment value corresponding to different floating proportion intervals is obtained.

Illustratively, the floating ratio calculation formula is:

the floating proportion = (the monthly electricity price of the power transfer terminal user-the monthly comprehensive average electricity price of the power transfer main body user)/the monthly comprehensive average electricity price of the power transfer main body user is multiplied by 100%;

the main power supply transfer body user monthly comprehensive average electricity price = monthly total electricity charge (including basic electricity charge and power transfer electricity charge)/monthly total electricity quantity.

Finally, two aspects of processing are performed corresponding to step 14, and step 14 specifically includes:

determining preferential electric charge unit price enjoyed by the power transfer terminal user relative to electric charge pricing according to the payment grade corresponding to the first judgment value;

drawing a preferential multidimensional code corresponding to a power supply terminal user according to the preferential unit price of the electric charge;

and adjusting the color of the preferential multi-dimensional code according to a preset color rule and a second judgment value to obtain the preferential multi-dimensional code representing the current payment category of the power transfer terminal user.

In implementation, one of the two ways is to draw a preferential multidimensional code corresponding to the power transfer terminal according to whether a representative power transfer terminal user enjoys a payment privilege and a first determination value corresponding to which privilege level and an electric charge pricing obtained after enjoying the payment privilege, wherein the multidimensional code is used for representing the user category of the power transfer terminal user and the payment privilege level which should be enjoyed, so that when the electric charge is collected, the property or an intermediary can quickly obtain the payment privilege data of the power transfer terminal user according to the preferential multidimensional code, and the other way is to additionally collect the charge of the power transfer terminal user according to the representative previous interval, specifically, the content of three intervals, namely, a large proportion is additionally collected, a medium proportion is additionally collected or a small proportion is additionally collected, so as to remind the power transfer terminal user.

Typical color adjustment methods are:

green: the charging amplitude of the power supply is less than or equal to 15%, and the charging behavior of the power supply link is reasonable;

yellow: 15% < the power supply conversion pricing amplitude <30%, and risks in the power supply conversion link pricing behavior;

red: the charging amplitude of the power supply is more than or equal to 30%, and the charging behavior of the power supply link is high risk.

Example two

The embodiment of the present application provides a device 2 for generating a multi-dimensional code for providing a power cost benefit for a power transfer terminal user, as shown in fig. 2, including:

the data processing unit 21 is configured to receive power consumption data reported by a power transfer terminal user through a dual encryption algorithm, and analyze the power consumption data to obtain a power transfer user tag and power consumption charges;

the first judging unit 22 is configured to judge the category to which the power transfer user belongs based on the power transfer user tag to obtain a first judging value;

the second judgment unit 23 is configured to determine electricity fee pricing corresponding to the power transfer terminal user according to the category to which the power transfer user belongs, calculate a floating proportion of the electricity fee by combining the analyzed electricity fee, and obtain a second judgment value according to different intervals corresponding to the floating proportion;

and the multidimensional code modifying unit 24 is used for drawing the preferential multidimensional code according to the first judgment value and the electric charge pricing, and modifying the color of the preferential multidimensional code based on the second judgment value.

In implementation, an embodiment of the present application provides a multi-dimensional code generation method, which is used for identifying whether a power supply terminal user enjoys an electric charge payment privilege policy. The method comprises the steps that a main object based on the multi-dimensional code generation process is power utilization data including a user label and power utilization fees, which are automatically reported by a power transfer terminal user, the power utilization pricing of the power transfer terminal user corresponding to the type is determined based on the user label, then the power utilization fees are compared with the received power utilization fees, the multi-dimensional code corresponding to the power transfer terminal user is generated, the price expansion range is obtained according to the comparison result, the color of the multi-dimensional code is further modified, on one hand, the preferential multi-dimensional code for payment after the user corresponding to the type enjoys the preferential policy is obtained, on the other hand, different colors are used for prompting whether the user currently enjoys the preferential payment policy, and therefore the rationality of charging the power transfer terminal user can be determined, and the preferential payment policy is guaranteed to be correct.

Specifically, the main idea of the method for generating the power transfer terminal user electric charge preference multidimensional code provided by the embodiment of the application is as follows:

firstly, receiving power utilization data reported by a power transfer terminal user.

A corresponding data processing unit 21, comprising:

the data encryption subunit is used for controlling a power transfer terminal user to encrypt the power transfer user label and the power consumption cost according to a double encryption algorithm to obtain a power consumption data packet;

a data analysis subunit, configured to receive the electricity data packet, analyze the electricity data in sequence according to the processing mode corresponding to the data packet name, and obtain a power transfer user tag and an electricity charge

In implementation, since the electricity consumption data includes the user tag and the electricity consumption fee, in the subsequent step, the user tag can be used to determine the category to which the user uploading the electricity consumption data belongs, so as to determine whether the power supply transfer terminal user has the qualification of enjoying the payment privilege, and meanwhile, whether the power supply transfer terminal user has the phenomenon of not enjoying the payment privilege policy, such as multiple charges, and the like, is determined based on the electricity consumption fee.

Specifically, the data analysis subunit includes:

the first decryption subunit is used for decrypting the power consumption data according to the secret key corresponding to the power supply user tag to obtain a primary ciphertext;

and the second decryption subunit is used for decrypting the primary ciphertext according to the secret key corresponding to the electricity consumption cost to obtain the power supply user tag and the electricity consumption cost.

Furthermore, in order to improve the reliability of data used in detailed processing in subsequent steps, encryption processing is required to be performed on the electricity consumption data before uploading in the step. Different from single encryption adopted by normal data encryption, the step adopts keys which respectively use two types of data to perform full-data double encryption processing aiming at the particularity of the two types of data contained in the uploaded power consumption data, so that the problem that external personnel of a power enterprise can simply decrypt and acquire the private message of the power transfer terminal user after acquiring the power consumption data based on an abnormal means can be prevented to a certain extent.

Secondly, after the power consumption data which adopts double encryption is received, the power consumption data is analyzed to obtain a power supply transfer user label which can judge whether the power supply transfer terminal user has the payment preferential qualification, and then the high-quality qualification judgment is carried out according to the power supply transfer user label to obtain a first judgment value. The corresponding first decision unit 12 comprises:

the information extraction subunit is used for extracting the electricity utilization property information in the power supply user label;

and the first judgment subunit is used for judging the payment grade corresponding to the power supply user according to the power utilization property information, and taking the payment grade as a first judgment value.

In implementation, in order to subsidize power supply terminal main bodies of different types to different degrees, enterprise registration information in a province public data platform is matched with customer archive data in an electric power system, power utilization property information including enterprise names, addresses, related persons, contact ways and unified social credit codes is obtained, large data algorithms such as text similarity are adopted, one-to-one matching analysis is carried out, and the highest value of 5 matching objects is used as a preferential power supply enterprise user.

For example, for different energy consumption levels, the preferential conversion power supply enterprise is divided into a plurality of levels, and the preferential users are divided into 95 discount payment preferential users, 98 discount payment preferential users and non-payment preferential users in sequence from low to high according to the energy consumption levels. And combining the corresponding levels of the power transfer terminal users and the payment discount proportion to obtain a first judgment value.

Again, the second determination unit 13 for obtaining a second determination value includes:

the difference calculating subunit is used for calculating the absolute value of the electricity charge difference obtained by pricing and analyzing the electricity charges;

the proportion determining subunit is used for calculating the percentage of the absolute value and the electricity fee pricing quotient value, and taking the obtained percentage as the floating proportion of the electricity fee;

and the second judgment subunit is used for obtaining corresponding section grades according to different sections where the floating proportion is located, and taking the obtained section grades as second judgment values.

In the implementation, after judging whether the power transfer terminal user enjoys the payment privilege and the first judgment value corresponding to the privilege amplitude obtained in the previous step, if the power transfer terminal user enjoys the payment privilege, then the floating proportion of the extra electric charge generated by the user due to the fact that the user does not enjoy the payment privilege is calculated according to the electric charge obtained by analyzing the electric power consumption data (called monthly electric price of the power transfer terminal user) and the electric charge pricing corresponding to the privilege of the power transfer terminal user (called monthly comprehensive average electric price of the power transfer main user), and the second judgment value corresponding to different floating proportion intervals is obtained.

Illustratively, the floating ratio calculation formula is:

the floating proportion = (the monthly electricity price of the power transfer terminal user-the monthly comprehensive average electricity price of the power transfer main body user)/the monthly comprehensive average electricity price of the power transfer main body user is multiplied by 100%;

the main power supply transfer body user monthly comprehensive average electricity price = monthly total electricity charge (including basic electricity charge and power transfer electricity charge)/monthly total electricity quantity.

Finally, the multidimensional code modification unit 14 for constructing a preferential multidimensional code and performing color adjustment specifically includes:

the discount determining subunit is used for determining a discount electric charge unit price enjoyed by the power transfer terminal user relative to electric charge pricing according to the payment grade corresponding to the first judgment value;

the multi-dimensional code drawing subunit is used for drawing the preferential multi-dimensional codes corresponding to the power supply terminal users according to the preferential unit price of the electric charge;

and the color modifying subunit is used for adjusting the color of the preferential multi-dimensional code according to a preset color rule and by combining the second judgment value to obtain the preferential multi-dimensional code representing the current payment category of the power supply transfer terminal user.

In implementation, one of the two ways is to draw a preferential multidimensional code corresponding to the power transfer terminal according to whether a representative power transfer terminal user enjoys a payment privilege and a first determination value corresponding to which privilege level and an electric charge pricing obtained after enjoying the payment privilege, wherein the multidimensional code is used for representing the user category of the power transfer terminal user and the payment privilege level which should be enjoyed, so that when the electric charge is collected, the property or an intermediary can quickly obtain the payment privilege data of the power transfer terminal user according to the preferential multidimensional code, and the other way is to additionally collect the charge of the power transfer terminal user according to the representative previous interval, specifically, the content of three intervals, namely, a large proportion is additionally collected, a medium proportion is additionally collected or a small proportion is additionally collected, so as to remind the power transfer terminal user.

Typical color adjustment methods are:

green: the charging amplitude of the power supply is less than or equal to 15%, and the charging behavior of the power supply link is reasonable;

yellow: 15% < the power supply conversion pricing amplitude <30%, and risks in the power supply conversion link pricing behavior;

red: the charging amplitude of the power supply is more than or equal to 30%, and the charging behavior of the power supply link is high risk.

The sequence numbers in the above embodiments are merely for description, and do not represent the sequence of the assembly or the use of the components.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (12)

1. The method for generating the electric charge preferential multidimensional code for the contra-rotating power supply terminal user is characterized by comprising the following steps:

receiving power consumption data reported by a power transfer terminal user by a double encryption algorithm, and analyzing the power consumption data to obtain a power transfer user label and power consumption cost;

judging the category of the power transfer user based on the power transfer user label to obtain a first judgment value;

determining electricity charge pricing corresponding to a power transfer terminal user according to the category of the power transfer user, calculating a floating proportion of electricity charges by combining the analyzed electricity charges, and obtaining a second judgment value according to different intervals corresponding to the floating proportion;

and drawing the preferential multi-dimensional code according to the first judgment value and the electric charge pricing, and modifying the color of the preferential multi-dimensional code based on the second judgment value.

2. The method for generating a multi-dimensional code for a power supply transfer terminal user electric charge privilege according to claim 1, wherein the receiving power consumption data reported by a power supply transfer terminal user through a dual encryption algorithm, and analyzing the power consumption data to obtain a power supply transfer user tag and a power consumption charge comprises:

controlling a power transfer terminal user to encrypt a power transfer user label and power consumption cost according to a double encryption algorithm to obtain a power consumption data packet;

and receiving the electricity utilization data packet, analyzing the electricity utilization data in sequence according to the processing mode corresponding to the data packet name, and respectively obtaining a power supply conversion user label and electricity utilization cost.

3. The method for generating the multi-dimensional code for the electric charge discount of the power supply transfer terminal user according to claim 2, wherein the analyzing the power consumption data sequentially according to the processing mode corresponding to the data packet name to respectively obtain the power supply transfer user tag and the power consumption fee comprises:

decrypting the power consumption data according to the secret key corresponding to the power supply user tag to obtain a primary ciphertext;

and decrypting the primary ciphertext according to the secret key corresponding to the electricity consumption to obtain the power supply conversion user tag and the electricity consumption.

4. The method for generating the multi-dimensional code for the electric charge discount of the power supply transfer terminal user according to claim 1, wherein the determining the category to which the power supply transfer user belongs based on the power supply transfer user tag to obtain the first determination value comprises:

extracting power utilization property information in a power conversion user label;

and judging the payment grade corresponding to the power supply user according to the power utilization property information, and taking the payment grade as a first judgment value.

5. The method for generating the multi-dimensional code for the electric charge discount of the power supply transfer terminal user according to claim 1, wherein the step of calculating a floating proportion of the electric charges according to the electric charge pricing corresponding to the category to which the power supply transfer user belongs by combining the electric charges obtained through analysis, and obtaining a second determination value according to different intervals corresponding to the floating proportion comprises:

calculating the absolute value of the electricity charge difference obtained by pricing and analyzing the electricity charges;

calculating to obtain the percentage of the absolute value and the electricity fee pricing quotient value, and taking the obtained percentage as the floating proportion of the electricity fee;

and obtaining corresponding interval grades according to different intervals in which the floating proportion is positioned, and taking the obtained interval grades as second judgment values.

6. The method for generating the multi-dimensional code for the electric charge discount of the power supply terminal user according to claim 1, wherein the drawing the multi-dimensional code according to the first determination value and the electric charge pricing, and modifying the color of the multi-dimensional code based on the second determination value includes:

determining preferential electric charge unit price enjoyed by the power transfer terminal user relative to electric charge pricing according to the payment grade corresponding to the first judgment value;

drawing a preferential multidimensional code corresponding to a power supply terminal user according to the preferential unit price of the electric charge;

and adjusting the color of the preferential multi-dimensional code according to a preset color rule and a second judgment value to obtain the preferential multi-dimensional code representing the current payment category of the power transfer terminal user.

7. The device for generating the electric charge preferential multidimensional code for the contra-rotating power supply terminal user is characterized by comprising:

the data processing unit is used for receiving the electricity utilization data reported by the power transfer terminal user by using a double encryption algorithm, and analyzing the electricity utilization data to obtain a power transfer user label and electricity utilization cost;

the first judging unit is used for judging the category of the power transfer user based on the power transfer user label to obtain a first judging value;

the second judgment unit is used for determining electricity charge pricing corresponding to the power transfer terminal user according to the category of the power transfer user, calculating the floating proportion of the electricity charge by combining the analyzed electricity charge, and obtaining a second judgment value according to different intervals corresponding to the floating proportion;

and the multi-dimensional code modification unit is used for drawing the preferential multi-dimensional code according to the first judgment value and the electric charge pricing and modifying the color of the preferential multi-dimensional code based on the second judgment value.

8. The apparatus for generating electric charge preferential multidimensional code for power supply transfer terminal users according to claim 7, wherein the data processing unit comprises:

the data encryption subunit is used for controlling a power transfer terminal user to encrypt the power transfer user label and the power consumption cost according to a double encryption algorithm to obtain a power consumption data packet;

and the data analysis subunit is used for receiving the electricity utilization data packet, analyzing the electricity utilization data in sequence according to the processing mode corresponding to the name of the data packet, and respectively obtaining a power supply conversion user label and electricity utilization cost.

9. The apparatus for generating electric charge preferential multidimensional code for power supply transfer terminal users according to claim 8, wherein the data analysis subunit comprises:

the first decryption subunit is used for decrypting the power consumption data according to the secret key corresponding to the power supply user tag to obtain a primary ciphertext;

and the second decryption subunit is used for decrypting the primary ciphertext according to the secret key corresponding to the electricity consumption cost to obtain the power supply user tag and the electricity consumption cost.

10. The apparatus for generating an electric charge discount multidimensional code for a power supply terminal user according to claim 7, wherein the first determining unit comprises:

the information extraction subunit is used for extracting the electricity utilization property information in the power supply user label;

and the first judgment subunit is used for judging the payment grade corresponding to the power supply user according to the power utilization property information, and taking the payment grade as a first judgment value.

11. The apparatus for generating an electric charge offer multi-dimensional code for a power transfer terminal user according to claim 7, wherein the second determining unit comprises:

the difference calculating subunit is used for calculating the absolute value of the electricity charge difference obtained by pricing and analyzing the electricity charges;

the proportion determining subunit is used for calculating the percentage of the absolute value and the electricity fee pricing quotient value, and taking the obtained percentage as the floating proportion of the electricity fee;

and the second judgment subunit is used for obtaining corresponding section grades according to different sections where the floating proportion is located, and taking the obtained section grades as second judgment values.

12. The apparatus for generating a multi-dimensional code for providing an electric charge preference to a power supply terminal user according to claim 7, wherein the multi-dimensional code modification unit comprises:

the discount determining subunit is used for determining a discount electric charge unit price enjoyed by the power transfer terminal user relative to electric charge pricing according to the payment grade corresponding to the first judgment value;

the multi-dimensional code drawing subunit is used for drawing the preferential multi-dimensional codes corresponding to the power supply terminal users according to the preferential unit price of the electric charge;

and the color modifying subunit is used for adjusting the color of the preferential multi-dimensional code according to a preset color rule and by combining the second judgment value to obtain the preferential multi-dimensional code representing the current payment category of the power supply transfer terminal user.

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