[0043] The present invention will be further described below in conjunction with the drawings. The following embodiments are only used to illustrate the technical solutions of the present invention more clearly, and cannot be used to limit the protection scope of the present invention.
[0044] Such as figure 1 As shown, a residential energy consumption reporting system based on power point rewards of the present invention includes a user terminal, a main energy collection station and an Internet convergence access server;
[0045] The logical flow of the reporting system is as follows figure 2 Shown.
[0046] The user terminal includes a receiving module, an energy input module, an upload module, a display module, a point query module, and a point redemption module;
[0047] The receiving module is used to receive the power point reward rules formulated and issued by the power company, the user's power point information and prompt information;
[0048] The energy consumption input module is used to input residents' energy consumption data;
[0049] The energy consumption input module includes a manual input module and an image shooting module;
[0050] The manual entry module is used to manually enter the meter count;
[0051] The image shooting function module is used for shooting meter pictures.
[0052] The upload module is used to upload residential energy consumption data;
[0053] The display module is used to display power point reward rules, user power point information and prompt information;
[0054] The points query module is used to query user power points information;
[0055] The points redemption module is used to redeem points rewards according to the power point reward rules;
[0056] In an embodiment, the user terminal further includes an upload count statistics module, which is used to count the number of valid energy consumption data uploads of the user on the day before the upload module uploads the resident energy consumption data, and at the same time determine whether the number of valid energy consumption data uploads of the user on the day is If the limit is exceeded, the display module will display a message indicating that the upload cannot be continued; if the limit is not exceeded, the module will upload the residential energy consumption data.
[0057] In an embodiment, the user terminal is an embedded device.
[0058] The implementation steps for the user terminal to enter residential energy consumption are as follows image 3 Shown.
[0059] The energy consumption collection master station includes a data receiving module, a processing module, an accounting and generating module, and a sending module;
[0060] The data receiving module is used to receive resident energy consumption data;
[0061] The processing module is used to process residential energy consumption data;
[0062] In an embodiment, the processing module includes an identification and calibration module and a judgment module;
[0063] The identification and calibration module is used to identify and calibrate the number shown in the meter picture;
[0064] The judging module is used to judge whether the picture identification number is consistent with the manually entered meter number. If they are the same, the calculation and generation module performs calculation and generates user power points information, otherwise the sending module sends a data error prompt to the user terminal information.
[0065] The accounting and generating module is used for accounting and generating user power point information;
[0066] The sending module is used to send user power point information and prompt information to the user terminal.
[0067] In an embodiment, the energy consumption collection master station further includes a storage module for storing resident energy consumption data and user power point information, that is, storing resident energy consumption and user power point information in an electric energy database.
[0068] Such as Figure 4 As shown, the working process of the energy consumption collection master station is:
[0069] The data receiving module receives the meter count and meter picture entered manually;
[0070] Identify and calibrate the module to identify and calibrate the meter shown in the picture;
[0071] The judgment module judges whether the picture identification number is consistent with the manually entered meter number. If they are the same, the calculation and generation module performs the calculation and generates user power point information. At the same time, the storage module stores the residential energy consumption and user power point information in the electricity In the energy database, otherwise the sending module sends a data error prompt message to the user terminal.
[0072] The internet convergent access server is used to realize the information interaction between the energy consumption collection master station and the user terminal.
[0073] In an embodiment, the Internet convergence access server is an embedded device server (for example, a WeChat public platform server or other power APP access server).
[0074] The Internet convergence access server is located on the power information external network, the energy consumption collection main station is located on the power information internal network, and the Internet convergence access server and the energy consumption collection main station are physically separated by an isolation device.
[0075] In the embodiment of the present invention, the residential energy consumption includes gas consumption, electricity consumption, and water consumption. The following uses electricity consumption as an example for description.
[0076] The electricity points include resident energy consumption points and data upload points;
[0077] That is: user power point F = power point F E +Data upload points F D; (1-1)
[0078] The residential energy consumption points can be obtained by the following two schemes:
[0079] Option 1: Resident energy consumption points are directly accumulated by residents' energy consumption:
[0080] Power integral F E = Daily electricity Q* integral multiple λ; (1-2)
[0081] Assuming that the integral multiple is set to 1, then:
[0082] User 3201002 with 120 kWh of electricity in the month can get 120 electricity points
[0083] The user 3201001 has a monthly power of 100 degrees and can get 100 power points.
[0084] Scheme 2: The residential energy consumption points are obtained by accumulating peak and valley time-sharing energy consumption:
[0085]
[0086]
[0087] The data upload points are determined by the number of valid energy consumption data uploads, the offset time of the data upload time and hourly hour, and the bonus points set in the points rules.
[0088] In order to regulate the frequency of users uploading data as much as possible, and achieve the effect of users uploading on the hour every hour, points F for uploading data D The calculation of introducing the bias coefficient g n , Data upload points F D The calculation formula is as follows:
[0089]
[0090] among them:
[0091]
[0092]
[0093] Among them, the effective coefficient Vn is used to limit the number of uploads, that is, up to 24 times a day, and the interval between uploads must exceed 60 minutes;
[0094] Bias factor g n It is used to standardize the upload time. The closer you are to the hour, the higher the score you will get. It is determined according to the offset time between the data upload time and the hour hour, that is, if you upload data within 15 minutes after the hour hour, you can get full points; 15-30 Minutes, get 50% points; 30-59 minutes 5% points;
[0095] Reward points λ is the number of points that can be obtained for each valid data uploaded by the power company;
[0096] For example: assuming that the reward point λ is 1, the user 3201002 has a total of 58 effective reports in the month, and all of them are reported within 15 minutes after the hour, they can get 58 points;
[0097] User 3201001 has a total of 60 effective reporting times in the current month, but 12 of them are reported within 15-30 minutes after the hour, and they can obtain reporting points of 48+6=54 points;
[0098] In an embodiment, the user power points information includes points details, the number of data uploads on the day, the number of points available for data upload, and the point ranking.
[0099] The accounting and generation module can rank users according to different dimensions such as total points, power points, data upload points, etc., and publish them to the user terminal. Users can participate in points redemption activities through the points query and point redemption module, which improves users’ participation in activities. Positivity; the user’s power points details and rankings in the embodiment of the present invention are as follows:
[0100] Rank Account numbers Power points Report points total points 1 3201002 120 58 178 2 3201001 121 54 175
[0101] Through ranking and point redemption, users can increase the fun and enthusiasm of participating in reporting, reduce the cost of investing in the construction of smart meters, and reduce security risks.
[0102] The applicant of the present invention gave a detailed explanation and description of the implementation examples of the present invention in conjunction with the accompanying drawings. However, those skilled in the art should understand that the above implementation examples are only preferred embodiments of the present invention, and the detailed description is only to help readers better. It is understood that the spirit of the present invention is not limited to the protection scope of the present invention. On the contrary, any improvement or modification made based on the inventive spirit of the present invention should fall within the protection scope of the present invention.
