CN116187992A

CN116187992A - Online power generation system

Info

Publication number: CN116187992A
Application number: CN202211412544.XA
Authority: CN
Inventors: 杨晓坤; 杨晓波; 李颖; 韩硕辰; 刘岩; 刘志凯
Original assignee: State Grid Jibei Electric Power Co Ltd
Current assignee: State Grid Jibei Electric Power Co Ltd
Priority date: 2022-11-11
Filing date: 2022-11-11
Publication date: 2023-05-30

Abstract

The invention discloses an online power handling system, which belongs to the technical field of electric power marketing, and comprises a power handling host system, a login unit, a monitoring unit, an alarm unit, a charging unit and a chart analysis unit, wherein the power handling host system comprises a server which is of a Meshmesh architecture, the communication mode is one-to-many, the server enters from a PC end and a mobile end, the mobile end comprises a mobile phone and a tablet personal computer, the server monitors service requests submitted by other terminals on a network, and under the control of a network operation system, the server provides a hard disk, a printer, a Modem and various special communication devices connected with the server to customer sites on the network for sharing, and can also provide centralized calculation, information publishing and data management services for network users, and the server hardware mainly comprises: processor, memory, chipset, I/O (RAID card, network card, HBA card), hard disk, chassis. The online power generation system is convenient and quick to use as a whole, high in intelligent degree and capable of meeting the electricity consumption requirements of the daily life of a user.

Description

Online power generation system

Technical Field

The invention belongs to the technical field of electric power marketing, and particularly relates to an online power handling system.

Background

The electric power is an energy source taking electric energy as power, and is an electric power production and consumption system consisting of links of power generation, transmission, transformation, distribution, electricity consumption and the like.

Today, the internet age, we are still in ever-increasing demand for electricity, as we invented more electricity-using products such as computers, appliances, etc. The continuous appearance of the novel technology can not be denied so that the electric power becomes a necessity of people, with the increase of electric equipment, daily households can not leave the electric power, the electric power needs to be charged with the expense, with the continuous change of the daily life style of people, the electric power can be inconvenient to go out in order to charge the electric charge, the electric power is directly handled on line and is more and more favored by people, the current system mode aiming at the on-line office is old, the use is not intelligent enough, and the use requirement can not be met.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, along with the continuous change of the daily life mode of people, the online power handling is more and more favored by people because the online power handling is carried out for recharging the electric charge, and the current system mode aiming at online point handling is old, the use is not intelligent enough and the use requirement cannot be met.

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

the utility model provides an on-line power generation system, includes power generation host system, login unit, monitor unit, alarm unit, charging unit and chart analysis unit, power generation host system includes the server, the server is Mesh framework, the communication mode is one to many, the server is got into by PC end and mobile terminal, mobile terminal includes the cell-phone, the panel computer, the server is through listening the service request that other terminals submitted on the network, under the control of network operating system, hard disk that links to each other with it, the printer, modem and various special communication equipment provide the customer site sharing on the network, also can provide centralized calculation for the network user, information publishing and data management service, the server hardware mainly includes: processor, memory, chipset, I/O (RAID card, network card, HBA card), hard disk, chassis.

Preferably, the login unit performs identity verification according to a system popup window after a user enters the system, the identity verification comprises a user name and a login password, the system enters the checking interface after clicking confirmation, at the moment, the user input byte is compared with the input byte, login can be completed after confirmation and the user input byte enters the power handling system main interface, if the login byte which can be effectively compared cannot be input, the user cannot enter the power handling system, the system is automatically connected with a user login address after login, and the follow-up operation of the user is monitored.

Preferably, the monitoring unit is used for numbering and marking the system against the user registration address, monitoring the electricity consumption of the numbering and marking position, installing an electric meter of the internet of things in the user, receiving the electricity consumption degree of the electric meter in real time through a wireless communication network, integrating the system after receiving the electricity consumption degree and forwarding the power consumption degree to a system interface, and checking the system interface at a mobile terminal or a PC terminal by the user;

the charging unit is used for reading the electricity consumption number of each branch, carrying out real-time cost calculation based on the unified electricity price, and determining the real-time cost and the real-time number generated by each circuit, wherein the charging reading is to set a starting time period to an ending time period, the starting time period and the ending time period are in the lowest counting unit of hours, the hour is set as X, the day is 24X, the week is 7X 24X, the month is 30X 24X, and the like.

Preferably, the alarm unit sets an electricity consumption range for each independent number position, the electricity consumption range is judged by the system according to real-time payment of a user and the stagnation times of the user, and when the residual electric quantity of the user is smaller than a target monitoring value, a first alarm instruction is generated and a first alarm operation is carried out based on the first alarm instruction;

if the disposable electric quantity of the user is higher than the preset value of the system, the system generates a second alarm instruction and performs a second alarm operation based on the second alarm instruction; the system sets a disposable electricity utilization degree range for a user, if the degree is continuously generated, the system judges that the electricity utilization is abnormal, and prompts the user to check the switching condition of the electric appliance in time;

the first alarm instruction and the second alarm instruction are popup windows of the user side and the mobile side, and the popup windows can be eliminated after the user receives and views the popup windows.

Preferably, the charging unit comprises a payment module, a user selects a user number on a system interface, the system verifies that the user number and the set number mark exist and then enters a charging port, the charging port is synchronously connected with a payment module, the system interface jumps to a payment window after the user enters the charging port, and fee input and real-time payment are carried out in the payment window.

Preferably, the chart analysis unit establishes a chart display window for analyzing the electric quantity of the user in the system, and the user can check the electricity analysis chart of the account binding resident in real time when entering the display window from the system;

preferably, the electricity consumption analysis chart comprises a chart of consumed electricity, a chart of unused electricity, a chart of electricity consumption peak time period and a chart of daily electricity consumption, and electricity consumption comparison is automatically generated, wherein the electricity consumption analysis chart is at least one of a bar chart, a pie chart and a ring chart.

Preferably, the payment window transmits the electricity fee statistics to the electricity-handling main system, the electricity-handling main system calculates the electricity fee statistics into corresponding electricity month and sends the electricity month to the charging unit, the charging unit changes the available electricity allowance after receiving the data of the degree, and the available electricity balance of the user is improved in the system after the user finishes paying the fee.

In summary, the technical effects and advantages of the present invention are: this on-line power generation system can carry out the on-line power generation through the power generation host system, need not the user and go out the recharging charges of electricity, and through the analysis function in taking certainly in the system, can directly perceivedly see monthly, the real-time data of power consumption of every season and details, help the user just see the power consumption condition, and through the control in the system, live display power consumption peak value and time quantum, and charge to different electrical apparatus, still produce a large amount of degrees and then can indicate the user if unmanned, forget to close the electrical apparatus, reduce user's power consumption extravagant, through further saving the energy, whole convenient to use is swift, intelligent degree is high, can satisfy user's daily life power consumption demand.

Drawings

FIG. 1 is a schematic block diagram of the structure of the present invention;

FIG. 2 is a block diagram of a point of transaction host system interface display;

FIG. 3 is a block diagram of an online point process;

fig. 4 is a schematic block diagram of a graph analysis unit.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1, an on-line electricity handling system includes an electricity handling host system, a login unit, a monitoring unit, an alarm unit, a charging unit and a chart analysis unit, wherein the electricity handling host system includes a server, the server is a Mesh framework, the communication mode is one-to-many, the server is accessed by a PC end and a mobile end, the mobile end includes a mobile phone and a tablet computer, the server monitors service requests submitted by other terminals on a network, under the control of a network operation system, hard disks, printers, modems and various special communication devices connected with the server are provided for customer sites on the network to share, and centralized calculation, information publishing and data management services can also be provided for network users, and the server hardware mainly includes: processor, memory, chipset, I/O (RAID card, network card, HBA card), hard disk, chassis.

In this embodiment, referring to fig. 2, the login unit performs identity verification according to the system popup window after a user enters the system, including a user name and a login password, clicks a verification interface after confirmation, compares the user input byte with the input byte at this time, completes login after confirmation and enters the power handling system main interface, if the login byte which can be effectively compared cannot be input, the power handling system cannot be entered, the system automatically connects the user login address after login, and monitors the subsequent operation of the user. The monitoring unit is used for numbering and marking the user registration address, monitoring the electricity consumption of the position of the numbering and marking, installing an Internet of things ammeter in a household, receiving the electricity consumption degree of the ammeter in real time through a wireless communication network, integrating and forwarding the electricity consumption degree to a system interface after receiving the electricity consumption degree, and checking by a user through the system interface at a mobile terminal or a PC terminal; the charging unit is used for reading the electricity consumption number of each branch, carrying out real-time cost calculation based on the unified electricity price, and determining the real-time cost and the real-time number generated by each circuit, wherein the charging reading is to set a starting time period to an ending time period, the starting time period and the ending time period are in the lowest counting unit of hours, the hour is set as X, the day is 24X, the week is 7X 24X, the month is 30X 24X, and the like. The alarm unit is used for setting an electricity consumption range for each independent number position, judging the electricity consumption range by the system according to real-time payment of a user and the user diapause times, generating a first alarm instruction when the residual quantity of the user is smaller than a target monitoring value, and performing first alarm operation based on the first alarm instruction; if the disposable electric quantity of the user is higher than the preset value of the system, the system generates a second alarm instruction and performs a second alarm operation based on the second alarm instruction; the system sets a disposable electricity utilization degree range for a user, if the degree is continuously generated, the system judges that the electricity utilization is abnormal, and prompts the user to check the switching condition of the electric appliance in time; the first alarm instruction and the second alarm instruction are popup windows of the user side and the mobile side, and the popup windows can be eliminated after the user receives and views the popup windows.

Referring to fig. 3 and 4, the charging unit includes a payment module, a user performs user number selection on a system interface, the system verifies that the user number and the set number mark exist and then enters a charging port, a payment module is synchronously connected in the charging port, the system interface jumps to a payment window after the user enters the charging port, and fee input and real-time payment are performed in the payment window. The payment window transmits the electricity fee statistics to the electricity-handling host system, the electricity-handling host system calculates the electricity fee statistics into corresponding electricity month and sends the electricity month to the charging unit, the charging unit changes the available electricity allowance after receiving the data of the degree, and the available electricity balance of the user is improved in the system after the user finishes paying. The chart analysis unit is used for establishing a chart display window for analyzing the electric quantity of the user in the system, and the user can check the electricity analysis chart of the account binding resident in real time when entering the display window from the system;

the electricity consumption analysis chart comprises a used electricity consumption chart, an unused electricity consumption chart, an electricity consumption peak time period chart and a daily electricity consumption chart, and electricity consumption comparison is automatically generated, wherein the electricity consumption analysis chart is at least one of a bar chart, a column chart, a pie chart and a ring chart.

The payment window transmits the electricity fee statistics to the electricity-handling host system, the electricity-handling host system calculates the electricity fee statistics into corresponding electricity month and sends the electricity month to the charging unit, the charging unit changes the available electricity allowance after receiving the data of the degree, and the available electricity balance of the user is improved in the system after the user finishes paying.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides an on-line power generation system, includes power generation host system, login unit, monitor unit, alarm unit, charging unit and chart analysis unit, its characterized in that, power generation host system includes the server, the server is Mesh framework, communication mode is one to many, the server is got into by PC end and mobile terminal, mobile terminal includes the cell-phone, the panel computer, the server is through listening the service request that other terminals on the network submitted, under the control of network operating system, hard disk that links to each other with it, the printer, modem and various special communication equipment provide the customer website sharing on the network, also can provide centralized calculation for the network user, information release and data management service, the server hardware mainly includes: processor, memory, chipset, I/O (RAID card, network card, HBA card), hard disk, chassis.

2. The on-line power handling system according to claim 1, wherein the login unit performs authentication according to a system popup window after a user enters the system, the authentication comprises a user name and a login password, the system enters the check interface after clicking confirmation, at this time, the user input byte is compared with the entered byte, the login can be completed after confirmation and the login unit enters the main interface of the power handling system, if the login byte which can be effectively compared cannot be input, the power handling system cannot be entered, the system is automatically connected with a user login address after the login, and the subsequent operation of the user is monitored.

3. The on-line power handling system according to claim 1, wherein the monitoring unit is used for numbering and marking by the system against a user registration address, monitoring the power consumption of the position of the numbering and marking, installing an electric meter of the internet of things in a resident by the numbering and marking, receiving the power consumption degree of the electric meter in real time through a wireless communication network, integrating and forwarding the power consumption degree to a system interface after receiving the power consumption degree, and checking by a user by using the system interface at a mobile terminal or a PC terminal;

4. The on-line power handling system according to claim 1, wherein the alarm unit sets a power consumption range for each independent number position, the power consumption range is judged by the system according to real-time payment of a user and the user stagnation number, and when the residual power of the user is smaller than a target monitoring value, a first alarm instruction is generated and a first alarm operation is performed based on the first alarm instruction;

5. The on-line power generation system according to claim 1, wherein the charging unit comprises a payment module, the user performs user number selection on the system interface, the system verifies that the user number and the set number mark exist and then enters the charging port, the charging port is synchronously connected with the payment module, the system interface jumps to a payment window after the user enters the charging port, and fee input and real-time payment are performed inside the payment window.

6. The on-line power generation system according to claim 1, wherein the chart analysis unit is configured to create a chart display window for analyzing the power consumption of the user, and the user can view the power consumption analysis chart of the account bound resident in real time when the user enters the display window from the system.

7. The on-line power handling system of claim 6, wherein the electricity usage analysis graph includes a graph of electricity usage, a graph of electricity usage not, a graph of electricity usage peak time periods, and a graph of electricity usage to date, and wherein the electricity usage comparison is automatically generated, the electricity usage analysis graph being at least one of a bar graph, a pie graph, and a ring graph.

8. The on-line power supply system according to claim 5, wherein the payment window transmits the electricity fee statistics to the power supply host system, the electricity fee statistics are calculated as corresponding electricity months by the power supply host system and are sent to the charging unit, the charging unit receives the data of the degree and then changes the available electricity allowance, and the available electricity balance of the user is improved in the system after the user finishes paying.