CN114943018A - Power supply data processing system based on big data - Google Patents

Abstract

The invention belongs to the technical field of power supply data, and particularly discloses a power supply data processing system based on big data, which comprises a power supply data total system, wherein the power supply data total system is electrically connected with a power supply data area subsystem through a real-time data interface, the power supply data area subsystem is electrically connected with a power supply distribution center and a backup database, the power supply distribution center is electrically connected with a power supply conveying unit, the power supply conveying unit is electrically connected with a power supply data abnormity module, the power supply data abnormity module is electrically connected with a data analysis module, the data analysis module is electrically connected with a data checking module, the data checking module is electrically connected with a user information database and a user data tracking module, the data checking module is connected with the backup database, and the user data tracking module is connected with a user side through a feedback unit. The invention can monitor the power supply data information in real time, and can perform positioning tracking processing on abnormal data, thereby effectively achieving the purposes of power utilization safety and timely loss prevention.

Description

Power supply data processing system based on big data

Technical Field

The invention belongs to the technical field of power supply data, and particularly discloses a power supply data processing system based on big data.

Background

Electric energy is the main energy and power for modern industrial production. It is easy to be converted from other forms of energy and also to be supplied with other forms of energy; the conveying and distribution of the device are simple and economical, and the device is convenient to control, adjust and measure, and is beneficial to realizing the automation of the production process. Therefore, the application of electric energy in modern industry and people's life is extremely wide. In order to ensure the stability and the safety of power supply, the power supply big data can be comprehensively processed, and the existing power supply data processing system cannot monitor and process the power supply data in time, so that the safety of power utilization is reduced, and great loss can be brought to users or power supply companies.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a big data-based power supply data processing system.

In order to achieve the above purpose, the present invention provides a big data-based power supply data processing system, which includes a power supply data main system, wherein the power supply data main system is electrically connected to a power supply data area subsystem through a real-time data interface, the power supply data area subsystem is electrically connected to a power supply distribution center and a backup database, and the power supply distribution center is electrically connected to a power supply conveying unit;

the power supply conveying unit is electrically connected with the power supply data abnormity module, the power supply data abnormity module is electrically connected with the data analysis module, the data analysis module is electrically connected with the data checking module, the data checking module is electrically connected with the user information database and the user data tracking module, the data checking module is connected with the backup database, and the user data tracking module is connected with the user side through the feedback unit;

the power supply conveying unit is electrically connected with a time control unit.

In the above technical solution, preferably, the time control unit includes a voltage monitoring unit and a data monitoring module electrically connected to the power supply transmission unit, the data monitoring module is electrically connected to the data load unit, the data load unit is electrically connected to the alarm unit and the emergency coordination scheduling unit, respectively, and the emergency coordination scheduling unit is connected to the power supply distribution center.

In the above technical scheme, it is preferable that the voltage monitoring unit includes a voltage monitoring module electrically connected with the power supply conveying unit, the voltage monitoring module is electrically connected with the voltage abnormity module, the voltage abnormity module is connected with the abnormity positioning module, the abnormity positioning module is connected with the power grid emergency repair module through the data transmission module, and the power grid emergency repair module is electrically connected with the emergency repair end.

In the above technical solution, preferably, the power supply delivery unit is electrically connected to the warning module and the power limiting module respectively, and the warning module and the power limiting module are electrically connected to the user side.

In the above technical solution, preferably, a cost statistics unit is connected between the user side and the power supply data area subsystem, the cost statistics unit includes a data sending module electrically connected to the power supply data area subsystem, the data sending module is electrically connected to the data conversion module, and the data conversion module is connected to the user side through the communication unit.

In the above technical solution, preferably, the communication unit includes a short message module, a telephone module, and a network module.

In the above technical solution, preferably, a user feedback unit is connected between the user side and the user data area subsystem, and the user feedback unit includes a complaint recording module and a warranty module.

In the above technical solution, preferably, the power supply data main system is electrically connected to a power supply database.

Compared with the prior art, the invention has the following beneficial effects:

the abnormal power supply transmission data can be responded and warned by arranging the power supply data abnormal module, meanwhile, the abnormal analysis and check are carried out by combining the data analysis module and the data check module with the backup database, the abnormal data user is tracked by combining the user data tracking module with the user information database, the abnormal state is transmitted to the user side through the feedback unit, the warning module can warn the user when the power supply data is abnormal, and meanwhile, the power limiting module is used for limiting the power of the user, so that the purposes of power utilization safety and timely loss stopping are achieved;

the set data monitoring module can monitor the power supply data of the power supply conveying unit in real time, the data load unit and the alarm can give an alarm in time when the power supply data generates a load state, and the load state information is transmitted to the power supply distribution center through the emergency coordination scheduling unit, so that the power supply distribution center can adjust the power supply scheme in time;

meanwhile, the voltage monitoring module can monitor the transmission voltage in real time, and meanwhile, when the voltage is abnormal, the abnormal positioning module can quickly position abnormal points and transmit abnormal information to the power grid emergency repair module through the data transmission module, so that the emergency repair module is informed to timely perform emergency repair treatment on the abnormal points.

Drawings

Fig. 1 is a schematic structural diagram of a big data-based power supply data processing system according to the present invention;

fig. 2 is a schematic structural diagram of a voltage monitoring unit of a big data-based power supply data processing system according to the present invention;

FIG. 3 is a schematic diagram of a cost statistics unit of a big data based power supply data processing system according to the present invention;

FIG. 4 is a schematic diagram of a connection structure of a user feedback unit of a big data-based power supply data processing system according to the present invention;

fig. 5 is a schematic structural diagram of a communication unit of a big data-based power supply data processing system according to the present invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings.

The system for processing power supply data based on big data as shown in fig. 1-5 includes a power supply data main system, the power supply data main system is electrically connected with a power supply database, the power supply data main system is electrically connected with a power supply data area subsystem through a real-time data interface, the power supply data area subsystem is electrically connected with a power supply distribution center and a backup database, the power supply distribution center is electrically connected with a power supply transmission unit, the real-time data interface transmits data provided by the power supply data area subsystem to the power supply data main system in real time, and simultaneously backups and stores the transmitted data through the backup database, and the power supply transmission unit transmits the data according to the data distributed by the power supply distribution center.

The power supply data abnormity module is used for responding to abnormal power supply transmission data and alarming, meanwhile, the abnormity analysis and verification are carried out by combining the data analysis module and the data verification module with the backup database, and abnormal data users are tracked by combining the user data tracking module with the user information database, and transmitting the abnormal state to the user side through the feedback unit.

Connect the electric connection at power supply delivery unit and have the time control unit, the time control unit includes voltage monitoring unit and data monitoring module with power supply delivery unit electric connection, data monitoring module electric connection data load unit, data load unit electric connection alarm unit and emergent coordination scheduling unit respectively, emergent coordination scheduling unit is connected with power supply distribution center, data monitoring module can carry out real time monitoring to power supply delivery unit's power supply data, and data load unit and warning can in time report to the police when power supply data produces the load state and warn, and through emergent coordination scheduling unit with load state information transmission to power supply distribution center, ensure that power supply distribution center in time adjusts the power supply scheme.

The voltage monitoring unit comprises a voltage monitoring module electrically connected with the power supply conveying unit, the voltage monitoring module is electrically connected with a voltage abnormity module, the voltage abnormity module is connected with an abnormity positioning module, the abnormity positioning module is connected with a power grid emergency repair module through a data transmission module, the power grid emergency repair module is electrically connected with an emergency repair end, the voltage monitoring module can monitor the conveying voltage in real time, meanwhile, when the voltage is abnormal, the abnormity positioning module can quickly position an abnormity point, and transmits abnormal information to the power grid emergency repair module through the data transmission module, so that the abnormal point is informed to the emergency repair end to perform emergency repair processing in time.

The power supply conveying unit is electrically connected with the warning module and the power limiting module respectively, the warning module is electrically connected with the power limiting module at a user side, the warning module warns a user when power supply data is abnormal, and meanwhile, the power limiting module is used for conducting power limiting processing on the user, so that the purposes of power utilization safety and timely loss stopping are achieved.

The charge counting unit is connected between the user side and the power supply data area subsystem and comprises a data sending module electrically connected with the power supply data area subsystem, the data sending module is electrically connected with a data conversion module, the data conversion module is connected with the user side through a communication unit, the data sending module can transmit power supply data received by the power supply data area subsystem to the data conversion module for conversion processing, and meanwhile, the converted result is transmitted to the user side through the communication unit to remind the user of timely paying.

The communication unit comprises a short message module, a telephone module and a network module, and conversion information can be sent to the user side in a multi-mode through the short message module, the telephone module and the network module.

The foregoing shows and describes the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A power supply data processing system based on big data comprises a power supply data main system and is characterized in that the power supply data main system is electrically connected with a power supply data area subsystem through a real-time data interface, the power supply data area subsystem is electrically connected with a power supply distribution center and a backup database, and the power supply distribution center is electrically connected with a power supply conveying unit;

the real-time data interface transmits the data provided by the power supply data area subsystem to the power supply data main system in real time, meanwhile, the transmitted data are backed up and stored through the backup database, and the power supply transmission unit transmits the data according to the data distributed by the power supply distribution center;

the power supply conveying unit is electrically connected with the power supply data abnormity module, the power supply data abnormity module is electrically connected with the data analysis module, the data analysis module is electrically connected with the data checking module, the data checking module is electrically connected with the user information database and the user data tracking module, the data checking module is connected with the backup database, and the user data tracking module is connected with the user side through the feedback unit;

the power supply data abnormity module performs response warning on abnormal power supply transmission data, performs abnormity analysis and checking by combining the data analysis module and the data checking module with a backup database, tracks abnormal data users by combining the user data tracking module with a user information database, and transmits an abnormal state to the user side through the feedback unit;

the power supply conveying unit is electrically connected with a time control unit.

2. The system according to claim 1, wherein the time control unit comprises a voltage monitoring unit and a data monitoring module electrically connected to the power supply transmission unit, the data monitoring module is electrically connected to a data load unit, the data load unit is electrically connected to an alarm unit and an emergency coordination scheduling unit, the emergency coordination scheduling unit is connected to the power supply distribution center, the data monitoring module can monitor power supply data of the power supply transmission unit in real time, the data load unit and the alarm can give an alarm in time when the power supply data is in a load state, and the load state information is transmitted to the power supply distribution center through the emergency coordination scheduling unit, so that the power supply distribution center can adjust the power supply scheme in time.

3. The power supply data processing system based on big data as claimed in claim 2, wherein the voltage monitoring unit includes a voltage monitoring module electrically connected with the power supply conveying unit, the voltage monitoring module is electrically connected with a voltage abnormality module, the voltage abnormality module is connected with an abnormality positioning module, the abnormality positioning module is connected with a power grid emergency repair module through a data transmission module, the power grid emergency repair module is electrically connected with an emergency repair end, the voltage monitoring module can monitor the conveying voltage in real time, and when the voltage is abnormal, the abnormality positioning module can quickly position an abnormal point and transmit abnormal information to the power grid emergency repair module through the data transmission module, so as to inform the emergency repair end of performing emergency repair on the abnormal point in time.

4. The big data-based power supply data processing system according to claim 1, wherein the power supply delivery unit is electrically connected to a warning module and a power limiting module, respectively, the warning module is electrically connected to the user side with the power limiting module, and the warning module warns the user when the power supply data is abnormal, and performs power limiting processing on the user through the power limiting module, so as to achieve the purposes of power utilization safety and timely loss stopping.

5. The big data-based power supply data processing system according to claim 1, wherein a cost statistics unit is connected between the user side and the power supply data area subsystem, the cost statistics unit includes a data sending module electrically connected to the power supply data area subsystem, the data sending module is electrically connected to a data conversion module, the data conversion module is connected to the user side through a communication unit, the data sending module transmits the power supply data received by the power supply data area subsystem to the data conversion module for conversion processing, and simultaneously transmits the converted result to the user side through the communication unit to remind the user of paying in time.

6. The big data based power supply data processing system according to claim 5, wherein the communication unit comprises a short message module, a telephone module and a network module, and conversion information can be sent to the user side in multiple ways through the short message module, the telephone module and the network module.

7. The big data based power supply data processing system according to claim 1, wherein a user feedback unit is connected between the user terminal and the user data area subsystem, and the user feedback unit comprises a complaint recording module and a warranty module.

8. The big data based power supply data processing system according to claim 1, wherein the power supply data main system is electrically connected with a power supply database.

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