CN116937794A - Electric power control detection system and method - Google Patents

Abstract

The invention relates to the technical field of power detection, in particular to a power control detection system and method. After judging the region with abnormal electricity consumption, the invention accurately judges the probability of the electric leakage state and the probability of the electricity stealing state in the fault region according to the information such as the relevant electricity consumption state and the like in the region, timely informs related personnel to make corresponding reactions according to the probability between the two, timely and remotely collects the electricity stealing evidence when judging the electricity stealing state, and then informs monitoring personnel to go to the site to control illegal molecules, thereby timely and accurately acquiring the evidence of the illegal molecule electricity stealing, avoiding the illegal molecule from going wrong and running empty outside the remote law, and greatly saving the manpower of the inspection personnel.

Description

Electric power control detection system and method

Technical Field

The invention relates to the technical field of power detection, in particular to a power control detection system and a power control detection method.

Background

With the rapid development of social economy, the role of electric power resources in the daily life of people is increasingly important. However, in order to reduce the expenditure of the electric power resource, individual users steal the electric power by fraudulent means such as electricity larceny and fraud, and serious economic loss is caused to the electric power company. In order to solve the problem, the power company has adopted more measures to check and rectify, and has achieved certain effects.

The existing power system can judge whether the power consumption is abnormal or not according to the collected power consumption data such as the current and the voltage of each phase, but cannot accurately judge whether the current power consumption is in a leakage state or a power stealing state, if the actual condition is the leakage, the system misjudges the power stealing, the manpower of a worker can be greatly wasted, if the actual condition is the power stealing, and if the system misjudges the leakage, the lawbreaker can go beyond the law, and the evidence of the power stealing of the lawbreaker cannot be accurately obtained.

Disclosure of Invention

The present invention is directed to a power control detection system and a method thereof, so as to solve the problems set forth in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the power control detection system comprises a data acquisition module, a processor, a region division module, a designated region information extraction module, a characteristic analysis module, an electricity stealing protection module, an electricity leakage protection module and a classification warning module, wherein the output end of the data acquisition module is electrically connected with the input end of the processor, and the output end of the processor is electrically connected with the input ends of the region division module, the designated region information extraction module, the characteristic analysis module, the electricity stealing protection module, the electricity leakage protection module and the classification warning module; the processor is used for transmitting and storing the acquired data; the region dividing module divides the power utilization region by adopting a grid method and marks the region with abnormal data; the appointed area information extraction module is used for collecting equipment information in the marked area; the characteristic analysis module performs calculation and analysis according to the acquired equipment information to judge whether the current power stealing state or the current leakage state is performed; the electricity stealing protection module is used for making corresponding measures for preventing electricity stealing according to the judged fault type; the leakage protection module is used for making anti-leakage protection measures according to the judged fault type; the classification warning module is used for making warning signals and operations corresponding to the fault types according to the judged fault types.

Further, the data acquisition module comprises a rated current unit, a rated voltage unit, a residual current unit and a rated working voltage unit, wherein the rated current unit is used for acquiring rated current data, the rated voltage is used for acquiring rated voltage data, the residual current unit is used for acquiring residual current data, and the rated working voltage unit is used for acquiring residual rated working voltage data.

Further, the processor comprises a data receiving unit, a data sending unit, a data processing unit and a data storage unit, wherein the data receiving unit is used for receiving data information acquired by the front end, the data generating unit is used for conveying the received data information to the data processing unit, the data processing unit is used for processing the received data, eliminating redundant data and retaining effective data, and the data storage unit is used for storing the data after coming out to form a database.

Further, the area division module comprises a city area unit, a street unit, a partition unit and a division unit, wherein the city area unit is used for dividing the distributed areas in the city area according to the distributed areas in the city, the street unit is used for dividing the distributed streets in the city area, the partition unit is used for dividing the areas into the minimum range according to the distributed residential areas in the city area, and the division unit is used for dividing the areas into the minimum range according to a grid method.

Further, the specified area information extraction module comprises a circuit equipment information extraction unit, an electrical equipment information extraction unit, an industrial electricity information extraction unit and an electricity consumption peak information extraction unit, wherein the circuit equipment information extraction unit is used for extracting service life information of a circuit in a specified area, the electrical equipment information extraction unit is used for extracting service life information of an electrical appliance in the specified area, the industrial electricity information extraction unit is used for extracting service life information of electric equipment using industrial electricity in the specified area, and the electricity consumption peak information extraction unit is used for extracting information of various electric equipment in the electricity consumption peak period and the electricity consumption peak period in the specified area.

Further, the characteristic analysis module comprises an electricity consumption abnormal time period analysis unit, an electricity consumption device analysis unit, an electricity consumption peak period analysis unit and a fault type output unit, wherein the electricity consumption abnormal time period analysis unit is used for carrying out integrated analysis on the time periods of electricity consumption abnormality in a fault area, the electricity consumption device analysis unit is used for analyzing the service lives of all the electricity consumption devices in the fault area, the electricity consumption peak period analysis unit is used for carrying out analysis on the time periods of the electricity consumption peak periods in the fault area, and the fault type output unit judges the probability ratio occupied by the electricity stealing state and the electricity leakage state in the current fault abnormal area according to the analysis on the time periods of electricity consumption abnormality, the service lives of all the electricity consumption devices and the time periods of the electricity consumption peak periods.

Further, the electricity stealing protection module comprises a sound recording unit, a video recording unit, a warning unit and a cloud storage unit, wherein the sound recording unit is used for monitoring sound in a fault area and playing warning voice when receiving an instruction signal, the video recording unit is used for collecting images in the fault area, the cloud storage unit is used for storing collected sound recordings and videos, and the warning unit is used for controlling a warning lamp to sound when illegal persons steal electricity and playing the warning voice by using the sound recording unit.

Further, the leakage protection module comprises a power adjusting unit and a warning unit, wherein the power adjusting unit is used for timely adjusting power distribution in a fault area when receiving the leakage signal, and the warning unit is used for sending out a signal for paying attention to leakage in the fault area.

Further, the classification warning module comprises a leakage warning unit and an electricity stealing warning unit, wherein the leakage warning unit can timely send a message to a designated maintenance person when receiving a leakage signal, and the electricity stealing warning unit can timely send a message to a designated monitoring person when receiving an electricity stealing signal.

A method for controlling a detection system by electric power comprises the following specific steps:

step S1, after detecting the abnormal electricity consumption, positioning the abnormal electricity consumption area, planning the abnormal electricity consumption area as a fault area, and monitoring the fault area all the day at the same time;

s2, extracting a time period for detecting abnormal electricity consumption, analyzing relevant information in a fault area in the time period for detecting abnormal electricity consumption, wherein the steps include firstly analyzing whether an electricity consumption building in the area is provided with large-scale electric equipment, calculating electric quantity of the abnormal electricity consumption, judging whether the electricity consumption in the fault area is in a peak period or not according to collected data in the fault area, extracting service life of the electric equipment in the current area, judging fault probability of the electric equipment used in the current fault area according to types of the electric equipment, and finally calling a camera installed on an ammeter box in the fault area for confirming whether suspicious personnel are nearby to move, so that the type of fault state can be further judged; if the large-scale electric equipment is not available, the service life of the electric equipment is not in a power consumption peak period, the electric equipment is in a good state, suspicious personnel activities are not detected, the current abnormal power consumption state is kept all the day, the probability of the occurrence of the electric leakage state is larger than that of the power stealing state, maintenance personnel is timely informed to go to and check, if the probability of the occurrence of the electric leakage state is smaller than that of the power stealing state, monitoring personnel timely and simultaneously collect power stealing evidence remotely, and illegal molecules are controlled on site.

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

after judging the region with abnormal electricity consumption, the invention accurately judges the probability of the occurrence of the electric leakage state and the probability of the occurrence of the electricity stealing state in the fault region according to whether large electric equipment exists in the region and whether the electric equipment is in a good state or not in the electricity consumption peak period or not, whether the suspicious personnel are detected to be active or not, whether the current abnormal electricity consumption state and other information are kept all the day, timely informs related personnel to make corresponding reactions according to the probability between the probability and the probability, timely and remotely acquires the electricity stealing evidence first and then informs monitoring personnel to control illegal molecules on site if the electric equipment belongs to the electricity stealing state, thereby not only timely and accurately acquiring the evidence of illegal molecule electricity stealing, avoiding illegal molecules from going away, but also avoiding the error and the empty of inspection staff and greatly saving the manpower of inspection staff.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a flow chart of the module connection of the present invention.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention provides the following technical solutions: the power control detection system comprises a data acquisition module, a processor, a region division module, a designated region information extraction module, a characteristic analysis module, an electricity stealing protection module, an electricity leakage protection module and a classification warning module, wherein the output end of the data acquisition module is electrically connected with the input end of the processor, and the output end of the processor is electrically connected with the input ends of the region division module, the designated region information extraction module, the characteristic analysis module, the electricity stealing protection module, the electricity leakage protection module and the classification warning module; the processor is used for transmitting and storing the acquired data; the region dividing module divides the power utilization region by adopting a grid method and marks the region with abnormal data; the appointed area information extraction module is used for collecting equipment information in the marked area; the characteristic analysis module performs calculation and analysis according to the acquired equipment information to judge whether the current power stealing state or the current leakage state is performed; the electricity stealing protection module is used for making corresponding measures for preventing electricity stealing according to the judged fault type; the leakage protection module is used for making anti-leakage protection measures according to the judged fault type; the classification warning module is used for making warning signals and operations corresponding to the fault types according to the judged fault types.

The data acquisition module comprises a rated current unit, a rated voltage unit, a residual current unit and a rated working voltage unit, wherein the rated current unit is used for acquiring rated current data, the rated voltage is used for acquiring rated voltage data, the residual current unit is used for acquiring residual current data, and the rated working voltage unit is used for acquiring residual rated working voltage data.

The processor comprises a data receiving unit, a data sending unit, a data processing unit and a data storage unit, wherein the data receiving unit is used for receiving data information acquired by the front end, the data generating unit is used for conveying the received data information to the data processing unit, the data processing unit is used for processing the received data, eliminating redundant data and retaining effective data, and the data storage unit is used for storing the data after coming out to form a database.

The regional division module comprises a city unit, a street unit, a partition unit and a division unit, wherein the city unit is used for dividing the regional distribution in the city according to the regional distribution in the city, the street unit is used for dividing the street distribution in the city, the partition unit is used for dividing the residential area distribution in the city according to the residential area distribution in the city, and the division unit is used for dividing the region to the minimum range according to a grid method.

The specified area information extraction module comprises a circuit equipment information extraction unit, an electrical equipment information extraction unit, an industrial electricity information extraction unit and an electricity consumption peak information extraction unit, wherein the circuit equipment information extraction unit is used for extracting service life information of a circuit in a specified area, the electrical equipment information extraction unit is used for extracting service life information of an electrical appliance in the specified area, the industrial electricity information extraction unit is used for extracting service life information of electric equipment using industrial electricity in the specified area, and the electricity consumption peak information extraction unit is used for extracting information of various electric equipment in the electricity consumption peak period and the electricity consumption peak period in the specified area.

The characteristic analysis module comprises an electricity consumption abnormal time period analysis unit, an electricity consumption device analysis unit, an electricity consumption peak period analysis unit and a fault type output unit, wherein the electricity consumption abnormal time period analysis unit is used for carrying out integrated analysis on the time periods of electricity consumption abnormality in a fault area, the electricity consumption device analysis unit is used for analyzing the service lives of all the electricity consumption devices in the fault area, the electricity consumption peak period analysis unit is used for carrying out analysis on the time periods of the electricity consumption peak periods in the fault area, and the fault type output unit judges the probability ratio occupied by the electricity stealing state and the electricity leakage state in the current fault abnormal area according to the analysis on the time periods of the electricity consumption abnormality, the service lives of all the electricity consumption devices and the time periods of the electricity consumption peak periods.

The power-stealing protection module comprises a recording unit, a video recording unit, a warning unit and a cloud storage unit, wherein the recording unit is used for monitoring sound in a fault area and playing warning voice when receiving an instruction signal, the video recording unit is used for collecting images in the fault area, the cloud storage unit is used for storing collected audio and video, and the warning unit is used for controlling a warning lamp to sound when illegal molecules are judged to power-stealing and playing warning voice by using the recording unit.

The leakage protection module comprises a power adjusting unit and a warning unit, wherein the power adjusting unit is used for timely adjusting power distribution in a fault area when receiving a leakage signal, and the warning unit is used for sending out a signal for paying attention to leakage in the fault area.

The classification warning module comprises an electric leakage warning unit and an electric larceny warning unit, wherein the electric leakage warning unit can timely send a message to appointed maintenance personnel when receiving an electric leakage signal, and the electric larceny warning unit can timely send a message to appointed monitoring personnel when receiving an electric larceny signal.

A method for controlling a detection system by electric power comprises the following specific steps:

step S1, after detecting the abnormal electricity consumption, positioning the abnormal electricity consumption area, planning the abnormal electricity consumption area as a fault area, and monitoring the fault area all the day at the same time;

s2, extracting a time period for detecting abnormal electricity consumption, analyzing relevant information in a fault area in the time period for detecting abnormal electricity consumption, wherein the steps include firstly analyzing whether an electricity consumption building in the area is provided with large-scale electric equipment, calculating electric quantity of the abnormal electricity consumption, judging whether the electricity consumption in the fault area is in a peak period or not according to collected data in the fault area, extracting service life of the electric equipment in the current area, judging fault probability of the electric equipment used in the current fault area according to types of the electric equipment, and finally calling a camera installed on an ammeter box in the fault area for confirming whether suspicious personnel are nearby to move, so that the type of fault state can be further judged; if the large-scale electric equipment is not available, the service life of the electric equipment is not in a power consumption peak period, the electric equipment is in a good state, suspicious personnel activities are not detected, the current abnormal power consumption state is kept all the day, the probability of the occurrence of the electric leakage state is larger than that of the power stealing state, maintenance personnel is timely informed to go to and check, if the probability of the occurrence of the electric leakage state is smaller than that of the power stealing state, monitoring personnel timely and simultaneously collect power stealing evidence remotely, and illegal molecules are controlled on site.

Whether the large-sized electric equipment is A or not, and if the A=1, the large-sized electric equipment is not available; if a=0, then there is a large powered device;

whether the electricity consumption is in the peak period is B, if B=1, the electricity consumption is not in the peak period, and if B=0, the electricity consumption is in the peak period;

the service life of the electrical equipment is C, if C=1, the service life of the electrical equipment is in a good state, and if C=0, the service life of the electrical equipment is in a poor state;

if the activity of suspicious personnel in the vicinity is D, if D=1, the activity of suspicious personnel is active; if d=0, no suspicious personnel activity is active;

the abnormal electricity utilization state is kept in all days as E, and if E=1, the abnormal electricity utilization state is not kept in all days; if e=0, maintaining the abnormal electricity utilization state throughout the day;

if the three or more states are in 1, the probability of the power stealing state is larger than the probability of the electric leakage state, otherwise, the probability of the power stealing state is smaller than the probability of the electric leakage state.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An electric power control detecting system, characterized in that: the device comprises a data acquisition module, a processor, a region dividing module, a designated region information extraction module, a characteristic analysis module, an electricity stealing protection module, a leakage protection module and a classification warning module, wherein the output end of the data acquisition module is electrically connected with the input end of the processor, and the output end of the processor is electrically connected with the input ends of the region dividing module, the designated region information extraction module, the characteristic analysis module, the electricity stealing protection module, the leakage protection module and the classification warning module; the processor is used for transmitting and storing the acquired data; the region dividing module divides the power utilization region by adopting a grid method and marks the region with abnormal data; the appointed area information extraction module is used for collecting equipment information in the marked area; the characteristic analysis module performs calculation and analysis according to the acquired equipment information to judge whether the current power stealing state or the current leakage state is performed; the electricity stealing protection module is used for making corresponding measures for preventing electricity stealing according to the judged fault type; the leakage protection module is used for making anti-leakage protection measures according to the judged fault type; the classification warning module is used for making warning signals and operations corresponding to the fault types according to the judged fault types.

2. A power control detection system according to claim 1, wherein: the data acquisition module comprises a rated current unit, a rated voltage unit, a residual current unit and a rated working voltage unit, wherein the rated current unit is used for acquiring rated current data, the rated voltage is used for acquiring rated voltage data, the residual current unit is used for acquiring residual current data, and the rated working voltage unit is used for acquiring residual rated working voltage data.

3. A power control detection system according to claim 1, wherein: the processor comprises a data receiving unit, a data sending unit, a data processing unit and a data storage unit, wherein the data receiving unit is used for receiving data information acquired by the front end, the data generating unit is used for conveying the received data information to the data processing unit, the data processing unit is used for processing the received data, eliminating redundant data and retaining effective data, and the data storage unit is used for storing the data after coming out to form a database.

4. A power control detection system according to claim 1, wherein: the regional division module comprises a city unit, a street unit, a partition unit and a division unit, wherein the city unit is used for dividing the regional distribution in the city according to the regional distribution in the city, the street unit is used for dividing the street distribution in the city, the partition unit is used for dividing the residential area distribution in the city according to the residential area distribution in the city, and the division unit is used for dividing the region to the minimum range according to a grid method.

5. A power control detection system according to claim 1, wherein: the specified area information extraction module comprises a circuit equipment information extraction unit, an electrical equipment information extraction unit, an industrial electricity information extraction unit and an electricity consumption peak information extraction unit, wherein the circuit equipment information extraction unit is used for extracting service life information of a circuit in a specified area, the electrical equipment information extraction unit is used for extracting service life information of an electrical appliance in the specified area, the industrial electricity information extraction unit is used for extracting service life information of electric equipment using industrial electricity in the specified area, and the electricity consumption peak information extraction unit is used for extracting information of various electric equipment in the electricity consumption peak period and the electricity consumption peak period in the specified area.

6. A power control detection system according to claim 1, wherein: the characteristic analysis module comprises an electricity consumption abnormal time period analysis unit, an electricity consumption device analysis unit, an electricity consumption peak period analysis unit and a fault type output unit, wherein the electricity consumption abnormal time period analysis unit is used for carrying out integrated analysis on the time periods of electricity consumption abnormality in a fault area, the electricity consumption device analysis unit is used for analyzing the service lives of all the electricity consumption devices in the fault area, the electricity consumption peak period analysis unit is used for carrying out analysis on the time periods of the electricity consumption peak periods in the fault area, and the fault type output unit judges the probability ratio occupied by the electricity stealing state and the electricity leakage state in the current fault abnormal area according to the analysis on the time periods of the electricity consumption abnormality, the service lives of all the electricity consumption devices and the time periods of the electricity consumption peak periods.

7. A power control detection system according to claim 1, wherein: the power-stealing protection module comprises a recording unit, a video recording unit, a warning unit and a cloud storage unit, wherein the recording unit is used for monitoring sound in a fault area and playing warning voice when receiving an instruction signal, the video recording unit is used for collecting images in the fault area, the cloud storage unit is used for storing collected audio and video, and the warning unit is used for controlling a warning lamp to sound when illegal molecules are judged to power-stealing and playing warning voice by using the recording unit.

8. A power control detection system according to claim 1, wherein: the leakage protection module comprises a power adjusting unit and a warning unit, wherein the power adjusting unit is used for timely adjusting power distribution in a fault area when receiving a leakage signal, and the warning unit is used for sending out a signal for paying attention to leakage in the fault area.

9. A power control detection system according to claim 1, wherein: the classification warning module comprises an electric leakage warning unit and an electric larceny warning unit, wherein the electric leakage warning unit can timely send a message to appointed maintenance personnel when receiving an electric leakage signal, and the electric larceny warning unit can timely send a message to appointed monitoring personnel when receiving an electric larceny signal.

10. A method of a power control detection system according to claim 1, wherein: the method comprises the following specific steps:

step S1, after detecting the abnormal electricity consumption, positioning the abnormal electricity consumption area, planning the abnormal electricity consumption area as a fault area, and monitoring the fault area all the day at the same time;

s2, extracting a time period for detecting abnormal electricity consumption, analyzing relevant information in a fault area in the time period for detecting abnormal electricity consumption, wherein the steps include firstly analyzing whether an electricity consumption building in the area is provided with large-scale electric equipment, calculating electric quantity of the abnormal electricity consumption, judging whether the electricity consumption in the fault area is in a peak period or not according to collected data in the fault area, extracting service life of the electric equipment in the current area, judging fault probability of the electric equipment used in the current fault area according to types of the electric equipment, and finally calling a camera installed on an ammeter box in the fault area for confirming whether suspicious personnel are nearby to move, so that the type of fault state can be further judged; if the large-scale electric equipment is not available, the service life of the electric equipment is not in a power consumption peak period, the electric equipment is in a good state, suspicious personnel activities are not detected, the current abnormal power consumption state is kept all the day, the probability of the occurrence of the electric leakage state is larger than that of the power stealing state, maintenance personnel is timely informed to go to and check, if the probability of the occurrence of the electric leakage state is smaller than that of the power stealing state, monitoring personnel timely and simultaneously collect power stealing evidence remotely, and illegal molecules are controlled on site.