CN112713658A - Intelligent control method and system for monitoring defects of power grid equipment - Google Patents

Abstract

The invention discloses an intelligent control method and system for monitoring defects of power grid equipment, which is characterized in that real-time data acquisition is carried out on the power grid equipment, a cloud server is used for data transmission, the acquired data is processed, analyzed and judged to determine whether the monitored power grid equipment has potential fault hazards, after the potential fault hazards of the power grid equipment are determined, the monitoring information is compared with historical information in a power grid database to intelligently analyze the faults of the power grid equipment, the previous solution data information similar to the faults can be called, the solution method is sent to a mobile terminal of a maintenance worker, the previous historical data is referred, the potential fault hazards of the power grid equipment can be rapidly eliminated, the maintenance efficiency of the power grid equipment with the potential fault hazards is greatly improved, the normal operation of a power grid is guaranteed, and the influence on the production life of people is avoided, is obviously beneficial to popularization.

Description

Intelligent control method and system for monitoring defects of power grid equipment

Technical Field

The invention belongs to the technical field of power equipment monitoring, and particularly relates to an intelligent control method and system for monitoring defects of power grid equipment.

Background

The power equipment mainly comprises power generation equipment and power supply equipment; there are many electric power devices in an electric power system, and they are generally divided into electric primary devices and electric secondary devices according to their roles in operation; along with the increasing scale of power grids, power grid equipment is applied more and more, and for a long time, a power system executes a regular maintenance system on the power equipment, namely, the equipment is detected and maintained according to a planned time period, the maintenance of the power equipment at the present stage is still realized in a manual maintenance mode, but the manual maintenance efficiency is low, a large amount of time and energy are needed, and personnel are needed to maintain the power grid equipment.

Disclosure of Invention

The invention provides a method and a system for intelligently controlling monitoring defects of power grid equipment, aiming at solving the technical problems in the background art.

In order to realize the purpose, the following technical scheme is adopted:

the invention provides an intelligent control method for monitoring defects of power grid equipment, which comprises the following specific steps:

s1, acquiring running data information of the power grid equipment and environmental information of the power grid equipment in real time to obtain monitoring data information A;

s2, processing and analyzing the monitoring data information A, and judging whether the power grid equipment has fault hidden danger;

s3, if no fault hidden trouble exists, continuing to execute S1;

if the fault hidden danger exists, alarming and reminding are carried out, and S4 is continuously executed;

s4, determining the potential fault hazard emergency degree of the power grid equipment, generating a potential fault hazard maintenance record B of the power grid equipment, and sending the potential fault hazard maintenance record B to a master control terminal of the area to which the power grid equipment belongs;

and S5, assigning maintenance personnel to overhaul and maintain the power grid equipment, and regularly updating the maintenance records into the hidden trouble maintenance record B until hidden trouble of the power grid equipment is eliminated within the specified maintenance time.

Preferably, the environment information of the power grid device in S1 includes geographical location information of the power grid device, climate information of a location of the power grid device, temperature, humidity, and illumination intensity information of the location of the power grid device, noise information of the power grid device in the operating state, and internal temperature information of the power grid device in the operating state.

Preferably, the method for processing, analyzing and judging the monitoring data information a in S2 is as follows:

s21, filtering and impurity removing processing is carried out on the monitoring data information A;

s22, retrieving the processed monitoring data information A in a power grid database, and judging whether historical data information identical to the processed monitoring data information A exists or not;

s23, if yes, judging that the power grid equipment corresponding to the monitoring data information A has a fault hidden danger;

and if not, judging that the power grid equipment corresponding to the monitoring data information A has no fault hidden danger.

Preferably, the method for constructing the power grid database comprises the following specific steps:

s41, collecting historical fault data information and fault maintenance records of each power grid device, and generating a historical power grid device fault record C;

s42, dividing historical power grid equipment fault records C into a plurality of groups of primary fault records D according to the types of different power grid equipment;

s43, dividing each group of primary fault records D into a plurality of groups of secondary fault records E according to different fault types;

and S44, acquiring the potential safety hazard maintenance record B with complete maintenance record information in real time, and updating the potential safety hazard maintenance record B into the corresponding secondary fault record E.

Preferably, the just generated fault hidden trouble maintenance record B includes a secondary fault record E corresponding to the power grid equipment.

Preferably, the emergency degree of the fault hidden trouble of the power grid equipment comprises a general degree, a severity degree and a critical degree; the typical, severity and criticality correspond to the longest maintenance periods of 1 day, 7 days and 15 days, respectively.

Preferably, the evaluation standard of the potential fault hazard emergency degree of the power grid equipment is as follows:

whether normal operation of a power grid is affected after the power grid equipment fails, whether serious influence is brought to production and life of people after the power grid equipment fails, whether major economic loss is caused after the power grid equipment fails, and whether potential safety hazards exist in a period of time after the power grid equipment fails.

Preferably, the period of updating the maintenance records in the process of overhauling and maintaining the power grid equipment is once every 12-24 hours.

The invention also provides an intelligent control system for monitoring the defects of the power grid equipment, which is used for the intelligent control method for monitoring the defects of the power grid equipment and specifically comprises the following steps:

the data acquisition module is used for acquiring the operation data information of the power grid equipment and the environment information of the power grid equipment in real time;

the cloud server is used for collecting monitoring data information acquired in real time;

the data processing and analyzing module is used for processing and analyzing the obtained monitoring data information;

the judging module is used for judging whether the power grid equipment corresponding to the processed monitoring data information has fault hidden danger or not;

the intelligent control platform is used for receiving alarm information of the fault power grid equipment and determining the emergency degree of the fault hidden danger of the power grid equipment and the maintenance record of the fault hidden danger;

and the master control terminal is used for receiving the maintenance records of the hidden troubles of the faults and establishing data transmission with the mobile terminal of the maintenance personnel.

Preferably, the system further comprises a geographic position positioning module, which is used for monitoring the geographic position of the power grid equipment.

The technical scheme of the invention has the following beneficial technical effects:

in the invention, the real-time data acquisition is carried out on the power grid equipment, the cloud server is used for transmitting the data, the acquired data is processed, analyzed and judged to determine whether the monitored power grid equipment has a fault hidden trouble, after the fault hidden trouble of the power grid equipment is determined, the monitoring information is compared with historical information in a power grid database to intelligently analyze the fault of the power grid equipment, the previous solution data information of similar faults can be retrieved and sent to a mobile terminal of a maintenance worker, the maintenance worker refers to the previous historical data to quickly eliminate the fault hidden trouble of the power grid equipment, the maintenance efficiency of the power grid equipment with the fault hidden trouble is greatly improved, the normal operation of the power grid is further ensured, the influence on the production life of people is avoided, and huge economic loss is avoided, is obviously beneficial to popularization.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of an intelligent control method for monitoring defects of a power grid device according to an embodiment of the present invention.

Fig. 2 is a flowchart of a method for constructing a power grid database in the method for intelligently controlling monitoring defects of power grid devices according to the embodiment of the present invention.

Fig. 3 is a schematic block diagram of an intelligent control system for monitoring defects of power grid devices according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The following detailed description is exemplary in nature and is intended to provide further details of the invention. Unless otherwise defined, all technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention.

Example 1

As shown in fig. 1-2, the intelligent control method for monitoring defects of power grid equipment provided by the invention comprises the following specific steps:

s1, acquiring running data information of the power grid equipment and environmental information of the power grid equipment in real time to obtain monitoring data information A;

s2, processing and analyzing the monitoring data information A, and judging whether the power grid equipment corresponding to the monitoring data information A has fault hidden danger or not;

s3, if no fault hidden trouble exists, continuing to execute S1;

if the fault hidden danger exists, alarming and reminding are carried out, and S4 is continuously executed;

s4, determining the potential fault hazard emergency degree of the power grid equipment; the method comprises the following steps of judging the emergency degree of the hidden fault trouble of the power grid equipment, wherein the judgment of the emergency degree of the hidden fault trouble of the power grid equipment is selected from but not limited to judging the emergency degree of the hidden fault trouble of the power grid equipment manually according to a judgment standard;

generating a hidden trouble maintenance record B of the power grid equipment, and sending the hidden trouble maintenance record B to a master control terminal of the area to which the power grid equipment belongs, wherein the generation time of the hidden trouble maintenance record B is the corresponding hidden trouble emergency degree judgment time;

and S5, assigning maintenance personnel to overhaul and maintain the power grid equipment, and regularly updating the maintenance records into the hidden trouble maintenance record B until hidden trouble of the power grid equipment is eliminated within the specified maintenance time.

In an optional embodiment, the environment information of the power grid device in S1 includes geographical location information of the power grid device, climate information of a location of the power grid device, temperature, humidity, and illumination intensity information of the location of the power grid device, noise information of the power grid device in the operating state, and internal temperature information of the power grid device in the operating state; the power grid equipment operation data information comprises equipment data such as lines and transformers, and operation data such as voltage, current, load and electric quantity.

The monitoring and collecting of the environmental information of the power grid equipment is helpful for analyzing and reading the faults of the power grid equipment in combination with the environmental information of the power grid equipment after the power grid equipment has faults, and whether some faults of the power grid equipment have relations with the climate, the air pressure, the temperature and the humidity and the like of the position where the power grid equipment is located or not is judged according to a plurality of groups of fault data information; whether the power grid equipment normally operates can be judged by monitoring the obtained internal temperature information and noise information of the power grid equipment, so that possible problems of the power grid equipment can be found in time, possible faults of the power grid equipment can be restrained in time, normal operation of the power grid is guaranteed, inconvenience brought to production and life of people is avoided, and economic loss is reduced.

In an alternative embodiment, the method for processing, analyzing and judging the monitoring data information a in S2 includes:

s21, filtering and impurity removing processing is carried out on the monitoring data information A;

s22, retrieving the processed monitoring data information A in a power grid database, and judging whether historical data information identical to the processed monitoring data information A exists or not;

s23, if yes, judging that the power grid equipment corresponding to the monitoring data information A has a fault hidden danger;

if the monitoring data information A does not exist, judging that the power grid equipment corresponding to the monitoring data information A does not have fault hidden danger;

by comparing the monitoring information with historical information in a power grid database, faults existing in the power grid equipment are intelligently analyzed, the solving data information of similar faults in the past can be retrieved, the solving method is sent to a mobile terminal of a maintenance worker, and the maintenance efficiency of the power grid equipment with hidden faults is greatly improved.

In an optional embodiment, the method for constructing the power grid database comprises the following specific steps:

s41, collecting historical fault data information and fault maintenance records of each power grid device, and generating a historical power grid device fault record C;

s42, dividing historical power grid equipment fault records C into a plurality of groups of primary fault records D according to the types of different power grid equipment;

s43, dividing each group of primary fault records D into a plurality of groups of secondary fault records E according to different fault types;

and S44, acquiring the potential safety hazard maintenance record B with complete maintenance record information in real time, and updating the potential safety hazard maintenance record B into the corresponding secondary fault record E.

In an optional embodiment, the just generated potential fault maintenance record B includes a secondary fault record E corresponding to the power grid device, where the secondary fault record E includes all historical record data about the type of the power grid device fault before the fault potential maintenance record B is generated.

In an alternative embodiment, the emergency degree of the fault potential of the power grid equipment comprises a general degree, a severity degree and a critical degree; the longest maintenance period corresponding to the general degree, the severity degree and the critical degree is 1 day, 7 days and 15 days respectively;

it should be noted that the longest maintenance period corresponding to the general degree, the severity degree and the emergency degree can be properly adjusted according to the actual situation, the established maintenance period can be hooked with the assessment of the maintenance personnel, the maintenance personnel can be scored according to the working performance of the maintenance personnel, and the bonus of the maintenance personnel is finally influenced.

In an optional embodiment, the evaluation criterion of the potential fault emergency degree of the power grid equipment is as follows:

the normal operation of the power grid is influenced after the power grid equipment fails (general degree), the production and life of people are seriously influenced after the power grid equipment fails (serious degree), the major economic loss is caused after the power grid equipment fails, and whether potential safety hazards exist in a period of time after the power grid equipment fails (critical degree) is judged.

In an optional embodiment, the period for updating the maintenance records in the process of overhauling and maintaining the power grid equipment is once every 12-24 hours.

Example 2

As shown in fig. 3, the system for intelligently controlling monitoring defects of power grid devices, provided by the present invention, includes the method for intelligently controlling monitoring defects of power grid devices, provided in embodiment 1, and specifically includes:

the data acquisition module is used for acquiring the operation data information of the power grid equipment and the environment information of the power grid equipment in real time;

the cloud server is used for collecting monitoring data information acquired in real time;

the data processing and analyzing module is used for processing and analyzing the obtained monitoring data information;

the judging module is used for judging whether the power grid equipment corresponding to the processed monitoring data information has fault hidden danger or not;

the intelligent control platform is used for receiving alarm information of the fault power grid equipment and determining the emergency degree of the fault hidden danger of the power grid equipment and the maintenance record of the fault hidden danger;

the master control terminal is used for receiving the fault hidden trouble maintenance record and establishing data transmission with the mobile terminal of the maintenance personnel; the master control terminal, the intelligent control platform and the cloud server are all in data transmission in a wireless communication module mode; further, the wireless communication module selects a 5G network module;

the power grid fault diagnosis system further comprises a power grid database used for storing fault data information of historical power grid equipment.

In an embodiment of the invention, the intelligent control system for monitoring the defects of the power grid equipment can acquire data of the power grid equipment in real time, transmit the data by using the cloud server, process, analyze and judge the acquired data to determine whether the monitored power grid equipment has a fault hidden danger or not, after the fact that the power grid equipment has the fault hidden danger is determined, the similar fault hidden danger can be intelligently retrieved, historical data obtained by retrieval is sent to a mobile terminal of a maintenance worker, and the maintenance worker can quickly eliminate the fault hidden danger of the power grid equipment by referring to the past historical data, so that the normal operation of the power grid is ensured, the influence on the production and life of people is avoided, and the huge economic loss is avoided.

In an optional embodiment, the system further includes a geographic position positioning module, configured to monitor a geographic position of the power grid device, so as to timely know the location information of the power grid device when detecting that a fault hidden danger exists in the power grid device, and timely notify maintenance personnel in the jurisdiction to which the power grid device belongs, so as to timely maintain the power grid device.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (10)

1. The intelligent control method for monitoring the defects of the power grid equipment is characterized by comprising the following steps:

acquiring running data information of the power grid equipment and environmental information of the power grid equipment in real time to obtain monitoring data information A;

processing and analyzing the monitoring data information A, and judging whether the power grid equipment has fault hidden danger;

if no fault hidden danger exists, continuously acquiring the operation data information of the power grid equipment and the environment information of the power grid equipment in real time;

if the hidden trouble exists, alarming and reminding are carried out, the emergency degree of the hidden trouble of the power grid equipment is determined, a hidden trouble maintenance record B of the power grid equipment is generated, and the hidden trouble maintenance record B is sent to a master control terminal of the area to which the power grid equipment belongs;

and (4) carrying out maintenance on the power grid equipment with the fault hidden danger, and periodically updating the maintenance record into the fault hidden danger maintenance record B until the fault hidden danger of the power grid equipment is eliminated within the specified maintenance time.

2. The intelligent control method for monitoring the defects of the power grid equipment according to claim 1, wherein the environmental information of the power grid equipment comprises: the method comprises the following steps of obtaining geographical position information of the power grid equipment, climate information of the position of the power grid equipment, temperature and humidity and illumination intensity information of the position of the power grid equipment, noise information of the power grid equipment in a running state and internal temperature information of the power grid equipment in the running state.

3. The intelligent control method for monitoring the defects of the power grid equipment according to claim 1, wherein the method for processing and analyzing the monitoring data information A and judging whether the power grid equipment has fault hidden dangers comprises the following steps:

judging whether historical data information identical to the monitoring data information A exists in a power grid database or not;

if the monitoring data information A exists, judging that the power grid equipment corresponding to the monitoring data information A has a fault hidden danger;

and if not, judging that the power grid equipment corresponding to the monitoring data information A has no fault hidden danger.

4. The intelligent control method for monitoring defects of power grid equipment according to claim 3, wherein the construction method for the power grid database comprises the following specific steps:

collecting historical fault data information and fault maintenance records of each power grid device to generate a historical power grid device fault record C;

dividing historical power grid equipment fault records C into a plurality of groups of primary fault records D according to the types of different power grid equipment;

dividing each group of primary fault records D into a plurality of groups of secondary fault records E according to different fault types;

and acquiring the potential safety hazard maintenance record B with complete maintenance record information in real time, and updating the potential safety hazard maintenance record B into the corresponding secondary fault record E.

5. The intelligent control method for monitoring the defects of the power grid equipment according to claim 4, wherein the just generated fault hidden trouble maintenance record B comprises a secondary fault record E corresponding to the power grid equipment.

6. The intelligent control method for monitoring the defects of the power grid equipment according to claim 1, wherein the emergency degree of the potential fault hazards of the power grid equipment comprises a general degree, a severity degree and a critical degree; the typical, severe and critical levels correspond to maximum maintenance periods of 1 day, 7 days and 15 days, respectively.

7. The intelligent control method for monitoring the defects of the power grid equipment according to claim 1, wherein the evaluation criteria of the emergency degree of the hidden trouble of the power grid equipment are as follows:

whether normal operation of a power grid is affected after the power grid equipment fails, whether serious influence is brought to production and life of people after the power grid equipment fails, whether major economic loss is caused after the power grid equipment fails, and whether potential safety hazards exist in a period of time after the power grid equipment fails.

8. The intelligent control method for monitoring the defects of the power grid equipment according to claim 1, wherein the period for updating the maintenance records in the process of overhauling and maintaining the power grid equipment is once every 12-24 hours.

9. An intelligent control system for monitoring defects of power grid equipment, which is used for the intelligent control method for monitoring defects of power grid equipment according to claim 1, and is characterized by comprising the following steps:

the data acquisition module is used for acquiring the operation data information of the power grid equipment and the environment information of the power grid equipment in real time;

the cloud server is used for collecting monitoring data information acquired in real time;

the data processing and analyzing module is used for processing and analyzing the obtained monitoring data information;

the judging module is used for judging whether the power grid equipment corresponding to the processed monitoring data information has fault hidden danger or not;

the intelligent control platform is used for receiving alarm information of the fault power grid equipment and determining the emergency degree of the fault hidden danger of the power grid equipment and the maintenance record of the fault hidden danger;

and the master control terminal is used for receiving the maintenance records of the hidden troubles of the faults and establishing data transmission with the mobile terminal of the maintenance personnel.

10. The intelligent control system for monitoring defects of power grid equipment according to claim 9, further comprising a geographic position locating module for monitoring the geographic position of the power grid equipment.

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