CN114034345A - Insulator leakage analysis system and method - Google Patents
Insulator leakage analysis system and method Download PDFInfo
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- CN114034345A CN114034345A CN202111349281.8A CN202111349281A CN114034345A CN 114034345 A CN114034345 A CN 114034345A CN 202111349281 A CN202111349281 A CN 202111349281A CN 114034345 A CN114034345 A CN 114034345A
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Abstract
The invention discloses an insulator leakage analysis system and method, which comprises a data acquisition unit, an insulator leakage detection module, a control module, a data transmission module, a central processing unit module, a data simulation demonstration module and a server module, wherein the data acquisition unit and the insulator leakage detection module are connected with the control module, and the control module is connected with the data transmission module; according to the invention, various data which are easy to interfere with the insulator in the external environment are monitored through the data acquisition unit, then whether the insulator leaks or not is detected through the insulator leakage detection module, and when the insulator leakage detection module detects that the insulator leaks, various data in the external environment are simulated and analyzed through the data simulation demonstration module, so that the probability that the various data cause the insulator leakage is obtained, further, the manual analysis of workers is not needed, the analysis efficiency is improved, and the accuracy of the analysis result is ensured.
Description
Technical Field
The invention relates to the technical field of insulator leakage, in particular to an insulator leakage analysis system and method.
Background
The insulator is a special insulating control part and can play an important role in an overhead transmission line, the insulators are various in types and shapes, although the structures and the appearances of different types of insulators are greatly different, the insulators are composed of an insulating part and a connecting hardware fitting, the insulators are mostly used for telegraph poles in the early years, one end of a high-voltage wire connecting tower which is slowly developed is hung with a plurality of disc-shaped insulators, and the insulators are used for increasing creepage distance and are usually made of glass or ceramics;
when the traditional insulator is used, the leakage accident is easily caused by the interference of external environment factors, if the leakage accident cannot be timely processed, the whole line can be damaged, after the insulator leaks, the reason for the leakage of the insulator is generally analyzed manually according to the change of the external environment factors by workers, the analysis efficiency is low, and errors exist in analysis results, so that the system and the method for analyzing the insulator leakage are provided.
Disclosure of Invention
The present invention is directed to a system and a method for analyzing insulator leakage, so as to solve the problems in the background art.
In order to achieve the purpose, the invention provides the following technical scheme: an insulator leakage analysis system comprises a data acquisition unit, an insulator leakage detection module, a control module, a data transmission module, a central processing unit module, a data simulation demonstration module and a server module, wherein the data acquisition unit and the insulator leakage detection module are connected with the control module, the control module is connected with the data transmission module, the data transmission module is connected with the central processing unit module, the central processing unit module is interactively connected with the server module, and the central processing unit module is connected with the data simulation demonstration module;
the data acquisition unit comprises an air pressure sensor, an air quality sensor, a temperature and humidity sensor, an image sensor and a rainfall sensor;
the air pressure sensor, the air quality sensor, the temperature and humidity sensor, the image sensor and the rainfall sensor are all connected with the control module;
the data acquisition unit is used for acquiring data in the environment;
the insulator leakage detection module is used for detecting whether the insulator leaks or not;
the central processing unit module is used for summarizing and processing data;
and the server module is used for performing cloud storage on the processed data.
As further preferable in the present technical solution: the control module is connected with the fault alarm module;
and the fault alarm module is used for alarming when a leakage fault occurs so as to quickly determine the position where the fault occurs.
As further preferable in the present technical solution: the server module is interactively connected with the mobile terminal module;
the mobile terminal module is used for checking data stored in the server module through the cloud end at any time, and the server generates early warning information to the mobile terminal module through movement.
As further preferable in the present technical solution: the data simulation demonstration module is connected with the analysis result display module;
the data simulation demonstration module is used for receiving the comprehensive data processed by the central processing unit module, simulating and demonstrating the data according to the internal database of the data simulation demonstration module, and analyzing the probability of insulator leakage caused by each item of data according to the simulation demonstration result.
As further preferable in the present technical solution: the analysis result display module is connected with the server module;
and the analysis result display module is used for displaying the probability analyzed by the data simulation demonstration module in a percentage mode and then transmitting the displayed output to the server module.
As further preferable in the present technical solution: the air pressure sensor is used for detecting air pressure data of an external environment;
the air quality sensor is used for detecting air quality and particle content data in the external environment;
the temperature and humidity data sensor is used for detecting temperature and humidity data in an external environment;
the image sensor is used for carrying out image detection on the surface contamination degree of the insulator;
the rainfall sensor is used for detecting rainfall data in a preset time in the external environment.
An insulator leakage analysis method comprises the following steps:
s1, detecting whether leakage accidents occur to the insulator through the insulator leakage detection module, and then detecting air pressure, air quality, particle content in air, air temperature and humidity, insulator surface dirt degree and rainfall data in the external environment through the data acquisition unit;
s2, receiving data of the data acquisition unit and the insulator leakage detection module through the control module, and starting the fault alarm module to work through the control module when the insulator leakage detection module detects that the insulator has a leakage accident;
s3, transmitting the data received by the control module to the central processing unit module through the data transmission module, and processing and summarizing the data through the central processing unit module;
s4, receiving the data processed and gathered by the central processing unit module through the data simulation demonstration module, performing simulation demonstration on the data through the internal database so as to analyze the probability of insulator leakage caused by each item of data, and transmitting the analysis result to the server module through the analysis result display module;
and S5, sending the alarm information to the mobile terminal module through the server module, accessing the server module through the mobile terminal module by connecting the cloud terminal, and checking the data and the analysis result stored in the server module.
As further preferable in the present technical solution: in the step S4, the analyzed probability data is displayed in percentage form by the analysis result display module, so that the staff can more intuitively perform data judgment.
Compared with the prior art, the invention has the beneficial effects that: according to the invention, various data which are easy to interfere with the insulator in the external environment are monitored through the data acquisition unit, then whether the insulator leaks or not is detected through the insulator leakage detection module, and when the insulator leakage detection module detects that the insulator leaks, various data in the external environment are simulated and analyzed through the data simulation demonstration module, so that the probability that the various data cause the insulator leakage is obtained, further, the manual analysis of workers is not needed, the analysis efficiency is improved, and the accuracy of the analysis result is ensured.
Drawings
FIG. 1 is a block diagram of a system according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Examples
Referring to fig. 1, the present invention provides a technical solution: an insulator leakage analysis system comprises a data acquisition unit, an insulator leakage detection module, a control module, a data transmission module, a central processing unit module, a data simulation demonstration module and a server module, wherein the data acquisition unit and the insulator leakage detection module are connected with the control module, the control module is connected with the data transmission module, the data transmission module is connected with the central processing unit module, the central processing unit module is interactively connected with the server module, and the central processing unit module is connected with the data simulation demonstration module;
the data acquisition unit comprises an air pressure sensor, an air quality sensor, a temperature and humidity sensor, an image sensor and a rainfall sensor;
the air pressure sensor, the air quality sensor, the temperature and humidity sensor, the image sensor and the rainfall sensor are all connected with the control module;
the data acquisition unit is used for acquiring data in the environment;
the insulator leakage detection module is used for detecting whether the insulator leaks or not;
the central processing unit module is used for summarizing the data and processing the data;
and the server module is used for performing cloud storage on the processed data.
In this embodiment, specifically: the control module is connected with the fault alarm module;
and the fault alarm module is used for alarming when a leakage fault occurs so as to quickly determine the position of the fault.
In this embodiment, specifically: the server module is interactively connected with the mobile terminal module;
and the mobile terminal module is used for checking the data stored in the server module through the cloud end at any time, and the server generates early warning information to the mobile terminal module through movement.
In this embodiment, specifically: the data simulation demonstration module is connected with the analysis result display module;
and the data simulation demonstration module is used for receiving the comprehensive data processed by the central processing unit module, simulating and demonstrating the data according to an internal database of the data simulation demonstration module, and analyzing the probability of insulator leakage caused by each item of data according to the simulation demonstration result.
In this embodiment, specifically: the analysis result display module is connected with the server module;
and the analysis result display module is used for displaying the probability analyzed by the data simulation demonstration module in a percentage mode and then transmitting the displayed output to the server module.
In this embodiment, specifically: the air pressure sensor is used for detecting air pressure data of an external environment;
the air quality sensor is used for detecting air quality and particle content data in the external environment;
the temperature and humidity data sensor is used for detecting temperature and humidity data in an external environment;
the image sensor is used for carrying out image detection on the surface contamination degree of the insulator;
and the rainfall sensor is used for detecting rainfall data in a preset time in the external environment.
An insulator leakage analysis method comprises the following steps:
s1, detecting whether leakage accidents occur to the insulator through the insulator leakage detection module, and then detecting air pressure, air quality, particle content in air, air temperature and humidity, insulator surface dirt degree and rainfall data in the external environment through the data acquisition unit;
s2, receiving data of the data acquisition unit and the insulator leakage detection module through the control module, and starting the fault alarm module to work through the control module when the insulator leakage detection module detects that the insulator has a leakage accident;
s3, transmitting the data received by the control module to the central processing unit module through the data transmission module, and processing and summarizing the data through the central processing unit module;
s4, receiving the data processed and gathered by the central processing unit module through the data simulation demonstration module, performing simulation demonstration on the data through the internal database so as to analyze the probability of insulator leakage caused by each item of data, and transmitting the analysis result to the server module through the analysis result display module;
and S5, sending the alarm information to the mobile terminal module through the server module, accessing the server module through the mobile terminal module by connecting the cloud terminal, and checking the data and the analysis result stored in the server module.
In this embodiment, specifically: in the step S4, the analyzed probability data is displayed in percentage form by the analysis result display module, so that the staff can more intuitively perform data judgment.
When the system is used, whether the insulator leaks or not is detected through the insulator leakage detection module, then air pressure data in the external environment is detected through the air pressure sensor in the data acquisition unit, air quality data in the external environment and dust content data in the air are detected through the air quality sensor, temperature and humidity data in the external environment are detected through the temperature and humidity sensor, then image detection is carried out on the dirtiness degree of the surface of the insulator through the image sensor, then rainfall data in a preset time is detected through the rainfall sensor, then data of the data acquisition unit and the insulator leakage detection module are received through the control module, and when the insulator leakage detection module detects that the insulator leaks, the control module starts the fault alarm module to work, the working fault alarm module gives an alarm so that a worker can quickly determine the position of the fault, the data received by the control module is transmitted to the central processor module through the data transmission module, the data is processed and summarized through the central processor module, the processed and summarized data is transmitted to the server module and the data simulation demonstration module through the central processor module, the data is stored through the server module, the alarm information is sent to the mobile terminal module through the server module so as to remind the worker of the occurrence of the leakage accident, the data processed and summarized by the central processor module is received through the data simulation demonstration module, the data is simulated and demonstrated through the internal database so as to analyze the probability of insulator leakage caused by each item of data, probability data after analysis are displayed in percentage mode through the analysis result display module, so that workers can judge data more visually, the analysis results are transmitted to the server module to be stored through the analysis result display module, then the workers access the server module through the mobile terminal module connected with the cloud end, the data and the analysis results stored in the server module are checked, and then the workers do not need to manually perform analysis work, the analysis efficiency is improved, the labor capacity of the workers is reduced, and the accuracy of the analysis results is guaranteed.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides an insulator leakage analysis system, includes data acquisition unit, insulator leakage detection module, control module, data transmission module, central processing unit module, data simulation demonstration module and server module, its characterized in that: the data acquisition unit and the insulator leakage detection module are connected with a control module, the control module is connected with a data transmission module, the data transmission module is connected with a central processing unit module, the central processing unit module is interactively connected with a server module, and the central processing unit module is connected with a data simulation demonstration module;
the data acquisition unit comprises an air pressure sensor, an air quality sensor, a temperature and humidity sensor, an image sensor and a rainfall sensor;
the air pressure sensor, the air quality sensor, the temperature and humidity sensor, the image sensor and the rainfall sensor are all connected with the control module;
the data acquisition unit is used for acquiring data in the environment;
the insulator leakage detection module is used for detecting whether the insulator leaks or not;
the central processing unit module is used for summarizing and processing data;
and the server module is used for performing cloud storage on the processed data.
2. An insulator leakage analysis system according to claim 1, wherein: the control module is connected with the fault alarm module;
and the fault alarm module is used for alarming when a leakage fault occurs so as to quickly determine the position where the fault occurs.
3. An insulator leakage analysis system according to claim 1, wherein: the server module is interactively connected with the mobile terminal module;
the mobile terminal module is used for checking data stored in the server module through the cloud end at any time, and the server generates early warning information to the mobile terminal module through movement.
4. An insulator leakage analysis system according to claim 1, wherein: the data simulation demonstration module is connected with the analysis result display module;
the data simulation demonstration module is used for receiving the comprehensive data processed by the central processing unit module, simulating and demonstrating the data according to the internal database of the data simulation demonstration module, and analyzing the probability of insulator leakage caused by each item of data according to the simulation demonstration result.
5. An insulator leakage analysis system according to claim 1, wherein: the analysis result display module is connected with the server module;
and the analysis result display module is used for displaying the probability analyzed by the data simulation demonstration module in a percentage mode and then transmitting the displayed output to the server module.
6. An insulator leakage analysis system according to claim 1, wherein: the air pressure sensor is used for detecting air pressure data of an external environment;
the air quality sensor is used for detecting air quality and particle content data in the external environment;
the temperature and humidity data sensor is used for detecting temperature and humidity data in an external environment;
the image sensor is used for carrying out image detection on the surface contamination degree of the insulator;
the rainfall sensor is used for detecting rainfall data in a preset time in the external environment.
7. An insulator leakage analysis method is characterized by comprising the following steps:
s1, detecting whether leakage accidents occur to the insulator through the insulator leakage detection module, and then detecting air pressure, air quality, particle content in air, air temperature and humidity, insulator surface dirt degree and rainfall data in the external environment through the data acquisition unit;
s2, receiving data of the data acquisition unit and the insulator leakage detection module through the control module, and starting the fault alarm module to work through the control module when the insulator leakage detection module detects that the insulator has a leakage accident;
s3, transmitting the data received by the control module to the central processing unit module through the data transmission module, and processing and summarizing the data through the central processing unit module;
s4, receiving the data processed and gathered by the central processing unit module through the data simulation demonstration module, performing simulation demonstration on the data through the internal database so as to analyze the probability of insulator leakage caused by each item of data, and transmitting the analysis result to the server module through the analysis result display module;
and S5, sending the alarm information to the mobile terminal module through the server module, accessing the server module through the mobile terminal module by connecting the cloud terminal, and checking the data and the analysis result stored in the server module.
8. An insulator leakage analysis method according to claim 7, characterized in that: in S4, the analyzed probability data is displayed in percentage form by the analysis result display module.
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Cited By (1)
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CN114738676A (en) * | 2022-03-21 | 2022-07-12 | 苏州思萃融合基建技术研究所有限公司 | Pipeline monitoring system of distributed optical fiber sensor and monitoring method thereof |
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