阅读说明：本技术 基于x光射线的在役gis电站智能云检测系统 (Intelligent cloud detection system for in-service GIS power station based on X-ray ) 是由 谢晓雪 张国峰 赵鑫宇 于 2021-06-25 设计创作，主要内容包括：本发明提供基于X光射线的在役GIS电站智能云检测系统,涉及GIS智能检测技术领域。该基于X光射线的在役GIS电站智能云检测系统,包括：用于操作者使用的操作端口；用于发射X射线检测成像的GIS设备,用于对操作者使用权限进行确认的身份信息读取模块,用于对操作者信息进行加密的加密模块,用于对操作者信息进行分析对比的AI智能分析模块,用于对操作者权限进行认证传输的认证传输模块,用于进行数据处理的数据处理模块,所述数据处理模块与AI智能分析模块输出端相连,用于进行调阅检测结果的云端管理；用于对故障成像结果进行分析检测X射线成像检测图片。该基于X光射线的在役GIS电站智能云检测系统多平台调阅检测结果。(The invention provides an in-service GIS power station intelligent cloud detection system based on X-ray, and relates to the technical field of GIS intelligent detection. This in-service GIS power station intelligence cloud detecting system based on X-ray includes: an operator port for operator use; the GIS equipment is used for emitting X-ray detection imaging, an identity information reading module for confirming the use authority of an operator, an encryption module for encrypting the operator information, an AI intelligent analysis module for analyzing and comparing the operator information, an authentication transmission module for authenticating and transmitting the operator authority, and a data processing module for processing data, wherein the data processing module is connected with the output end of the AI intelligent analysis module and used for cloud management for retrieving detection results; and the X-ray imaging detection system is used for analyzing and detecting the X-ray imaging detection picture of the fault imaging result. The X-ray-based in-service GIS power station intelligent cloud detection system has the advantages that detection results can be read through multiple platforms.)

1. X-ray-based intelligent cloud detection system for in-service GIS power station, which is characterized by comprising:

an operation port (1) for an operator;

the GIS equipment (2) is used for emitting X-ray detection imaging, and the operation port (1) is connected with the output end of the GIS equipment (2);

the identity information reading module (3) is used for confirming the use permission of an operator, and the identity information reading module (3) is connected with the output end of the operation port (1);

the encryption module (4) is used for encrypting the operator information, and the encryption module (4) is connected with the output end of the identity information reading module (3);

the AI intelligent analysis module (5) is used for analyzing and comparing operator information, and the AI intelligent analysis module (5) is connected with the output end of the encryption module (4);

the authentication transmission module (6) is used for performing authentication transmission on the authority of the operator, and the authentication transmission module (6) is connected with the output end of the AI intelligent analysis module (5);

the data processing module (7) is used for processing data, the data processing module (7) is connected with the output end of the AI intelligent analysis module (5), and the data processing module (7) is connected with the authentication transmission module (6);

the cloud management (8) is used for retrieving detection results, and the cloud management (8) is connected with the data processing module (7);

the X-ray imaging detection picture processing device is used for analyzing and detecting an X-ray imaging detection picture (12) for a fault imaging result, the X-ray imaging detection picture (12) is connected with the output end of the GIS device (2), and the data processing module (7) is connected with the output end of the X-ray imaging detection picture (12).

2. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the GIS device (2) comprises X-ray perspective imaging (201) for imaging and image extraction (202) for extracting imaging results.

3. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the identity information reading module (3) comprises a living portrait recognition (301) for living portrait verification and a fingerprint recognition (302) for fingerprint authentication.

4. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the encryption module (4) comprises a portrait processing module (401) for encrypting the portrait of the operator and a fingerprint processing module (402) for encrypting the fingerprint.

5. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the AI intelligent analysis module (5) comprises an authentication success (501) and an authentication failure (502), the authentication failure (502) comprises a repeated authentication (5021) and a cancelled authentication (5022), and the output end of the authentication success (501) is connected with the authentication transmission module (6).

6. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the data processing module (7) comprises a detection information processing module (701) for processing detection image information and a detection information storage module (702) for storing detection information, and the detection information processing module (701) is connected with the detection information storage module (702).

7. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the X-ray imaging detection picture (12) comprises image processing (1201) for compressing a detection image and image processing (1201) for identifying the image, and the image processing (1201) is connected with the image identification (1202).

8. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the X-ray imaging detection picture (12) output end is connected with a rapid diagnosis (13) for performing contrast diagnosis on the image, and the data processing module (7) is connected with the rapid diagnosis (13) output end.

9. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the output end of the data processing module (7) is connected with a cloud management (8) used for carrying out cloud storage management on data, and the visual terminal (9) is connected with the cloud management (8).

10. The in-service GIS power station intelligent cloud detection system based on X-ray according to claim 1, characterized in that: the input end of the visual terminal (9) is connected with an operation platform (10) used for consulting results, and the input end of the operation platform (10) is connected with a consultation report examination (11).

Technical Field

The invention relates to a detection system, in particular to an in-service GIS power station intelligent cloud detection system based on X-ray, and belongs to the technical field of GIS intelligent detection.

Background

Basic elements of the GIS equipment comprise a circuit breaker, a disconnecting switch, an earthing switch, a voltage current transformer, a lightning arrester, a sleeve, a bus and the like, wherein under the action of switch operation vibration and electrostatic force, the parts can move foreign matter fragments, burn contacts, loosen screws, be not combined in place, deform structures, age insulation and the like under the long-time operation, and the existing detection means can not completely detect the defects in advance, so that breakdown discharge accidents are caused, and the safe operation of the equipment is seriously influenced. On the other hand, because GIS equipment structure is complicated, inside is filled with SF6 gas, brings very big difficulty to disintegration maintenance, and maintenance work technical content is high, consuming time is long, and along with the improvement of voltage class, the loss that causes is also big owing to the power failure maintenance. It is particularly important to find a method for effectively evaluating the internal state of the GIS.

With the wide application of GIS equipment in high-voltage power grids, related detection and diagnosis technologies such as alternating current withstand voltage, ultrahigh frequency partial discharge, ultrasonic partial discharge, SF6 decomposers and the like are continuously developed. The ultrasonic partial discharge detection has the defect that the detection is easily influenced by the field surrounding environment, and particularly, the mechanical vibration generated by the equipment can interfere the detection to cause misjudgment. The ultrahigh frequency partial discharge detection has the defects that the measurement can be only carried out through electromagnetic waves emitted by a basin-type insulator of a GIS, a portable SR decomposer tester judges whether equipment has faults or not through SF6 decomposer measurement results before an adsorbent is saturated, and the discharge is self-recovery if the equipment can bear test voltage and specified time when an alternating current withstand voltage test is carried out for repeated tests. The withstand voltage test is passed but attention should be paid. If the breakdown voltage value is gradually reduced, the voltage withstand test is immediately stopped, a discharge part is searched and determined, and the voltage withstand test can be carried out again after careful inspection treatment and repair.

Disclosure of Invention

Technical problem to be solved

The invention aims to solve the problems and provide an in-service GIS power station intelligent cloud detection system based on X-ray, so as to solve the problems that in the prior art, the frequency of an ultrasonic signal in a GIS is low, the attenuation is fast, and the influence of the outside on an ultrasonic detection frequency band (30-100 kHz) is large, so that the ultrasonic method is low in sensitivity and poor in anti-interference capability, but the defect can be positioned according to the signal intensity. The ultrahigh frequency method can detect electromagnetic wave signals in the range of 0.3-1 GHz, has high sensitivity and strong anti-interference capability, but cannot detect mechanical vibration signals. The characteristic gas in the SF6 gas decomposition product can determine whether or not there is partial discharge inside the GIS, but due to the influence of the adsorbent, the characteristic gas may not be detected in the early stage of the partial discharge.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: x-ray-based intelligent cloud detection system for in-service GIS power station comprises:

an operator port for operator use;

the GIS equipment is used for emitting X-ray detection imaging, and the operation port is connected with the output end of the GIS equipment;

the identity information reading module is used for confirming the use permission of an operator and is connected with the output end of the operation port;

the encryption module is used for encrypting the operator information and is connected with the output end of the identity information reading module;

the AI intelligent analysis module is used for analyzing and comparing operator information and is connected with the output end of the encryption module;

the authentication transmission module is used for performing authentication transmission on the authority of the operator and is connected with the output end of the AI intelligent analysis module;

the data processing module is used for processing data, is connected with the output end of the AI intelligent analysis module, and is connected with the authentication transmission module;

the cloud management module is used for retrieving detection results and is connected with the data processing module;

the X-ray imaging detection picture analysis and detection device is used for analyzing and detecting an X-ray imaging detection picture for a fault imaging result, the X-ray imaging detection picture is connected with the output end of the GIS device, and the data processing module is connected with the output end of the X-ray imaging detection picture.

Preferably, the GIS device includes X-ray fluoroscopy imaging for imaging and image extraction for extracting the imaging result, facilitating extraction of the scanned image.

Preferably, the identity information reading module comprises portrait living body identification for portrait living body verification and fingerprint identification for fingerprint authentication, which is beneficial to confirming the use authority of an operator and preventing misoperation.

Preferably, the encryption module comprises a portrait processing module for encrypting the portrait of the operator and a fingerprint processing module for encrypting the fingerprint, which is beneficial to encrypting the information of the operator.

Preferably, the AI intelligent analysis module includes an authentication success and an authentication failure, the authentication failure includes a repeated authentication and a cancellation of the authentication, and the authentication success output end is connected to the authentication transmission module, which is beneficial for the operator to perform repeated confirmation.

Preferably, the data processing module includes a detection information processing module for processing detection image information and a detection information storage module for storing the detection information, and the detection information processing module is connected to the detection information storage module, so as to facilitate identification and storage of the detection image.

Preferably, the X-ray imaging detection picture comprises image processing for compressing the detection image and image processing for recognizing the image, and the image processing and the image recognition are connected, so that the image processing is facilitated, and the transmission is convenient.

Preferably, the output end of the X-ray imaging detection picture is connected with a rapid diagnosis for performing contrast diagnosis on the image, and the data processing module is connected with the rapid diagnosis output end, so that diagnosis on the image is facilitated.

Preferably, the output end of the data processing module is connected with cloud management for performing cloud storage management on data, and the visual terminal is connected with the cloud management, so that the detection result and the image can be uploaded to the cloud.

Preferably, the input end of the visual terminal is connected with an operation platform for looking up results, and the input end of the operation platform is connected with a retrieval report review, so that a plurality of platforms can be retrieved at any time conveniently.

The invention provides an in-service GIS power station intelligent cloud detection system based on X-ray, which has the following beneficial effects:

1. this at labour GIS power station intelligence cloud detecting system based on X-ray, image identification sends the picture to the rapid diagnosis and diagnoses, the rapid diagnosis takes place to send the image to data processing module again, data processing module handles image data, again by detecting information processing module to handle detected information, send detected information for detecting information storage module again and store information, data processing module sends detected information to the high in the clouds management, carry out the high in the clouds storage to information, examine through looking over the report and examine and send the signal to operation platform, operation platform examines through looking over the report and carries out the many platforms and look over the testing result, facilitate the use.

2. This in-service GIS power station intelligence cloud detecting system based on X-ray, analyze authentication information through AI intelligent analysis module, after analysis contrast fails, carry out authentication failure, the operator can carry out repeated authentication, also can carry out cancellation authentication, after analysis contrast succeeds, get into authentication transmission module, authentication transmission module sends information for data processing module, authenticate the operator, prevent that others from carrying out the maloperation to GIS equipment, lead to useless information mass transfer to data processing module, increase system load, encrypt operator's information, prevent information leakage, increase the security.

Drawings

FIG. 1 is a schematic diagram of the system architecture of the present invention;

FIG. 2 is a system functional architecture of the present invention;

FIG. 3 is a functional block diagram of the present invention;

FIG. 4 is a partial functional architecture diagram of the present invention.

In the figure: 1. an operation port; 2. a GIS device; 201. x-ray fluoroscopy imaging; 202. extracting an image; 3. an identity information reading module; 301. identifying a portrait living body; 302. fingerprint identification; 4. an encryption module; 401. a portrait processing module; 402. a fingerprint processing module; 5. an AI intelligent analysis module; 501. the authentication is successful; 502. authentication fails; 5021. repeating authentication; 5022. canceling the authentication; 6. an authentication transmission module; 7. a data processing module; 701. a detection information processing module; 702. a detection information storage module; 8. cloud management; 9. a visual terminal; 10. an operating platform; 11. reviewing the retrieval report; 12. detecting pictures through X-ray imaging; 1201. processing an image; 1202. image recognition; 13. and (4) rapid diagnosis.

Detailed Description

The embodiment of the invention provides an in-service GIS power station intelligent cloud detection system based on X-ray.

Referring to fig. 1, 2, 3 and 4, an operation port 1 for an operator;

the GIS equipment 2 is used for emitting X-ray detection imaging, and the operation port 1 is connected with the output end of the GIS equipment 2; the GIS device 2 comprises an X-ray perspective imaging 201 for imaging and an image extraction 202 for extracting an imaging result, and is favorable for extracting a scanned image, an identity information reading module 3 for confirming the use authority of an operator, wherein the identity information reading module 3 is connected with the output end of an operation port 1, the identity information reading module 3 comprises a living portrait identification 301 for living portrait verification and a fingerprint identification 302 for fingerprint authentication, and is favorable for confirming the use authority of the operator and preventing misoperation; the encryption module 4 is used for encrypting operator information, the encryption module 4 is connected with the output end of the identity information reading module 3, the encryption module 4 comprises a portrait processing module 401 used for encrypting the portrait of the operator and a fingerprint processing module 402 used for encrypting the fingerprint, and the encryption module is favorable for encrypting the information of the operator; the AI intelligent analysis module 5 is used for analyzing and comparing operator information, the AI intelligent analysis module 5 is connected with the output end of the encryption module 4, the AI intelligent analysis module 5 comprises an authentication success 501 and an authentication failure 502, the authentication failure 502 comprises a repeated authentication 5021 and a cancellation authentication 5022, the output end of the authentication success 501 is connected with the authentication transmission module 6, which is beneficial for repeated confirmation of an operator, the authentication transmission module 6 is used for performing authentication transmission on the authority of the operator, and the authentication transmission module 6 is connected with the output end of the AI intelligent analysis module 5;

an operator performs portrait living body identification 301 and fingerprint identification 302 through an operation port 1, the portrait living body identification 301 records fingerprints of the hand of the operator, the fingerprint identification 302 identifies the face of the operator, signals are sent to an identity information reading module 3 by the portrait living body identification 301 and the fingerprint identification 302, information of the operator is read by the identity information reading module 3 and is sent to an encryption module 4, meanwhile, the encryption module 4 sends face information and fingerprint information to a portrait processing module 401 and a fingerprint processing module 402 and sends corresponding information to an AI intelligent analysis module 5, the AI intelligent analysis module 5 analyzes authentication information, after the analysis and comparison fail, the authentication failure 502 is executed, the operator can execute repeated authentication 5021 and also can execute cancellation authentication 5022, after the analysis and comparison succeed, the operator enters an authentication transmission module 6, the authentication transmission module 6 sends the information to the data processing module 7 to authenticate the operator

A data processing module 7 for processing data, the data processing module 7 is connected with the output end of the AI intelligent analysis module 5, the data processing module 7 is connected with the authentication transmission module 6, the data processing module 7 comprises a detection information processing module 701 for processing the detection image information and a detection information storage module 702 for storing the detection information, the detection information processing module 701 is connected with the detection information storage module 702 to facilitate the identification and storage of the detection image, the output end of the data processing module 7 is connected with a cloud management 8 for performing the cloud storage management of the data, a visual terminal 9 is connected with the cloud management 8 to facilitate the transmission of the detection result and the image to the cloud, the input end of the visual terminal 9 is connected with an operation platform 10 for looking up the result, and the input end of the operation platform 10 is connected with a review report 11, the multiple platforms can be conveniently read at any time; the cloud management 8 is used for retrieving detection results, and the cloud management 8 is connected with the data processing module 7; the X-ray imaging detection picture 12 is used for analyzing and detecting a fault imaging result, the X-ray imaging detection picture 12 is connected with the output end of the GIS device 2, the data processing module 7 is connected with the output end of the X-ray imaging detection picture 12, the X-ray imaging detection picture 12 comprises image processing 1201 for compressing a detection image and image processing 1201 for identifying the image, the image processing 1201 is connected with the image identification 1202, the image processing is favorable for processing the image and convenient for transmission, the output end of the X-ray imaging detection picture 12 is connected with a rapid diagnosis 13 for comparing and diagnosing the image, and the data processing module 7 is connected with the output end of the rapid diagnosis 13 and is favorable for diagnosing the image;

an operator carries out X-ray perspective imaging 201 when detecting through GIS equipment 2, simultaneously, the image extraction 202 extracts the image intercepted by the X-ray perspective imaging 201, sends the extracted image to an X-ray imaging detection picture 12, carries out image identification 1202 after the image is sent to the X-ray imaging detection picture 12, carries out identification contrast on the image in the picture library, and resends the image to the X-ray imaging detection picture 12, records the picture into the picture library, then sends the image to an image processing 1201 through the X-ray imaging detection picture 12, carries out preprocessing on the image, carries out diagnosis through the image identification 1202 sending the picture to a rapid diagnosis 13, sends the image generation to a data processing module 7 through the rapid diagnosis 13, processes the image data through the data processing module 7, processes the detection information through a detection information processing module 701, then sends the detection information to a detection information storage module 702 for storing the information, the data processing module 7 sends the detection information to the cloud management 8, carries out cloud storage on the information, sends a signal to the operating platform 10 through the retrieval report review 11, and the operating platform 10 carries out multi-platform retrieval detection results through the retrieval report review 11.

An operator carries out X-ray perspective imaging 201 when detecting through GIS equipment 2, simultaneously, the image extraction 202 extracts the image intercepted by the X-ray perspective imaging 201, sends the extracted image to an X-ray imaging detection picture 12, carries out image identification 1202 after the image is sent to the X-ray imaging detection picture 12, carries out identification contrast on the image in the picture library, and resends the image to the X-ray imaging detection picture 12, records the picture into the picture library, then sends the image to an image processing 1201 through the X-ray imaging detection picture 12, carries out preprocessing on the image, carries out diagnosis through the image identification 1202 sending the picture to a rapid diagnosis 13, sends the image generation to a data processing module 7 through the rapid diagnosis 13, processes the image data through the data processing module 7, processes the detection information through a detection information processing module 701, then sends the detection information to a detection information storage module 702 for storing the information, the data processing module 7 sends the detection information to the cloud management 8, the information is stored in the cloud, a signal is sent to the operating platform 10 through the retrieval report review 11, and the operating platform 10 conducts multi-platform retrieval detection results through the retrieval report review 11, so that the use is convenient;

an operator performs portrait living body identification 301 and fingerprint identification 302 through an operation port 1, the portrait living body identification 301 records fingerprints of the hand of the operator, the fingerprint identification 302 identifies the face of the operator, signals are sent to an identity information reading module 3 by the portrait living body identification 301 and the fingerprint identification 302, information of the operator is read by the identity information reading module 3 and is sent to an encryption module 4, meanwhile, the encryption module 4 sends face information and fingerprint information to a portrait processing module 401 and a fingerprint processing module 402 and sends corresponding information to an AI intelligent analysis module 5, the AI intelligent analysis module 5 analyzes authentication information, after the analysis and comparison fail, the authentication failure 502 is executed, the operator can execute repeated authentication 5021 and also can execute cancellation authentication 5022, after the analysis and comparison succeed, the operator enters an authentication transmission module 6, the authentication transmission module 6 sends the information to the data processing module 7 to authenticate an operator, so that the situation that a large amount of useless information is transmitted to the data processing module 7 due to misoperation of other people on the GIS equipment 2 is prevented, the system load is increased, the information of the operator is encrypted, the information leakage is prevented, and the safety is improved.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present 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.