CN116760950A - Multi-video-source safety monitoring system of transformer substation - Google Patents

Abstract

The application discloses a multi-video-source security monitoring system of a transformer substation, which comprises transformer substation terminal equipment, a server processing center arranged at the output end of the transformer substation terminal equipment, and a transformer substation security control center arranged at the output end of the server processing center. After the handheld inspection camera of the transformer substation multi-video-source safety monitoring system enters a corresponding working monitoring area, an infrared transmitter transmits signals to an infrared receiver in the area, after the infrared receiver is activated, a feedback signal can be sent to a video source address acquisition module, the video source address acquisition module carries out area feature code assignment on monitoring image data through a feature code assignment unit after analyzing area information of the infrared receiver, and the monitoring image data of the same feature code are summarized to a partition image summarizing unit, and a user can search all monitoring image data in the area through a playback searching unit only through an image information management module.

Description

Multi-video-source safety monitoring system of transformer substation

Technical Field

The application relates to the technical field of substation monitoring, in particular to a multi-video-source safety monitoring system of a substation.

Background

The transformer substation is an important link of a normal operation string of the power system, and can complete the functions of electric energy transmission, voltage transformation, electric energy distribution and the like. With the continuous improvement of the Chinese economic level and the continuous increase of the transformer substation engineering, the following transformer substation safety monitoring problems are increasingly highlighted, the safety monitoring and control management of the transformer substation engineering becomes an important problem of the safe and normal operation of the transformer substation engineering, the transformer substation monitoring system is an electric network auxiliary monitoring system additionally arranged for realizing unattended operation in cooperation with the transformer substation, the most basic purpose is to transmit the alarm information of each monitoring point of the transformer substation to a monitoring center, and monitoring personnel can comprehensively monitor the operation condition of the transformer substation through real-time images and motion information.

In order to overcome the defects of the prior art, the prior technical proposal, such as a substation inspection monitoring system with the publication number of CN108712636A, comprises a monitoring device, a detection device, a processing device, a storage device and a display device; the substation inspection monitoring system utilizes the processing device and the direction sensor, can extract the front end state of the current monitoring system, particularly the view angle state of the monitoring camera, can calculate the monitoring range of the front end of the monitoring system, can operate, changes the camera state and performs inspection.

The essence of the monitoring system is that the visual angle state of the monitoring camera is regulated through the control end, the function is limited, maintenance personnel can carry out key monitoring and patrol on a heavy area besides the monitoring equipment with fixed positions in the transformer substation safety monitoring system, the handheld monitoring equipment can be used for shooting video pictures while patrol, and as the maintenance personnel can comprehensively check the monitoring video from multiple video sources in a certain area to master the video information of the area in all aspects in the transformer substation safety monitoring system in the continuous walking process, the transformer substation multi-video-source safety monitoring system is provided.

Disclosure of Invention

The application aims to provide a transformer substation multi-video source safety monitoring system so as to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions: the multi-video source security monitoring system of the transformer substation comprises transformer substation terminal equipment, a server processing center arranged at the output end of the transformer substation terminal equipment, and a transformer substation security control center arranged at the output end of the server processing center;

the substation terminal equipment comprises daily monitoring equipment, positioning equipment and patrol monitoring equipment, and the substation is divided into a plurality of working monitoring areas;

the server processing center comprises an image data processing module, a video source address acquisition module and a data analysis module;

the substation safety control center comprises an environment data management module, an image information management module and an abnormality processing module;

the transformer substation terminal equipment is used for monitoring a transformer substation, the server processing center is used for processing all received monitoring data, and the transformer substation safety control center is responsible for feeding back according to a processing result and controlling corresponding equipment to work in time;

the image data processing module comprises a source data encoding unit, wherein the output end of the source data encoding unit is connected with a feature code assignment unit, the output end of the feature code assignment unit is connected with an active data encapsulation unit, the output end of the source data encapsulation unit is connected with a video interception unit, the output end of the video interception unit is connected with an image transmission unit, and the output end of the image transmission unit is connected with a partition image summarizing unit;

the image data processing module processes the obtained monitoring image data;

the source data encoding unit re-encodes the obtained monitoring image data;

the feature code assignment unit assigns the feature code of the work monitoring area obtained by the positioning equipment to the feature area of the monitoring image data;

the source data packaging unit washes and packages the encoded monitoring image data;

the video intercepting unit intercepts the monitoring image data according to different feature codes;

the image transmission unit is used for packaging and transmitting the monitoring image data of different feature codes;

the regional image summarizing unit is used for regional summarizing the monitoring image data of different feature codes.

Preferably, the daily monitoring equipment comprises a smoke sensor, a temperature and humidity sensor, a human body induction sensor and an indoor camera, wherein the smoke sensor, the temperature and humidity sensor, the human body induction sensor and the indoor camera are installed according to the positions of the working monitoring areas, and each working monitoring area is correspondingly provided with a plurality of daily monitoring equipment according to the number of the equipment.

Preferably, the positioning device comprises an infrared receiver and a bluetooth beacon, and each substation area is provided with a group of infrared receivers and bluetooth beacons.

Preferably, the patrol monitoring device comprises an infrared transmitter and a handheld patrol camera, and the infrared transmitter and the infrared receiver realize data transmission.

Preferably, the image information management module comprises a playback searching unit and a node reminding unit;

the playback searching unit is used for playing back the video image, and the node reminding unit is used for reminding important nodes.

Preferably, the abnormality processing module comprises an abnormality screening unit, wherein the output end of the abnormality screening unit is respectively connected with an abnormality alarm unit and a node marking unit, and the node marking unit and the node reminding unit realize data transmission.

Preferably, the exception handling module is used for handling the monitored data exception;

the abnormal screening unit is used for screening abnormal nodes of the monitoring data;

the abnormality alarm unit is used for reminding abnormality monitoring data;

the node marking unit is used for time marking the abnormal nodes.

Preferably, the indoor camera, the image transmission unit and the partition image summarizing unit sequentially realize data transmission, and the partition image summarizing unit and the data analysis module realize data transmission.

Preferably, the positioning device and the video source address acquisition module realize data transmission, the video source address acquisition module and the feature code assignment unit realize data transmission, and the feature code assignment unit and the video interception unit realize data transmission.

Preferably, the smoke sensor, the temperature and humidity sensor and the human body induction sensor all realize data transmission with the data analysis module, and the data analysis module and the environmental data management module realize data transmission.

The above description shows that the technical problems to be solved by the present application can be solved by the above technical solutions of the present application.

Meanwhile, through the technical scheme, the application has at least the following beneficial effects:

the application can carry out partition processing on the obtained monitoring image data through the set image data processing module, when a group of monitoring image data is received, the detailed address of a video source is obtained through the positioning equipment, each group of address is endowed with the same feature code, for daily monitoring equipment, the feature code is checked only through the Bluetooth beacon, for patrol monitoring equipment, when a handheld patrol camera enters a corresponding working monitoring area, an infrared transmitter sends a signal to an infrared receiver in the area, after the infrared receiver is activated, a feedback signal can be sent to a video source address acquisition module, and after the video source address acquisition module analyzes the area information of the infrared receiver, the area feature code is assigned to the monitoring image data through a feature code assignment unit, and the monitoring image data of the same feature code is summarized to a partition image summarizing unit, and a user can search all the monitoring image data in the area through a playback unit only through an image information management module;

according to the application, after all the monitoring data can be analyzed and processed through the data analysis module and is corresponding to the monitoring data through the abnormality processing module, the abnormality screening unit screens the results according to the analysis result of the data analysis module again, the priority is assessed, the abnormality alarm unit timely sends out an alarm, the inspection personnel can rapidly process the abnormality information timely according to the alarm, the node marking unit marks the key point in the time node when the monitoring data are stirred, and when a user uses the image information management module to search the monitoring image data, the node reminding unit can select important node data information, the monitoring data is not required to be comprehensively checked, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall workflow of the present application;

FIG. 2 is a schematic workflow diagram of an image data processing module according to the present application;

FIG. 3 is a schematic workflow diagram of the daily monitoring device of the present application;

FIG. 4 is a schematic workflow diagram of an image information management module and an exception handling module of the present application;

FIG. 5 is a schematic diagram of the workflow of the patrol monitoring device of the present application;

fig. 6 is a schematic diagram of the working flow of the indoor camera according to the present application.

In the figure: 1. daily monitoring equipment; 101. a smoke sensor; 102. a temperature and humidity sensor; 103. a human body induction sensor; 104. an indoor camera; 2. positioning equipment; 201. an infrared receiver; 202. a bluetooth beacon; 3. a patrol monitoring device; 301. an infrared transmitter; 302. a handheld inspection camera; 4. an image data processing module; 401. a source data encoding unit; 402. a feature code assignment unit; 403. a source data encapsulation unit; 404. a video capturing unit; 405. an image transmission unit; 406. a partition image summarizing unit; 5. a video source address acquisition module; 6. a data analysis module; 7. an environmental data management module; 8. an image information management module; 801. a playback search unit; 802. a node reminding unit; 9. an exception handling module; 901. an abnormality screening unit; 902. an abnormality alarm unit; 903. and a node marking unit.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Description of the preferred embodiments

As shown in fig. 1 and 2, the present application provides a technical solution: the multi-video source security monitoring system of the transformer substation comprises transformer substation terminal equipment, a server processing center arranged at the output end of the transformer substation terminal equipment, and a transformer substation security control center arranged at the output end of the server processing center;

the substation terminal equipment comprises daily monitoring equipment 1, positioning equipment 2 and patrol monitoring equipment 3, and the substation is divided into a plurality of working monitoring areas;

the server processing center comprises an image data processing module 4, a video source address acquisition module 5 and a data analysis module 6;

the substation safety control center comprises an environment data management module 7, an image information management module 8 and an abnormality processing module 9;

the transformer substation terminal equipment is used for monitoring a transformer substation, the server processing center is used for processing all received monitoring data, the transformer substation safety control center is responsible for feeding back according to processing results, controlling corresponding equipment to work in time, dividing a proper number of work monitoring areas according to the size of the implemented transformer substation, installing daily monitoring equipment 1 in each work monitoring area, and installing the daily monitoring equipment 1 according to the number of equipment in the current area;

the image data processing module 4 comprises a source data encoding unit 401, wherein the output end of the source data encoding unit 401 is connected with a feature code assignment unit 402, the output end of the feature code assignment unit 402 is connected with a source data encapsulation unit 403, the output end of the source data encapsulation unit 403 is connected with a video interception unit 404, the output end of the video interception unit 404 is connected with an image transmission unit 405, the output end of the image transmission unit 405 is connected with a partition image summarizing unit 406, the positioning equipment 2 and the video source address acquisition module 5 realize data transmission, the video source address acquisition module 5 and the feature code assignment unit 402 realize data transmission, and the feature code assignment unit 402 and the video interception unit 404 realize data transmission;

wherein the image data processing module 4 processes the obtained monitoring image data;

the source data encoding unit 401 re-encodes the obtained monitoring image data;

the feature code assignment unit 402 assigns the work monitoring area feature code obtained by the positioning device 2 to the monitoring image data feature area;

the source data packaging unit 403 performs flushing packaging on the encoded monitoring image data;

the video intercepting unit 404 intercepts the monitoring image data according to different feature codes;

the image transmission unit 405 is used for packaging and transmitting the monitoring image data of different feature codes;

the partition image summarizing unit 406 is configured to perform regional summarizing on the monitored image data with different feature codes, the source data encoding unit 401 works to implement source data encoding, and performs regional feature code assignment on the monitored image data through the feature code assignment unit 402, and after the source data encapsulation unit 403 encapsulates the monitored image data, the video intercepting unit 404 intercepts the monitored image data according to the different feature codes, and the monitored image data with the same feature code is summarized to the partition image summarizing unit 406 through the image transmission unit 405.

Example two

The scheme in the first embodiment is further described below in conjunction with a specific working manner, and the details are described below:

as shown in fig. 3 and 6, as a preferred embodiment, further, based on the above manner, the daily monitoring device 1 includes the smoke sensor 101, the temperature and humidity sensor 102, the human body sensor 103 and the indoor camera 104, the smoke sensor 101, the temperature and humidity sensor 102, the human body sensor 103 and the indoor camera 104 are installed according to the positions of the operation monitoring areas, each operation monitoring area is correspondingly provided with a plurality of daily monitoring devices 1 according to the number of devices, the indoor camera 104, the image transmission unit 405 and the partition image summarizing unit 406 sequentially implement data transmission, the partition image summarizing unit 406 and the data analysis module 6 implement data transmission, the smoke sensor 101, the temperature and humidity sensor 102 and the human body sensor 103 implement data transmission with the data analysis module 6, the data analysis module 6 and the environmental data management module 7 implement data transmission, and the data analysis module 6 obtains all video image monitoring information in different areas and the regional environmental data information acquired by the smoke sensor 101, the temperature and humidity sensor 102 and the human body sensor 103, and analyzes all the monitoring data.

As shown in fig. 2 and fig. 5, as a preferred embodiment, further, the positioning device 2 includes an infrared receiver 201 and a bluetooth beacon 202 on the basis of the above manner, each substation area is provided with a group of infrared receiver 201 and bluetooth beacon 202, each working monitoring area is provided with a group of infrared receiver 201 and bluetooth beacon 202 in a matching manner, daily monitoring devices 1 in the area directly obtain the position of the area through the bluetooth beacon 202, a feature code is added on each group of source data directly before data transmission during configuration, working monitoring areas are distinguished according to the difference of the feature code data, the patrol monitoring device 3 includes an infrared transmitter 301 and a handheld patrol camera 302, the infrared transmitter 301 and the infrared receiver 201 realize data transmission, after the patrol camera 302 enters the corresponding working monitoring area, the infrared transmitter 301 transmits a signal to the infrared receiver 201 in the area, after the infrared receiver 201 is activated, a feedback signal can be transmitted to the video source address acquisition module 5, and the video source acquisition module 5 analyzes the infrared information of the infrared receiver 201 through the infrared receiver.

As shown in fig. 4, as a preferred embodiment, based on the above manner, further, the image information management module 8 includes a playback search unit 801 and a node reminding unit 802;

the playback searching unit 801 is used for playing back video images, the node reminding unit 802 is used for reminding important nodes, the abnormality processing module 9 comprises an abnormality screening unit 901, the output end of the abnormality screening unit 901 is respectively connected with an abnormality alarm unit 902 and a node marking unit 903, the node marking unit 903 and the node reminding unit 802 are used for realizing data transmission, and the abnormality processing module 9 is used for processing monitoring data abnormality;

the anomaly screening unit 901 is used for screening anomaly nodes of the monitoring data;

the anomaly alarm unit 902 is used for reminding anomaly monitoring data;

the node marking unit 903 is used for time marking abnormal nodes, wave data is transmitted to the abnormal processing module 9, the abnormal screening unit 901 performs result screening again according to the analysis result of the data analysis module 6, the priority is assessed, an alarm is timely sent out through the abnormal alarm unit 902, an inspection personnel can rapidly process abnormal information according to the alarm, the node marking unit 903 is used for performing key marking on the time node when the monitoring data is stirred, the inspection personnel can use the playback searching unit 801 to search the monitoring image data as required, and the node reminding unit 802 can rapidly search important node data information.

From the above, it can be seen that:

the application aims at the technical problems that: in addition to the fixed-position monitoring equipment, maintenance personnel can also perform key monitoring and patrol on a heavy-point area in the existing transformer substation safety monitoring system, and the handheld monitoring equipment can be used for shooting video pictures while patrol, so that the maintenance personnel can comprehensively check the monitoring video from multiple video sources in a certain area to master the video information of the area in an overall way, and the problem is particularly important in the transformer substation safety monitoring system; the technical scheme of each embodiment is adopted. Meanwhile, the implementation process of the technical scheme is as follows:

dividing a proper number of working monitoring areas according to the size of an implemented transformer substation, installing daily monitoring equipment 1 in each working monitoring area, installing the daily monitoring equipment 1 according to the number of equipment in the current area, installing a group of infrared receivers 201 and Bluetooth beacons 202 in each working monitoring area in a matching way, directly acquiring the position of the area by the daily monitoring equipment 1 in the area through the Bluetooth beacons 202, directly adding a feature code on each group of source data before data transmission during preparation, distinguishing the working monitoring areas according to the difference of the feature code data, sending signals to the infrared receivers 201 in the areas by an infrared transmitter 301 after a patrol personnel hands a patrol camera 302 enters the corresponding working monitoring area, sending feedback signals to a video source address acquisition module 5 after the infrared receivers 201 are activated, the video source address obtaining module 5 performs analysis on the area information of the infrared receiver 201, the source data encoding unit 401 works to implement source data encoding, the feature code assigning unit 402 performs area feature code assignment on the monitored image data, the source data packaging unit 403 intercepts the monitored image data according to different feature codes through the video intercepting unit 404 after the packaging is completed, the monitored image data of the same feature code is summarized to the partition image summarizing unit 406 through the image transmitting unit 405, the data analyzing module 6 obtains all video image monitoring information in different areas and area environment data information collected through the smoke sensor 101, the temperature and humidity sensor 102 and the human body induction sensor 103, performs analysis processing on all the monitored data, transmits the fluctuation data to the abnormality processing module 9, the abnormal screening unit 901 performs result screening again according to the analysis result of the data analysis module 6, evaluates the priority, and timely sends out an alarm through the abnormal alarm unit 902, so that a patrol personnel can rapidly process abnormal information according to the alarm in time, and perform key marking in a time node when the monitoring data is stirred through the node marking unit 903, the patrol personnel can search the monitoring image data by using the playback searching unit 801 according to the requirement, and can rapidly search important node data information through the node reminding unit 802;

through the arrangement, the application can solve the technical problems, and simultaneously realize the following technical effects:

the application can carry out partition processing on the obtained monitoring image data through the set image data processing module 4, when a group of monitoring image data is received, the detailed address of a video source is obtained through the positioning equipment 2, each group of address is endowed with the same feature code, for the daily monitoring equipment 1, the feature code is checked only through the Bluetooth beacon 202, for the patrol monitoring equipment 3, after the handheld patrol camera 302 enters the corresponding working monitoring area, the infrared transmitter 301 sends a signal to the infrared receiver 201 in the area, after the infrared receiver 201 is activated, a feedback signal can be sent to the video source address acquisition module 5, and after the video source address acquisition module 5 analyzes the area information of the infrared receiver 201, the feature code assignment unit 402 carries out area feature code assignment on the monitoring image data, and the monitoring image data of the same feature code is summarized to the partition image summarizing unit 406, and a user can search all the monitoring image data in the area through the playback unit 801 only through the image information management module 8;

according to the application, after all the monitoring data can be analyzed and processed through the data analysis module 6 and are corresponding through the abnormality processing module 9, the abnormality screening unit 901 performs result screening according to the analysis result of the data analysis module 6 again, the priority is assessed, the abnormality alarm unit 902 timely gives out an alarm, the patrol personnel can rapidly process the abnormality information timely according to the alarm, and the node marking unit 903 performs key marking in the time node when the monitoring data are stirred, when a user uses the image information management module 8 to search the monitoring image data, important node data information can be selected through the node reminding unit 802, the monitoring data do not need to be comprehensively checked, and the working efficiency is improved.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The multi-video-source safety monitoring system of the transformer substation is characterized by comprising terminal equipment of the transformer substation, a server processing center arranged at the output end of the terminal equipment of the transformer substation, and a transformer substation safety control center arranged at the output end of the server processing center;

the substation terminal equipment comprises daily monitoring equipment (1), positioning equipment (2) and patrol monitoring equipment (3), and the substation is divided into a plurality of work monitoring areas;

the server processing center comprises an image data processing module (4), a video source address acquisition module (5) and a data analysis module (6);

the transformer substation safety control center comprises an environment data management module (7), an image information management module (8) and an abnormality processing module (9);

the transformer substation terminal equipment is used for monitoring a transformer substation, the server processing center is used for processing all received monitoring data, and the transformer substation safety control center is responsible for feeding back according to a processing result and controlling corresponding equipment to work in time;

the image data processing module (4) comprises a source data encoding unit (401), wherein the output end of the source data encoding unit (401) is connected with a feature code assignment unit (402), the output end of the feature code assignment unit (402) is connected with an active data encapsulation unit (403), the output end of the source data encapsulation unit (403) is connected with a video interception unit (404), the output end of the video interception unit (404) is connected with an image transmission unit (405), and the output end of the image transmission unit (405) is connected with a partition image summarizing unit (406);

wherein the image data processing module (4) processes the obtained monitoring image data;

the source data encoding unit (401) re-encodes the obtained monitoring image data;

the feature code assignment unit (402) assigns the feature code of the work monitoring area obtained by the positioning equipment (2) to the monitoring image data feature area;

the source data packaging unit (403) performs flushing packaging on the encoded monitoring image data;

the video intercepting unit (404) intercepts monitoring image data according to different feature codes;

the image transmission unit (405) is used for packaging and transmitting the monitoring image data of different feature codes;

the partition image summarizing unit (406) is used for regional summarizing the monitoring image data of different feature codes.

2. The substation multi-video-source safety monitoring system according to claim 1, wherein the daily monitoring equipment (1) comprises a smoke sensor (101), a temperature and humidity sensor (102), a human body induction sensor (103) and an indoor camera (104), the smoke sensor (101), the temperature and humidity sensor (102), the human body induction sensor (103) and the indoor camera (104) are installed according to the positions of working monitoring areas, and each working monitoring area is provided with a plurality of daily monitoring equipment (1) according to the number of the equipment.

3. A substation multi-video source security monitoring system according to claim 1, characterized in that the positioning device (2) comprises an infrared receiver (201) and a bluetooth beacon (202), said each substation area being fitted with a set of infrared receivers (201) and bluetooth beacons (202).

4. A substation multi-video-source security monitoring system according to claim 3, characterized in that the patrol monitoring device (3) comprises an infrared transmitter (301) and a handheld patrol camera (302), the infrared transmitter (301) and the infrared receiver (201) realizing data transmission.

5. The substation multi-video-source security monitoring system according to claim 1, wherein the image information management module (8) comprises a playback lookup unit (801) and a node reminding unit (802);

wherein the playback searching unit (801) is used for playing back video images, and the node reminding unit (802) reminds important nodes.

6. The transformer substation multi-video-source security monitoring system according to claim 5, wherein the abnormality processing module (9) comprises an abnormality screening unit (901), an abnormality alarm unit (902) and a node marking unit (903) are respectively connected to the output end of the abnormality screening unit (901), and the node marking unit (903) and the node reminding unit (802) realize data transmission.

7. The substation multi-video-source security monitoring system according to claim 6, wherein the anomaly handling module (9) is configured to handle monitoring data anomalies;

the abnormal screening unit (901) is used for screening abnormal nodes of the monitoring data;

the abnormality alarm unit (902) is used for reminding abnormality monitoring data;

the node marking unit (903) is configured to time-mark an abnormal node.

8. The substation multi-video-source security monitoring system according to claim 2, wherein the indoor camera (104), the image transmission unit (405) and the partition image summarizing unit (406) sequentially realize data transmission, and the partition image summarizing unit (406) and the data analysis module (6) realize data transmission.

9. The substation multi-video-source security monitoring system according to claim 1, wherein the positioning device (2) and the video source address acquisition module (5) realize data transmission, and the video source address acquisition module (5) and the feature code assignment unit (402) realize data transmission, and the feature code assignment unit (402) and the video interception unit (404) realize data transmission.

10. The substation multi-video-source safety monitoring system according to claim 2, wherein the smoke sensor (101), the temperature and humidity sensor (102) and the human body induction sensor (103) all realize data transmission with the data analysis module (6), and the data analysis module (6) and the environmental data management module (7) realize data transmission.