CN211830983U - Intelligent video monitoring system of transformer substation - Google Patents

Abstract

The application relates to an intelligent video monitoring system of a transformer substation. The intelligent video monitoring system of the transformer substation comprises a plurality of network cameras, spherical camera equipment and a switch; the network camera is used for shooting a state picture of the corresponding primary equipment; the signal input end of the spherical camera device is respectively connected with the signal output end of each network camera; the signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end. The spherical camera shooting equipment can be used for shooting the state pictures of a plurality of pieces of primary equipment, identifying the state pictures of the primary equipment shot by the spherical camera shooting equipment and each network camera, accurately analyzing the joint and branch states of each piece of controlled primary equipment and obtaining an identification result. And the switch uploads the obtained identification result to a dispatching end to complete monitoring and analysis of the primary equipment state. Based on the structure, a special video monitoring camera is not required to be configured for each controlled device, loop configuration is simplified, and device cost is reduced.

Description

Intelligent video monitoring system of transformer substation

Technical Field

The application relates to the technical field of intelligent monitoring of transformer substations, in particular to an intelligent video monitoring system of a transformer substation.

Background

With the development of socio-economy, the demand for electricity is getting bigger and bigger, and therefore, the construction of electricity is related to national security and economic life. Meanwhile, due to the improvement of the intelligent degree of the power system, the operation modes of the unattended transformer substation and the intelligent transformer substation are gradually popularized, and the intelligent operation and maintenance problem of the transformer substation adopting conventional open equipment is increasingly prominent. Monitoring the states of key equipment and key range equipment is an important means for realizing safe operation of the transformer substation, and is also a reliable way for improving the intelligent degree of the transformer substation.

In the traditional transformer substation monitoring system, the video network camera is arranged in a primary equipment field according to the region and monitors the primary equipment state, so that the basic safety and the equipment appearance monitoring are met, and in the implementation process, the inventor finds that at least the following problems exist in the traditional technology: in a programmed operation video monitoring system of a transformer substation, a controlled device needs to be configured with a special video monitoring device, so that the configuration quantity of signal loops is large, the configuration of the monitoring system is complex, and the cost is high.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide an intelligent video monitoring system for a transformer substation aiming at the problems of complex configuration and high cost of the traditional transformer substation video monitoring system.

In order to achieve the above object, an embodiment of the present application provides an intelligent video monitoring system for a transformer substation;

the utility model provides a transformer substation's intelligence video monitor system which characterized in that includes:

a plurality of network cameras; the network camera is used for shooting a state picture of the corresponding primary equipment;

a spherical camera device; the signal input end of the spherical camera device is respectively connected with the signal output end of each network camera;

a switch; the signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a spacing distribution box;

the power input end of the interval distribution box is used for connecting a commercial power distribution and transformation system; the power output end of the interval distribution box is respectively connected with the spherical camera equipment and the network cameras.

In one embodiment, the intelligent video monitoring system for the transformer substation further comprises an optical fiber fusion box;

the signal input end of the spherical camera equipment is connected with the signal output end of each network camera through the optical fiber fusion box.

In one embodiment, the intelligent video monitoring system for the transformer substation further comprises a data monitoring cabinet body;

the switch is arranged in the data monitoring cabinet body.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a UPS (uninterrupted power supply);

the UPS power supply is connected with the switch through the power input end of the data monitoring cabinet body.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a lightning arrester;

the lightning arrester is connected between the power input end of the data monitoring cabinet body and the switch.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises an output optical cable;

the output optical cable is connected between the signal output end of the spherical camera equipment and the signal input end of the switchboard.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a power cable;

the power output end of the interval distribution box is respectively connected with the network camera and the spherical camera equipment through power cables.

In one embodiment, the output optical cable is a multi-core single-mode optical fiber.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a communication controller;

the communication controller is connected to the switch.

One of the above technical solutions has the following advantages and beneficial effects:

the intelligent video monitoring system of the transformer substation comprises a plurality of network cameras, spherical camera equipment and a switch. The network camera is used for shooting a state picture of the corresponding primary equipment; the signal input end of the spherical camera device is respectively connected with the signal output end of each network camera; the signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end. The spherical camera device can be used for shooting the state pictures of a plurality of primary devices in a primary device field, identifying and analyzing the state pictures of the primary devices shot by the spherical camera device and the plurality of network cameras, accurately identifying the closing and opening states of the corresponding primary devices to obtain identification results, and sending the identification results to the signal input end of the switchboard through the signal output end of the spherical camera device. And the switch uploads the obtained identification result to a dispatching end to complete the real-time monitoring of the running state of the primary equipment. Based on the structure, in the intelligent video monitoring system of the transformer substation, the spherical camera equipment is matched with the plurality of network cameras, a special video monitoring camera does not need to be configured for each controlled device, a special secondary analysis host and a special processing unit do not need to be configured for the controlled device to process shot state pictures, the number of power supply loops and signal loops of the video monitoring device in the system is reduced, the use amount of materials such as secondary cables and boxes is reduced, the equipment configuration of the programmed operation video monitoring system of the transformer substation is greatly simplified, and the cost is effectively reduced.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular description of preferred embodiments of the application, as illustrated in the accompanying drawings. Like reference numerals refer to like parts throughout the drawings, and the drawings are not intended to be drawn to scale in actual dimensions, emphasis instead being placed upon illustrating the subject matter of the present application.

Fig. 1 is a schematic diagram of a first structure of an intelligent video monitoring system of a transformer substation;

fig. 2 is a schematic diagram of a second structure of the intelligent video monitoring system of the transformer substation;

FIG. 3 is a schematic diagram of a third structure of the intelligent video monitoring system of the transformer substation;

fig. 4 is a fourth structural schematic diagram of the intelligent video monitoring system of the transformer substation;

fig. 5 is a fifth structural schematic diagram of the intelligent video monitoring system of the substation.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are shown in the drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element and be integral therewith, or intervening elements may also be present.

Unless defined otherwise, all technical and scientific 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 in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The embodiment of the application can be applied to the technical field of intelligent monitoring of the transformer substation; in a traditional transformer substation monitoring system, a video network camera is arranged in a primary equipment field according to regions and monitors the state of primary equipment, so that basic safety and equipment appearance monitoring can be met, the on-off state of the primary equipment cannot be accurately judged, operation and maintenance personnel are required to confirm the equipment action condition and the on-off position state when operating specific primary equipment, efficient intelligent monitoring on the primary equipment cannot be met, the life safety of the maintenance personnel can be threatened, and the safety is not high. In the programmed operation video monitoring system of the transformer substation, a controlled device needs to be configured with a special video monitoring device, a secondary power supply module, a communication device and a special server with a device position identification algorithm to identify the on-off position of the field primary device and upload the identification result to a station end and a dispatching end, so that the configuration quantity of signal loops is large, and the configuration of the monitoring system is complex and the cost is high. Therefore, the intelligent video monitoring system for the transformer substation is safe, reliable, simple in configuration and capable of reducing equipment cost.

In one embodiment, as shown in fig. 1, there is provided a substation intelligent video monitoring system, including:

a plurality of network cameras; the network camera is used for shooting a state picture of the corresponding primary equipment;

a spherical camera device; the signal input end of the spherical camera device is respectively connected with the signal output end of each network camera;

a switch; the signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end.

Specifically, a plurality of network cameras and a dome camera apparatus are respectively provided at a primary apparatus site. The network cameras are arranged around the corresponding primary equipment and used for shooting the state picture of the primary equipment; the spherical camera equipment can be used for rotatably shooting the state pictures of a plurality of primary equipment, and can monitor the plurality of primary equipment simultaneously, so that the use number of the primary site video monitoring equipment is reduced, and the equipment configuration of the intelligent video monitoring system of the transformer substation is simplified. The switch can be an optical port switch or an electrical port switch. The status picture of the primary equipment mainly comprises a position change picture of the primary equipment such as a breaker, a disconnecting link and the like. Generally, an image pickup apparatus of another shape (for example, a cylindrical shape) may be selected according to actual needs to replace a ball-type image pickup apparatus, and the joint state of each monitored primary apparatus is identified and analyzed. The spherical camera device may analyze the acquired state picture of the primary device by using an existing analysis algorithm to identify the joint and separate states of the monitored primary device, which needs to be described that the embodiment does not relate to the improvement of the algorithm. Illustratively, the spherical camera device adopts the existing analysis algorithm to collect the controlled object opening and closing angle calculation analysis result, and assists to make double confirmation logic with the controlled object body auxiliary position contact to give the recognition result. Illustratively, the spherical camera device adopts an analysis algorithm to calculate the opening and closing angles of the spherical camera device and a controlled object collected by the network camera, so as to judge the opening and closing positions of the controlled primary device and determine the opening and closing state.

The signal input end of the spherical camera device is respectively connected with the signal output end of each network camera; the signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end. The signal output end of the spherical camera equipment outputs the identification result, the identification result is collected by the switch and forwarded to the dispatching end and the monitoring background, a special video monitoring device, a secondary power supply, a secondary box body, a secondary analysis host and the like do not need to be configured for each controlled device, the number of power supply loops and signal loops is reduced, the configuration of the intelligent video monitoring system of the transformer substation is greatly simplified, the use amount of cables, secondary screen cabinets and other materials in the video monitoring system can be greatly reduced, and the cost of the device is reduced. Meanwhile, a plurality of network cameras, the spherical camera equipment and the switch are matched with one another to form the intelligent video monitoring system of the transformer substation, operation and maintenance personnel do not need to confirm on site, the safety and reliability of operation and maintenance of the monitoring equipment at the front end of the video monitoring system are improved, and the personal safety of the operation and maintenance personnel is guaranteed. Illustratively, the dome camera device may be an image-enabled analyzable smart device such as a software defined camera.

In the existing configuration scheme of the programmed operation video monitoring system of the transformer substation, the configuration mode of the video monitoring equipment is mainly configured in a one-to-one mode according to the number of the controlled equipment in a field power distribution device area (per phase), the configuration number of power supply loops and signal loops is large, the complex degree of secondary wiring and light fusion of the video monitoring system is increased, the system fault probability is increased, and the reliability of the video monitoring system is reduced. The embodiment of the application provides an intelligent video monitoring system for a transformer substation, video monitoring equipment is reasonably and optimally configured according to the number and scale of primary equipment of the transformer substation, the configuration number of the monitoring equipment is greatly reduced, the spherical camera equipment can simultaneously monitor the running states of a plurality of primary equipment, equipment wiring is simplified, equipment installation is facilitated, the overhaul of the primary equipment is not affected, the construction range is reduced, and the equipment cost is reduced. The spherical camera shooting device can judge the opening and closing positions of the controlled object and upload the judgment result to the monitoring background and the dispatching end, so that the opening and closing position identification accuracy of the controlled device is improved, and the programming operation efficiency is improved.

In one embodiment, as shown in fig. 2, the intelligent video monitoring system of the substation further includes a bay distribution box;

the power input end of the interval distribution box is used for connecting a commercial power distribution and transformation system; the power output end of the interval distribution box is respectively connected with the spherical camera equipment and the network cameras.

The power supply device can supply power for the spherical camera equipment and each network camera through the interval distribution box. The Power supply device may be a commercial Power distribution and transformation System, a UPS (Uninterruptible Power System) Power supply, or a photovoltaic device.

Specifically, the power input end of the interval distribution box is connected with a commercial power distribution and transformation system, and the power output end of the interval distribution box is respectively connected with the spherical camera device and each network camera for power supply. In the embodiment of the application, the commercial power distribution and transformation system supplies power for the spherical camera and the network cameras through the interval distribution box respectively, a secondary power supply is not required to be specially configured for each network camera and each spherical camera, a configured power supply loop is reduced, and the reliability of the intelligent video monitoring system of the transformer substation is improved. In the embodiment of the application, an independent video signal processing unit is not required to be configured, video signal analysis and processing and position identification of controlled equipment are completed by spherical camera equipment, an analysis host is not required to be configured independently, a secondary equipment box is not required to be configured in a field, and the use amount of materials such as cables and boxes of the intelligent video monitoring system of the transformer substation can be reduced by more than 80%; meanwhile, the requirements of secondary equipment configuration and secondary screen positions are reduced, the implementation of a transformer substation with insufficient standby screen positions is facilitated, and the applicability is strong. In one embodiment, the bay electrical box further comprises a fiber splice tray; and the recognition result output by the spherical camera equipment is forwarded to the switch through the optical fiber fusion box, so that the real-time monitoring and the joint and separation state recognition of the primary equipment of the transformer substation are realized.

In one embodiment, as shown in fig. 3, the intelligent video monitoring system of the substation further comprises an optical fiber fusion splice box;

the signal input end of the spherical camera equipment is connected with the signal output end of each network camera through the optical fiber fusion box.

Specifically, the signal input end of the ball-type camera device is connected with the signal output end of each network camera through the optical fiber fusion box. The optical fiber fusion box is used for collecting information such as related monitoring state pictures shot by the network camera in real time to the spherical camera shooting equipment. The spherical camera shooting equipment processes the state picture of the primary equipment transferred by the optical fiber fusion splice box and the picture shot by the spherical camera shooting equipment and corresponds to the primary equipment, so that the identification result of the joint and separation state of each controlled primary equipment is obtained, and the identification result is transmitted to the switch.

In one embodiment, as shown in fig. 4, the intelligent video monitoring system of the substation further includes a data monitoring cabinet;

the switch is arranged in the data monitoring cabinet body.

Particularly, the data monitoring cabinet body can be used for directly displaying and calling the identification result of the spherical camera equipment, and the score combination identification result of each controlled primary equipment can be visually displayed. The data monitoring cabinet body need not to locate primary equipment place, can effectively avoid receiving electromagnetic interference, improves the reliability and the stability of system. The switch is arranged in the data monitoring cabinet body. In one embodiment, the data monitoring cabinet is connected with the station end monitoring workstation through an Ethernet cable. In one embodiment, the data monitoring cabinet further comprises an environment acquisition unit. The environment acquisition unit is connected with the switch; the environment acquisition unit is used for acquiring the data of the surrounding environment of the transformer substation, including the environmental parameters such as temperature, humidity and water immersion. In one embodiment, the data monitoring cabinet is a data monitoring screen.

In one embodiment, as shown in fig. 5, the intelligent video monitoring system of the substation further includes a UPS power supply;

the UPS power supply is connected with the switch through the power input end of the data monitoring cabinet body.

In particular, the UPS power supply can provide power to critical devices in the data monitoring cabinet. The UPS power supply is connected with the switch through the power input end of the data monitoring cabinet body, and the UPS power supply supplies power for the switch, so that the power supply reliability of important secondary equipment is improved.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a lightning arrester;

the lightning arrester is connected between the power input end of the data monitoring cabinet body and the switch.

Particularly, arrester one end is connected between the power input end and the switch of the data monitoring cabinet body, and the other end ground connection can guarantee the power supply safety to the switch, has improved UPS power supply stability.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises an output optical cable;

the output optical cable is connected between the signal output end of the spherical camera equipment and the signal input end of the switchboard.

Specifically, the signal output end of the spherical camera equipment is connected with the signal input end of the switchboard through an output optical cable. The identification result of the closed-open state of the controlled primary equipment by the spherical camera equipment is transmitted to the signal input end of the switch through the output optical cable, and the obtained identification result is sent to the dispatching end or the monitoring center by the switch. Preferably, the output optical cable is a multi-core single-mode optical fiber. The multi-core single-mode fiber can be used for the multi-path transmission of multi-path video state pictures. The spherical camera equipment, the network camera, the interval distribution box and the switch are connected through the cable and the output optical cable, so that the real-time monitoring of the transformer substation is realized.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a power cable;

the power output end of the interval distribution box is respectively connected with the network camera and the spherical camera equipment through power cables.

Particularly, the interval distribution box supplies power to each network camera and the spherical camera device through the power cable, and a special secondary power supply is not required to be arranged for each monitoring device one to one, so that the configuration of a video monitoring system is greatly simplified, and the equipment cost is reduced. Preferably, the power cable is a ZA-RVVP cable.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a communication controller; the communication controller is connected to the switch.

Specifically, the communication controller accesses the switch through an ethernet cable. The communication controller may be a communication interface for controlling data transfer. Illustratively, the communication controller is used for interconversion of the RS485 communication protocol to the ethernet communication protocol.

In one embodiment, the intelligent video monitoring system of the transformer substation further comprises a standby communication controller; one end of the standby communication controller is connected with the communication controller, and the other end of the standby communication controller is connected with the switch. In order to further improve the reliability of the communication controller, when the communication controller fails, the communication interface for data transmission can be normally controlled by the backup communication controller.

In one embodiment, a substation intelligent video monitoring system includes:

an optical fiber fusion splice box;

a plurality of network cameras; the network camera is used for shooting a state picture of the corresponding primary equipment;

a spherical camera device; and the signal input end of the spherical camera equipment is connected with the signal output end of each network camera through the optical fiber fusion box.

A spacing distribution box; the power input end of the isolating and distributing box is connected with a commercial power distribution and transformation system; the power output end of the interval distribution box is respectively connected with the spherical camera equipment and the network cameras;

a data monitoring cabinet body;

a switch; the switch is arranged in the data monitoring cabinet body. The signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end.

In a transformer substation video monitoring system, on one hand, the reliability and safety of the video monitoring system in different transformer substations need to be ensured; on the other hand, the cost of the video monitoring system operated by programming is reduced through the application of the scheme, the system configuration is simplified, and the convenience of the operation and maintenance of the video monitoring system is improved. Therefore, the scheme has universality and practicability in the construction of the transformer substation, and the value of popularization and application in the implementation process of the programmed operation of the transformer substation is ensured.

Specifically, the network camera is used for shooting a state picture of the corresponding primary equipment; the spherical camera device is used for simultaneously shooting the state pictures of the plurality of primary devices; the plurality of network cameras and the spherical camera shooting equipment are respectively arranged at proper positions around the corresponding primary equipment, so that video monitoring can be conveniently carried out on each equipment and the regional environment, and the closed-divided state of the primary equipment can be accurately shot. The network camera is used for shooting a state picture of the corresponding primary equipment; the commercial power distribution and transformation system supplies power to all the network cameras and the spherical camera shooting equipment through the interval distribution box. Therefore, the spherical camera equipment and the network camera are matched with each other, the using quantity of the primary site video monitoring equipment is reduced, and the equipment configuration of the intelligent video monitoring system of the transformer substation is simplified. The switch is arranged in the data monitoring cabinet body and used for collecting and transmitting data. The status picture of the primary equipment mainly comprises a position change picture of the primary equipment such as a breaker, a disconnecting link and the like. In actual application, camera equipment in other shapes can be selected to replace spherical camera equipment according to actual requirements, and the score combination state of each monitored primary equipment is identified and analyzed. The signal input end of the spherical camera device is respectively connected with the signal output end of each network camera; the signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end. The signal output end of the spherical camera equipment outputs the identification result, the identification result is collected by the switch and forwarded to the dispatching end and the monitoring background, and a special video monitoring device, a secondary power supply, a secondary box body, a secondary analysis host and the like do not need to be configured for each controlled device, so that the secondary screen position requirement is reduced, the number of power supply loops and signal loops is reduced, the configuration of the intelligent video monitoring system of the transformer substation is greatly simplified, the use amount of materials such as cables and secondary screen cabinets in the video monitoring system can be greatly reduced, and the equipment cost is reduced. According to the embodiment of the application, the scheme that 1 billiard type camera device and a plurality of network cameras are combined is configured at intervals, the opening and closing positions of the controlled primary device are comprehensively judged through the ball type camera device and the network cameras, and the identification result is uploaded to the monitoring background and the dispatching end through the switchboard in an optical fiber communication mode.

Based on above-mentioned structure, need not to be controlled each equipment configuration dedicated video surveillance camera head, the running state of many primary equipment can be monitored simultaneously to ball-type camera equipment, according to the reasonable optimization configuration video surveillance equipment of transformer substation's primary equipment quantity and scale, the configuration quantity of the supervisory equipment that has significantly reduced has simplified equipment and has walked the line, makes things convenient for equipment fixing, does not influence the maintenance of primary equipment, has reduced construction scope, has reduced equipment cost. The spherical camera shooting device can judge the opening and closing positions of the controlled object and upload the judgment result to the monitoring background and the dispatching end, so that the opening and closing position identification accuracy of the controlled device is improved, and the programming operation efficiency is improved. The intelligent video monitoring system for the transformer substation, provided by the embodiment of the application, can be applied to the transformer substation and can also be applied to other similar places (such as converter stations).

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present application shall be subject to the appended claims.

Claims (10)

1. The utility model provides a transformer substation's intelligence video monitor system which characterized in that includes:

a plurality of network cameras; the network camera is used for shooting a state picture of corresponding primary equipment;

a spherical camera device; the signal input end of the spherical camera device is respectively connected with the signal output end of each network camera;

a switch; the signal input end of the switch is connected with the signal output end of the spherical camera device; and the signal output end of the switch is used for connecting the dispatching end.

2. The substation intelligent video monitoring system of claim 1, further comprising a bay power distribution box;

the power input end of the interval distribution box is used for connecting a commercial power distribution and transformation system; and the power output end of the interval distribution box is respectively connected with the spherical camera equipment and the network cameras.

3. The substation intelligent video monitoring system of claim 2, further comprising an optical fiber splice closure;

and the signal input end of the spherical camera equipment is connected with the signal output end of each network camera through the optical fiber fusion box.

4. The substation intelligent video monitoring system of claim 2, further comprising a data monitoring cabinet;

the switch is arranged in the data monitoring cabinet body.

5. The substation intelligent video monitoring system of claim 4, further comprising a UPS power supply;

the UPS power supply is connected with the switch through the power input end of the data monitoring cabinet body.

6. The substation intelligent video monitoring system of claim 5, further comprising a lightning arrester;

the lightning arrester is connected the power input end of the data monitoring cabinet body with between the switch.

7. The substation intelligent video monitoring system of claim 5, further comprising an output optical cable;

the output optical cable is connected between the signal output end of the spherical camera equipment and the signal input end of the switch.

8. The substation intelligent video monitoring system of claim 7, further comprising a power cable;

and the power output end of the interval distribution box is respectively connected with the network camera and the spherical camera equipment through the power cable.

9. The substation intelligent video monitoring system of claim 7, wherein the output optical cable is a multi-core single mode fiber.

10. The substation intelligent video monitoring system according to any one of claims 1 to 9, further comprising a communication controller;

the communication controller is connected with the switch.

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