CN113709956A - Light remote control system, transformer substation light remote control system and method - Google Patents

Abstract

The application relates to the technical field of transformer substations, and provides a light remote control system, a transformer substation light remote control system and a method, which are used for remotely controlling lighting components to illuminate or shut down. Light remote control system includes: the main controller is configured to acquire a first control instruction and acquire and send a second control instruction according to the first control instruction; the communication module is in communication connection with the main controller and is configured to acquire and send a second control instruction sent by the main controller; the control loop is connected with the communication module and is electrically connected with the lighting assembly; the control circuit is configured to receive a second control instruction sent by the communication module and turn on or turn off the lighting assembly according to the second control instruction. The remote control lighting system can realize remote control of the transformer substation lighting, and can timely find defects and potential safety hazards of the transformer substation.

Description

Light remote control system, transformer substation light remote control system and method

Technical Field

The application relates to the technical field of transformer substations, in particular to a light remote control system, a transformer substation light remote control system and a method.

Background

In the related art, the daily patrol of a substation includes: and field inspection and video monitoring inspection. Wherein, video monitoring tour includes: and when the transformer substation breaks down and fails, monitoring personnel need to be dispatched to check the field condition of the equipment through video monitoring, determine the condition and range of the fault and the accident and report the condition and range.

When a fault and an accident occur at night in a transformer substation, in the process of video monitoring night patrol, the phenomena of insufficient brightness, incomplete illumination area and the like exist in the fixed-point illumination of the monitoring camera with the LED, and the fault and the accident point are not easy to find and determine. The lighting device of the substation can be turned on only when the substation arrives at the site, and the time is delayed. Because the lighting device can not be turned on or turned off by remote control, defects and potential safety hazards in the inspection process are not easy to be found, and accident enlargement or large-area power failure accidents are easy to cause, so that accident potential hazards exist.

Content of application

In view of this, the first aspect of the present application provides a light remote control system, which solves the problems of inflexible remote control of light, poor energy saving effect, inconvenient management and maintenance, and low working efficiency.

A first aspect of the present application provides a light remote control system for remotely controlling lighting components to illuminate or shut down, the light remote control system comprising: the main controller is configured to acquire a first control instruction and acquire and send a second control instruction according to the first control instruction; the communication module is in communication connection with the main controller and is configured to acquire and send the second control instruction sent by the main controller; the control loop is connected with the communication module and is electrically connected with the lighting assembly; the control loop is configured to receive the second control instruction sent by the communication module and turn on or turn off the lighting assembly according to the second control instruction.

The light remote control system that the first aspect of this application provided acquires and handles first control command through main control unit through light remote control system in order to generate second control command, then sends second control command through communication module, and response speed is fast, adopts the switch-on of second control command through control circuit in order to open the lighting assembly illumination. Or the lighting assembly is turned off by cutting off the control loop, so that intelligent centralized management and control of the lighting assembly are realized, the lighting assembly has a remote control function, the control mode is intelligent and flexible, a good energy-saving effect is achieved, the management and the maintenance are convenient, and the aims of saving energy, reducing emission and saving the operation cost are fulfilled.

With reference to the first aspect, in one possible implementation manner, the control loop includes: a power source; the switch conversion element is connected with the power supply through a lead; and the first illumination switch is connected with the switch conversion element and is connected with the illumination assembly.

With reference to the first aspect, in a possible implementation manner, the light remote control system further includes: the light controller is in communication connection with the communication module and is electrically connected with the switch conversion element, so that the light controller is configured to receive the second control instruction sent by the communication module and generate and send a control signal according to the second control instruction, and the switch conversion element is configured to be turned on by the control signal to turn on the switch conversion element to switch on the power supply or turn off the switch conversion element to switch off the power supply.

With reference to the first aspect, in one possible implementation manner, the switching conversion element is a relay.

With reference to the first aspect, in one possible implementation manner, the lighting assembly includes: a second light switch; the lighting lamp is connected with the second lighting switch; and the emergency lamp is electrically connected with the first lighting switch and the second lighting switch respectively.

With reference to the first aspect, in a possible implementation manner, the main controller includes: an inner processor; and the display device is in communication connection with the inner processor.

An object of the second aspect of this application is to provide a transformer substation's light remote control system, has solved defect and the difficult problem of discovering, existence accident potential in the inspection process among the background art.

The utility model provides a transformer substation's light remote control system that aspect provides for realize lighting component's remote control in the transformer substation, transformer substation's light remote control system includes: a monitoring center; the lamplight remote control system in any technical scheme; the main controller is arranged in the monitoring center.

According to the substation light remote control system provided by the second aspect of the application, an operator can remotely control the lighting in the substation through the monitoring center, the lighting is turned on at the first time to realize the remote control lighting, and the problem of the lighting of the remote control lighting assembly is effectively solved.

With reference to the second aspect, in a possible implementation manner, the substation light remote control system further includes: the switch is in communication connection with the monitoring center; the video server is in communication connection with the switch; the communication module is arranged on the video server, the communication module is in communication connection with the monitoring center and the switch respectively, and the video server is provided with a downlink 485 control port connected with the control loop.

The third aspect of the application aims to provide a transformer substation lamplight remote control method, and the problems that defects and potential safety hazards in the inspection process in the background art are not easy to find and accident potential hazards exist are solved.

The third aspect of the present application provides a substation light remote control method, which uses a substation light remote control system, and the substation light remote control method includes: acquiring a first control instruction; generating and sending a second control instruction according to the first control instruction; and turning on or off the lighting assembly according to the second control instruction.

According to the substation lamplight remote control method provided by the third aspect of the application, the first control instruction is acquired, the second control instruction is generated, so that the control circuit is powered on or powered off, the response can be quickly made, the method is simple, quick, simple and reliable, and the lighting assembly can be correspondingly turned on or turned off according to the second control instruction.

With reference to the third aspect, in a possible implementation manner, turning on or turning off the lighting assembly according to the second control instruction specifically includes: generating a control signal according to the second control instruction; switching on a control loop to turn on the lighting assembly according to the control signal; or switch off the control loop to turn off the lighting assembly according to the control signal.

Drawings

Fig. 1 is a schematic diagram illustrating a light remote control system according to some implementations of the present disclosure.

Fig. 2 is a schematic diagram illustrating a control loop of the light remote control system provided in the implementation manner shown in fig. 1.

Fig. 3 is a schematic diagram illustrating a light remote control system provided in the implementation manner shown in fig. 1.

Fig. 4 is a schematic diagram illustrating the components of a lighting assembly controlled by the light remote control system provided in the implementation shown in fig. 1.

Fig. 5 is a schematic diagram illustrating a main controller of the light remote control system provided in the implementation manner shown in fig. 1.

Fig. 6 is a schematic diagram illustrating a substation light remote control system according to some implementations of the present disclosure.

Fig. 7 is a schematic composition diagram of a substation light remote control system provided in the implementation manner shown in fig. 6.

Fig. 8 is a schematic diagram illustrating a substation light remote control system provided in another implementation manner shown in fig. 6.

Fig. 9 is a schematic composition diagram of a substation light remote control system provided in the implementation manner shown in fig. 8.

Fig. 10 is a flowchart illustrating a substation light remote control method according to some implementations of the present application.

Fig. 11 is a flowchart illustrating a substation light remote control method according to another implementation manner of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Fig. 1 is a schematic diagram illustrating a light remote control system according to some implementations of the present disclosure. As shown in fig. 1, the light remote control system is used for remotely controlling the lighting assembly 200 to be turned on or off, and the light remote control system 100 includes: a main controller 110, a communication module 120, and a control loop 130.

The main controller 110 is configured to obtain a first control command, which may be input by manual input, for example, the first control command includes a close command or an open command, and obtain and send a second control command according to the first control command. The main controller 110 obtains the first control command and then analyzes and processes the first control command to determine and recognize that the first control command is a close command, an open command or other commands. And when the first controller identifies that the first control instruction is an opening instruction or a closing instruction, generating a second control instruction and sending the second control instruction. And the second control instruction comprises light-on information or light-off information.

The communication module 120 is communicatively connected to the main controller 110, and the communication module 120 is configured to obtain and send a second control instruction sent by the main controller 110, so as to ensure that the second control instruction is sent out stably and reliably.

The control circuit 130 is connected to the communication module 120, and the control circuit 130 is electrically connected to the lighting assembly 200. Wherein the control circuit 130 is configured to turn on or off the lighting assembly 200 according to the second control instruction.

Specifically, the control circuit 130 is connected to the communication module 120, such that a second control command sent through the communication module 120 reaches the control circuit 130, the control circuit 130 turns on the power of the lighting assembly 200 according to the second control command, thereby turning on the lighting assembly, or the control circuit turns off the power of the lighting assembly 200 according to the second control command, thereby turning off the lighting assembly.

The light remote control system obtains and processes the first control command through the main controller 110 to generate a second control command, and then sends the second control command through the communication module 120, the response speed is fast, and the lighting assembly 200 is turned on to illuminate by switching on the control loop 130 with the second control command. Or the lighting assembly 200 is turned off by cutting off the control loop, so that intelligent centralized management and control of the lighting assembly 200 are realized, the lighting assembly 200 has a remote control function, the control mode is intelligent and flexible, a good energy-saving effect is achieved, the management and the maintenance are convenient, and the aims of saving energy, reducing emission and saving the operation cost are fulfilled.

Fig. 2 is a schematic diagram illustrating a control loop in the light remote control system provided in the implementation manner shown in fig. 1. As shown in fig. 2, in one possible implementation, the control loop 130 includes: a power source 131, a switching transition element 133, and a first illumination switch 135.

The switching conversion element 133 is connected to a power source 131 through a wire, and the power source 131 is an ac power source and has a voltage of 220 v. The switch conversion element can be an automatic switch element with an isolation function and can realize on-off control on a controlled circuit. Between the input part and the output part of the switching conversion element, there is also an intermediate mechanism for coupling and isolating the input quantity, processing the function, and driving the output part.

The first illumination switch 135 is connected to the switching element 133, and the first illumination switch 135 is connected to the illumination assembly 200. The switch switching element 133 may be automatically turned on or off, and when the switch switching element is turned on, the first illumination switch 135 is connected to the power source 131, and the first illumination switch 135 is connected to the illumination assembly 200 through a wire, so that the illumination assembly 200 may be turned on for illumination. The first illumination switch 135 may be a normally closed switch. The normally closed switch is a switch which is in a closed state under the condition of no external force action, and when a person toggles a switch button or is toggled by an automatic device control switch, the switch is converted into an open circuit. The first illumination switch 135 in this embodiment can be switched to be open under the control of the switch changeover member 133 to enable automatic control of the illumination assembly 200.

More specifically, the phase line of the control circuit 130 is identical to the phase line in the first lighting switch 135, and the positive and negative poles of the control circuit 130 are identical to the positive and negative poles in the first lighting switch 135. And the short circuit between phases and the non-bright homopolar illumination can not be caused. The first lighting switch 135 is a normally closed remote control lighting main switch, and the first switch 135 adopts a rated current air switch to be connected in series with the leakage protector, so that the accidents caused by interphase short circuit and ground fault can be prevented.

Fig. 3 is a schematic diagram illustrating a light remote control system provided in the implementation manner shown in fig. 1. Fig. 7 is a schematic composition diagram of a substation light remote control system provided in the implementation manner shown in fig. 6. As shown in fig. 3, in one possible implementation, the light remote control system 100 further includes a light controller 140, the light controller 140 is in communication connection with the communication module 120, and the light controller 140 is electrically connected to the switch converting element 133, such that the light controller 140 is configured to turn on the switch converting element 133 to turn on the power source 131 or turn off the switch converting element 133 to turn off the power source 131 by a control signal.

Specifically, the light controller 140 generates a control signal after receiving the second control instruction sent by the communication module 120, for example, the control signal may be a certain voltage, and the light controller 140 inputs the voltage to the switch conversion element 133, so that the switch conversion element 133 is turned on or off under the action of the voltage, and thus the switch conversion element 133 can control the control circuit 130 to be powered on or powered off.

More specifically, the switching conversion element 133 is a relay. Wherein, the relay can be an intermediate relay. The application of an intermediate relay in the control circuit 130 enables an increase in the number of contacts and the contact capacity of the protection and control circuit 140.

Fig. 4 is a schematic diagram illustrating the components of a lighting assembly controlled by the light remote control system provided in the implementation shown in fig. 1. As shown in fig. 4, in one possible implementation, the lighting assembly 200 includes: a second light switch 210, a light fixture 220, and an emergency light fixture 230.

The light fixture 220 is connected to the second light switch 210. In particular, the lighting fixture 220 may be a general lighting lamp to provide lighting for the substation.

The emergency light 230 is electrically connected to the first illumination switch 135 and the second illumination switch 210, respectively. Specifically, under normal power-on conditions, the emergency light fixture 230 and the lighting fixture 220 can be simultaneously controlled to be turned on or off by the second lighting switch 210. The first lighting switch 135 is electrically connected to the emergency lamp 230, so that the emergency lamp 230 can be directly controlled to be turned on or off through the control circuit 130 after the power of the lighting lamp 220 is cut off, and meanwhile, the emergency lamp 230 is connected to the second lighting switch 210, so that the emergency lamp 230 can be directly controlled to be turned on or off manually on site, and the requirement of site lighting is further ensured.

Fig. 5 is a schematic diagram illustrating a main controller in the light remote control system according to the implementation shown in fig. 1. As shown in fig. 5, in one possible implementation, the main controller 110 includes: the internal processor 111 and the display device 113, and the display device 113 is in communication connection with the internal processor 111.

Specifically, the display device 113 may be a display screen. The internal processor 111 is provided with a storage module that stores a program and is capable of running the program. When the program runs, the lighting control unit is displayed on the display screen, and a closing button and an opening button are displayed in the lighting control unit. The close button and the open button are both control buttons. When the control button is clicked, the inner processor 111 obtains the first control instruction, the inner processor 111 processes the first control instruction to generate a second control instruction, and the second control instruction passes through the intranet control center converter and reaches the communication module 120 through the optical cable. The first control instruction is input through the display device 113, and efficiency and reliability are improved.

Some implementation methods of this application provide transformer substation's light remote control system 10 for realize the remote control to lighting assembly 200 in the transformer substation, can prevent to produce potential safety hazard and accident hidden danger because the lighting illumination can't keep up in the transformer substation, and then can prevent to influence because of the illumination is not in place and judge the power failure scope, cause the power failure scope to continue to expand and produce the accident that the large tracts of land has a power failure.

Fig. 6 is a schematic diagram illustrating a substation light remote control system provided in the implementation shown in fig. 1. As shown in fig. 6, the substation light remote control system 10 includes: a monitoring center 300 and the light remote control system 100 of any embodiment. The main controller 110 is disposed in the monitoring center.

Specifically, a plurality of cameras, such as cameras, are provided in the substation, the cameras are configured to photograph lines in the substation, and the monitoring center 300 is configured to receive video information photographed by the cameras to observe whether a line fault exists. More specifically, fig. 8 is a schematic structural diagram of the substation light remote control system provided in the implementation manner shown in fig. 6. As shown in fig. 8, the main controller 110 is disposed in the monitoring center 300, the internal processor 111 is disposed in the host of the monitoring center 300, the display device 113 is a display screen, and an operator can observe a fault area through the display device 113 of the monitoring center 300. If it is confirmed that the area is out of order, the operator inputs a first control command through the display device 113 of the monitoring center 300.

More specifically, the main controller 110 may be configured in such a manner that a control module without a network video camera is called out from the monitoring center 300, the control module may be provided with embedded software, and the control module provided with the embedded software is used as the main controller 110.

Specifically, the light remote control system 100 is applied to a transformer substation, so that the transformer substation light remote control system 10 is suitable for night video monitoring and inspection, night fault handling and accident judgment of the transformer substation, and can be popularized and applied to the transformer substation without on-duty and video monitoring.

More specifically, operating personnel opens light through the interior lighting of the remote control transformer substation of intranet surveillance center 300 very first time and realizes the remote control illumination, has effectively solved the problem that the remote control lighting was used, makes night video tour clearer with trouble and incident treatment, more clear. The lighting device can prevent potential safety hazard and accident hazard caused by lighting unable to keep up, and large-area power failure accident caused by power failure range enlargement due to lighting unable to judge.

Fig. 7 is a schematic composition diagram of a substation light remote control system provided in the implementation manner shown in fig. 6. Fig. 8 is a schematic diagram illustrating a substation light remote control system provided in another implementation manner shown in fig. 6. Fig. 9 is a schematic composition diagram of a substation light remote control system provided in the implementation manner shown in fig. 8. As shown in fig. 7 and fig. 8, in a possible implementation manner, the substation light remote control system 10 further includes a switch 400 and a video server 500, and the video server 500 is communicatively connected to the switch.

The switch 400 is communicatively connected to the monitoring center 300, wherein the switch 400 is a network device for forwarding an electrical signal and is capable of sending a first control command input through the monitoring center 300 to the outside.

Specifically, as shown in fig. 8, the communication module 120 is disposed on the video server 500, the communication module 120 is in communication connection with the monitoring center 300 and the switch 400, respectively, and the video server 500 is provided with a downlink 485 control port connected to the control circuit 130.

More specifically, the video server 500 is an embedded device for compressing and processing video and audio data, and is configured to acquire a video image captured by a capturing device provided in a substation, and send the video image to the monitoring center 300 through an intranet and a switch. The operator can observe the fault situation at the monitoring center 300, so as to realize the illumination or the shutdown of the illumination assembly 200 in the remote control substation. In addition, the video server 500 is provided with a 485 control port, which enables data transmission, so that the second control command can be sent to the control circuit 130. The structural arrangement of the substation light remote control system is simplified by transmitting the second control instruction by using the communication module 120 arranged on the existing video server 500.

The substation light remote control system 100 has a remote control function, the control mode is intelligent and flexible, so that a good energy-saving effect is achieved, the management and the maintenance are convenient, the working environment can be improved, and the working efficiency can be improved. In addition, the power consumption requirements of the regular performance and the stability of the power consumers are guaranteed through the substation light remote control system 100, and the safe, stable and reliable operation of a company power grid is guaranteed.

More specifically, the video server 500 is externally connected to an intermediate relay for controlling the lighting power supply through a downlink 485 control port, so as to control the lighting power supply.

As shown in fig. 9, the lighting power switch in the station is the second lighting switch 210, the load side of the second lighting switch 210 is added with the power line of the control circuit 130, and the phase line of the power line is consistent with the positive and negative poles of the lighting power switch in the station, so as to ensure that no inter-phase short circuit and no lighting of the same-pole lighting are caused.

The control power supply of the intermediate relay is connected with the power supply side of the remote control lighting main switch, wherein the remote control lighting main switch is a first lighting switch 135, the first lighting switch 135 is a normally closed remote control lighting main switch, and a load side main loop of an emergency lamp 230 for emergency lighting and a lighting lamp 220 for original lighting in a station is connected with the load side of the remote control lighting main switch.

After the circuits and elements of the light remote control system 100 are connected, a network video monitoring system of an intranet substation opens a page of the substation, selects a lighting control unit, clicks on control buttons, the control buttons comprise an open button and a close button, then the control buttons reach a video server 500 of the substation through an intranet control center converter, and the control buttons are connected with an intermediate relay through a downlink 485 control port.

The power line controlled by the intermediate relay reaches the normally closed remote control lighting main switch, and the lighting assembly 200 is switched on by the emergency lighting and the power supply at the load side of the original lighting switch in the station, so that all lighting in the station is instantly switched on, and the whole transformer substation is lighted as in the daytime. Therefore, intelligent centralized management and control of lighting equipment in the transformer substation are achieved, the remote control function is achieved, the control mode is intelligent and flexible, a good energy-saving effect is achieved, scientific management can be provided for the modern intelligent lighting industry, energy is saved, emission is reduced, personnel can be simplified, the operation cost is saved, the service quality is improved, and the intelligent control system is a set of complete information-based construction and intelligent control system solution. In addition, the power demand of the power consumers and the economic and social benefits of the company are effectively maintained on the whole, and the strong, safe, stable and reliable operation of the power grid is ensured.

Fig. 10 is a flowchart illustrating a substation light remote control method according to some implementations of the present application. Some implementation modes of the application provide a transformer substation light remote control method for realizing remote control of the lighting assembly 200 in the transformer substation, so that potential safety hazards and accident potential caused by the fact that light illumination cannot follow up in the transformer substation can be prevented, and further the situation that the power failure range is judged due to the fact that illumination is not in place, and the power failure range is continuously expanded to cause a large-area power failure accident can be prevented.

As shown in fig. 10, the substation light remote control method includes:

step 101: and acquiring a first control instruction, wherein the first control instruction can be acquired through a manual input mode. The first control instruction comprises a closing instruction or an opening instruction, can respond quickly and quickly, and is simple and quick. After the first control instruction is acquired, step 103 may be performed.

Step 103: and generating and sending a second control instruction according to the first control instruction. And processing the first control instruction after the first control instruction is acquired to generate information which can be transmitted, namely a second control instruction, wherein the second control instruction comprises light-on information or light-off information. And if the first control instruction is a turn-off instruction, the generated second control instruction is light-off information. And if the first control instruction is an opening instruction, the second control instruction is light-on information. Therefore, step 105 can be executed according to the generated second control instruction, and the method is simple and has high response speed.

Step 105: and turning on or off the lighting assembly according to the second control instruction. The control loop can be powered on or off according to the second control instruction, which is simple and reliable, so that the lighting assembly 200 can be correspondingly turned on or off according to the second control instruction.

Fig. 11 is a flowchart illustrating a substation light remote control method according to another implementation manner of the present application. As shown in fig. 11, in a possible implementation manner, turning on or turning off the lighting assembly according to the second control instruction specifically includes the following steps:

step 201: and generating a control signal according to the second control instruction. The second control instruction is further processed to generate a control signal, which may be a voltage to turn on the power supply of the control loop, so that the response speed of the control loop can be further increased to realize fast call on or power off.

Step 203: the control loop is switched on according to the control signal to turn on the lighting assembly. The control circuit turns on the power according to the control signal, so that the lighting assembly 200 can be turned on. Or

Step 205: the control circuit is switched off according to the control signal to turn off the lighting assembly, wherein the control circuit is switched off according to the control signal to turn off the power supply, and the lighting assembly 200 is turned off in time, thereby achieving the purpose of saving power.

More specifically, the substation light remote control method is a control management system based on various technologies such as computer technology, automatic control, network communication, embedded software and the like, and the system is designed in a modular structure, simple and flexible and convenient to install. Through the monitoring software setting of the intranet monitoring center, switching, remote control and the like can be realized, and intelligent centralized management and control of the lighting equipment are realized.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A light remote control system for remotely controlling lighting or off of a lighting assembly, the light remote control system comprising:

the main controller is configured to acquire a first control instruction and acquire and send a second control instruction according to the first control instruction;

the communication module is in communication connection with the main controller and is configured to acquire and send the second control instruction sent by the main controller;

the control loop is connected with the communication module and is electrically connected with the lighting assembly;

the control loop is configured to receive the second control instruction sent by the communication module and turn on or turn off the lighting assembly according to the second control instruction.

2. The light remote control system of claim 1, wherein the control loop comprises:

a power source;

a switching conversion element connected to the power supply;

and the first illumination switch is connected with the switch conversion element and is connected with the illumination assembly.

3. The light remote control system according to claim 2, further comprising:

the light controller is in communication connection with the communication module and is electrically connected with the switch conversion element, so that the light controller is configured to receive the second control instruction, generate and send a control signal according to the second control instruction, and the switch conversion element is configured to turn on the switch conversion element through the control signal to switch on the power supply or turn off the switch conversion element to switch off the power supply.

4. A light remote control system as claimed in claim 3, wherein the switch transition element is a relay.

5. A light remote control system according to any of claims 2 to 4, wherein the lighting assembly comprises:

a second light switch;

the lighting lamp is connected with the second lighting switch;

and the emergency lamp is electrically connected with the first lighting switch and the second lighting switch respectively.

6. A light remote control system according to any of claims 1-4, characterized in that the main controller comprises:

an inner processor;

and the display device is in communication connection with the inner processor.

7. A substation light remote control system is characterized by comprising:

a monitoring center;

the light remote control system of any one of claims 1 to 6;

the main controller is arranged in the monitoring center.

8. The substation light remote control system of claim 7, further comprising:

the switch is in communication connection with the monitoring center;

the video server is in communication connection with the switch;

the communication module is arranged on the video server, the communication module is in communication connection with the monitoring center and the switch respectively, and the video server is provided with a downlink 485 control port connected with the control loop.

9. A substation light remote control method using the substation light remote control system according to claim 7 or 8, the substation light remote control method comprising:

acquiring the first control instruction;

generating and sending the second control instruction according to the first control instruction;

and turning on or off the lighting assembly according to the second control instruction.

10. The substation light remote control method according to claim 9, wherein turning on or off a lighting assembly according to the second control instruction specifically comprises:

generating a control signal according to the second control instruction;

switching on a control loop to turn on the lighting assembly according to the control signal; or

Switching off the control loop to turn off the lighting assembly according to the control signal.

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