FY-SLT97
FY LIGHTING
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With the popularization of smart cities and sustainable development concepts, the integrated application of solar street lights and surveillance cameras is receiving increasing attention. This innovative combination not only effectively utilizes clean energy, but also provides intelligent solutions for urban management and safety monitoring.
The integration of solar street lights and surveillance cameras stems from the dual demands of energy conservation, environmental protection, and intelligent management. Traditional street lights rely on power supply from the grid, while surveillance cameras require additional power and wiring support. Combining the two can not only reduce installation costs, but also significantly reduce energy consumption. Solar street lights store energy through solar panels during the day and provide power for lighting and cameras at night, achieving self-sufficiency. This design is particularly suitable for remote areas or areas where it is difficult to lay cables, providing lighting and monitoring services for these areas.
From an advantageous perspective, the integration of solar street lights and surveillance cameras has multiple advantages. Firstly, it is a green and environmentally friendly solution that fully utilizes renewable energy and reduces dependence on fossil fuels. Secondly, this system has high flexibility and can be quickly deployed and adjusted according to actual needs. Furthermore, integrated systems can achieve remote monitoring and management, improving the intelligence level of urban management. Finally, it can also reduce long-term operating costs, although the initial investment may be high, the subsequent maintenance and energy costs will be significantly reduced.
At present, the integrated application of solar street lights and surveillance cameras is gradually being promoted worldwide. In some developing countries, this system is widely used for rural road lighting and safety monitoring. In developed countries, this technology has also been adopted in smart city projects for lighting and monitoring in public areas such as parks and parking lots.
Looking ahead to the future, the integrated application of solar street lights and surveillance cameras has broad prospects. With the improvement of solar cell efficiency and the advancement of monitoring technology, the performance of this system will continue to improve, and the cost will gradually decrease. We can foresee that in the near future, this intelligent lighting monitoring solution will be applied in more fields, such as highways, airports, ports, etc. Meanwhile, with the development of IoT technology, solar street lights and surveillance cameras will be able to interconnect with other smart devices, forming a complete smart city ecosystem and providing more comprehensive and efficient support for urban management.
The selection of installation locations for solar street lights and monitoring cameras is crucial, as it directly affects the performance and monitoring effectiveness of the system. The optimal installation location should meet the following conditions:
Adequate lighting: Solar panels should be installed in sunny areas to avoid being obstructed by buildings, trees, etc., to ensure maximum sunlight exposure.
Good field of view: The camera should be installed in a position that can cover the required monitoring area, avoiding obstruction of the field of view by obstacles.
Appropriate height: The height of street lights and cameras should be adjusted according to the monitoring range and lighting requirements. Generally speaking, the height of street lamps should be between 4-6 meters, and the height of cameras should be between 3-5 meters.
Security: The installation location should consider the safety of the equipment to avoid human damage or theft.
Maintenance convenience: The installation location should be convenient for later maintenance and repair.
Precautions for installation in different environments:
Urban roads: Traffic flow and pedestrian safety should be considered to avoid affecting normal traffic.
Rural roads: The installation height can be lowered appropriately, but attention should be paid to anti-theft measures.
Farmland: The growth cycle of crops should be considered, and the camera angle should be adjusted in a timely manner.
Public places such as parks and squares should consider both aesthetics and concealment.
Wiring and Connection
The wiring method and connection steps for solar street lights and surveillance cameras are as follows:
Basic construction: Based on the design drawings, determine the installation positions of street lamps and cameras and carry out basic construction.
Bracket installation: Fix the brackets for the street lights and cameras on the foundation to ensure stability.
Equipment installation: Fix the street lamp and camera on the bracket and adjust the angle.
Solar panel installation: Install the solar panel on top of the street lamp and adjust the angle to obtain optimal lighting.
Wiring:
Connect the solar panel to the controller.
Connect the controller to the battery.
Connect the controller to the street lamp.
Connect the camera to the controller.
If necessary, connect the camera to the network.
Waterproof treatment: Waterproof all connection points to ensure system safety.
Power on test: Connect the power supply to test the operation of the system.
Common problems and solutions:
Short circuit of the circuit: Check the circuit connection to ensure good insulation.
Equipment not working: Check power supply and controller settings.
Signal instability: Check network connection and adjust antenna position.
Blurred monitoring image: Clean the camera lens and adjust the focus.
System debugging and maintenance
The debugging method and daily maintenance points of the integrated system of solar street lights and monitoring cameras are as follows:
Debugging method:
Check all connections for correctness, ensuring no looseness or poor contact.
Adjust the angle of the solar panel to face the sunlight.
Set controller parameters, including charging voltage, discharge depth, etc.
Adjust the camera angle and focal length to ensure monitoring range and clarity.
Conduct a power on test and observe the operation of the system.
Conduct functional testing, including lighting, monitoring, alarm, etc.
Daily maintenance points:
Regularly clean the solar panels and camera lenses to maintain surface cleanliness.
Check the wiring connections to ensure there is no aging or damage.
Regularly check the battery status and replace aging batteries in a timely manner.
Regularly calibrate the camera angle and focal length.
Regularly backup monitoring data.
Timely update system software and firmware.
Common troubleshooting methods:
Lighting malfunction: Check the bulb, wiring, and controller.
Monitoring malfunction: Check the camera, network connection, and power supply.
Alarm malfunction: Check sensors, circuits, and controllers.
System not working: Check all connections and power supply, restart the controller.
Through proper installation, debugging, and maintenance, the integrated system of solar street lights and monitoring cameras can operate stably for a long time, providing users with reliable lighting and monitoring services.
Application case analysis
In modern agriculture, the integrated application of solar street lights and monitoring cameras has brought revolutionary changes to farmland management. Taking a large agricultural enterprise as an example, they have deployed this intelligent system on 500 acres of farmland. Each street lamp is equipped with a 30W solar panel and a 12V 100Ah lithium battery, while also integrating a 5W low-power camera. The camera has 360 degree rotation and high-definition night vision function, which can monitor the condition of farmland 24/7.
After the system is put into use, farm managers can view the situation of farmland in real time through mobile applications, and promptly detect abnormal situations such as pests, diseases, and theft. The data shows that after installing the system, the incidence of pests and diseases in farmland decreased by 30%, and theft incidents decreased by 50%. In addition, the intelligent analysis function can automatically identify the activities of wild animals and help farmers take appropriate protective measures.
The application of this system not only improves the efficiency of farmland management, but also reduces the need for manual inspections, significantly reducing labor costs. Meanwhile, solar power supply also enables the system to operate reliably in remote areas without relying on the power grid.
Rural Security Case
In the field of rural security, the integrated application of solar street lights and surveillance cameras is gradually becoming popular. Taking a remote mountain village as an example, the village has installed 20 sets of this intelligent system on the main roads and public areas. Each system includes a 50W solar street light and a 10W camera, equipped with 30W solar panels and a 12V 150Ah lithium battery.
After installing the system, the villagers' sense of security has significantly improved. The high-definition night vision function of the camera ensures the effectiveness of night monitoring, while the remote monitoring function allows the village committee to view the situation in the village at any time. The system is also equipped with intelligent analysis function, which can automatically identify suspicious behavior and issue alerts.
In a sudden incident, the system successfully captured the entire process of a theft case, providing key evidence for the police to solve the case. Villagers have expressed that since the installation of this intelligent system, the security situation in the village has significantly improved, and nighttime travel has become safer.
The application of this system not only improves the level of rural security, but also provides feasible solutions for intelligent management in remote areas. It provides strong support for the implementation of the rural revitalization strategy and helps narrow the urban-rural development gap.
Future application prospects
With the continuous advancement of technology, the integrated system of solar street lights and surveillance cameras will be applied in more fields. In the future, we can foresee the following major development directions:
Smart city construction: This system will become an important component of smart city infrastructure, used for lighting and monitoring in public areas such as parks, squares, and parking lots.
Highway management: Deploying this system along highways can achieve all-weather monitoring, improve road safety and management efficiency.
Ports and airports: Applying this system in these critical infrastructure can enhance security monitoring and improve operational efficiency.
Ecological Reserve: Deploying this system in nature reserves can achieve remote ecological monitoring and reduce interference with wildlife.
Disaster warning: Deploying this system in areas prone to natural disasters can achieve real-time monitoring and early warning, improving emergency response capabilities.
Intelligent Agriculture: Combined with IoT technology, this system can further develop into an intelligent agriculture solution, achieving precision agriculture management.
Community security: Deploying this system in residential areas can improve community safety and provide lighting services for residents.
In the future, with the integration of technologies such as artificial intelligence and big data, this system will become more intelligent and efficient. It will become an important component of smart cities and sustainable development strategies, contributing to the progress of human society.
Specification
Power | 900W | 1200W | 1500W |
Panel size | 467*210mm | 543*210mm | 619*210mm |
Panel power | 18W | 20W | 24W |
Battery | 15,000mah | 18,000mah | 20,000mah |
Lamp size | 565*220mm | 640*220mm | 720*220mm |
Material | ABS plastic | ABS plastic | ABS plastic |
Functions | Remote control, induction, time control, APP controllable | Remote control, induction, time control, APP controllable | Remote control, induction, time control, APP controllable |
Camera | 2 million pixels | 2 million pixels | 2 million pixels |
Warranty | 24 months | 24 months | 24 months |
With the popularization of smart cities and sustainable development concepts, the integrated application of solar street lights and surveillance cameras is receiving increasing attention. This innovative combination not only effectively utilizes clean energy, but also provides intelligent solutions for urban management and safety monitoring.
The integration of solar street lights and surveillance cameras stems from the dual demands of energy conservation, environmental protection, and intelligent management. Traditional street lights rely on power supply from the grid, while surveillance cameras require additional power and wiring support. Combining the two can not only reduce installation costs, but also significantly reduce energy consumption. Solar street lights store energy through solar panels during the day and provide power for lighting and cameras at night, achieving self-sufficiency. This design is particularly suitable for remote areas or areas where it is difficult to lay cables, providing lighting and monitoring services for these areas.
From an advantageous perspective, the integration of solar street lights and surveillance cameras has multiple advantages. Firstly, it is a green and environmentally friendly solution that fully utilizes renewable energy and reduces dependence on fossil fuels. Secondly, this system has high flexibility and can be quickly deployed and adjusted according to actual needs. Furthermore, integrated systems can achieve remote monitoring and management, improving the intelligence level of urban management. Finally, it can also reduce long-term operating costs, although the initial investment may be high, the subsequent maintenance and energy costs will be significantly reduced.
At present, the integrated application of solar street lights and surveillance cameras is gradually being promoted worldwide. In some developing countries, this system is widely used for rural road lighting and safety monitoring. In developed countries, this technology has also been adopted in smart city projects for lighting and monitoring in public areas such as parks and parking lots.
Looking ahead to the future, the integrated application of solar street lights and surveillance cameras has broad prospects. With the improvement of solar cell efficiency and the advancement of monitoring technology, the performance of this system will continue to improve, and the cost will gradually decrease. We can foresee that in the near future, this intelligent lighting monitoring solution will be applied in more fields, such as highways, airports, ports, etc. Meanwhile, with the development of IoT technology, solar street lights and surveillance cameras will be able to interconnect with other smart devices, forming a complete smart city ecosystem and providing more comprehensive and efficient support for urban management.
The selection of installation locations for solar street lights and monitoring cameras is crucial, as it directly affects the performance and monitoring effectiveness of the system. The optimal installation location should meet the following conditions:
Adequate lighting: Solar panels should be installed in sunny areas to avoid being obstructed by buildings, trees, etc., to ensure maximum sunlight exposure.
Good field of view: The camera should be installed in a position that can cover the required monitoring area, avoiding obstruction of the field of view by obstacles.
Appropriate height: The height of street lights and cameras should be adjusted according to the monitoring range and lighting requirements. Generally speaking, the height of street lamps should be between 4-6 meters, and the height of cameras should be between 3-5 meters.
Security: The installation location should consider the safety of the equipment to avoid human damage or theft.
Maintenance convenience: The installation location should be convenient for later maintenance and repair.
Precautions for installation in different environments:
Urban roads: Traffic flow and pedestrian safety should be considered to avoid affecting normal traffic.
Rural roads: The installation height can be lowered appropriately, but attention should be paid to anti-theft measures.
Farmland: The growth cycle of crops should be considered, and the camera angle should be adjusted in a timely manner.
Public places such as parks and squares should consider both aesthetics and concealment.
Wiring and Connection
The wiring method and connection steps for solar street lights and surveillance cameras are as follows:
Basic construction: Based on the design drawings, determine the installation positions of street lamps and cameras and carry out basic construction.
Bracket installation: Fix the brackets for the street lights and cameras on the foundation to ensure stability.
Equipment installation: Fix the street lamp and camera on the bracket and adjust the angle.
Solar panel installation: Install the solar panel on top of the street lamp and adjust the angle to obtain optimal lighting.
Wiring:
Connect the solar panel to the controller.
Connect the controller to the battery.
Connect the controller to the street lamp.
Connect the camera to the controller.
If necessary, connect the camera to the network.
Waterproof treatment: Waterproof all connection points to ensure system safety.
Power on test: Connect the power supply to test the operation of the system.
Common problems and solutions:
Short circuit of the circuit: Check the circuit connection to ensure good insulation.
Equipment not working: Check power supply and controller settings.
Signal instability: Check network connection and adjust antenna position.
Blurred monitoring image: Clean the camera lens and adjust the focus.
System debugging and maintenance
The debugging method and daily maintenance points of the integrated system of solar street lights and monitoring cameras are as follows:
Debugging method:
Check all connections for correctness, ensuring no looseness or poor contact.
Adjust the angle of the solar panel to face the sunlight.
Set controller parameters, including charging voltage, discharge depth, etc.
Adjust the camera angle and focal length to ensure monitoring range and clarity.
Conduct a power on test and observe the operation of the system.
Conduct functional testing, including lighting, monitoring, alarm, etc.
Daily maintenance points:
Regularly clean the solar panels and camera lenses to maintain surface cleanliness.
Check the wiring connections to ensure there is no aging or damage.
Regularly check the battery status and replace aging batteries in a timely manner.
Regularly calibrate the camera angle and focal length.
Regularly backup monitoring data.
Timely update system software and firmware.
Common troubleshooting methods:
Lighting malfunction: Check the bulb, wiring, and controller.
Monitoring malfunction: Check the camera, network connection, and power supply.
Alarm malfunction: Check sensors, circuits, and controllers.
System not working: Check all connections and power supply, restart the controller.
Through proper installation, debugging, and maintenance, the integrated system of solar street lights and monitoring cameras can operate stably for a long time, providing users with reliable lighting and monitoring services.
Application case analysis
In modern agriculture, the integrated application of solar street lights and monitoring cameras has brought revolutionary changes to farmland management. Taking a large agricultural enterprise as an example, they have deployed this intelligent system on 500 acres of farmland. Each street lamp is equipped with a 30W solar panel and a 12V 100Ah lithium battery, while also integrating a 5W low-power camera. The camera has 360 degree rotation and high-definition night vision function, which can monitor the condition of farmland 24/7.
After the system is put into use, farm managers can view the situation of farmland in real time through mobile applications, and promptly detect abnormal situations such as pests, diseases, and theft. The data shows that after installing the system, the incidence of pests and diseases in farmland decreased by 30%, and theft incidents decreased by 50%. In addition, the intelligent analysis function can automatically identify the activities of wild animals and help farmers take appropriate protective measures.
The application of this system not only improves the efficiency of farmland management, but also reduces the need for manual inspections, significantly reducing labor costs. Meanwhile, solar power supply also enables the system to operate reliably in remote areas without relying on the power grid.
Rural Security Case
In the field of rural security, the integrated application of solar street lights and surveillance cameras is gradually becoming popular. Taking a remote mountain village as an example, the village has installed 20 sets of this intelligent system on the main roads and public areas. Each system includes a 50W solar street light and a 10W camera, equipped with 30W solar panels and a 12V 150Ah lithium battery.
After installing the system, the villagers' sense of security has significantly improved. The high-definition night vision function of the camera ensures the effectiveness of night monitoring, while the remote monitoring function allows the village committee to view the situation in the village at any time. The system is also equipped with intelligent analysis function, which can automatically identify suspicious behavior and issue alerts.
In a sudden incident, the system successfully captured the entire process of a theft case, providing key evidence for the police to solve the case. Villagers have expressed that since the installation of this intelligent system, the security situation in the village has significantly improved, and nighttime travel has become safer.
The application of this system not only improves the level of rural security, but also provides feasible solutions for intelligent management in remote areas. It provides strong support for the implementation of the rural revitalization strategy and helps narrow the urban-rural development gap.
Future application prospects
With the continuous advancement of technology, the integrated system of solar street lights and surveillance cameras will be applied in more fields. In the future, we can foresee the following major development directions:
Smart city construction: This system will become an important component of smart city infrastructure, used for lighting and monitoring in public areas such as parks, squares, and parking lots.
Highway management: Deploying this system along highways can achieve all-weather monitoring, improve road safety and management efficiency.
Ports and airports: Applying this system in these critical infrastructure can enhance security monitoring and improve operational efficiency.
Ecological Reserve: Deploying this system in nature reserves can achieve remote ecological monitoring and reduce interference with wildlife.
Disaster warning: Deploying this system in areas prone to natural disasters can achieve real-time monitoring and early warning, improving emergency response capabilities.
Intelligent Agriculture: Combined with IoT technology, this system can further develop into an intelligent agriculture solution, achieving precision agriculture management.
Community security: Deploying this system in residential areas can improve community safety and provide lighting services for residents.
In the future, with the integration of technologies such as artificial intelligence and big data, this system will become more intelligent and efficient. It will become an important component of smart cities and sustainable development strategies, contributing to the progress of human society.
Specification
Power | 900W | 1200W | 1500W |
Panel size | 467*210mm | 543*210mm | 619*210mm |
Panel power | 18W | 20W | 24W |
Battery | 15,000mah | 18,000mah | 20,000mah |
Lamp size | 565*220mm | 640*220mm | 720*220mm |
Material | ABS plastic | ABS plastic | ABS plastic |
Functions | Remote control, induction, time control, APP controllable | Remote control, induction, time control, APP controllable | Remote control, induction, time control, APP controllable |
Camera | 2 million pixels | 2 million pixels | 2 million pixels |
Warranty | 24 months | 24 months | 24 months |