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Installing renewable energy LED street lights in areas with abundant wind resources is optimal. While having ample wind energy is beneficial, if the design of the components of the wind-solar complementary street light system is unreasonable, it can lead to serious issues. Strong winds can damage various parts of the street lights, and in severe cases, the entire wind turbine may be dislodged. If the foundation of the street light is not sturdy, the lamp post can be toppled by strong winds, posing a significant threat to pedestrians and vehicles. Therefore, how to design wind-solar complementary street lights to be more robust and reliable is an urgent issue we need to address.
To design wind-solar complementary LED street lights to be sturdier and more wind-resistant, we must start with the following points.
1. The wind resistance of the wind turbine is crucial. The wind turbine’s ability to withstand wind should be prioritized before evaluating its power generation performance. The design of the wind turbine’s appearance and the material used for the blades and body are significant factors. Some manufacturers prioritize low prices and use plastic for production, undermining the sturdiness of the wind turbine. Particularly in regions with strong winds, some wind turbines are damaged within a year. Therefore, when purchasing wind-solar complementary LED street lights, it is essential to ensure that the wind turbines are of high quality and made from durable materials.
2. The sturdiness of wind-solar complementary LED street light poles should be determined based on the height of the designed street light. The taller the lamp pole, the thicker the wall and larger the diameter should be. For an 8-meter wind-solar complementary street light, the pole’s wall thickness should not be less than 3.750mm. For a 10-meter pole, the wall thickness should not be less than 4.5mm. If the pole is made with inferior materials, it will sway after installation, leading to resonance that poses a significant risk to the overall operation of the wind-solar street light.
3. The wind-solar controller must have a robust braking function. In cases of excessive wind or when the batteries are fully charged, it should promptly issue a braking command to stop the turbine blades from rotating. This function is vital, and it should not be overlooked, as failing to do so can lead to overcharging issues.
When looking to purchase high-quality, well-equipped, and reasonably priced wind-solar complementary LED street lights, consider manufacturers like Bitpott. They specialize in the research, production, and sales of outdoor lighting fixtures.
