Solar street lamps have become a common product in our everyday lives, visible to many people everywhere. This type of product is very important for many, but when choosing solar street lamps, you may find that these small solar street lamps incorporate a variety of battery components. To ensure the optimal functioning of the entire battery system, it is often beneficial to consider their actual design conditions.
Tilt Angle Design
In the design process of solar street lamps, to maximize the solar radiation received by the panels throughout the year, it is essential to select the best tilt angle for the solar panels. Discussions regarding the optimal tilt angle for solar panels have appeared in numerous academic publications in recent years. However, since solar street lamps are used in various geographic locations, the tilt angles can differ significantly from one area to another.
Wind Resistance Design
Within the solar street lamp system, wind resistance is a crucial aspect from a structural perspective. The wind resistance design consists of various modules aimed at ensuring robust support for the battery assembly against wind forces. During the actual design process, it is important to factor in different circumstances for a thorough investigation. Existing wind resistance designs vary, and it is advisable to analyze the specific conditions accordingly. The selected wind resistance coefficient is typically designed to withstand wind speeds of up to 27 meters per second.
