Flexible solar panels are tightly fixed on the hexagonal light poles. Hexagonal design is more stable in mechanics and has better wind resistance than round light poles.
Hexagonal shapes are symmetrical polygons that distribute force more evenly than round rods, have smoother edges, and have less wind resistance than square rods.
Compared to square poles, the pole's six sides can hold solar panels, increasing the light-receiving area by about 20% and offering broader light coverage. This guarantees a longer battery life on overcast or wet days and greatly enhances the use of oblique sunlight in the morning and evening.
The hexagonal structure is ideal for complex environments like open plazas and typhoon-prone areas because of its superior mechanical qualities, which provide 35% better wind and bending resistance than round poles.
By fitting snugly against the hexagon-shaped curved surface, the solar panels minimize the buildup of water and dust as well as the need for frequent upkeep.
With adjustable colors and textures to fit contemporary urban settings, the design is straightforward but fashionable.
Before being hot-dip galvanized and powder-coated, premium steel is cut, bent, and welded into hexagon-shaped blanks to improve corrosion resistance.
Solar panels are encapsulated, pre-drilled with wiring holes, and cut to fit the pole's six-sided curvature.
The energy storage battery and controller are fixed within the pole. Each of the six sides has the solar panels carefully installed and wired to ensure circuit continuity.
To confirm charging and discharging efficiency, tests of simulated power generation are carried out in the presence of sunlight. To confirm wind resistance stability, mechanical tests are conducted. Additionally examined are the panel sealing and lighting effect. After passing the tests, the lights are packaged and shipped.
