How do the dimensions of photovoltaic spiral piles affect their bearing capacity and applicable scenarios?
Publish Time: 2024-12-31
Photovoltaic spiral piles are an efficient and environmentally friendly photovoltaic installation method, and their dimensions play a vital role in the design and application process. These specifications not only affect the bearing capacity of spiral piles, but also determine the specific scenarios in which they are applicable.
The diameter of the spiral pile is a key parameter. Generally speaking, the diameter is selected in the range of 76mm to 219mm, depending on the geological conditions, wind speed and weight of photovoltaic modules. The increase in diameter can increase the contact area between the pile and the soil, thereby enhancing the support and stability. This design enables spiral piles to provide reliable bearing capacity under different geological conditions, especially in areas where construction is difficult, such as rock formations or deserts.
In terms of length, the length of the spiral pile needs to be customized according to the needs of the installation site, generally ranging from 1m to 3m. Longer spiral piles can go deep into the ground, provide stronger pull-out resistance, and ensure the firm fixation of the photovoltaic system. This flexibility makes spiral piles suitable for various terrains and soil conditions, from shallow beaches to Gobi.
Wall thickness is also an important factor affecting the performance of spiral piles. Thicker wall thickness can provide better compression and bending resistance, further enhancing the bearing capacity of spiral piles. In areas that need to withstand large loads or wind pressure, it is more appropriate to choose spiral piles with larger wall thickness.
Different sizes make photovoltaic spiral piles widely used in various scenarios. Whether it is home, industry, agriculture or public facilities, photovoltaic spiral piles can provide reliable power supply and reduce dependence on traditional energy. Its efficient installation speed and low environmental damage make spiral piles an important part of green energy development.
In summary, the size of photovoltaic spiral piles has an important impact on its bearing capacity and applicable scenarios. By reasonably selecting the diameter, length and wall thickness of the spiral piles, it can ensure that the photovoltaic system can operate safely and stably under different geological and climatic conditions. This flexibility and adaptability make photovoltaic spiral piles an important part of future green energy development.
