The spiral design of the Screw Anchor is its unique and key feature, providing the basis for its efficient work in the field of foundation support.
The structure of spiral anchor bolt:
The core of the Screw Anchor is a screw anchor, usually made of high-strength steel. These spiral anchors are helical in shape, with uniform and continuous spiral lines, forming a spiral bolt structure. This design allows the Screw Anchor to rotate in the soil and penetrate deep into the ground without the need for vibration or impact like traditional foundation support methods to install.
Spiral shape:
The helical shape of a helical anchor usually has a specific pitch and helix angle. This design allows the ground anchor to advance and rotate smoothly during installation, adapting to different types of soil. The shape of the spiral gives the Screw Anchor the flexibility to work efficiently in a variety of soil conditions.
Spiral anchor tip design:
The tip of a helical anchor is usually designed to have a sharp shape to allow it to penetrate the soil more easily. This helps reduce the resistance of the soil during installation, allowing the screw anchor to rotate more smoothly and penetrate deeper into the ground.
Spiral anchor diameter and length:
The diameter and length of helical anchors depend on specific project needs and soil conditions. Spiral anchors with larger diameters and lengths generally have greater load-bearing capacity and are suitable for more complex soil conditions or projects that require stronger support.
material selection:
Spiral anchors are usually made of high-strength, corrosion-resistant steel to ensure sufficient durability under different environmental conditions. This material choice allows Screw Anchor to maintain structural stability and reliability over long periods of use.
Advantages of spiral design:
The spiral design gives Screw Anchor some significant advantages, including faster installation, higher load-bearing capacity, better adaptability and lower environmental impact. The spiral design can effectively reduce soil disturbance during installation while providing solid foundation support.