ACE SA 300

ACE SA 300 Piling Rig is a powerful and advanced heavy-duty machine specifically designed to tackle the challenges of large-scale foundation drilling and construction projects. SA 300 Pilling Rig is versatile, suitable for a wide range of applications, including highway and railway projects, where deep foundation drilling is crucial for establishing stable and long-lasting infrastructure. Additionally, it excels in waterfront construction, utilizing its advanced features to address the unique challenges posed by marine environments. Whether drilling through sand layers or penetrating tough rock strata, the ACE SA 300 delivers precision and efficiency, making it a reliable choice for contractors seeking high-performance drilling equipment.

ACE SA 300 is equipped with an impressive 250 KW engine, delivering immense power that makes it suitable for the most demanding drilling operations. Weighing 103 tons, SA 300 Pilling Rig offers exceptional stability, ensuring that deep drilling projects are handled with ease. With a maximum drilling diameter of 2500 mm and a drilling depth ranging from 61 to 86 meters, the ACE SA 300 is specifically designed for projects that require large boreholes and deep foundations, making it an essential tool for large infrastructure projects.

ACE SA 300 Piling Rig employs the CFA Method (Continuous Flight Auger), a highly efficient technique that ensures continuous drilling, significantly reducing the risk of soil collapse and enhancing overall project speed. Additionally, it features the CO Method (Casing Oscillator), which adds versatility by enabling drilling in challenging ground conditions, such as soft soils or loose sand, without compromising stability or precision. SA 300 Pilling Rig incorporates the Patented Driving Key Installation Method, which addresses the common issue of bolt fractures during installation and maintenance, ensuring long-lasting durability and reliability. Furthermore, the reducer with independent oil lubrication enhances ACE SA 300's performance by minimizing pollution and reducing wear and tear on critical components, guaranteeing smooth and efficient operation throughout its lifespan.