Kral KF‑160.DAA Magnetic‑Coupling Triple Screw Pump KF‑160.DAA.006555 is a high‑performance positive displacement pump engineered for exceptional reliability and operational efficiency in demanding applications. The magnetic‑coupling design eliminates the need for conventional mechanical seals, providing leak‑proof operation ideal for sensitive or hazardous fluids. With its precise model number included, this pump ensures traceable compatibility and ease of identification for OEM replacements or system upgrades.
At the heart of the KF‑160.DAA is its triple‑screw mechanism, featuring a central drive screw and two precision‑machined idler screws. This geometry creates sealed chambers that transport fluid axially with minimal pulsation, vibration, or shear—ensuring smooth and consistent flow. Tight internal clearances deliver excellent volumetric efficiency, while the screw balance minimizes radial bearing loads, resulting in long service life and quiet operation even under continuous use.
The magnetic coupling system transmits torque through a sealed containment shell, allowing hermetic separation between drive and process fluids. This design eliminates shaft penetration and external seals, significantly reducing the risk of leaks and enhancing operational safety and environmental protection. Ideal for applications involving hazardous, reactive, or flammable liquids, the sealed design also simplifies compliance with leakage regulations.
Built to withstand rigorous industrial and marine environments, the KF‑160.DAA features an all‑metal corrosion‑resistant housing, wear‑resistant screws, and precision construction. Its compact footprint and standardized porting allow straightforward retrofit or integration into existing systems. Maintenance is simplified by modular construction, allowing removal of the screw module without disturbing drive components.
Overall, the Kral KF‑160.DAA Magnetic‑Coupling Triple Screw Pump 006555 offers a robust, leak‑free, and efficient pumping solution. With its hermetic sealing, low‑noise, pulse‑free flow, and minimal maintenance requirements, it is an ideal choice for critical applications in chemical processing, lubrication, fuel transfer, and fluid systems where contamination, emissions, or fluid loss must be tightly managed.
