The TIMKEN 6206 ZZ Ball Bearings 6206ZZ127 are precision-engineered components designed to deliver reliable and efficient performance in a wide range of industrial and mechanical applications. These deep groove ball bearings feature a double shielded design, which helps to protect against dust and other contaminants while maintaining smooth operation and extending service life. Built to support both radial and axial loads, they are ideal for use in electric motors, gearboxes, pumps, conveyors, and various types of machinery.
With the part number 6206ZZ127, these TIMKEN 6206 ZZ bearings conform to international standards, ensuring compatibility and interchangeability with similar bearing types across different equipment brands. The bearing has a 30 mm inner diameter, a 62 mm outer diameter, and a 16 mm width, making it suitable for medium-duty applications where space constraints and load-bearing capabilities are key considerations. The metal shields on both sides reduce maintenance by eliminating the need for relubrication while still offering effective protection against external particles and lubricant leakage.
The precision manufacturing and high-grade steel construction of the TIMKEN 6206 ZZ ensure excellent wear resistance and dimensional stability under a wide range of operating temperatures and loads. These bearings are designed to operate with minimal friction, reducing energy consumption and enhancing the overall efficiency of rotating systems. The robust design minimizes vibration and noise, contributing to smoother operation and extended equipment life in both high-speed and high-load environments.
TIMKEN’s commitment to quality and performance is clearly reflected in the 6206 ZZ Ball Bearings 6206ZZ127, making them a dependable choice for OEMs, repair shops, and maintenance teams. Whether used in industrial drives, agricultural machinery, or automotive systems, these bearings offer consistent performance, reduced downtime, and lower total cost of ownership thanks to their long-lasting reliability and efficient design.
