Spherical roller bearings

1. High load capacity: Spherical roller bearings have two rows of rollers and can withstand large radial loads and bidirectional axial loads.

2. Good aligning performance: The outer ring raceway of the spherical roller bearing is spherical, and the inner ring raceway is inclined with the axis, which can compensate for the deformation and installation error of the bearing seat and ensure the smooth operation of the transmission.

3. Excellent impact resistance: The spherical roller bearing has good structural rigidity and can withstand the impact load when the transmission is working.

High-speed deep groove ball bearings

1. High speed capability: The internal geometry is optimized to maintain low friction at high speeds, ensuring smooth operation. The design is sophisticated and suitable for high-speed rotation applications.

2. High load capacity:  The deep groove design enhances the load capacity and can withstand radial and axial loads at the same time, which is suitable for heavy load and variable load working environments.

3. Low friction and energy consumption:  The friction coefficient is low, which can reduce energy consumption during operation and improve overall efficiency.

Additional Notes:

The Philippine customer decided to purchase spherical roller bearings and high-speed deep groove ball bearings from QIBR to meet the safety and stability requirements of the wind turbine transmission. Spherical roller bearings and high-speed deep groove ball bearings produced by QBR are both designed and manufactured with advanced technology, and can operate stably under high load and high speed conditions. Spherical roller bearings have excellent self-aligning performance, can effectively compensate for the misalignment between the shaft and the bearing seat, and adapt to complex working environments. High-speed deep groove ball bearings, with their low friction characteristics and high speed capabilities, ensure the efficient operation of wind turbines under various working conditions.