Enhanced load-bearing capacity
Geely Flexible Bearing can effectively improve the load-bearing capacity through structural optimization. For example, the inner and outer ring structures of the bearing are redesigned to adopt a more reasonable wall thickness distribution and rib layout. When subjected to large radial or axial loads, the optimized structure can disperse stress more evenly and avoid local stress concentration. Traditional structures may deform or even damage under heavy loads, while the optimized structure can withstand higher loads, enabling bearings to better cope with complex and variable stress conditions in application scenarios such as industrial machinery and automotive transmission systems, ensuring stable operation of equipment and extending service life.
Improved transmission accuracy
During the structural optimization process, Geely Flexible Bearing focuses on improving the matching accuracy between rolling elements and raceways. By accurately controlling the curvature radius, surface roughness, and dimensional tolerance of the raceway, the gap and error in the transmission process are reduced. In applications such as precision equipment such as CNC machine tools and robot joints, high-precision flexible bearings can ensure the precise positioning of moving parts and the accuracy of motion transmission. The optimized structure can effectively reduce the backlash during the transmission process, significantly improve the processing accuracy and motion trajectory accuracy of the equipment, thereby improving the quality and production efficiency of the product.
Improve dynamic performance
Structural optimization also has a positive impact on the dynamic performance of Geely Flexible Bearing. The optimized cage structure of the bearing can better guide the rolling elements when running at high speed and reduce the collision and friction between the rolling elements. At the same time, the improved structure can reduce the vibration and noise level of the bearing. In fields with demanding dynamic performance requirements such as high-speed motors and aerospace equipment, this structurally optimized flexible bearing can provide smoother operation, reduce energy loss and equipment wear caused by vibration and noise, and improve the reliability and comfort of the entire system.
Improve adaptability and stability
The structural optimization of Geely Flexible Bearing makes it more adaptable to different working conditions and more stable. For example, the special sealing structure can effectively prevent impurities such as dust and moisture from entering the bearing, and it can maintain good working condition whether in a humid and dusty industrial environment or in harsh outdoor conditions. In addition, the optimized structure can reduce deformation and performance fluctuations caused by thermal expansion and contraction in an environment with large temperature changes, ensuring that the bearing can stably perform its functions under various working conditions, providing a solid foundation for the stable operation of related equipment.