Product Overview: The NJ 2320 Cylindrical Roller Bearing
The NJ 2320 bearing is a high-performance single row Cylindrical Roller Bearing, part of our robust NJ 2300 Series. With a bore diameter of 100 mm, an outer diameter of 215 mm, and a thickness of 73 mm, this bearing is engineered to accommodate heavy radial loads and axial displacement in one direction. Its design, featuring an inner ring with two integral flanges and an outer ring with a single integral flange, allows for easy mounting and dismounting. Our NJ 2320 bearings are manufactured to high industry standards, ensuring exceptional durability and reliable performance in demanding industrial environments where high rigidity, low friction, and continuous operation under significant loads are critical. They are especially suitable for applications requiring precision guidance.
Key Features of the NJ 2320 Bearing
- High Radial Load Capacity: Engineered to withstand substantial radial forces.
- Axial Displacement Accommodation: Allows for axial displacement of the shaft relative to the housing in one direction.
- Low Friction Operation: Optimized internal geometry ensures smooth rolling and reduced heat generation.
- High Rigidity: Provides excellent stiffness for precise shaft positioning.
- Separable Components: Inner and outer rings can be mounted separately for easier installation and maintenance.
- Durable Construction: Made from high-quality bearing steel for extended service life.
Common Applications of NJ 2320 Bearings
- Heavy Industrial Machinery: Used in large-scale equipment like rolling mills and crushers.
- Gearboxes: Robust support for gears under high loads and speeds.
- Electric Motors & Generators: Ensures smooth and reliable operation.
- Pumps and Compressors: Stable rotational support in fluid handling systems.
- Machine Tools: Maintains precision and rigidity in spindles.
- Railway Axle Boxes: Suitable for demanding railway applications.
Benefits of Using the NJ 2320 Bearing
- Enhanced Operational Reliability: Robust design ensures dependable operation of heavy machinery.
- Extended Equipment Service Life: Reduces wear on adjacent components.
- Reduced Maintenance Downtime: Separable design simplifies installation and replacement.
- Improved Efficiency: Low friction contributes to energy savings.
- Cost-Effective Solution: Long-term reliability minimizes replacement frequency.
