Bearings
Spherical Roller Bearings
SKF Spherical Roller
Quick Code: BB-494180
24136CC/C3W33 SKF Spherical Roller Bearing 180mm x 300mm x 118mm
This high-performance SKF Spherical Roller Bearing is engineered for superior reliability in demanding industrial applications. Featuring advanced self-aligning capabilities, this bearing excels in environments where shaft misalignment and heavy loads are common challenges. The W33 design with lubrication groove and three holes ensures optimal lubricant distribution, maximizing bearing life and operational efficiency.
Key Features
- W33 specification incorporating lubrication groove and three lubrication holes in outer ring for enhanced performance
- CC design with dual window-type steel cages and flangeless inner ring
- Guide ring centered on inner ring for improved alignment and stability
- C3 internal clearance for enhanced performance in demanding conditions
- Self-aligning capability to compensate for shaft misalignment
- Operating temperature range of -30°C to +200°C
Technical Specifications
- Inside Diameter: 180mm
- Outside Diameter: 300mm
- Width: 118mm
- Bore Type: Cylindrical
- Material: Standard bearing steel
- Cage Type: Sheet steel
- Tolerance Class: P0/PN2 (ABEC 1)
- Configuration: Open bearing (non-sealed)
- Reference Numbers: 24136CC/C3W33, 24136CCC3W33, 24136 CC/C3W33
Common Applications
- Heavy industrial machinery and equipment
- Mining and construction equipment
- Steel manufacturing facilities
- Industrial gearboxes and drive systems
- Paper processing machinery
- Material handling equipment
- Heavy-duty conveyor systems
This versatile bearing is specifically designed for applications requiring reliable performance under high radial and axial loads. Its robust construction, combined with the C3 clearance specification, makes it particularly suitable for applications where thermal expansion or heavy loading conditions are present. The standard version design ensures straightforward installation and maintenance in a wide range of industrial applications.
