Product Overview: The 22236 Spherical Roller Bearing
The 22236 bearing is a high-capacity, self-aligning component belonging to our comprehensive 22200 Series Spherical Roller Bearings. Engineered to perform reliably in applications subject to heavy radial and axial loads, particularly those with angular misalignment or shaft deflection, this bearing features two rows of symmetrical rollers and a common spherical outer ring raceway. With precise dimensions of 180mm bore diameter, 320mm outer diameter, and 86mm thickness, it is designed for demanding industrial environments.
As a trusted provider of industrial bearings and mechanical parts, we ensure that our 22236 spherical roller bearings meet stringent industry standards, offering exceptional durability and operational longevity. Their robust construction makes them ideal for supporting rotating elements where significant loads, shocks, and vibrations are present. This bearing is crucial for maintaining optimal performance and extending the lifespan of heavy machinery across various sectors. Discover our full range of spherical roller bearings to find resilient solutions for your most challenging applications.
Key Features of the 22236 Bearing
- High Load Capacity: Designed to carry extremely heavy radial loads and moderate axial loads in both directions, making it suitable for severe operational demands.
- Self-Aligning Capability: Automatically compensates for static and dynamic angular misalignment between the shaft and the housing, effectively reducing internal stresses and preventing premature wear.
- Robust Roller Design: Features two rows of barrel-shaped symmetrical rollers, providing excellent load distribution and enhanced reliability even under fluctuating conditions.
- Shock and Vibration Resistance: Engineered to withstand harsh operating conditions, including significant shocks and high levels of vibration, ensuring consistent performance.
- Durable Construction: Manufactured from high-quality bearing steel, ensuring superior wear resistance, fatigue life, and extended service life in arduous applications.
- Precision Engineering: Produced to strict dimensional tolerances and quality controls, ensuring consistent performance, smooth operation, and reliable interchangeability.
Common Applications of 22236 Bearings
- Heavy Industrial Machinery: Essential in robust equipment such as gearboxes, crushers, and large industrial fans where heavy loads and potential misalignments are common.
- Mining and Construction Equipment: Widely used in excavators, large conveyor systems, and rock processing machinery, offering reliability in abrasive and high-impact environments.
- Pulp and Paper Mills: Supports critical components like rollers and calenders, handling the demanding conditions characterized by moisture, heat, and heavy loads in paper production.
- Steel Mills: Critical in continuous casting machines, rolling mills, and other metal processing equipment due to their ability to withstand high temperatures, heavy loads, and aggressive conditions.
- Wind Turbines: Utilized in main shafts and gearboxes of wind energy systems, requiring robust bearings to withstand varying loads and environmental factors.
- Agricultural Equipment: Found in large farming machinery and cultivators subject to uneven loads, dirt, and harsh field conditions, providing dependable performance.
- Power Generation: Applied in generators, turbines, and large pumps, ensuring stable and reliable operation under continuous heavy loads and high rotational speeds.
Benefits of Using the 22236 Bearing
- Enhanced Machine Reliability: Its self-aligning feature minimizes stress on adjacent components like shafts and housings, leading to fewer unexpected downtimes and improved overall system integrity.
- Extended Equipment Lifespan: Exceptional load-carrying capacity, high durability, and resistance to wear contribute significantly to a longer operational life for both the bearing and the associated machinery.
- Reduced Maintenance Needs: The robust design and inherent resistance to misalignment and shock lead to less frequent repairs and replacements, resulting in lower maintenance costs over time.
- Optimal Performance Under Harsh Conditions: Maintains efficiency and smooth operation even in environments characterized by heavy loads, intense vibrations, and potential shaft misalignments, ensuring continuous productivity.
- Improved Operational Safety: Reliable performance of critical rotating components contributes to a safer working environment by minimizing the risk of bearing failure and machinery malfunctions.
- Cost Efficiency: The longevity, durability, and reduced need for frequent replacement parts contribute to significant long-term savings and a higher return on investment for industrial applications.
