Product Overview: The 1307 Self-Aligning Ball Bearing
The 1307 bearing is a precision-engineered component from our robust 1300 Series Self-Aligning Ball Bearings. With dimensions of 35mm bore diameter, 80mm outer diameter, and 21mm thickness, this bearing is specifically designed to accommodate angular misalignment between the shaft and the housing, making it an indispensable choice for applications where precise alignment is difficult to maintain or where shaft deflection is anticipated. Its intelligent design incorporates two rows of balls and a common concave spherical raceway in the outer ring, allowing for automatic angular self-alignment without compromising performance.
As a trusted supplier of industrial bearings and mechanical parts, we ensure that our 1307 bearings meet stringent industry standards for quality and reliability. They are built to provide consistent, long-lasting performance even in demanding operational environments. This type of bearing plays a crucial role in various industrial machines, contributing to smoother operation and reduced friction. Discover our comprehensive selection of self-aligning ball bearings to find the ideal solution for your specific industrial requirements.
Key Features of the 1307 Bearing
- Automatic Misalignment Compensation: Capable of accommodating static and dynamic angular misalignment, which helps prevent premature wear and extends the overall service life of the machinery.
- Dual Row Ball Design: Features two rows of hardened steel balls, which enhances its load-carrying capacity and ensures even distribution of forces.
- Low Friction Operation: Engineered for smooth rotational movement, minimizing heat generation and energy loss, leading to more efficient operation.
- Robust Construction: Manufactured from high-grade bearing steel, offering exceptional durability, wear resistance, and long-term reliability under various operating conditions.
- Vibration Dampening: The self-aligning capability contributes to smoother operation, reducing vibrations and noise in the system.
- Standardized Dimensions: Conforms to international standards, ensuring compatibility and ease of replacement in existing systems.
Common Applications of 1307 Bearings
- Agricultural Machinery: Widely used in equipment such as harvesters, seeders, and tractors where shafts may experience misalignment due to uneven terrains or heavy loads.
- Conveyor Systems: Essential for supporting rollers in conveyor belts, especially in long systems where frame flex or shaft deflection can occur.
- Textile Machinery: Applied in various textile equipment, providing reliable support for rollers and spindles, accommodating slight shaft deviations.
- Fans and Blowers: Ideal for ventilation systems where shaft alignment might be challenging, ensuring quiet and efficient air movement.
- Woodworking Machinery: Used in equipment like saws and planers to provide stable rotational support while absorbing minor misalignments.
- Food Processing Equipment: Suitable for machinery in food and beverage industries that require reliable rotational components under varying conditions.
- Material Handling Equipment: Employed in forklifts, stackers, and other material handling systems where precise alignment cannot always be guaranteed.
Benefits of Utilizing the 1307 Bearing
- Extended Equipment Lifespan: By compensating for misalignment, the 1307 bearing reduces stress on other components, leading to fewer breakdowns and longer machinery life.
- Reduced Maintenance Costs: Its ability to self-align minimizes wear and tear, decreasing the frequency of repairs and replacements, thus lowering operational expenses.
- Improved Operational Reliability: Ensures consistent and dependable performance of machinery, even in conditions where perfect alignment is not achievable.
- Simplified Installation: The inherent self-aligning feature simplifies the mounting process, especially in applications where achieving precise alignment would otherwise be time-consuming.
- Enhanced Energy Efficiency: Low friction characteristics contribute to less power consumption and cooler running temperatures, leading to energy savings.
- Optimal Performance in Challenging Environments: Continues to perform effectively in applications prone to shaft deflection or structural instability.
