Embark on an extraordinary journey into the realm of high-precision bearings, where the L44649 shines as a beacon of excellence. Join us as we delve into its intricate specifications, empowering you with the knowledge to unlock its full potential.
Technical Specifications at a Glance
Specification | Value |
---|---|
Designation | L44649 |
Bore Diameter | 10 mm |
Outer Diameter | 30 mm |
Width | 9 mm |
Load Rating (Dynamic) | 2.5 kN |
Load Rating (Static) | 1.25 kN |
Limiting Speed | 22,000 rpm |
Cage Material | Brass |
| Seal Type | Open (2Z) |
| Lubrication | Grease |
| Pretension Class | C3 |
| Tolerance Class | ABEC-1 |
| Weight | 0.027 kg |
Exceptional Performance in Demanding Applications
The L44649 bearing is engineered to excel in high-speed and high-load environments. Its superior bore diameter (10 mm) ensures a secure fit, while its robust outer diameter (30 mm) provides ample support. With a load rating of 2.5 kN (dynamic), it can withstand demanding axial and radial forces.
Precision and Durability for Extended Service Life
Crafted to meet the highest standards of precision, the L44649 bearing boasts an ABEC-1 tolerance class. This precision ensures minimal vibration and noise, contributing to extended service life. Its brass cage offers exceptional strength and wear resistance, while the C3 pretension class ensures optimal performance under varying load conditions.
1. High-Speed Industrial Robotics
By incorporating the L44649 bearing into its robotic arm design, an automation manufacturer achieved unprecedented speed and accuracy. The bearing's high limiting speed (22,000 rpm) enabled the robot to perform intricate movements with pinpoint precision.
How to Leverage: Optimize bearing design for high-speed applications by considering factors such as lubrication, cage material, and pretension class.
2. Compact Precision Milling Machines
To reduce size and weight in their precision milling machines, a tool manufacturer utilized the L44649 bearing's compact width (9 mm). This allowed for a more compact machine design without compromising performance.
How to Utilize: Consider the bearing's dimensions and weight when designing space-constrained systems.
3. Precision Measurement Instruments
In the development of a highly sensitive measurement instrument, the L44649 bearing played a crucial role. Its ABEC-1 tolerance class minimized vibration and noise, ensuring accurate and reliable measurements.
How to Implement: Ensure precision bearing selection and installation for applications requiring high accuracy and minimal vibration.
1. Proper Lubrication and Maintenance
Regular lubrication and maintenance are essential for optimal bearing performance. Follow manufacturer's recommendations for lubrication type and frequency, and conduct regular inspections to detect any signs of wear or damage.
2. Optimal Mounting and Fit
Proper mounting and fit are crucial to ensure bearing stability and performance. Use appropriate mounting methods and tools, and ensure that the bearing is securely fitted to prevent premature failure.
3. Environmental Considerations
Bearings are susceptible to external environmental factors. Protect them from moisture, dust, and contaminants to prevent corrosion and premature wear.
1. Avoid Overloading
Overloading can significantly reduce bearing life. Always operate the bearing within its specified load ratings to prevent damage.
2. Use Appropriate Seals
Seals can extend bearing life by preventing the ingress of contaminants. Choose the right seal type based on the application environment and operating conditions.
3. Monitor Operating Conditions
Regularly monitor operating conditions, such as temperature, vibration, and noise. Any significant changes may indicate potential bearing issues and require further inspection.
1. Inadequate Lubrication
Insufficient lubrication can lead to excessive friction and premature bearing failure. Always ensure adequate lubrication and follow manufacturer's recommendations.
2. Improper Mounting
Incorrect mounting can cause vibrations and premature wear. Use appropriate mounting techniques and tools to ensure proper bearing fit.
3. Overtightening or Overheating
Overtightening or overheating can damage the bearing and reduce its service life. Follow mounting instructions carefully and use appropriate torque values.
Limitations:
Challenges:
Mitigating Risks:
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