Product Overview: The 7017 Angular Contact Ball Bearing
The 7017 bearing is a high-precision component from our esteemed 7000 Series Angular Contact Ball Bearings, designed to handle combined radial and axial loads with exceptional rigidity and accuracy. With dimensions of 85mm bore, 130mm outer diameter, and 22mm thickness, this bearing is engineered for demanding applications where high speeds and precise shaft guidance are critical. Its unique design features raceways offset from each other, allowing it to accommodate axial loads in one direction, while a single bearing can support radial loads. For applications with axial loads in both directions or pure radial loads, arrangements with two bearings in a back-to-back or face-to-face configuration are commonly used to provide robust support.
As a leading supplier of industrial bearings and mechanical parts, we ensure our 7017 bearings adhere to stringent industry standards, offering reliable performance and an extended service life in critical machinery. These bearings are essential for optimizing the efficiency and longevity of various industrial systems, contributing to smoother operations and reduced downtime. Explore our full range of angular contact ball bearings to find the ideal solution for your specific industrial requirements.
Key Features of the 7017 Bearing
- Combined Load Capacity: Specifically designed to accommodate both radial and axial loads, making it versatile for various applications.
- High-Speed Capability: Engineered for excellent performance in high-speed rotational environments, ensuring smooth operation.
- High Rigidity: Provides strong support and precise guidance for shafts, crucial for applications requiring minimal deflection.
- Precision Manufacturing: Produced to strict tolerances, ensuring dimensional accuracy and consistent, reliable performance.
- Single-Direction Axial Load: Optimized to handle axial forces in one direction; typically used in pairs for bi-directional axial loads.
- Low Friction Operation: Designed to minimize friction, reducing heat generation and contributing to longer bearing life.
- Durable Construction: Manufactured from high-quality bearing steel, providing superior wear resistance and long-term reliability.
Common Applications of 7017 Bearings
- Machine Tools: Widely used in spindles of lathes, milling machines, and grinding machines where high precision and rigidity are paramount.
- Pumps: Ideal for various types of pumps that experience both radial and axial forces during operation.
- Compressors: Supports rotating components in compressors, ensuring stable and efficient performance.
- Industrial Gearboxes: Provides robust support for shafts within gearboxes, accommodating the combined loads.
- Printing Presses: Ensures precise movement and stability of rollers and other components for consistent print quality.
- Electric Motors: Used in higher performance electric motors where greater axial load capacity is required.
- Robotics: Essential for joints and mechanisms requiring precise angular positioning and load handling.
- Woodworking Machinery: Applied in equipment such as routers and shapers that demand high accuracy and stiffness.
Benefits of Using the 7017 Bearing
- Enhanced Precision: Delivers superior accuracy and rotational stability, critical for sensitive machinery.
- Improved Machine Performance: Its ability to handle combined loads at high speeds leads to more efficient and reliable machinery operation.
- Extended Service Life: High-quality construction and design minimize wear, leading to a longer operational life for the bearing.
- Reduced Vibration and Noise: Precision engineering contributes to smoother operation, reducing unwanted vibrations and noise levels.
- Cost Efficiency: Longevity and reduced maintenance needs translate into lower overall operational costs.
- Versatile Application: Suitable for a broad range of industrial sectors due to its robust design and load-handling capabilities.
- Optimized Power Transmission: Efficiently transfers power while maintaining precision, enhancing the overall system's effectiveness.
