Bearings
Angular Contact Bearings
Angular Contact Bearings
Quick Code: BB-503195
7214-B-XL-JP-UA FAG Single Row Angular Contact Ball Bearing 70mm x 125mm x 24mm
7214-B-XL-JP-UA FAG Single Row Angular Contact Ball Bearing
This premium FAG angular contact ball bearing is engineered to handle combined radial and axial loads with exceptional precision and reliability. As a single row design, it accommodates axial loads in one direction and features a robust construction ideal for high-speed applications requiring dependable performance.
Key Features:
- 40° contact angle for optimal load distribution and performance
- Single row design for efficient radial and axial load handling
- Sheet steel cage construction for durability and stability
- Open bearing design (no seal) - suitable for clean, protected environments
- Normal radial clearance for standard applications
- Universal mounting capability - two bearings can be arranged back-to-back (O-arrangement) or face-to-face (X-arrangement) with low axial clearance before mounting
- Bearing pair configuration available with low axial preload for enhanced performance
- Standard bearing steel construction with FAG quality assurance
- Wide temperature operating range: -20°C to +150°C
- Tolerance class P0/PN2 (ABEC 1) for precision applications
Specifications:
- Bore Diameter: 70mm
- Outer Diameter: 125mm
- Width: 24mm
- Row Type: Single Row
- Contact Angle: 40°
- Brand: FAG
- Reference Number: 7214-B-XL-JP-UA
Applications:
This bearing is ideal for demanding high-speed, precision applications including:
- Electric motors and pumps
- Gearboxes and transmission systems
- Machine tool spindles
- Automotive drivetrains and components
- Industrial machinery requiring precision operation
- Heavy-duty equipment where preloaded bearing pairs provide benefits
FAG bearings are renowned worldwide for their superior quality standards and exceptional durability, making this angular contact bearing an excellent choice for demanding industrial and commercial applications requiring reliable performance under combined loading conditions.
