KG070CP0
1" Constant Section Bearings
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Basic Information
Main Dimensions
Inner Ring Dimensions
Outer Ring Dimensions
Performance
Materials
Environment & Compliance
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KG070CP0 Bearing Product Overview & Core Advantages
The KG070CP0 is a high-performance thin section bearing designed for applications requiring space optimization and weight reduction. As a Reali-Slim Open Bearing with a single row construction, it delivers exceptional radial load capacity in a compact cross-section. Manufactured to ABEC-1 precision standards, this bearing ensures reliable operation in precision machinery where dimensional accuracy and consistent performance are critical. Its open design allows for custom lubrication schemes to match specific application requirements.
KG070CP0 Bearing Model Code Explained, Specifications & Naming Convention
| Code Segment | Technical Meaning |
|---|---|
| KG070 | Bearing series designation for thin section bearings with specific cross-section |
| C | Radial internal clearance specification |
| P0 | Normal precision grade (equivalent to ABEC-1) |
KG070CP0 Bearing Structural Features & Performance Benefits
This bearing features a single row ball construction with chrome steel rings and balls, providing excellent wear resistance and durability. The brass cage ensures smooth operation and proper ball guidance at various speeds. With a thin section design (1" width relative to 7" bore), it offers significant space and weight savings while maintaining high radial load capacity (7,764 lbf dynamic, 13,130 lbf static). The precise dimensional tolerances on bore, outside diameter, and width ensure consistent performance and easy installation. The radial internal clearance of 0.0000-0.0005" provides optimal performance for most industrial applications.
KG070CP0 Bearing Typical Application Areas
- Robotics and automation systems requiring compact, lightweight bearing solutions
- Aerospace components where weight reduction is critical
- Medical equipment requiring precise motion control
- Semiconductor manufacturing equipment demanding high precision and reliability
- Optical and positioning systems needing minimal deflection under load
- Rotary tables and indexing mechanisms in industrial machinery