NACHI 1207 Bearing — Specifications, Dimensions & Cross-Reference
The NACHI 1207 is a self-aligning ball bearing manufactured by NACHI. It belongs to the 1200 series and features dimensions of 35 × 72 × 17 mm (bore × OD × width). This bearing has a dynamic load rating of 15,600 N and a static load rating of 5,850 N, making it suitable for medium-duty applications.
Technical Specifications
| Dimensions | |
|---|---|
| Bore Diameter (d) | 35 mm |
| Outside Diameter (D) | 72 mm |
| Width (B) | 17 mm |
| Weight | 0.260 kg |
| Performance | |
|---|---|
| Dynamic Load Rating (Cr) | 15,600 N |
| Static Load Rating (C₀r) | 5,850 N |
| Limiting Speed (Grease) | 9,000 rpm |
| Limiting Speed (Oil) | 11,000 rpm |
Brand Cross-Reference — 1207 Equivalents
The following bearings from other manufacturers are interchangeable with the NACHI 1207. All share identical dimensions (35×72×17mm) and comparable load ratings:
| Brand | Part Number | Dynamic Load (N) | Static Load (N) |
|---|---|---|---|
| NACHI | NACHI 1207 ✦ | 15,600 | 5,850 |
| Timken | Timken 1207 | 15,600 | 5,850 |
| SKF | SKF 1207 | 15,600 | 5,850 |
| KOYO | KOYO 1207 | 15,600 | 5,850 |
| Timken | Timken 1207 | 15,600 | 5,850 |
| FAG | FAG 1207 | 15,600 | 5,850 |
| NSK | NSK 1207 | 15,600 | 5,850 |
| NTN | NTN 1207 | 15,600 | 5,850 |
| SKF | SKF 1207 | 15,600 | 5,850 |
Available Variants
The NACHI 1207 base bearing is available in these configurations:
Frequently Asked Questions
What are the dimensions of the NACHI 1207?
The NACHI 1207 has a bore diameter of 35mm, outside diameter of 72mm, and width of 17mm. It weighs 0.260kg.
What is the load capacity of the NACHI 1207?
The dynamic load rating (Cr) is 15,600 N and the static load rating (C₀r) is 5,850 N. The maximum recommended speed is 9,000 rpm with grease lubrication or 11,000 rpm with oil lubrication.
What bearings are equivalent to NACHI 1207?
The 1207 is manufactured by multiple brands including SKF, NTN, NSK, FAG, Timken, KOYO, and NACHI. All versions share the same 35×72×17mm dimensions and are interchangeable in most applications. See the cross-reference table above for detailed comparisons.