Bearings
Needle Roller Bearings
Drawn Cup Bearings
TLAM & BK Series Drawn Cup Needle Bearings
Quick Code: BB-497938
BK3026 NKE Drawn Cup Roller Bearing with Closed End
Also Try
HK Series Drawn Cup Needle Bearings
BA & SCE Series
B Series
TLA Series Drawn Cup Needle Bearings
HN Series Drawn Cup Needle Bearings
Buy Now
Product Specification
Brand
NKE
Cage
Sheet steel cage
Inside Dia (Fw)
30mm
Lubrication hole
Without lubrication groove
Needle rows
Single-row bearing
Outside Dia (D)
37mm
Seal
None, open bearing
Temperature range
-30 to +140 °C
Width (C)
26mm
Reference
BK3026
Additional Reference:
10155106
Quick Order Code
BB-497938
Product Description
The BK3026 NKE Drawn Cup Roller Bearing is a precision-engineered single-row needle roller bearing designed for compact and efficient load-bearing applications across various industrial sectors. This robust bearing offers reliable performance with its carefully crafted sheet steel cage and precise dimensional specifications.
Key Features:
- Single-row bearing configuration for reliable radial load support
- Sheet steel cage for enhanced durability and stability
- Open bearing design without seals for versatile application
- Wide operating temperature range from -30°C to +140°C
- Compact dimensions for space-efficient installations
Technical Specifications:
- Brand: NKE
- Inner Diameter: 30mm
- Outer Diameter: 37mm
- Width: 26mm
- Cage Material: Sheet steel
- Lubrication: Without lubrication groove
- Sealing: Open bearing (no seal)
Typical Applications:
- Automotive transmission systems
- Industrial machinery
- Precision mechanical equipment
- Small motion control devices
- Robotics and automation components
Benefits:
- Excellent load-carrying capacity
- Compact and lightweight design
- Wide temperature tolerance
- Suitable for various mechanical assemblies
- Cost-effective solution for precision applications
The BK3026 NKE Drawn Cup Roller Bearing provides engineers and manufacturers with a reliable, versatile bearing solution for applications requiring precise rotational performance in compact spaces.
Others also ordered
