Bearings
Needle Roller Bearings
Drawn Cup
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
Qty:
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.
