Bearings
Housed & Flanged Bearings
RHP Housed Bearings
RHP NP & MP Pillow Blocks
Quick Code: BB-134385
SL30DEC RHP 30mm Pillow Block Bearing (Eccentric Locking Collar Insert)
The SL30DEC RHP 30mm Pillow Block Bearing is a robust and versatile industrial bearing solution designed for reliable shaft support across multiple industrial applications. This high-quality NP normal duty pillow block bearing offers precision engineering and practical functionality for machinery requiring dependable performance.
Key Features:
- Normal duty pillow/plummer bearing unit with fully sealed bearing insert
- Durable cast iron housing with integrated grease nipple for easy re-lubrication
- Two precision grub screws for secure shaft mounting
- Removable insert design allows for convenient replacement
- Eccentric locking collar insert for enhanced installation flexibility
Technical Specifications:
- Bore Size: 30mm
- Bolt Hole Centres: 109/130mm
- Housing Height: 79.5mm
- Housing Width: 41mm
- Shaft Height: 39.67mm
- Total Length: 161.5mm
Typical Applications:
- Conveyor systems
- Agricultural machinery
- Material handling equipment
- Manufacturing production lines
- Light to medium-duty industrial machinery
- Food processing equipment
- Packaging machinery
- Small equipment and machinery
The removable insert design ensures cost-effective maintenance, allowing simple replacement without removing the entire housing. The eccentric locking collar provides additional security and precise alignment during installation. Its robust construction and precision engineering make it an ideal solution for engineers and maintenance professionals seeking reliable shaft support in various industrial environments.
Manufactured by RHP, a leading global bearing manufacturer, this pillow block bearing offers exceptional durability and performance across a wide range of industrial applications. The fully sealed bearing insert protects against contamination, while the integrated grease nipple facilitates easy re-lubrication, ensuring extended bearing life and optimal performance.
