My Account   01603 720713  

Bearings Linear Bearings & Shaft Linear Bearing Units Closed Linear Bearing Units
Quick Code: BB-509093

KGBS20-PP-AS INA Linear Ball Bearing Unit

KGBS20-PP-AS INA Linear Ball Bearing Unit
Also Try
£87.16 exc VAT (£104.59 inc VAT) Show Bulk Discounts (5+)
5+: £82.80
10+: £80.19
25+: £77.57
50+: £74.96
In Stock   Free Delivery over £100   Next Day Unavailable
Buy Now
Product Specification
Angle compensation
Without misalignment compensation
Brand
INA
Inner dimension
20mm
Lubrication & Maintenance
Relubricatable
Material
Standard bearing steel
Operating clearance
Non-adjustable
Seal
Sealed on all sides
Series
Solid series
Temperature range
-30 to +80 deg C
Version
Closed
Reference
KGBS20-PP-AS
Additional Reference:
10099827
Quick Order Code
BB-509093
Product Description

The KGBS20-PP-AS INA Linear Ball Bearing Unit is a precision closed linear bearing unit designed for smooth, reliable linear motion in demanding applications. Part of INA's solid series, this 20mm inner dimension unit delivers consistent performance across a wide range of industrial environments.

Key Specifications:

  • Brand: INA
  • Inner Dimension: 20mm
  • Series: Solid series
  • Version: Closed design
  • Material: Standard bearing steel for durability and reliability
  • Seal: Sealed on all sides for protection against contamination
  • Operating Clearance: Non-adjustable for consistent performance
  • Angle Compensation: Without misalignment compensation
  • Lubrication: Relubricatable for extended service life
  • Temperature Range: -30°C to +80°C

Applications:

The KGBS20-PP-AS is ideal for use in machinery, automation equipment, and industrial systems requiring precision linear motion. Its sealed design and relubricatable construction make it suitable for both clean and moderately harsh environments, while the compact 20mm bore accommodates space-constrained installations.

This unit combines INA's engineering excellence with practical features that ensure minimal maintenance while maximizing operational efficiency across diverse temperature conditions.