Top>Bearings>Oiles Bearings | Self-lubricating Bearings>Design support tools>Fitting tolerance design

Fitting Tolerance Design

Capable of calculating a fitting for fixing the bearings by press-fitting in a simple manner.

Fitting Design

This calculation form is the tool that makes it easier to compute interference and clearance when designing fittings, which may be relatively confusing.

Interference
Difference between bearing's outside diameter and housing. Have a big influence on the manner of fixing bearings.
Clearance
Difference between bearing's internal diameter and mating shaft diameter. Have a big influence on oscillating motion of bearings.

Example

Name of Measure
Example of Input

Instruction

  • Please enter numbers with half-width font.
  • Please add “-” before numbers when indicating minus values.

Input Form

Enter values in metric and half-size character in the terms of calculation in the Input form.

Terms of Calculation Diameter(mm) Upper Limit Value(mm) Lower Limit Value(mm)
Internal diameter of bearing
Outside diameter of bearing
Housing bore diameter
Mating shaft diameter

Result

Result

Input Form Upper Limit Value(mm) Lower Limit Value(mm) Average Value(mm)
Interference (between bearing and housing)
Bearing internal diameter after fitting
Clearance (Gap between bearing and shaft)
Note 1
The general designs of the interference for OILES bearings are transition fits and interference fits.
Note 2
Internal diameter of bearing shrinks in case of interference fits, which fixes bearing in the housing by interference.
Note 3
Please set values of clearance not to be less than 0 .

In fitting design of OILES Bearings, the values of interference and clearance vary depending on bearing materials, bearing structure, lubrication state, environment condition, and modes of operation.

When you want to design more detailed fittings or set dimensions based on the predetermined interference and clearance, inquire to our office.

Contact Us

To make an inquiry about or request for a catalog of OILES CORPORATION's bearings, click here!