1 / 21

Tolerance

Geometric Tolerances and Dimensioning. Tolerance. Why Geometric Tolerancing and Dimensioning. To ensure interchangeability of mating parts during assembly To eliminate controversy and guesswork when drawing is interpreted

jesse-levine
Télécharger la présentation

Tolerance

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Geometric Tolerances and Dimensioning Tolerance

  2. Why Geometric Tolerancing and Dimensioning • To ensure interchangeability of mating parts during assembly • To eliminate controversy and guesswork when drawing is interpreted • To ensure the drawing reflects the form and function requirements of the manufactured parts

  3. Tolerances are used to control the variation that exist on all manufactured parts. • Tolerance dimensions control the amount of variation on each part of an assembly. • The more accuracy needed in the machined part, the higher the manufacturing cost

  4. Limit Dimensions • Limits: The lower and upper allowable sizes are referred to as the limit dimensions • Tolerance is : a. Upper limits: Larger value b. Lower limits: Smallest value

  5. Limit Dimensions

  6. Tolerance Representation: Tolerance can be expressed in several ways: 1. A general tolerance note in the title block

  7. 2.Direct limits, or as tolerance values applied directly to a dimension

  8. 3. Geometric tolerance

  9. FIT TYPE • If one part is to be inserted into or mated with another part, The type of fit can be determined by the following: • The loosest fit is the difference between the smallest feature A and the largest feature B. • The tightest fit is the difference between the largest feature A and the smallest feature B

  10. Mating Parts • Mating parts are parts that fit together with a reasonably high degree of accuracy.

  11. Terminology of Tolerancing • When the shaft and hole are assembled ,the extreme conditions are the tightest and the loosest fit

  12. Methods of noting tolerance • TOLERANCE, UNILATERAL - A tolerance in which variation is permitted in one direction from the specified dimension.

  13. TOLERANCE, BILA TERAL - A tolerance in which variation is permitted in both directions from the specified dimension

  14. Fit types A.Allowance. • Clearance fit • Interference fit • Transition fit E. Line fit

  15. Clearance fit: Is the fit that gives clearance between two assembled mating parts. Allowance fit: The allowance is the tightest fit between two mating part.

  16. . Interference fit: Is the fit that leads to interference between two assembled parts.

  17. Transition fit: is a fit between two parts that can result in either interference or clearance.

  18. Line fit:is a fit that can result in contact of surfaces between two parts or clearance.

  19. Chain Dimensions • Parts are dimensioned to locate surfaces or geometric features by chain of dimensions

  20. With each measurement based on preceding one, the tolerances accumulate

  21. Datum Plane The accumulation of tolerances can be reduced by measuring from a single plane called datum plan

More Related