1. Engineering Graphics IV Prof. Jon Southen October 17, 2008

2. Engineering Graphics IV Section Views Auxiliary Views Dimensioning Tolerancing Bertoline-Wiebe Chapter 8 Bertoline-Wiebe Chapter 9

3. Section Views

4. Clearly show interior features Avoid confusing hidden lines

5. Cutting Planes Cutting planes define section views Lines of sight are perpendicular to the cutting plane Section views are parallel to cutting plane and perpendicular to lines of sight Objects shown in true size Cut surface is cross- hatched

8. Cutting Plane Lines Show where cutting plane passes through object Represent edge view of cutting plane Appear in views adjacent to section view

9. Full Section

10. Half Section

11. Offset Section

12. Broken Out Section

13. Sketch Section View

14. Solution E-drawing

15. Sketch Section View

16. Solution

17. Cross Hatching (Section Lines) General symbol (cast iron) used for most purposes and for sketching Section lines are normally drawn at 45° from the horizontal but can be changed for adjacent parts in the same section Normally section lines are not shown on thin parts Components like bolts are usually not sectioned

18. A)Cast Iron/ B) Sound C) Thermal General Insulation Insulation D) Water E) Steel F) Titanium/ Refractory Material G) Concrete H) Wood (across/along grain)

19. Auxiliary Views

20. What is an Auxiliary view? It is an extra view of an object It is used when the 6 principal views don’t describe an object (or some of its features) clearly or completely - in particular inclined features It is used to show the true lengths of lines It is used to show the true size of planes

21. Why use an Auxiliary View? None of these views shows the angled face in true size and shape.

22. An extra view is needed.

23. Constructing an auxiliary view view It is an orthographic projection Lines of sight are perpendicular to the plane of the feature (or object) The projection plane is perpendicular to the lines of sight and parallel to the plane of the feature

24. Auxiliary Views

25. - Dimension on true size and shape views only - Use Auxiliary views if necessary NO YES

26. Dimensioning

27. Multi-view Drawing Specify: Size of features Location of features Details and notes

28. Dimensioning Dimensioning is necessary to specify: Size of features Location of features Details and notes for construction or manufacture Dimensioning is important in the communication of the design, from the designer to the manufacturer/contractor to the quality control inspection

29. Dimensioned Multi-View Drawing Units must be stated Typically inches or millimeters Mixed dimensions sometimes used

30. Terminology and Standards Leave gap Note arrow direction Limits indicate tolerance

31. Terminology and Standards Use diameter for circles, radius for arcs Show extra dimensions as reference only Plus/minus indicates tolerance

32. Good Dimensioning Practices

35. Show all necessary views Bottom view shows important features Make sure center lines are shown in all views!

36. Make sure views are aligned NO YES

37. Don’t dimension hidden lines NO YES Dimension visible lines if possible

38. Dimension to centrelines of cylindrical features and holes NO YES Remember to show centrelines!

39. Dimension the most descriptive view

40. Don’t over or under- dimension Show necessary dimensions exactly once All dimensions can be derived from given dimensions Don’t show the same dimensions different ways

41. Don’t over-dimension NO YES

42. Don’t crowd dimensions NO YES

43. Extension lines should not cross dimension lines NO YES

44. - Dimension on true size and shape views only - Use Auxiliary views if necessary NOYES

45. Add Dimensions

46. Solution More than one solution is possible

47. Add Dimensions

48. Solution

49. Add Dimensions

50. Solution