1. Chapter 9 Advanced Assembly Modeling Techniques

2. After completing this chapter, you will be able to perform the following: –Create design view representations –Create flexible assemblies –Create positional representations –Create overlay drawing views –Improve assembly capacity and performance –Detect contact in assemblies –Mirror an assembly Chapter 9 - Objectives

3. After completing this chapter, you will be able to perform the following: –Copy an assembly –Create assembly work features –Create assembly features –Create Skeletal Models –Use the Frame Generator –Locate tools related to the Content Center and Design Accelerator Chapter 9 – Objectives - Continued

4. Design View Representations Save configurations that show the assembly in different states, stores the following –Component visibility (visible or not visible) –Component selection status (enabled or not enabled) –Color settings and style characteristics applied in the assembly –Zoom magnification –Viewing angle

5. Create New Design View Representation Make Active Rename Lock Public vs. Private Design Views Design View Representations

6. New Design View Representation Make Active – check mark Lock – view changes are not reflected in locked Design View Representation Design View Representations

7. Set Design View when placing an assembly file –Options button –Select Design View Design View Representations

8. Same as a Public Design View Representation buts creates an IDV file Should accompany assembly file Private Design View Representations

9. Select Representation from list Associative – Yes / No Drawings From Design View Representations

10. Flexible Assemblies Set Flexible property to a subassembly to allow movement independent from other occurrences of the subassembly

11. Flexible Assemblies Right-click on the subassembly in browser or graphics window and click Flexible from the menu.

12. Positional Representations Create a motion study of an assembly model –Based on positional representation

13. Override Settings for an assembly constraint –Rename –Override Positional Representations

14. Override Settings for an assembly constraint –Suppression –Value Positional Representations

15. Edit Positional Representation –Panel Bar –Spreadsheet

16. Create Base Views based on Positional Representation Positional Representations

17. Creating Overlay Views Overlay views document positional representations of an assembly in a single view.

18. Exercise 9-1 Positional Representations

19. Capacity and Performance Improve the performance when creating drawing files. Effect the preview of the view and increase performance by reducing what is displayed prior to view creation –Application Options > Drawing tab –Show Preview As All Components, Partial, and Bounding Box Section View Preview as Uncut Memory Saving Mode

20. Capacity and Performance Improve the performance when creating drawing files. Effect the preview of the view and increase performance by reducing what is displayed prior to view creation –Application Options > Drawing tab –Memory Saving Mode –Shaded Views Always or Offline Only Image Fidelity –Preview Option

21. Capacity Meter Capacity meter shows –Number of the left displays the number of occurrences in the active file –Number on the right displays the number of files in the session. –A memory graph or meter displays the amounts of system RAM and amount of RAM that is free – Options - Right-click a toolbar, select Customize and then click the Toolbars tab –Physical Memory option is the only option available in Vista

22. Levels of Detail Representations Improve capacity and performance in modeling and drawing environments –Suppress components –Right-click on component Browser Graphics Window

23. Levels of Detail Representations In assembly file –Expand Representations folder –Select required Level of Detail Open existing assembly –Click Options –Select required Level of Detail

24. Levels of Detail Representations Creating a drawing view of an assembly select a Level of Detail Representation to be used from the drawing view dialog box.

25. Assembly Substitution - Level of Detail Representation Remove detail from a part or an assembly –Derive Assembly –Select Part File

26. Assembly Substitution - Level of Detail Representation Derive Assembly –Create a New Substitute with the Derive Assembly option –Derive a Subassembly with desired options

27. Assembly Substitution - Level of Detail Representation Select Part File –Create a part with same orientation –Create a New Substitute with the Select Part File option

28. Contact Detection Solver Determines how assembled components behave when a mechanical motion is applied Document Settings - Activate Contact Solver

29. Contact Detection Solver Add components to set –Browser –Graphics Window Under constrained components

30. Contact Detection Solver Driven constraint –Contact will drive under constrained components that are in the Contact Set

31. Mirroring Components in an Assembly Mirror assembly components or an entire assembly in the current design file In an assembly click the Mirror Components tool

32. Select a plane to mirror components about Mirroring Components in an Assembly

33. Select components to mirror and select operation for each component Mirroring Components in an Assembly

34. More area of the dialog box –Reuse Standard Content and Factory Parts –Preview Components Mirrored Reuse Standard Content Mirroring Components in an Assembly

35. File Names –Prefix –Suffix –Naming Scheme Mirroring Components in an Assembly

36. Copying Components in an Assembly Copy assembly components or an entire assembly in the current design file –Copy Components tool –Select components in graphics screen or Browser

37. Select components to copy and select operation for each component Copying Components in an Assembly

38. File Names –Naming Scheme Prefix Suffix Copying Components in an Assembly

39. Exercise 9-2 Mirroring Assembly Components

40. Assembly Work Features Create work planes and axes between parts in an assembly by selecting edges or points on parts. These work features remain tied to each associated part and adjust accordingly as the assembly is modified

41. Assembly features are features that are defined in an assembly Only affect a part when the part is viewed in the context of the assembly Assembly features only remove material Assembly Work Features

42. In an assembly sketch on a part’s: –Face –A part’s work plane –An assembly work plane Assembly Work Features

43. Assembly Feature Tools Assembly features exist only at the assembly level The assembly features do not affect the individual part files

44. Assembly Feature Removing and Adding Participants

45. Exercise 9-3 Creating Assembly Features

46. Skeletal Modeling Source –.IPT file Create a new IPT into an Assembly –Derive Component –Create geometry based on derive part

47. Exercise 9-4 Creating a Skeletal Model

48. Frame Generator Create frame structures –Skeleton part (modeling)

49. Frame Generator Steps to create frame 1.Create skeleton part that consists of a single sketch 2.Place members using the edges of the skeleton part 3.Members inserted from the frame generator 4.Add end treatments; miters and had holes etc.

50. Frame Generator Steps to Publish a Standard Part 1.Create a part file based on the required standard 2.Sketch, constrain, and dimension a sketch as needed 3.Create a work plane with an offset of zero based on the origin plane that the sketch was drawn on. 4.Create a work plane that is offset from the work plane created in step 3 5.Create a parameter named Base_Length 6.Exrude sketch between work planes with From To option and use Base_Length parameter for distance 7.Publish part

51. Frame Generator Steps to Publish a iPart 1.Sketch, constrain, and dimension a sketch as needed 2.Create a work plane with an offset of zero based on the origin plane that the sketch was drawn on. 3.Create a work plane that is offset from the work plane created in step 2 4.Create a parameter named Base_Length 5.Exrude sketch between work planes with From To option and use Base_Length parameter for distance 6.Create a iPart file based on the required standard 7.Publish part

52. Exercise 9-5 Using the Frame Generator

53. Content Center Library of standard components Place components while in an assembly

54. Content Center Publish feature to Content Center Publish components to Content Center

55. Design Accelerator Create complex parts and features based on engineering data such as ratio, torque, power, and material properties. The Design Accelerator consists of: –Component generators –Mechanical calculators –Engineer’s Handbook

56. Applying Your Skills Skill Exercise 9-1

57. Project Exercise – Chapter 9 Design Automation Techniques In Appendix A

58. Checking Your Skills 1.True_ False_ A Design View Representation can control the display style, such as shaded or wireframe, of an assembly model. 2.Which of the following are types of design view representations? 1.Dynamic 2.Public 3.Private 4.Static 3.What is the purpose of a positional representation? 4.When a new positional representation is added to the browser, how many are created by default? 1.1 2.2 3.3 4.4 5.When would you want to make an assembly have the Flexible property? 6.True_ False_ Assemblies can only be made flexible when used in another assembly as a subassembly. 7.When mirroring an assembly component, which icon would you use to determine that the component is being mirrored? 8.What is the purpose of the Capacity Meter, and what information does it display? 9.True_ False_ Creating features in the context of an assembly will update the individual parts that make up the assembly automatically.