1. Chapter 6 Creating and Documenting Assemblies

2. After completing this chapter, you will be able to perform the following: – Understand the assembly options – Create bottom-up assemblies – Create top-down assemblies – Create subassemblies – Constrain components together using assembly constraints – Edit assembly constraints – Create adaptive parts – Pattern components in an assembly – Check parts in an assembly for interference – Drive constraints – Create a presentation file – Manipulate and edit the Bill of Materials (BOM) – Create individual and automatic balloons – Create and perform edits on a Parts List of an assembly Chapter 6 - Objectives

3. Creating Assemblies New Assembly Files –.IAM Extension New icon – What To Do New – File Menu New icon – Down Arrow

4. Creating Assemblies Assembly Options –Tools tab > Application Options > Assembly tab

5. The Assembly Capacity Meter Number of occurrences in active assembly Number of open files Memory (RAM) used (32 bit operating systems only) Application Option

6. Creating Assemblies Assembly Browser –Part Occurrence –Assembly Constraints –Subassembly Occurrence

7. Creating Assemblies Bottom-Up Approach –Components are created in their individual files –Place Component tool –‘P’ shortcut key

8. Creating Assemblies Occurrence –Copy of existing components Copy/Paste Ctrl Select Multiple Files Place Component Drag & Drop –Any change to original updates all occurrences Save Copy As… to create a copy that is not linked to original

9. Creating Assemblies - Editing Occurrence –Active Component – Available for edit Double-click in the graphics area Double-click file name/icon in the Browser Right-click in the Browser > Edit

10. Open and Edit Components Open or Edit –Access via Browser Graphics window

11. Creating Assemblies Occurrence –Grounded Component The Component will not move –All Degrees Of Freedom are removed –When constraining, components move to a Grounded or constrained component Any number of components can be grounded

12. Assembly Constraints Constraints –Create relationships between components Example - Bolt and a Hole –Degree of Freedom Constraints reduce the number of Degrees of Freedom –6 total (3-translational & 3-rotational) –View tab > Visibility panel > Degrees of Freedom –Component Properties > Occurrence tab

13. Assembly Constraints Constraints –Placing Constraints Constraint tool –Right-click > Constraint –‘C’ shortcut key Place Constraint Dialog

14. Assembly Constraints Constraints –Constraint Types – Assembly tab Mate –Plane, Line, or Point »Assembles two components so that the surface normal on the selected planes are opposite each other »Assembles the edges of lines »Assembles two points together Flush Solution –Aligns two components so the selected planes face the same direction (surface normal point in the same direction)

15. Assembly Constraints Constraints –Constraint Types – Assembly tab Angle –Specify the degrees between the selected planes or use an Explicit Reference Vector

16. Assembly Constraints Constraints –Constraint Types – Assembly tab Tangent –Defines a tangent relationship between planes, cylinders, spheres, cones, and ruled splines –At least one selected face must be a curve –Inside/Outside Solutions

17. Assembly Constraints Constraints –Constraint Types – Assembly tab Insert –Two circular edges –Centerlines are aligned & mate constraint is applied to the planes defined by the circular edges. –5 DOF are removed with an insert constraint

18. Assembly Constraints Constraints – Constraint Types – Motion tab Animation the motion of gears pulleys, rack and pinions, etc. –You can drive one component and cause others to move accordingly Motion constraints are secondary constraints –They do not maintain positional relationships between components Recommended: fully constrain components before applying motion constraints, then suppress the constraints restricting motion –Rotation Define a component that will rotate in relation to another component Specify a ratio for the rotation between the two components Forward & Backward solution types

19. Assembly Constraints Constraints –Constraint Types – Motion tab Rotation-Translation –Define rotation relative to translation of a second component

20. Assembly Constraints Constraints –Constraint Types – Transitional tab Transitional –Specifies a transitional relationship between a cylindrical part face and a contiguous set of faces on another part

21. Assembly Constraints Constraints –Constraint Types – Constraint Set Constrain two UCSs

22. Assembly Constraints Constraints –ALT – drag a part to another part No Place Constraint dialog box Select correct area on the part to apply the constraint M or 1Changes to a mate constraint. Spacebar flips to a flush solution. A or 2Changes to an angle constraint. Spacebar flips angle direction. T or 3Changes to a tangent constraint. Spacebar flips between inside/outside solutions. I or 4Changes to an insert constraint. Spacebar flips insert direction. R or 5Changes to a rotation motion constraint. Spacebar flips the rotation direction. S or 6Changes to a rotation-translation constraint. Spacebar flips the translation direction X or 8Changes to a transitional constraint.

23. Assembly Constraints Moving & Rotating Components –Move Component Tool Drag individual components in any linear direction in the viewing plane Temporarily suppresses assembly constraints on the component until the assembly is updated (constraints are then re-applied) –Rotate Component Tool After selected, the 3D rotate symbol appears Similar to the Move Component tool, Rotate Component temporarily suppresses any assembly constraints applied to the component

24. Assembly Constraints Editing Constraints –Two Methods via the Browser Double-click the constraint name Right-click the constraint name and click Edit, Suppress, or Delete –Edit - opens the Edit Constraint dialog box –Suppress – the assembly constraint is not applied –Delete – deletes the assembly constraint Assembly View –Assembly constraint symbols nested below constrained components Modeling View –Assembly constraints are located in a Constraints folder

25. Find Other Half Find component that constrained is applied to Tooltips –List constraints and components

26. User-Defined Assembly Folders Organize components into folders Unlimited number of folders Add components to new folder Drag components into folders No affect on assembly constraints

27. Isolate Assembly Components Display selected components –Isolate and Edit Constraint Undo Isolate – return visibility of components before isolating

28. Assembly Constraints Conflicts –Alert Box If you try to place or edit an assembly constraint and it cannot be applied, an alert box is displayed explaining the problem. –Conflicting When assembly constraint conflicts with another one, a small yellow icon with an exclamation point is displayed in the Browser –Recover Displays the Design Doctor to walk you through the steps to fix the problem

29. Exercise 6-1 Assembling Parts

30. Designing Parts In Place In-Place Creation –Initial Sketch Creation Face of an existing assembly component Work Plane –Automatically constrain the sketch plane to the selected face or work plane Creates a Flush constraint between the sketch and the selected face or plane

31. Designing Parts In-Place In-Place Creation –After the base feature is created Create additional features based on geometry from another part in the assembly an adaptive work plane is created. The adaptive work plane moves as necessary to reflect changes in the component that it is based upon –The sketch moves with the plane –Features based on the sketch adapt to match its new position

32. Exercise 6-2 Designing Parts in the Assembly Context

33. Assembly Browser Commands Tools –In-Place Activation Double-click a subassembly or component occurrence in the Browser to activate it Right-click > Edit All components that are not active are shaded in the Browser

34. The Assembly Return Tool Return to subassembly Return to top level assembly

35. Assembly Browser Tools –Visibility Control Expand the Browser until the desired component occurrence is visible Right-click > Visibility

36. Adaptivity Definition –Allows the size of a part to be determined by setting up a relationship between the part and another part in the assembly Under-constrained sketches and features can adapt The adaptivity relationship is acquired by applying constraints between an adaptive sketch or feature and another part –The sketch cannot be fully constrained –A part can only be adaptive in one assembly at a time –Only one occurrence of a part can be adaptive – other occurrences reflect the size of the adaptive part –Example Diameter of a pin from the size of a hole or vice-versa

37. Adaptivity Options –Tools tab > Application Options > Assembly tab

38. Adaptivity Example –The rectangular sketch is not dimensioned along its length –The extruded feature is defined as adaptive

39. Adaptivity Example –Parts are placed, constraints applied between the two plates (flush between the faces on the ends of the plates)

40. Exercise 6-3 Creating Adaptive Parts

41. PATTERN COMPONENTS Pattern Components –Rectangular –Circular –Based on Feature Pattern –Suppress Elements –Pattern Assemblies –Replace Components

42. Exercise 6-4 Patterning Components

43. Minimum Distance Command In an assembly measure distances between –Components –Parts –Faces and Edges

44. Analysis Tools Center of Gravity –View tab > Visibility panel > Center of Gravity Displays Gray when the properties are out of date Hover the cursor over the origin of the symbol to display the COG coordinates Measure to

45. Analysis Tools Interference Checking –Analysis tab > Interference Panel > Analyze Interference Define Set #1 – select components that define set 1 Define Set #2 – select components that define set 2

46. Exercise 6-5 Analyzing an Assembly

47. Driving Constraints Drive Constraint tool –Simulate motion Right-click on a constraint in the Browser > Drive Constraint

48. Driving Constraints Drive Constraint tool –Assembly Constraints –Record –Drive Adaptivity –Collision Detection

49. Exercise 6-6 Driving Constraints

50. Presentation Files.IPN Extension –Exploded Views –Hide specific components –Create animations of assembly and disassembly of components –Work Plane Associated with the assembly file –Changes made to the assembly are reflected in the presentation file

51. Presentation Files Presentation tab Create ViewCreates views of the assembly Tweak Components Moves and/or rotates parts in the view Precise View Rotation Rotates the view by a specified angle direction using a dialog box AnimateCreates an animation of the assembly – AVI file can be output

52. Presentation Files Creating Presentation Views –Create a presentation view Create View tool Adds a presentation view to the file and the Browser

53. Presentation Files Creating Presentation Views –Tweaking Components Moves or Rotates components a specified distance or angle Auto Explode –Extends all tweaks the same distance

54. Presentation Files Creating Presentation Views –Tweaking Components Tweak Component Dialog Box –Manual Tweaks

55. Presentation Files Creating Presentation Views –Animation Animate Tool –Controls for playback –Record to AVI or WMV file

56. Presentation Files Creating Presentation Views –Animation Animate Tool > More button –Changing the Animation Sequence –Move Up / Down –Group / Ungroup

57. Exercise 6-7 Creating Presentation Views

58. Creating Drawing Views (Assemblies & Presentations) Base View –Base View tool –IAM and IPN files

59. Creating Drawing Views - BOM Editor Edit item number, quantity, part number, description, vendor, etc. The BOM is also considered associative to parts and assemblies Edit like a spreadsheet Highlight components

60. EXERCISE 6-8 Editing the BOM

61. Creating Drawing Views (Assemblies & Presentations) Balloons –Balloon tools Balloon - Single Components Auto balloon – Selected Components

62. Creating Drawing Views (Assemblies & Presentations) Balloons –Editing Right-click a balloon > Edit Balloon Edit Balloon dialog box –Balloon Type –Balloon Value

63. Creating Drawing Views (Assemblies & Presentations) Parts List –Parts List tool Select a view Enter options in the Parts List dialog Click OK

64. Creating Drawing Views (Assemblies & Presentations) Bill of Materials dialog box Edit the assembly BOM All changes are saved in the assembly and corresponding component files

65. Creating Drawing Views (Assemblies & Presentations) Parts Lists –Editing Right-click and click Edit Parts List

66. Exercise 6-9 Creating Assembly Drawings

67. Applying Your Skills Skill Exercise 6-1Skill Exercise 6-2

68. Checking Your Skills 1.True_ False_ The only way to create an assembly is by placing existing parts into it. 2.True_ False_ Explain top-down and bottom-up assembly techniques. 3.True_ False_ An occurrence is a copy of an existing component. 4.True_ False_ Only one component can be grounded in an assembly. 5.True_ False_ Autodesk Inventor does not require components in an assembly to be fully constrained. 6.True_ False_ A sketch must be fully constrained to adapt. 7.True_ False_ What is the purpose of creating a presentation file? 8.True_ False_ A presentation file is associated with the assembly file on which it is based. 9.True_ False_ When creating drawing views from an assembly, you can create views from multiple presentation views or design views. 10.What is the purpose of the Capacity Meter, and what information does it display?