1. PARAMETRIC SOLID MODELING AND DESIGN ENDG 105 Class 8.1
Part 1: Modeling Complex Objects
Part 2: Creation of Drawings
2. Part Modeling�Review - 3D Operations� Sophisticated methods exist to create 3D objects from 2D sketches, but most are combinations of four basic techniques:
4. Part Modeling�Revolutions A revolved feature is created by rotating a sketch around an axis.
Revolving a sketch requires the user to indicate the axis of revolution and the number of degrees that the sketch will revolve.
The axis of revolution can be a separate line outside the sketch, or an edge that is part of the sketch to be revolved
5. Part Modeling�Revolutions
6. Part Modeling�Secondary Features Not every object can be created with a single sketch and a basic extrude, revolve, sweep, or loft operation.
Multiple sketches and solids need to be combined to create more complex objects.
7. Part Modeling�Secondary Features The first step required to model a complex object is to recognize the basic form that best represents the overall shape of the object.
This basic shape is called the base feature and it is created using a single extrude or revolve.
Subsequent features are combined with the base feature to create the final object.
8. Part Modeling�Secondary Features
9. Part Modeling�Secondary Features Solids are combined using Boolean operations:
Union ( ? ): addition of two overlapping solids.
Difference ( - ): it removes the overlapping volume between two solids from the one listed first in the operation. Also known as cut.
Intersection (n ): the intersection between two solid parts is a solid that keeps only the volume of overlap (counted once) between the two.
10. Part Modeling�Secondary Features Example (Shaft) Lets build the shaft shown on this slide.
Building this shaft by extrusion, the initial feature will be a circle centered on the origin. Assume a diameter of 1.00 and a length of 1.00.
Place your initial sketch on the XZ plane.
Use view cube to go to top view
Draw and fully define the sketch, then extrude it to create the Base Feature.
Note that if you correctly placed the center of the circle on the origin, it will only require one dimension to fully define the circle.
11. Part Modeling�Secondary Features Example (Shaft) With a base feature defined, additional features can be added.
To place a second sketch, you must define a plane on which to place the sketch. This can be either one of the standard planes or a planar surface of the part.
In this case, you want to use the upper surface of the cylinder as your sketch plane. This will anchor the sketch to that surface, so that if the size of the initial cylinder is modified, this sketch will move accordingly.
THAT IS PARAMETRIC MODELING..
12. Part Modeling�Secondary Features Example (Shaft) Left Click on the top surface and it will highlight.
Right-click and select New Sketch.
The grid appears on the top surface with a dot in the center of the top surface.
This is the origin for this sketch.
Draw a circle, centered at the origin, just smaller than the existing face.
Dimension it to be diameter .75
Select finish sketch
13. Part Modeling�Secondary Features Example (Shaft) Extruding a secondary feature is basically identical to extruding the base feature.
Select the Extrude icon.
Select the profile (somewhere inside the .75 Diameter circle)
The depth will default to the previous depth.
Change the depth to 2.50
14. Part Modeling�Secondary Features Example (Shaft) To add the final feature the keyseat (the slot down the side) one more sketch needs to be added to the part.
Select the very top of the shaft and start a new sketch.
Dimension it as shown on the next slide.
Note the .2813 should be the diameter of the shaft/2 - 3/32
Add a tangent relationship between the green side and the circle to fully define the sketch.
15. Part Modeling�Secondary Features Example (Shaft)
16. Part Modeling�Secondary Features - Example You used the Boolean operation Union when you added the second cylinder to the first.
To create the slot you will use the Boolean operation subtract.
Select the Extrude icon.
Select the middle button to cut
Adjust the distance to 2.5
Select the profile
(the rectangle for keyseat)(slot)
17. Part Modeling�Secondary Features Example (Shaft) This completes the shaft as shown to the right.
Save the shaft to your flash drive or user folder
The next step is to draw the pulley which would go on the shaft.
18. Part Modeling�Secondary Features Example (Pulley) How would you create the pulley?
19. Part Modeling�Secondary Features Example (Pulley) The base feature for the guide wheel shown on the previous slide will be created by revolving a sketch of the shape of the wheel. (similar to a half section)
Begin a new part and sketch the following base sketch.
There are a few sort of tricky methods to get the sketch to be fully constrained.
20. Part Modeling�Secondary Features Example (Pulley)
21. Using Centerlines and Construction lines In addition to the normal lines used to create a profile in sketch mode, there are two other types of lines that can be created for use in a sketch.
Construction lines
These are lines that is used in a sketch to reference a dimension or sketch entity to, but are not needed to create the closed sketch profile
Construction lines can not be used to create a closed profile of you sketch
Centerlines
These are used to reference an axis off of the profiled sketch edge that the feature will be rotated around
22. Using Centerlines and Construction lines As we discussed earlier, different line types can be drawn.
To create a centerline
Draw the given line
Select the line
Select the line-type from the format area of ribbon
Select Centerline
To create a construction line
Follow the same steps as above
Select Construction
Note: Once the construction line type has been selected, all further lines drawn will be construction lines. To avoid this
De-select the given construction line
De-select button in the format area
23. Dimensioning out a sketch Whenever a part is dimensioned, if a certain feature is dimensioned to a centerline, then it will be shown as a diameter dimension
In addition, dimensions can be referenced to a whole line or arc feature or to the endpoints of a line feature
24. Revolve the Sketch
25. Part Modeling�Secondary Features Example (Pulley) Add a matching keyway on the Guide Wheel to match the keyway in the shaft.
The results should look like the figure shown to the right.
Save this file.
26. Drawing Creation�Selection of the Template Now that we have created our solid, we need to create a drawing of it.
Because we have already constrained and dimensioned the object, this step is considerably easier than in AutoCAD.
Go to new and select quick launch
Browse to 105 Library Raborn folder and select ASSEMTITLE.idw
27. Orthographic Drawing In the .idw file, click on Base View and follow directions in box. First view you insert is always Base View.(Place Views Tab)
28. Insert base view into new sheet
29. Add views
30. Project Other Views
31. Projecting Isometric views
32. Drawing Creation�Creation of Views Create a layout of views similar to the one shown below.
33. Edit View To show the isometric view as it would appear in an .ipt file (shaded),
Right click on the view
Select Edit View
Check desired look.
If your view doesnt have hidden lines, you can add here
34. Centerlines (Annotate Tab) To add center marks use the Center Mark Command
To add centerlines use one of the Centerline commands
35. Centerlines To adjust centerlines you can grab grips and adjust
Right-click and edit
You can also right-click and edit the center mark style(this is a global edit)
36. Drawing Creation�Complete Drawing
37. To add text to titleblock Use Text command (Annotate Tab)
Pick text location text editor appears
Type in text
Move if necessary to line up with existing text
38. Turn in pulley drawing for in-class assignment 8.1(save as to make it your drawing)
39. Individual Homework Assignment 8.1 Make solid models of the Problem 2 on page 80, and Problem 4 page 81 of the textbook.
Plot orthographic views of each.(use the ASSEMTITLE.idw template)
No dimensions
Due one week from today.
