AutoCAD has supported 3D parametric constraints since AutoCAD 2010, but except for 3D power users, most AutoCAD drafters don’t take advantage of this dynamic modeling environment and the accuracy and information it can bring to your drawings. Here are eight AutoCAD tips for parametric modeling.
Tip 1. Cadalyst and Autodesk blogger Lynn Allen explains the basics of parametric constraint tools and how to use geometric constraints such as parallel and perpendicular lines in AutoCAD. You also learn about the common parametric battle of “who changes whom.”
Tip 2. AutoCAD expert David Cohn takes the constraint talk a little further using tangents, perpendicular lines, parallel lines, concentric circles and arcs, and horizontal constraints on the same objects. He also explains the Autoconstrain tool to assign a number of constraints in one pass. As each constraint is applied, AutoCAD shows an icon in a constraint bar adjacent to the object that gets highlighted when you hover over it. Dimensional constraints and setting up formulas for them are discussed as well.
Tip 3. Lynn Allen takes dimensional constraints even further in the Dimensions tab and shows how using dimensions can make your drawing life a lot easier. Using dimensions can change the length of a line, change relationships between lines, and create new dimensional relationships.
Tip 4. Now that we’re experts on dimensional constraints, AutoCADExchange is going to introduce us to the world of inferred constraints. No longer will you be drawing first and implying constraints second. Inferred constraints work with you as you draw and apply themselves while making sure your drawing is set up properly.
Tip 5. AutoCADExchange explains another way to modify the values of geometric constraint, other than double-clicking on the value itself, using the Parameters Manager in the Parametric ribbon. This gives you a visual of all the parameters and allows you to edit them not in the drawing itself, but in the Parameters Manager. The geometry in the drawing is adjusted accordingly based on changes made in the manager.
Tip 6. If you receive a drawing that has conventional dimensions, you can still convert them to parametric constraints. AutoCADExchange explains how using the Convert command in the Dimensional Tools ribbon allows you to change any line, arc, or circle into a dimensionally constrained one. You can access these new parameters from the Parameters menu.
Tip 7. All of the dimensions we’ve discussed so far have been “dynamic” dimension constraints, meaning that we’re mainly concerned with how our drawing functions, what its parametric relationships are, and how they work. We haven’t really considered annotational dimensions that will show up on a drawing, what its cosmetic look is, and whether a construction document be made from the drawing. In the Properties tab, switch your drawing to Annotational, and you’ll immediately notice a different look. See more from AutoCADExchange.
Tip 8. Now that you can create dimensional constraints, you can use them to speed up your AutoCAD drafting by using dynamic blocks, which are the same as regular AutoCAD blocks but have parameters and actions added to them. These can be reused for common drawing elements such as doors, walls, and plumbing fixtures. Dynamic blocks are great to use in AutoCAD if you’re also a Revit user because Revit’s tools are entirely parametric and based on dynamic blocks. Using 3D in AutoCAD effectively prepares a drafter to exist in the entirely 3D world of Revit, and some dynamic blocks can even work in both programs. Learn more about dynamic blocks from AutoCAD guru Thomas Russell.
For more AutoCAD tips, check out 7 AutoCAD Tips and Tricks Using Dynamic UCS.