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For instance, if you were to sketch four lines to define a rectangle, you would expect two dimensions to be applied, defining the length and width. But you would also need to use 2D sketch constraints to constrain the lines so that they would stay perpendicular and equal to one another if one of the dimensions were to change. Without the sketch constraints, a dimensional edit to make the rectangle longer might result in a trapezoid or a parallelogram rather than the longer rectangle you anticipated. By fully constraining a sketch, you can anticipate the way in which it will update. Inventor helps you with this concept by automatically applying many sketch constraints and by reporting when a sketch is fully constrained. This will be covered in more detail in here. Parametric design is the process of creating parameter-based sketches in order to define parameter based features, which are used to construct a parameter-driven part. Once parts are built, they are then used in assemblies, which also employ parameters to define the offsets and mating relationships between assembled parts. Designing with the use of parameters allows you to make edits quickly and lends itself to creating product configurations, where parameter values are changed to create variations of a basic design. Of course, as with building anything, there are general rules and best practices to be learned and followed to prevent your work from “falling apart.” For instance, what if the pivot link used in the previous examples were to incur a design change that made one leg of the link longer? How would the holes be affected? Should they stay in the same place? Or should they stay at some defined distance from one end or the other? Anticipating changes to the model is a large part of being successful with Inventor. Imagine, for instance, that a simple design change required that the pivot link become 50 millimeters longer on one leg. This should be a simple revision that requires you only to locate the dimension controlling that leg length and change the parameter value. Unfortunately, if you did not follow the best-practices guidelines when creating the part originally, the change in the length might displace the secondary features such as holes and material cuts and require you to stop and fix each of those as well. This is one of the most frustrating parts of learning Inventor for any new user who has not taken the time to learn or follow the known best practices of parametric modeling. Fortunately for you, within the pages of this book you will learn how to create models that are easy to update and do not “fall apart” during design changes.
The company is specialized in designing commercial and residential buildings. It uses ABS to do the entire building design. Your company uses Autodesk Inventor and specializes in electrical and mechanical designs, and you have to supply the air conditioner for the building designed by ABC Construction. To minimize the risk in losing information and future rework, you meet with the company Construction to ensure the interfaces between the motor and the building are all agreed upon. ABC Construction does not care about any internal details of the air conditioner; however, the company is extremely sensitive to any changes in the interfaces. The plan is to design the model and interfaces in Inventor and send the design to business Construction. In this case study, we will cover the steps necessary to address this workflow. The AEC exchange workflow is achieved with the following three steps.
Model Simplification You start with a part or assembly in Autodesk Inventor. You use Autodesk Inventor’s skeletal modeling and/or LOD representation technology to do model simplification. Model Authoring The AEC exchange environment allows you to create connector objects such as cables, conduits, ducts, and pipes on the simplified model. These connector objects define the interfaces. Interfaces are the connection points between Inventor and the AEC model. Autodesk Inventor allows you to create, edit, and delete connector objects. Model Publishing A part in the AEC exchange is the basic unit, that is, a specific size of the component placed within a part family. The part has instance-specific properties associated with it, for example, a name and geometric representation. You can publish a family within an ABS catalog. This process creates a family of parts. You can use the ABS Catalog Editor tool to create and manage the catalogs in Autodesk Inventor. A catalog helps you reuse components by creating chapters or families. In the AEC exchange panel bar, you can use the Save AS DWG Solids command to save an active Inventor model as a dumb solid (no connection or multiviews). You can create a DWG file from the 3D solid. The 3D DWG can be directly manipulated in any AutoCAD version that supports 3D DWG. You can also export to AutoCAD architecture, Revit-based software, and AutoCAD.