SDC PUBLICATIONS © 2012 Chapter 8 Constructive Solid Geometry Concepts Learning Objectives:  Understand Constructive Solid Geometry Concepts  Create.

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Presentation transcript:

SDC PUBLICATIONS © 2012 Chapter 8 Constructive Solid Geometry Concepts Learning Objectives:  Understand Constructive Solid Geometry Concepts  Create a Binary Tree  Understand the Basic Boolean Operations  Setup GRID and SNAP Intervals  Understand the Importance of Order of Features  Create Placed Features  Use the Different Extrusion Options

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Introduction In the 1980s, one of the main advancements in solid modeling was the development of the Constructive Solid Geometry (CSG) method. CSG describes the solid model as combinations of basic three-dimensional shapes (primitive solids). The basic primitive solid set typically includes: Rectangular-prism (Block), Cylinder, Cone, Sphere, and Torus (Tube). Two solid objects can be combined into one object in various ways using operations known as Boolean operations. There are three basic Boolean operations: JOIN (Union), CUT (Difference), and INTERSECT. The JOIN operation combines the two volumes included in the different solids into a single solid. The CUT operation subtracts the volume of one solid object from the other solid object. The INTERSECT operation keeps only the volume common to both solid objects. The CSG method is also known as the Machinist's Approach, as the method is parallel to machine shop practices.

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Binary Tree The CSG is also referred to as the method used to store a solid model in the database. The resulting solid can be easily represented by what is called a binary tree. In a binary tree, the terminal branches (leaves) are the various primitives that are linked together to make the final solid object (the root). The binary tree is an effective way to keep track of the history of the resulting solid. By keeping track of the history, the solid model can be re- built by re-linking through the binary tree.

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 The Locator Design

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Modeling Strategy

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Base Feature In parametric modeling, the first solid feature is called the base feature, which usually is the primary shape of the model. Depending upon the design intent, additional features are added to the base feature. Some of the considerations involved in selecting the base feature are:  Design intent – Determine the functionality of the design; identify the feature that is central to the design.  Order of features – Choose the feature that is the logical base in terms of the order of features in the design.  Ease of making modifications – Select a base feature that is more stable and is less likely to be changed.

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Second Solid Feature

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Third Solid Feature CSG Cut

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Creating a PLACED FEATURE In Autodesk Inventor, there are two types of geometric features: placed features and sketched features. The last cut feature we created is a sketched feature, where we created a rough sketch and performed an extrusion operation. We can also create a hole feature, which is a placed feature. A placed feature is a feature that does not need a sketch and can be created automatically. Holes, fillets, chamfers, and shells are all placed features.

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Fourth Solid Feature

Tools For Design: AutoCAD® & Autodesk Inventor SDC PUBLICATIONS © 2012 Fifth Solid Feature