Get Smart with Inventor Part Modelling

By mickdpi

Inventor Part Modelling

Did you create a sweep with Autodesk Inventor today?

It’s a trick question (I know you did) but you may not have used the sweep command to do it… I’ll explain later.

In ‘Get Smart with Inventor Part Modelling’ we will find out how Inventor generates shapes for us, to gain a better understanding of how we can achieve the geometry we want.

If you have learned the basic Inventor 3D modeling commands and you are ready to create more complex part models, this article will help!

 

Introducing the Autodesk Shape Manager (ASM)

To generate 3D shapes, Autodesk Inventor calls on the Autodesk Shape Manager (A.S.M).

ASM is a modeling ‘Kernel’ – a component that calculated 3D shapes.

Fun Fact! ASM is also used by AutoCAD and Fusion 360 (among others).

inventor Part Modelling

ASM uses the ‘Boundary Representation’ (Brep) method of calculating shapes. Breps are shapes based on Vertices. Two vertices can define an edge. A loop of edges can define a face. A collection of edges defines a volume (a 3D shape).

When we create 3D forms In Inventor from commands such as Extrude, Sweep or Loft – we are using the Inventor user interface to pass coordinates to ASM, which generates a Brep and passes it back to Inventor to be shown on screen.

Inventor Part Modelling – Inventor Terminology

Let’s make sure that we are all using the same language when we talk about shapes inside Inventor.

Geometry & Topology

Geometry can be thought of as the shape we want to create. Topology is how we get there.

The same geometry can be created using different topology. The same topology can be used to create very different geometry.

  • Geometry – the mathematics that describes the shape.
  • Topology – The vertices, edges, and faces that form the shape.

Normal

Perpendicular to an edge or surface.

For a solid model, the normal must always point ‘outwards’ from the solid volume.

Curvature Continuity

When we would like to create a smooth transition between to surfaces, we can describe the condition as ‘Curvature Continuous.’

Curvature continuity is the process of matching properties across two surfaces. We describe these properties using the letter ‘G.’

The properties are accumulative – G3 continuity includes G2, G1 & G0.

  • G0 Continuous – The edges meet (also known as Touching or Position).
  • G1 Tangent– The surface normal match along the meeting edges (A fillet).
  • G2 Curvature– The amount of curvature matches along the meeting Edges.
  • G3 Acceleration – The rate that the curvature changes are equal leading into the meeting edges.

Note: G+ Mathematically you could describe additional levels of ‘G,’ but they won’t help us create awesome models.

If you’re looking for more help with Autodesk Inventor, please make sure to check out the Autodesk Inventor YouTube channel. If you have more specific questions about Autodesk Inventor, please feel free to reach out to our experts on the Autodesk Inventor forums.

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