2009
Table Of Contents
- Contents
- Overview
- 1 About AutoCAD Mechanical
- AutoCAD Mechanical Software Package
- Leveraging Legacy Data
- Starting AutoCAD Mechanical
- AutoCAD Mechanical Help
- Product Support and Training Resources
- Design Features in AutoCAD Mechanical
- Mechanical Structure
- Associative Design and Detailing
- External References for Mechanical Structure
- Associative 2D Hide
- Autodesk Inventor link
- 2D Design Productivity
- Engineering Calculations
- Machinery Systems Generators
- Intelligent Production Drawing and Detailing
- Detailing Productivity
- Annotations
- Standard Mechanical Content
- Standard Parts Tools
- Collaboration
- 2 Commands in AutoCAD Mechanical
- 1 About AutoCAD Mechanical
- Design and Annotation Tools
- 3 Working with Templates
- 4 Using Mechanical Structure
- 5 Designing Levers
- 6 Working with Model Space and Layouts
- 7 Dimensioning
- 8 Working with 2D Hide and 2D Steel Shapes
- 9 Working with Standard Parts
- Key Terms
- Working with Standard Parts
- Inserting Screw Connections
- Copying Screw Connections with Power Copy
- Creating Screw Templates
- Editing Screw Connections with Power Edit
- Working with Power View
- Deleting with Power Erase
- Inserting Holes
- Inserting Pins
- Turning Off Centerlines in Configurations
- Hiding Construction Lines
- Simplifying Representations of Standard Parts
- 10 Working with BOMs and Parts Lists
- 11 Creating Shafts with Standard Parts
- Key Terms
- Creating Shafts
- Configuring Snap Options
- Configuring Shaft Generators
- Creating Cylindrical Shaft Sections and Gears
- Inserting Spline Profiles
- Inserting Chamfers and Fillets
- Inserting Shaft Breaks
- Creating Side Views of Shafts
- Inserting Threads on Shafts
- Editing Shafts and Inserting Sections
- Replacing Shaft Sections
- Inserting Bearings
- Engineering Calculations
- Autodesk Inventor Link
- Index
DefinitionTerm
The tabbed environment in which you create and design
floating viewports to be plotted. Multiple layouts can be created
for each drawing.
layout
A command useful for generating linear, radial, and diameter
dimensions, which minimizes the number of the individual ac-
Power Dimensioning
tions while generating a dimension. Power Dimensioning auto-
matically selects the type of the linear dimension (horizontal,
vertical, aligned), based on the selected point.
Defines the scale for an area of the drawing.scale area
A function to view and control the scale for any scale area.scale monitor
A scaled view of the model defined in a layout.viewport
The scale of a base drawing relative to the model scale. Also,
the scale of dependent views relative to the base view.
view scale
The layer where you are currently working.working layer
Working with Model Space and Layouts
Using model space and layouts, you can create different views with different
scales from the same model. The main advantage of working with layouts is
that views are associative. If you make changes in one viewport, those changes
are made in all other viewports as well, since each viewport is another view
of the same model. You can also freeze objects in a new viewport without
affecting objects in other views.
Getting Started
In this tutorial, you work with viewports. You generate an associative detail
and create a subassembly drawing.
120 | Chapter 6 Working with Model Space and Layouts