2009
Table Of Contents
- Contents
- Tubes and Pipes
- 1 Getting Started with Tube & Pipe
- 2 Route Basics
- 3 Setting Styles
- 4 Creating Rigid Routes and Runs
- General Workflow for Rigid Routes
- Creating Auto Route Regions
- Manually Creating Parametric Regions
- Automatically Dimension Route Sketches
- Create Segments With Precise Values
- Define Parallel and Perpendicular Segments
- Snap Route Points to Existing Geometry
- Place Constraints On Route Sketches
- Create Bends Between Existing Pipe Segments
- Create Pipe Routes With Custom Bends
- Create Bent Tube Routes
- Realign 3D Orthogonal Route Tool
- Control Dimension Visibility
- Populated Routes
- 5 Creating and Editing Flexible Hose Routes
- 6 Editing Rigid Routes and Runs
- 7 Using Content Center Libraries
- 8 Authoring and Publishing
- 9 Documenting Routes and Runs
- Cable and Harness
- 10 Getting Started with Cable and Harness
- 11 Working With Harness Assemblies
- 12 Using the Cable and Harness Library
- 13 Working with Wires and Cables
- About Wires and Cables
- Setting Modeling and Curvature Behavior
- Inserting Wires and Cables Manually
- Moving Wires and Cables
- Deleting Wires and Cables
- Replacing Wires
- Assigning Virtual Parts
- Importing Harness Data
- Adding Shape to Wires and Cable Wires
- Setting Occurrence Properties
- Changing Wire and Cable Displays
- 14 Working with Segments
- 15 Routing Wires and Cables
- 16 Working with Splices
- 17 Working with Ribbon Cables
- 18 Generating Reports
- 19 Working Nailboards and Drawings
- IDF Translator
- Index
■ Analyze where directional change points are needed to route through or
around existing geometry.
■ Create in-line work features, such as a work point at the intersection of
work planes, to guide the route path.
■ Place constraints or dimensions to sketched segments.
■ Convert auto regions to parametric regions so that you can make more
edits.
You can define your routes as close to the appropriate results as possible, and
then adjust them later, or you can develop them using precise distances and
dimensions as you go. To speed creation and plan for dynamic editing and
updating, allow the system to automatically create route points whenever
geometric constraints are not important. Define route points manually where
it is critical for a route to navigate through a particular direction and constrain
to existing geometry.
If using in-line work features, consider simplifying the route display by
selecting the Auto-hide in-line features option on the Tools menu, Application
Options, Part tab. In-line work features are hidden as soon as they are
consumed by a feature. The auto-hide option is enabled by default.
Bend Tools
Use bent tubing and flexible hosing styles to create curved routes conforming
to the minimum bend radius. Typically, use the following tools to manually
create bends in the rigid route:
■ Custom Bend tool on the right-click context menu when the 3D
Orthogonal Route tool is active. It is applicable when creating a pipe route.
■ Bend tool on the Route panel bar. It is applicable when editing parametric
regions in a finished route.
Bend tool
In pipe routes, when a bend is required where it has not been manually
defined, the default bend radius of two times the pipe nominal diameter is
used. For instance, applying the Parallel With Edge tool to a certain linear
32 | Chapter 2 Route Basics