Autodesk Inventor Routed Systems Suite 2009, Crossupgrade from AutoCAD Mechanical 2006, 1 user or Network, with BOX, German 464A1-12A711-1033 사용자 설명서
제품 코드
464A1-12A711-1033
6
Inventor Routed Systems Suite streamlines cable and
harness design by using wire list information imported from
schematic design packages, including AutoCAD
®
Electrical
software.
Cable and Harness Design
Functional Harness Design
Design cable and harness components in 3D to
reduce manufacturing problems, facilitate output
of manufacturing drawings, and avoid late-stage
engineering change orders. In Inventor, wire list
and connector information is used to drive harness
design with built-in cross-checking of electrical and
mechanical data so users can make sure that all
wires and connectors in the wire list are represented
in the 3D cable design.
reduce manufacturing problems, facilitate output
of manufacturing drawings, and avoid late-stage
engineering change orders. In Inventor, wire list
and connector information is used to drive harness
design with built-in cross-checking of electrical and
mechanical data so users can make sure that all
wires and connectors in the wire list are represented
in the 3D cable design.
Wire List Input
Maintain electrical design intent and reduce errors
when importing wire lists into the assembly. Quickly
import large wire lists from AutoCAD Electrical or
third-party schematic design applications with de-
tection and correction of missing connectors, pins,
and wire definitions.
when importing wire lists into the assembly. Quickly
import large wire lists from AutoCAD Electrical or
third-party schematic design applications with de-
tection and correction of missing connectors, pins,
and wire definitions.
Wire Routing
Quickly route thousands of wires while providing
control over the paths of crucial wires. Manual rout-
ing requires explicit selection of the wire’s path, in-
teractive routing requires selection of the start/end
points and the algorithm chooses the shortest path,
and in automatic routing the system find the short-
est possible path based on all available paths.
control over the paths of crucial wires. Manual rout-
ing requires explicit selection of the wire’s path, in-
teractive routing requires selection of the start/end
points and the algorithm chooses the shortest path,
and in automatic routing the system find the short-
est possible path based on all available paths.
Harness Path Definition
Optimize the design of cable and harness assem-
blies to help ensure proper spacing for manufactur-
ing and reduce errors in manufacturing caused by
incomplete product definition. Define harness and
cable paths using a point-and-click methodology
that creates 3D virtual conduits (segments) in the
model. Create associative relationships that help
ensure that the harness updates when design com-
ponents change. Add points or move existing points
to refine the overall shape of the harness.
blies to help ensure proper spacing for manufactur-
ing and reduce errors in manufacturing caused by
incomplete product definition. Define harness and
cable paths using a point-and-click methodology
that creates 3D virtual conduits (segments) in the
model. Create associative relationships that help
ensure that the harness updates when design com-
ponents change. Add points or move existing points
to refine the overall shape of the harness.
Complex electrical
systems are present in
almost every product
or machine, and require
increasingly careful
design of the physical
cables and harnesses.
Incorporating cable and
harness runs—including
ribbon cables—into the
digital prototype saves
users time and money
by calculating accurate
path lengths, avoiding
small radius bends, and
making sure the electrical
components fit into the
mechanical assembly.