1 / 60

3D Cable Harnessing on OneSpace Design Modeling

3D Cable Harnessing on OneSpace Design Modeling. http://www.mip.hu. August 2004 * Data subject to change. Introduction to MIP. MIP (Manufacturing Integration Products) founded in 1994, is the general distributor of CoCreate and CIM-TEAM products for Eastern-Europe.

leigh
Download Presentation

3D Cable Harnessing on OneSpace Design Modeling

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. 3D Cable Harnessing on OneSpace Design Modeling http://www.mip.hu August 2004 * Data subject to change

  2. Introduction to MIP • MIP (Manufacturing Integration Products) founded in 1994, is the general distributor of CoCreate and CIM-TEAM products for Eastern-Europe. • With our offices in Hungary, Turkey, Estonia and authorized channel-partners in several Eastern-European countries we are only focused to professional CAD/CAM/PDM products and professional add-on modules for OneSpace products. Last year MIP was able to expand CoCreate sales orders by 58% and increase the number of installed base customers in Eastern-Europe significantly.

  3. SpaceCable features • Different cable types (Incl. flat cables) • Rigid and flexible cabling • Auto-snap connections • Interface to E-CAD systems • Library management • Manufacturing module (with Ver. 2) • User definable bundles with any shape • Manual and Automatic routing (channel routing) • Dynamic cabling • Automatic calculations like wire lengths, channel thicknesses     • BOM      • PDM integration      • Realistic visualization of Harnesses  

  4. SpaceCable Terminology • A Harness is a 3D model comprising of routed wires, cables, and bundles in an assembly with all of the related informations. • A Cable is two or more conductors which are contained in the same jacket. • A Wire is a cable with a single conductor. • A Conductor is an internal current carrying entity within a cable. • A Bundle is a group of cables and wires that are sheathed together. • A Jacket is the outer covering of a cable or bundle, that is resistant to environmental hazards and used to protect cable component(s)   • A Route is the path that a wire, cable, or bundle follows on an assembly model.

  5. Current phase of development to be continued …

  6. Rigid and Flexible Cables Rigid cables Flexible Cables

  7. AutoSnap Functionality Users can interactively define components and their counterparts by defining mate faces on both components and counterparts.

  8. AutoSnap Functionality … once selected, components automatically “snap” to their counterparts without user interaction

  9. Structures Wires build cables, cables build bundles , bundles build harnesses … • SpaceCable supports different structures • Wires • Cables • Bundles • Channels • Harnesses • …

  10. Structures Special Cable Types • Round • Linear Pattern • Rectangular • Flat • …..

  11. Structures Example: Multi-wire cables 1 – 12 cores

  12. Structures Example: Linear Pattern cables Number of cores free definable in horizontal and vertical directions

  13. Structures Example: User defined Bundles A user defined bundle consists of several round wires and cables with different radii.

  14. Structures Example: User defined Bundles User defined geometry is simply stored as Workplane in a directory together with its bitmap image.Display Table is created automatically at run-time.

  15. Bundle Definition

  16. Analysis of a harness project • 10 % Administration and preparation of components • 80 % Cable routing • 10 % Post processing and verification

  17. 80 % of time needed for routing Biggest potential for efficiency increase ! How to create routing paths efficiently ?

  18. Routing Types • Manual routing On a single face ( planar, cylindrical ) • From face to face ( bend radius ) • From face to ‘space’ • In ‘space’ ( Rigid vs. Flexible cables )Channel routingAuto-routing through predefined channels

  19. Manual Routing Simply click points on a face to define the cable route ...

  20. Manual Routing …go from face to face by simply clicking one point on each face ... 1. point 2. point 3.point

  21. Manual Routing …SpaceCable rolls automatically perpendicular over bothinternal and external edges ...

  22. Manual Routing

  23. Manual Routing Move core end point to any point ...

  24. Manual Routing Bring single cores automatically together …

  25. Manual Routing ... use the option ‘Create as single’ ... or re-bundle existing single cables

  26. Manual Routing ... to route multiple cables easy as single cable ...

  27. Manual Routing ... and re-split anytime to route single cores separately SpaceCable ‘remembers’ original structure !

  28. Manual Routing …and can be “splitted” or “bundled” anytime during modelling

  29. Manual Routing …even flat cables can be easily splitted and bundled together!

  30. Channel Routing If you have several parallel cables going in one direction

  31. Channel Routing Define 3D polygonal channels for routing

  32. Channel Routing Modify the channels with simple commands …

  33. Channel Routing … like making parallel to edges

  34. Channel Routing • Select object to be routed (wire.cable or bundle) • Select any 2 points • The shortest path between these pointson the channelis automaticallyfound and the objectis routed.

  35. Channel Routing • Auto-Fillet the object with a simple click

  36. Channel Routing • Put several objects (wires,cables,bundles) into one channel of any complexity.Objects may havedifferent fillet radii.

  37. Dynamic Cabling Cables and wires are modified full dynamically similar to the Dynamic Modeling concept of OneSpace Designer

  38. For any type …

  39. …of cables !! …

  40. ...simply by dragging cable segments!

  41. Interface to E-CAD systems SpaceCable can read and write data from/to any E-CAD systems, which are capable of preparing wire lists in a special ASCII format. After cable and connector data is read, devices are checked for existence and an air-net cabling connection is built automatically from pin to pin. With SpaceCable functionality users can modify air-nets to 3D harnesses.

  42. Wire list of an E-CAD System…

  43. ...is converted into the SpaceCable E-CAD Input format

  44. E-CAD Color Mapping File are simple ASCII files

  45. E-CAD Interface Connectors are placed interactively or automatically

  46. E-CAD Interface SpaceCable checks OSDM model space automatically and finds out which devices are already placed – and which ones user must still load to the model

  47. E-CAD Interface By simply selecting from the “Not Placed” list, users can load and position connectors within one menu.

  48. E-CAD Interface Loaded pkg-parts get automatically new names assigned “Connector_Device name“

  49. E-CAD Interface After all devices are loaded into model space …

  50. E-CAD Interface A straight or tangential airnet connection can be made.

More Related