Example: Modelling and Assembling AGCs
Example: Assembling Coordinate System AGCs
Refer the sample assembly to learn how to assemble AGCs that have a coordinate system so that they show correctly in the harness drawing.
Sample models are available at <Creo load point>\Common Files\help\sample_models\hmx\Grommet_model.
1. Open the GROMMET_MODEL.asm assembly.
2. Click Assemble. The Open dialog box appears.
3. Click grommet.prt and click Open. The grommet part appears in the graphics window and the Component Placement tab appears on the ribbon.
4. From the Saved Orientations choose LEFT and position the grommet over the wires as shown in the figure.
5. From the Saved Orientations choose FRONT and position the grommet over the wires as shown in the figure.
6. From the Saved Orientations choose Top and position the grommet over the wires as shown in the figure.
7. Right-click and click Fix Constraint to place the grommet.
8. Click on the Component Placement tab.
9. Click Applications > Cabling to open the Cabling tab.
10. Right-click a cable, click Location on the shortcut menu, and select the coordinate system CSYS_PART_DEF of the grommet. The Location tab appears.
11. Click on the Location tab to add the locations.
12. Click Components > Attach to Harness. The ATT HARN menu appears.
13. Click Add and select the grommet to attach to the flat harness. A message in the message area confirms that the component is attached to the harness.
14. Click Done/Return.
15. Click Applications > Harness Mfg. The Harness Manufacturing Extension dialog box opens.
16. Click Flatten Harness.
* 
You may have to change the value of the configuration option pro_unit_length to mm.
Example: Modelling and Assembling Single Axis Components
Refer the sample models to learn how to model and assemble single axis associated geometry components so that they show correctly in the harness drawing. Sample models are available at <Creo load point>\Common Files\help\sample_models\hmx\Backshell_model..
1. Open as85049_88-xxnyy.prt and choose the generic instance.
2. Create a datum axis through the surface Surf:17(CUT). Name the datum axis as ROUTING_AXIS.
3. From the Model Tree, right-click ROUTING_AXIS and click Parameters. The Parameters dialog box opens.
4. Add a parameter BEND_ANGLE and define the following attributes:
TypeREAL NUMBER
Value0
5. Click OK to close the Parameters dialog box.
6. Click Point to add a datum point on the routing axis at the entry orifice. The Datum Point dialog box opens.
7. On the Placement tab, select the surface Surf:F7(PROTRUSTION) as Offset reference and type -0.02 in the Offset box.
* 
If the units are set to inch, specify the offset distance as -0.02.
If the units are set to mm, specify the offset distance as -0.5.
8. Click the Properties tab and type ORIENT_POINT in the Name box.
9. Save and close the model.
10. Open the BACKSHELL_MODEL.asm assembly.
11. Click Assemble. The Open dialog box appears.
12. Select as85049_88-xxnyy.prt and click Open. The Select Instance dialog box opens.
13. On the By Name tab, click AS85049_88-21N02, and click Open.
14. Assemble the component as follows:
a. Orient the component as shown in the figure and select the surface AS85049_88-21N02.
b. Click to select the surface D38999_20FG:Surf:F17(PROTRUSION) as shown in the figure. A coincident constraint is applied to the surfaces.
c. Click the surface as shown in the figure.
d. Click the surface AS85049_88-21N02:F20(EXTRUDE_1) as shown in the figure.
e. On the Component Placement tab, select Distance as the constraint and type 0.02as the value.
f. Click on the Component Placement tab. The AGC is attached to the harness model.
15. Click Applications > Cabling to open the Cabling mode.
16. Select the cable, right-click, and click Location. The Location dialog box opens.
17. From the Model Tree select ROUTING_AXIS of the part AS85049_88-21N02.prt.
18. Insert a location as shown in the figure.
19. Click Components > Attach to Harness. The ATT HARN menu appears.
20. Click Add and select AS85049_88-21N02.prt. A message in the message area confirms that the component is attached to the harness.
21. Click Done/Return. The components are attached to the 3D harness assembly.
22. Click Applications > Harness Mfg. The Harness Manufacturing Extension dialog box appears.
23. Click Flatten Harness. The harness manufacturing drawing is generated.
* 
You may have to change the value of the configuration option pro_unit_length to mm.
If the position of the branch segments on the harness drawing is edited, the AGCs with move with the primary geometry.
Example: Modelling and Assembling Multi Axis Components
Refer the sample models to learn how to model and assemble multi axis associated geometry components so that they show correctly in the harness drawing. Sample models are available at <Creo load point>\Common Files\help\sample_models\hmx\Y-Manifold_Model.
1. Open the382a0xx.prt part and select the generic instance.
2. Define routing axes through the center of all orifices of the AGC as shown in the figure.
3. Select all the routing axes, right-click, and click Parameters. The Parameters dialog box opens.
4. Add a parameter BEND_ANGLE and define the following attributes:
TypeREAL NUMBER
Value135, -135, and 0
5. Click OK to close the Parameters dialog box.
6. Click Point to add a datum point on the routing axis at the entry orifice. The Datum Point dialog box opens.
7. On the Placement tab, select the surface Surf:F6(PROTRUSTION) as Offset reference and type -0.02 in the Offset box.
* 
If the units are set to inch, specify the offset distance as -0.02.
If the units are set to mm, specify the offset distance as -0.5.
8. Click the Properties tab and type ORIENT_POINT in the Name box.
9. Save and close the model.
10. Open y_manifold_asm.asm assembly.
11. Click Assemble. The Open dialog box appears.
12. Select 382a0xx.prt and click Open. The Select Instance dialog box appears.
13. Select instance 382A023 and click Open.
14. From the Saved Orientations choose FRONT and position the component over the wires as shown in the figure.
15. From the Saved Orientations choose TOP and position the component as shown in the figure.
16. Right-click and click Fix Constraint.
17. Click on the Component Placement tab to place the AGC.
18. Click Applications > Cabling to open the Cabling mode.
19. Right-click wire W1 and click Location. The Location dialog box appears.
20. From the Saved Orientations choose TOP.
21. From the Model Tree, select the upper routing axis and drag the location towards the exit as shown in the figure. Click on the Location tab to insert the location.
22. Right-click wire W1, click Location. The Location dialog box appears.
23. From the Model Tree, select ROUTING_AXIS_3 and drag the location towards the exit as shown in the figure. Click on the Location tab to insert the location.
24. Right-click wire W2, click Location. The Location dialog box appears.
25. From the Model Tree, select the lower routing axis and drag the location towards the exit. Click on the Location tab to insert the location.
26. Select wire W2, right-click and click Location, and select the location on wire W1 on the ROUTING_AXIS_3. Click on the Location tab to insert the location.
27. Select wire W1 right-click and click Location.
28. From the Model Tree, select ROUTING_AXIS_3 and drag the location towards the intersection point of the three axes. Click on the Location tab to insert the location.
29. Select wire W2, right-click and click Location, and click the location created in the previous step. Click on the Location tab to insert the location.
30. Click Components > Attach to Harness. The ATT HARN menu appears.
31. Click Add and select the 382A023.
32. Select the location points created at the intersection of the routing axis. The component is attached to the 3D harness assembly.
33. Click Done/Return.
34. Click Applications > Harness Mfg. The Harness Manufacturing Extension dialog box opens.
35. Click Flatten Harness. The flattened harness manufacturing drawing is generated.
* 
You may have to change the value of the configuration option pro_unit_length to mm.
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