pro e assembly

8/13/2019 Pro e Assembly

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1. Start Pro/E Wildfire.2. Select [File] -> [New], change the type radio button to Assembly, and name your part as [Benchvise100_main].

3. Select the Add Component icon from the right toolbar. Select benchvise100_part1.prt and click on the open button; the part should now appear on the screen.

4. Select [Align] from the Constraints Type pull down menu, in the component placement window. Click on the FRONT plane in part1, and then click on the FRONT plane of the assembly. The offset column should show

Coincident, if not select the same.

Do the same with the RIGHT and the TOP planes of the part as well as the assembly.5. The Component Placement window should look like Figure 1.1, showing that the part is fully constrained.


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[Fig 1.1]

6. Select [Okay] on the Component Placement window.

7. Select the Add Component icon again, and open Benchvise100_part4; see Figures 1.2, 1.3 and 1.4.


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Select the first icon from Component Placement window, as shown in Figure 1.4 to show both components in separatewindows, as shown in Fig 1.2 and Fig 1.3.

Select Mate from the Constraints Type Menu, and then click Surface A from Fig 1.3 followed by Surface A from Fig 1.2. Ifthe offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident.

The Constraints Type (Mate) and Offset (Coincident) are the same for the B and C pair of surfaces from Fig 1.3 and Fig 1.2respectively.


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[Fig 1.2]


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[Fig 1.3]

8. The Component Placement window should look like Figure 1.4, showing that the part is fully constrained.

[Fig 1.4]


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9. Select [Okay] on the Component Placement window.

10. The two components assembled together should look like Figure 1.5 below.


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[Fig 1.5]

11. Select the Add Component icon again, and open Benchvise100_part2; see Figures 1.6 and 1.7. Select the first icon from Component Placement window, as shown in Figure 1.4 to show both components in separate

windows, as shown in Fig 1.6 and Fig 1.7. Select Mate from the Constraints Type Menu, and then click Surface A from Fig 1.7 followed by Surface A from Fig 1.6. If

the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident.

Select Constraint Type to Align, and click on the axis going through surface B in Figure 1.7, and Figure 1.6 in order. From theOffset pull down menu, select Coincident.

Next, set Constraint Type to Align, and click on the axis going through the surface C in Figures 1.7 and 1.6 respectively. Setthe Offset Type to be Orient; the part should be fully constrained.


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[Fig 1.6]


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[Fig 1.7]

11. Select [Okay] on the Component Placement window.12. The two components assembled together should look like Figure 1.8 below.


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[Fig 1.8].


windows, as shown in Fig 1.9 and Fig 1.10. Select Mate from the Constraints Type Menu, and then click Surface A from Fig 1.10 followed by Surface A from Fig 1.9. If

the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident.

Select Constraint Type to Align, and click on the axis going through surface B in Figure 1.10, and Figure 1.9 in order. Fromthe Offset pull down menu, select Coincident.

Next, set Constraint Type to Align, and click on the axis going through the surface C in Figures 1.20 and 1.9 respectively. Setthe Offset Type to be Orient; the part should now, be fully constrained.


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[Fig 1.9]


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[Fig 1.10]



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[Fig 1.11]


windows, as shown in Figure 1.12 and Figure 1.13. Select Align from the Constraints Type Menu, and then click on the axis through Surface A from Figure 1.13 and from Figure

1.12 in that order. If the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident.

Select Constraint Type to Insert, and click on the surface B (curved surface of part7) in Figure 1.13. Next, click on the surfaceB (inside surface of the hole) in Figure 1.12.

Set Constraint Type to Mate, and click on the surface C in Figure 1.13. Then, click on the surface C (inside surface of the holein part4) in Figure 1.12. If the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be

Coincident; part7 should now, be fully constrained.


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[Fig 1.14]


windows, as shown in Fig 1.15 and Fig 1.16. Select Align from the Constraints Type Menu, and then click on the axis through Surface A from Figure 1.16 and from Figure

1.15 in that order. If the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident.

Select Constraint Type to Insert, and click on surface B (curved surface of part8) in Figure 1.16. Next, click on the surface B(inside surface of the hole on part7) in Figure 1.15.

Set Constraint Type to Mate, and click on surface C (the plane DTM1 going through the center of part8 and parallel to itsFRONT plane) in Figure 1.16. Then, click on the surface C (the RIGHT plane in part7) in Figure 1.15. If the offset prompt

comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident; part8 should now, be fully constrained.


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[Fig 1.15]


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[Fig 1.18]


windows, as shown in Fig 1.19 and Fig 1.20.

Select Align from the Constraints Type Menu, and then click on the axis through Surface A from Figure 1.20 and from Figure1.19 in that order. If the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident.

Select Constraint Type to Insert, and click on surface B (inner surface of the hole in part5) in Figure 1.20. Next, click on thesurface B (outside surface of part8) in Figure 1.19.

Set Constraint Type to Mate, and click on surface C in Figure 1.20. Then, click on the surface C in Figure 1.19. If the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident; part6 should now, be fully

constrained.


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[Fig 1.19]


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[Fig 1.20]24. Select [Okay] on the Component Placement window.

25. The two components assembled together should look like Figure 1.21 below.


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[Fig 1.21]

26. Select the Add Component icon again, and open Benchvise100_part5. The procedure for assembling this part is similar to step# 23 above. The constraints and the offsets are also similar, except that

the part is now added on the opposite side.

27. The assembly, once this part is added, should resemble Figure 1.22.


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[Fig 1.22]


windows, as shown in Fig 1.23 and Fig 1.24.

Set Constraint Type to Mate, and click on surface A in Figure 1.24. Then, click on the surface A in Figure 1.23. If the offset prompt comes up, enter 0.00; you could even choose the Constraints Offset to be Coincident; part6 should now, be fullyconstrained.

Select Align from the Constraints Type Menu, and then click on the axis through Surface B from Figure 1.24 and from Figure1.23 in that order. Set the Offset to Coincident.

Set Constraint Type to Align, and click on surface C (the RIGHT plane in part 6) in Figure 1.24. Then, click on the surface C(the RIGHT plane) in Figure 1.23. Set the Offset to Coincident; part6 should now be fully constrained.


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[Fig 1.23]


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[Fig 1.24]



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[Fig 1.25]

31. Select the Add Component icon again, and open Benchvise100_part6. The procedure for assembling this part is similar to step# 28 above. The constraints and the offsets are also similar, except that

the part is now added on the opposite side.

32. The assembly, once this part is added, should resemble Figure 1.26; the assembly is now complete.


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[Fig 1.26]

33. The completed assembly (colored version) is shown in Figure 1.27. You could add colors using the menu [View] ->[Color and Appearance], as in tutorial 8.


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[Fig 1.27]

pro e assembly

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