AutoCAD 3D

Module 28 Editing Solid Models – Part 2

Learning Outcomes
When you have completed this module, you will be able to:

  1. Apply the SOLIDEDIT and SOLIDCHECK commands to modify solid models.
  2. Apply the INTERFERE command to find interferences between two or more solids.
AutoCAD Command: INTERFERE
The INTERFERE command is used to check if two or more solids occupy the same 3D space. If two or more solids occupy the same 3D space, they will interfere with one another which cannot exist in real life.

Shortcut: none

Modify Pull-down
Home Ribbon

WORK ALONG: Editing Solid Models

Step 1

Using the NEW command, start a new drawing using template: 3D Layout English.

Step 2

Save the drawing and name it: AutoCAD 3D Workalong 28-1.

Step 3

Draw the plines on layer: Pline and the solid model on layer: Solid 6.

Step 4

Draw a solid model of the object shown in the figures. The location of 0,0,0 is the bottom left corner of the front view. The solid model should appear as shown in the figure. (Figure Step 4A and 4B)

Figure Step 4A Dimensioned Multiview Drawing
Figure Step 4B Solid Model SE Isometric View

Step 5

If you are using toolbars, enable the display of the Solids Editing toolbar. If you are using ribbons, use the Home tab. (Figure Step 5)

Solid Editing Toolbar
Home Ribbon Figure Step 5

Step 6

With the UCS set to Front, draw a circle by snapping to the midpoint of the bottom edge for the centre and one of the bottom corners for the radius. (Figure Step 6)

Figure Step 6
AUTHOR’S COMMENTS: The Imprint option of the SOLIDEDIT command is used to attach a 2D drawing object onto an existing solid. The attached drawing object can then be extruded to add or remove volume. The 2D drawing object must be an arc, circle, pline, ellipse, spline or a region. A 3D solid can also be attached. The attached object must touch the solid or overlap the solid model it is being attached to.

Step 7

Click the Imprint icon and complete the command, as shown below, to attach the circle to the front face of the solid. (Figure Step 7A, 7B, and 7C).

Command: SOLIDEDIT

Solids editing automatic checking: SOLIDCHECK=1

Enter a solids editing option [Face/Edge/Body/Undo/eXit] <eXit>: B

Enter a body editing option

[Imprint/seParate solids/Shell/cLean/Check/Undo/eXit] : I

Select a 3D solid: P1

(Select the solid model.)

Select an object to imprint: P2

(Select the circle.)

Delete the source object [Yes/No] <N>: Y

(Delete the original circle.)

Select an object to imprint:

Command:

Figure Step 7A
Figure Step 7B
Figure Step 7C

Step 8

Using the Properties window, check to ensure that the arc and the solid are one solid model and not two separate objects.

Step 9

Using what you learned in Module 27, click the Extrude faces icon to extrude the arc 1 inch in the positive Z direction as shown in the command below. (Figure Step 9A and 9B)

Command: SOLIDEDIT

Solids editing automatic checking: SOLIDCHECK=1

Enter a solids editing option [Face/Edge/Body/Undo/eXit] <eXit>:F

Enter a face editing option

[Extrude/Move/Rotate/Offset/Taper/Delete/Copy/coLor/Undo/eXit] <eXit>: E

Select faces or [Undo/Remove]: P3 2 faces found.

Select faces or [Undo/Remove/ALL]: R

Remove faces or [Undo/Add/ALL]: 2 faces found, 1 removed.

Remove faces or [Undo/Add/ALL]:

Specify height of extrusion or [Path]: 1

Specify angle of taper for extrusion <0>:

Solid validation started.

Solid validation completed.

Command:

Figure Step 9A
Figure Step 9B

Step 10

Using what you just learned, draw a 4 inch diameter circle locating its centre at the midpoint of the bottom edge. Imprint the circle to the solid to form the arc . Extrude the arc through the solid to create a slotted arc through the solid. (Figure Step 10A and 10B)

AUTHOR’S COMMENTS: The Check option of the SOLIDEDIT command is used to check the validity of an existing 3D solid object.

Step 11

Click the Check icon and enter the command, as shown below, to check your solid as a valid solid object. (Figure Step 11A and 11B)

Command: SOLIDEDIT

Solids editing automatic checking: SOLIDCHECK=1

Enter a solids editing option [Face/Edge/Body/Undo/eXit] <eXit>: B

Enter a body editing option

[Imprint/seParate solids/Shell/cLean/Check/Undo/eXit] <eXit>: C

Select a 3D solid:

(Select the solid model.)

This object is a valid ShapeManager solid.

(This is a valid solid.)

Enter a body editing option

Command:

Figure Step 11A
Figure Step 11B

Step 12

Save and close the drawing.

WORK ALONG: Finding the Interference Between Two Solids

Step 1

Using the NEW command, start a new drawing using template: 3D Layout English.

Step 2

Save the drawing and name it: AutoCAD 3D Workalong 28-2.

Step 3

Draw the plines on layer: Pline and the solid model on layer: Solid 7.

Step 4

Draw two solid models using the multiview drawing as a reference. Start the bottom left corner of the cube at 0,0,0. (Figure Step 4A and 4B)

Figure Step 4A Dimensioned Multiview Drawing
Figure Step 4B Solid Model SE Isometric View

Step 5

If you are using toolbars, enable the display of the Solids Editing toolbar. If you are using ribbons, use the Home tab. (Figure Step 5)

Solid Editing Toolbar
Home Ribbon Figure Step 5

Step 6

Using the UNION command, union the two solids to make them one solid model.

Step 7

Using the Properties window, check to ensure that the two 3D Solid objects are now one 3D Solid object. (Figure Step 7)

Figure Step 7
AUTHOR’S COMMENTS: The Separate option of the SOLIDEDIT command is used to separate two solids that have been joined together.

Step 8

Set layer: Solid 7 as the current layer. Click the Separate icon and enter the command shown below to separate the two solids. (Figure Step 8)

Command: SOLIDEDIT

Solids editing automatic checking: SOLIDCHECK=1

Enter a solids editing option [Face/Edge/Body/Undo/eXit] <eXit>: B

Enter a body editing option

[Imprint/seParate solids/Shell/cLean/Check/Undo/eXit] <eXit>: P

Select a 3D solid:

(Select the solid.)

Enter a body editing option

Command:

Figure Step 8

Step 9

Using the Properties window, ensure that the two 3D Solid objects were separated as shown in the figure. (Figure Step 9)

Figure Step 9

Step 10

Set the current visual style to Realistic. Move the cylinder 3 inches towards the box as shown in the figure. (Figure Step 10)

Figure Step 10
AUTHOR’S COMMENTS: The two solid now interfere with one another and for a small volume, they occupy the same 3D space. In real life, that could not happen.

Step 11

Set the current view to SE Isometric and the current visual style to 3D Wireframe. Enter the INTERFERE command, as shown below, to find the interfering solid. (Figure Step 11)

Command: INTERFERE

Select first set of solids:

(Select one solid.)

Select objects: 1 found

Select objects:

(Press Enter)

Select second set of solids:

Select objects: 1 found

(Select the other solid.)

Select objects:

(Press Enter)

Comparing 1 solid against 1 solid.

Interfering solids (first set): 1

(second set): 1

Interfering pairs: 1

Create interference solids? [Yes/No] <N>: Y

(Enter Y.)

Command:

Figure Step 11

Step 12

Using the MOVE command, move the 3D Solid object created by the INTERFERE command. Where you move it is not important. (Figure Step 12)

Figure Step 12

Step 13

Use the UNION command the join the two solids to one. (Figure Step 13)

Figure Step 13

Step 14

Set the current visual style to Realistic. (Figure Step 14)

Figure Step 14

Step 15

Save and close the drawing.

System Variable: SOLIDCHECK
The SOLIDCHECK system variable toggles the solid validation on and off when a solid model is selected to be edited in the SOLIDEDIT command.

When the SOLIDEDIT command is executed, the current setting of the SOLIDCHECK system variable is displayed as shown below.

Command: SOLIDEDIT

Solids editing automatic checking: SOLIDCHECK=1

(SOLIDECHECK=1 solidcheck is enabled)

(SOLIDECHECK=0 solidcheck is disabled)

Key Principles

Key Principles in Module 28
  1. The Separate option of the SOLIDEDIT command is used to separate two solids that have been joined together.
  2. The INTERFERE command is used to check if two or more solids occupy the same If two or more solids occupy the same space, they will interfere with one another and in real life could not exist.

Related Articles

Back to top button