AutoCAD 3D

Module 30 Creating 2D Drawings from Solid Models

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

  1. Apply the SOLVIEW, SOLDRAW, and SOLPROF commands to automatically create 2D working multiview drawings, including pictorial views, from solid models.

Creating 2D Drawings from Solid Models

After an object is constructed as a solid 3D model, there are AutoCAD commands and features available to create and dimension a 2D working multiview drawing. Before you go any farther in this module, you must know and understand the following concepts:

  1. Creating and modifying AutoCAD layout drawings.
  2. Working in paper space.
  3. Creating, editing and setting the scale of viewports.

These three concepts are covered in the AutoCAD 2D book.

AutoCAD Command: SOLVIEW
The SOLVIEW command is used to create views and the necessary layers of a 3D solid model.

Shortcut: none

Draw Pull-down
Home Ribbon
Important: Before you use the SOLVIEW command, ensure that the current visual style is 2D Wireframe and the Hidden linetype is loaded into the drawing.
AutoCAD Command: SOLPROF
The SOLPROF command is used to create a profile of edges of straight and curved surfaces of a solid model as it is viewed from a selected viewpoint.

Shortcut: none

Draw Pull-down
Home Ribbon
Important: Before you use the SOLPROF command, ensure that the current visual style is 2D Wireframe and the Hidden linetype is loaded into the drawing.
AutoCAD Command: SOLDRAW
The SOLDRAW command is used to convert views created by the SOLVIEW command by projecting the 3D objects onto a 2D plane and changing hidden objects onto the hidden layer.

Shortcut: none

Draw Pull-down
Home Ribbon

WORK ALONG: Creating 2D Drawings from a Solid Model

Step 1

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

Step 2

Save and name the drawing: AutoCAD 3D Workalong 30-1.

Step 3

Set the current UCS as World, the current view as SE Isometric, and the current visual style to 2D Wireframe.

Step 4

Using the LINETYPE command, ensure that the Hidden linetype is loaded in the current drawing.

Step 5

Set the Insertion Units to inches and insert the block: AutoCAD 3D Workalong 30-1 at 0,0,0.

Step 6

Explode the block and change the layer that the solid model is on to layer: Solid 7. Using the Properties window, check to ensure that the object is a 3D solid. (Figure Step 6)

Figure Step 6

Step 7

Save the drawing but do not close it.

AUTHOR’S COMMENTS: The reason I had you save the drawing, in Step 7, is that once you start creating the layout in Steps 8 to 15 and you make an error, you will have to start the drawing over at Step 8. If you make an error, quit the drawing, without saving it, and open the drawing and start at Step 8.

Step 8

Enable layout: Module Layout D. (Figure Step 8)

Figure Step 8
MUST KNOW: VERY IMPORTANT Before you use either the SOLVIEW and the SOLPROF commands, ensure that the current visual style is 2D Wireframe and the Hidden linetype is loaded into the current drawing.

Step 9

Enter the SOLVIEW command, as shown below, to create the top view of the model. Name it: Top. (Figure Step 9)

Command: SOLVIEW

Enter an option [Ucs/Ortho/Auxiliary/Section]: U

(Enter U to draw the view from the UCS.)

Enter an option [Named/World/?/Current] <Current>:

(Accept the default Current.)

Enter view scale <1.0000>:

(Accept the scale of 1.)

Specify view center: P1

(Select a location for the centre of the view.)

Specify view centre <specify viewport>:

(Press Enter to accept the location.)

Specify first corner of viewport: P2

Specify opposite corner of viewport: P3

Enter view name: Top

(The view must be named.)

Command:

Figure Step 9
AUTHOR’S COMMENTS: You can select the locations P1, P2, and P3 by eye.

Step 10

Enter the SOLVIEW command again, but this time create the front view by projecting orthographically from the top view. Name it: Front. When done that way, the two views will be aligned. (Figure Step 10A and 10B)

Command: SOLVIEW

Enter an option [Ucs/Ortho/Auxiliary/Section]: O

Specify side of viewport to project: (mid)

Specify view center: P4

Specify view centre <specify viewport>:

Specify first corner of viewport: P5

Specify opposite corner of viewport: P6

Enter view name: Front

Command:

Figure Step 10A
Figure Step 10B

Step 11

Using what you just learned, create the right side view and name it: Right. (Figure Step 11A and 11B)

Command: SOLVIEW

Enter an option [Ucs/Ortho/Auxiliary/Section]: O

Specify side of viewport to project:(mid)

Specify view center:

Specify view centre :

Specify first corner of viewport<specify viewport>:

Specify opposite corner of viewport:

Enter view name: Right

Enter an option [Ucs/Ortho/Auxiliary/Section]:

Command:

Figure Step 11A
Figure Step 11B

Step 12

Use the MVIEW command to create a viewport in the top right corner of the drawing. Change the scale of the viewport to 1:1 and the current view to SE Isometric. Pan the model in the viewport to centre it. (Figure Step 12)

Figure Step 12

Step 13

Using the UNITS command, set the length precision to 8 decimal places. Open the Properties window and select all four viewports as shown in the figure. Check to ensure that the scale of all viewports are set to 1:1. Lock their display. (Figure Step 13)

Figure Step 13

Step 14

Enter the SOLDRAW command, as shown below, to change the multiviews viewports to 2D. (Figure Step 14A and 14B)

Command: SOLDRAW

Select viewports to draw.

Select objects: 1 found

Select objects: 1 found, 2 total

Select objects: 1 found, 3 total

(Select the three multiview viewports.)

Select objects:

One solid selected.

One solid selected.

One solid selected.

Command:

Figure Step 14A
Figure Step 14B

Step 15

Change to current space to Model and select the isometric view as the current viewport. Enter the SOLPROF command as shown below. (Figure Step 15A and 15B)

Command: SOLPROF

Select objects: 1 found

(Select the solid model.)

Select objects:

Display hidden profile lines on separate layer? [Yes/No] <Y>:

(Select the default.)

Project profile lines onto a plane? [Yes/No] <Y>:

(Select the default.)

Delete tangential edges? [Yes/No] <Y>:

(Select the default.)

Enter an option

Command:

Figure Step 15A
Figure Step 15B

Step 16

Change the colors of the layers as shown in the figure. (Figure Step 16)

Figure Step 16

Step 17

Turn Layer: VPORT off and your completed drawing should appear similar to the figure. (Figure Step 17)

Figure Step 17

Step 18

Save and close the drawing.

Key Principles

Key Principles in Module 30
  1. Before you use the SOLVIEW and the SOLPROF commands, ensure that the current visual style is 2D Wireframe and the Hidden linetype is loaded into the current drawing.

Lab Exercise 30-1

Time allowed: 45 minutes.

Drawing Name Template Units
AutoCAD 3D Lab 30-1 3D English Layout Inches

Step 1

Start a new drawing using the template shown above.

Step 2

Draw the plines on layer: Pline and the solid model on layer: Solid 3.

Step 3

Using the figures as a reference, draw the solid model. (Figure Step 3A, 3B, and 3C)

Figure Step 3A The Solid Model – SE Isometric View
Figure Step 3B Visual Style – 2D Wireframe
Figure Step 3C Dimensioned Multiview Drawing

Step 4

Enable layout: Module Layout D and using the command SOLVIEW, create the three multiviews. Set the scale of the viewports to 1.5:1 and lock their display.

Step 5

Use the SOLDRAW command to change the views to 2D.

Step 6

Using the MVIEW command, create two views and set their view to SE Isometric. Scale the viewports to 1:1 and lock their display. Set one of the views to display shaded.

Step 7

Use the SOLPROF command to create the hidden lines in the isometric viewport. (Figure Step 7)

Figure Step 7

Step 8

Change the color of the layers to Red for object lines and Blue for the hidden lines. (Hint: See Step 16 of WORKALONG: Creating 2D Drawings from a Solid Model)

Step 9

Fill in the titleblock in paper space.

Step 10

Turn layer: VPORT off. (Figure Step 10)

Figure Step 10

Step 11

Save and close the drawing.

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