Dimensioning in Solid Edge ST

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Dimensioning in Solid Edge ST
Introduction
This tutorial illustrates the typical workflow for creating and placing drawing views, and
dimensioning and annotating the views of the machined part shown in the illustration
above. This workflow is applicable to both synchronous models and traditional models in
Solid Edge ST.
You will learn to do the following:
1. Place a principal Front view plus three other standard views (Top, Side, and
Isometric) using the Drawing View Creation Wizard.
2. Add a detail view using the Detail View command.
3. Use a cutting plane to create a section view, and then place the view on the
drawing using the Section View command.
4. Adjust the position of views on the drawing.
5. Add drawing view labels.
6. Change and show drawing view scale.
7. Open the model from the drawing to make a change, and then update the drawing
views.
8. Retrieve dimensions from the model.
9. Add new dimensions to the drawing views, such as:
1. Distance between
2. Chamfer dimension
10. Modify the format of dimensions:
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11. Text location and size
12. Terminator placement
13. Dimension line location
14. Add a variety of annotations:
1. Smart Hole callout
2. Center line
3. Datum frame
4. Feature control frame
Select Units and Type of Operation
The first tasks are to change the units to millimeters, and type of operation available. The
standard units used with the default installation of Solid Edge are ISO (millimeters), but
some installations may have used ANSI (inches) instead. If so, you need to change to
millimeters for this tutorial. Once you have started execution of the Solid Edge program
in Windows, you will see a screen similar to the one shown below. If the options in
Create are the ones shown, you will need to make two changes before you can start the
tutorial. If the option ISO Draft is available, select it and go the next part of this tutorial
labeled Specify the dimensions of the drawing sheet.
Otherwise, select the icon in the upper left corner of the screen, which will bring up the
following window.
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Select the Solid Edge Options at the bottom of the screen which will bring up the
following window.
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Within this window, select User Profile, then use the down arrow next to User type and
select Traditional and Synchronous. Select OK. This will change the start up screen
to be the following, which will allow you to select “Traditional” part construction.
The next step is to change the units to ISO. Select the icon in the upper left corner and
then select New as shown.
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This will bring up the following window.
Within this window select More and then iso draft.dft and then OK. Now you can start
the construction of the model.
Specify the dimensions of the drawing sheet
The first step in beginning a new drawing is to set up the drawing sheet.
Click the Application button to open the Application menu.
From the Application menu, choose Sheet Setup.
On the Sheet Setup dialog box, on the Size tab, set the Sheet Size option to A3 Wide (420
mm x 297 mm).
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Click the Background tab, and set the Background Sheet option to A3-Sheet.
On the Sheet Setup dialog box, click OK.
Fit the drawing sheet to the window
On the status bar at the bottom of the application window, click Fit to fit the drawing
sheet to the window size.
The Fit command is conveniently located on the status bar at bottom-right of the
application window, along with other view manipulation commands. You can use these
commands at any time to adjust the view. For example, you can begin drawing a cutting
plane line, and then realize you need to zoom in to draw it.
To exit a view manipulation command and return to a drawing command in progress,
press Esc.
Set the projection angle
Mechanical drafting standards use either a first-angle projection or a third-angle
projection for creating multi-view projections of a part on a drawing sheet. The firstangle method is predominantly used by engineers and designers who follow ISO and DIN
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(metric) standards. The third-angle method is predominantly used by engineers and
designers who follow ANSI (English) standards.
Since we are using the ISO standard in this tutorial, Solid Edge is automatically in first
angle projection. This tutorial illustrates both first-angle and third-angle projection.
However, change to third-angle projection now. To do this select icon in the top left
corner of the screen and then the Solid Edge Options.
On the Drawing Standard page, under Projection Angle, select Third for third-angle
projection, and then OK.
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Choose a part model to place on the drawing sheet
On the Home tab>Drawing Views group select the View Wizard command.
On the Select Model dialog box, do the following:
1. Set the Look In location to the Solid Edge ST Training folder
2. Set the Files Of Type option to Part Document (*.par)
3. Select the file named DraftTut1MP-DV.par, and then click the Open button.
The default location of the Solid Edge Training folder is:
C:\PROGRAM FILES\SOLID EDGE ST\TRAINING
However, your system administrator may have chosen a different location.
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Ensure that the part view options on the first page of the Drawing View Creation Wizard
match the following.
On the Drawing View Creation Wizard, click the Next button.
Specify the orientation of the principal view of the part
On the Drawing View Orientation page of the Drawing View Creation Wizard, under
Named Views, select front and then click the Next button to continue.
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Specify additional views of the part
If you are using third-angle projection, on the Drawing View Layout page of the Drawing
View Creation Wizard, select the views shown in the illustration below, and then click
Finish.
If you are using first-angle projection, select the views shown below, then click Finish.
Notice that the rectangle attached to the cursor changes size. It now represents the size of
the four views you have specified.
Do not click the drawing sheet yet.
Place the views on the drawing sheet
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Move the cursor to position the views on the drawing sheet as shown in the illustration
below, and click to place them.
Observe the drawing Views
For a third-angle projection, your drawing view arrangement should be similar to this.
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Save the file
Select the Save As option using the icon in the top-left corner of the screen and save the
part as Tutorial.dft.
Change the scale properties of a view
You can change the display size of a view to make it smaller or larger, so there is more
room for dimensions and annotations.
Click on the isometric drawing view.
In the Select command bar, click the Scale list, and select 1:2.
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The isometric view updates automatically on the drawing sheet.
Click the Show Scale button.
Create and display a caption for the isometric view, by:
1. In the Caption box on the command bar, type Scale.
2. Press Enter.
3. Click the Show Caption button.
The resulting isometric view is:
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Reposition a view on the drawing sheet
You can adjust the position of a view by dragging it.
Verify that the Select command on the Home tab>Select group is active.
1. Position the cursor over the view you want to move, so that it highlights and the
cursor changes to a circle.
2. Hold the left mouse button while you drag the view.
3. Release the mouse button.
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Use the technique described above to adjust the spacing of the views on the drawing.
When you drag the Front or Top view, the other view moves with it to maintain proper
drawing view alignment.
For the third-angle projection, position the views as shown.
When you move one of the primary views, such as Front, Right, or Top, drawing view
alignment lines are displayed to help you maintain proper view alignment on the drawing
sheet. This is also true for section and auxiliary views.
You can temporarily disable drawing view alignment by right-clicking the view, and then
clearing the Maintain Alignment setting on the shortcut menu. This enables you to
reposition the view independently on the drawing sheet. The section view remains
completely associative to the original part.
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Create a detail view
It requires just three clicks to create a detail envelope and place a detail view using
default properties for envelope shape, caption, and scale.
On the Home tab>Drawing group, click the Detail button.
In the Side view, click the center of the area where you want to create the detail. This is
the center of the circular detail envelope.
For this tutorial, click the center of the notch. (1)
Move the cursor to the side, and then click to specify the diameter of the circular detail
envelope. (2)
The detail view envelop now is attached to the cursor. Move the cursor to position the
detail view where you want it on the drawing, and then click. (3)
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Before you create the detail view, you can change the default settings on the Detail View
command bar.
1. The default detail view scale is two times the scale of the view it was derived
from. You can change the Scale before you place it, or you can change the scale
later.
2. The default detail envelope shape is a circle, but you can draw a user-defined
envelope shape using the Define Profile option.
3. The default detail view updates with changes to the view it is derived from. You
can select the Independent Detail View option to create a detail view that is
independent of the source view.
Show the scale of the detail view
The detail view caption is displayer automatically on the drawing, but the view scale is
not.
Verify that the Select command on the Home tab>Select group is active.
On the drawing sheet, click the detail view. On the Select command bar, click the Show
Scale button.
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The drawing view updates immediately to display the drawing scale.
After you place the detail view, you can change its properties by clicking the view and
then using the options on the Select command bar.
1. You can edit the default caption and control its visibility.
2. You can control the visibility of the source view annotation.
3. You can change the default settings for detail view creation by editing its
properties.
4. You can adjust the area shown in the detail view by selecting the detail envelope
on the source view and moving it.
5. You can change the shape and size of the detail view by double-clicking the
envelope on the source view, and then using the 2D geometry modification
handles to change it. When you are done, you need to click Close Detail Envelope
on the ribbon.
Move the detail view
To make room for a section view, use the technique you learned previously to adjust the
position of the Detail A view and its source, the Side view.
Verify that the Select command on the Home tab>Select group is active.
If you are using third-angle projection, adjust the position and spacing so that the drawing
looks like this.
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Save the file
On the Quick Access toolbar at top-left of the application window, click the Save
button to save your work.
Draw a cutting plane line for a section view
Creating a section view is a simple, three-step procedure:
1. Draw a cutting plane line.
2. Specify the section view direction.
3. Create the section view using the cutting plane line.
On the Home tab>Drawing Views group, click the Cutting Plane
command.
On the drawing sheet, click the Top view. The command bar displays the 2D drawing
options. The Line command is active.
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Zoom in on the view. One way to zoom in is to click the + button on the Zoom slider at
bottom-right of the application window, or drag the slider to the right.
Draw the cutting plane line horizontally through the two holes in the part, as shown
below.
As you draw, notice that IntelliSketch is active, so you can locate the centers of the holes
as you draw the lines.
1. Place the cursor on a hole, but do not click. Notice that the circle highlights and
that a center mark appears at the center of the circle. Now, move the cursor to the
right or left of the view, and then click to start the line.
2. Move the cursor to the opposite side, making sure the horizontal indicator is
displayed, and then click.
3. Right-click to end the line.
On the ribbon, click Close Cutting Plane. The cutting plane line options are
hidden.
Specify the section view direction
In the Top view of the drawing sheet, move the cursor above and below the cutting plane
line, and notice that the section view direction arrows flip as the cursor crosses the cutting
plane line.
For third-angle projection, move the cursor so the section view direction arrows point up,
and then click.
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On the status bar at the bottom of the application window, click Fit.
Create a section view
You use the cutting plane defined previously to create the section view. You cannot use a
cutting plane in more than one view.
In the Home tab>Drawing group, select the Section command.
Click the cutting plane line you created previously. Click where you want to place the
section view. Press Esc to end the command.
A close-up of the section view annotation for third-angle projection looks like this:
If needed, select one or more views to adjust the spacing between them.
Turn off hidden line display in the section view
Click the Select command if it is not already active, and then click the section view.
On the Select command bar, click the Properties button. The High Quality View
Properties dialog box is displayed. Click the Display tab.
Clear the check mark in front of the Hidden Edge Style option.
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You may see a dialog box that explains that the change to the display settings you just
made affects the default part edge display settings for this drawing view. Click OK.
Click OK to close the dialog box.
Click the Fit button.
Save the file
On the Quick Access toolbar at top-left of the application window, click the Save
button to save your work.
Edit a hole feature in the model
You can make a design change to the part model by opening the part model from a
drawing view.
In this tutorial, we will change the diameter of a hole procedural feature using its edit
definition handle. While procedural features and their respective edit definition handles
are specific to synchronous models, you can edit a hole in a traditional part model, too.
Place the cursor on the edge of the Front view so that it highlights, and double-click.
The part model document is opened for editing.
Click the Fit button to fit the part model to the window.
Place the cursor on the hole feature shown below, so that the cylinder highlights, and then
click to select it.
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Notice where the cursor is in this illustration. Click this edit definition handle, which
looks just like text.
The edit definition handle is activated, and a dialog box is displayed near the selected
text.
In the Counterbore Diameter box, type 20, and then press Enter.
On the Quick Access toolbar, click Save to save the part model.
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On the ribbon, click the X button to close the part document.
The draft document is displayed.
Update the drawing views
The gray shaded outline around each drawing view means the view is out of date. Your
change to the model hole diameter caused the drawing views to go out of date.
In the Choose tab>Assistants group, select Drawing View Tracker.
The Drawing View Tracker lists all of the views on the drawing. This icon indicates that
a view is out of date:
As you move your cursor down the list, the view highlights on
the drawing sheet.
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Click the Update Views button at the bottom of the dialog box to update all of the
views at once.
Observe the following:
1. In the Drawing View Tracker, the out-of-date icon in front of each drawing view
name has been replaced by this icon:
2. On the sheet, the gray outline around each of the drawing views is gone.
If our drawing contained dimensions, then the Dimension Tracker would be displayed to
show the dimensions that were affected by our design change. On complex drawings,
Dimension Tracker makes it easy to track dimensional changes and annotations whose
positions have changed.
Close the Drawing View Tracker.
You can use the Details button on the Drawing View Tracker to get much more
information about what has changed and why. The Details button displays the Details
box, which shows details for the model or drawing view selected in the Drawing View
Status box.
1. When a model is selected, the current state of the model is displayed, such as
whether the model has been modified or is missing.
2. When a view is selected, the current representation of the drawing view with
respect to the current model is displayed.
3. You can highlight assemblies, subassemblies, and parts by clicking them in the
Details box. The highlight is displayed in all views on the active sheet.
4. You can turn assembly display on and off by right-clicking on assemblies or
associated parts and selecting Show Entire Assembly from the shortcut menu.
5. You can turn assembly display on and off by right-clicking on an assembly or
associated part and selecting Show Entire Assembly from the shortcut menu.
6. You can open files directly from the Drawing View Tracker to view or modify
them. Right-click on a file name in the Details box and select Open from the
shortcut menu.
To learn about the tools provided to track and review design changes in drawing views,
see these topics in online Help:
1. Drawing view updates
2. Drawing View Tracker
Result
For third-angle projection, your drawing view arrangement should be similar to:
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On the Quick Access toolbar at top-left of the application window, click the Save
button to save your work.
Dimension the drawing views
You will begin by dimensioning the Detail view to learn how to use the SmartDimension
command.
Then, you will retrieve dimensions from the part model as a starting point for
dimensioning these views:
1. Top view
2. Front view
Cleanup—You will delete the unneeded dimensions retrieved from the model, and adjust
the placement of those that remain.
Finally, you will add some different types of dimensions, as well as all of the other
annotations.
When you are finished, your drawing will be fully detailed, like this one:
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Zoom in on the Detail view
On the status bar at the bottom of the window, click the Zoom Area button.
Click once above and to the left of the Detail view, and then drag the cursor below and to
the right of the view, as shown below.
Release the mouse button.
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When you release the mouse button, the view zooms into the area enclosed by this
rectangle.
Right-click to exit the Zoom Area command.
1. If you right-click to end the command, you can return to a command in progress
without interrupting it.
2. If you press Esc to end the command, then you also cancel any other command in
progress.
Dimension the detail view
On the Home tab>Dimension group, select the SmartDimension command.
Dimension the width of the notch on the detail view:
1. Click the line at the top of the notch, and then move the cursor above the notch.
Notice that projection lines, dimension arrows, leader lines, and the dimension
text reposition dynamically, depending on where you move the cursor.
2. Position the dimension as shown in the illustration, and click to place it.
Dimension the depth of the notch on the detail view:
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1. Click the line at the side of the notch, and then move the cursor to the side.
2. Position the dimension as shown in the illustration, and click to place it.
Before you click to place a dimension, you can affect how the dimension text and arrows
are placed. Your cursor position dynamically determines where the dimension, extension
lines, and dimension text will be located.
For example, if you move the cursor above or below the extension lines, the text and
arrows will be placed outside the dimension lines.
To make the dimensions easier to read, you can change the dimension text size on the
command bar.
For example, select a dimension extension line, and in the Text Scale box, type 2, and
press Enter.
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You can change dimension text size before you place a dimension, and all dimensions
you place without exiting the command will keep the new size. You can select an existing
dimension and change its size individually.
Fit the drawing sheet to the window
On the status bar at the bottom of the application window, click Fit.
The drawing sheet is fitted to the window.
Save the file
On the Quick Access toolbar at top-left of the application window, click the Save
button to save your work.
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Retrieve dimensions from the model
On the Home tab>Dimensions group, select the Retrieve Dimension command.
Click the Front view. The dimensions are copied from the model to the drawing view, as
shown here.
Now click the Top view to retrieve its dimensions. Do not retrieve the dimensions for
the section view. They are not needed for this tutorial. Press Esc to end the command.
Your drawing should look like the one shown here.
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Save the file
On the Quick Access toolbar at top-left of the application window, click the Save
button to save your work.
Place center lines in the section view
You can add a center line annotation to a hole using the Center Line command.
Zoom in on the section view:
1. Click the Zoom Area button
, and size the area around the section view.
2. Right-click to exit the Zoom Area command.
Verify the IntelliSketch setting for placing a center line:
1. Click Sketching tab>IntelliSketch group.
2. Ensure the Mid (for Midpoint) check box
is selected.
Place a center line on the hole with a counterbore:
1. On the Home tab>Annotation group, select the Center Line command.
2. Move the cursor over the line at the of the bottom of the counterbore hole, and
when the midpoint relationship indicator appears
, click on it.
3. Click at the midpoint of the top of the hole to complete the center line.
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The Center Line command is still active for you to add another center line:
1. Move the cursor over the line at the bottom of the hole on the right, and when the
midpoint relationship indicator appears , click on it.
2. Click at the midpoint of the top of the hole to complete the center line.
3. Press Esc to end the command.
For more relationships and dimensioning and drawing options, you can open the
IntelliSketch dialog box and review the Relationships page. To open the dialog box, click
the advanced options indicator on the IntelliSketch group:
Dimension the section view
You can add dimensions that are not shown in other views. You can have a dimension
reference a dimension in another view.
When you are done, the dimensioned section view should match the illustration at the top
of the page.
Add a dimension between two elements:
1. In the Home tab>Dimension group, select the Distance Between command.
2. Click the inside edge of the part. (1)
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3. Click the outside edge of the part. (2)
4. Move the cursor to position the dimension above the part, and then click to place
it.
5. Right-click to restart the Dimension Between command, without exiting it.
Dimension the depth of the notch using the still-active Dimension Between command.
1.
2.
3.
4.
Click the line at the bottom of the notch.
Click the line at the top of the notch.
Click to place the dimension, as shown below.
Press Esc.
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Create a reference between dimensions in two different views.
1. In the Home tab>Select group, select the Select command.
2.
Select the notch depth dimension, as shown below.
3. On the Edit Definition command bar, in the Tolerance group, click the Dimension
Type button.
4. From the Dimension Type list, select Reference.(X).
The dimension updates automatically to show the reference symbol ( ). This dimension
references a dimension in the Detail view.
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Dimension between center lines:
1.
2.
3.
4.
Choose the Distance Between command.
Click the center line of one hole, and then click the center line of the other hole.
Position the cursor above the part, and click to place the dimension.
Press Esc.
Click the Fit button
You can change dimension type and orientation using the options on the Tolerance group
on the Dimension command bar.
1. Dimension types control how the dimension displays, including related
tolerances. You can set the dimension type before or after you place a dimension.
2. You can change the orientation of dimensions placed with the Dimension
Between command and the Coordinate Dimension commands.
3. The By 2 Points option places dimensions parallel or perpendicular to a
theoretical line between the two points you are dimensioning.
4. The Horizontal/Vertical option places dimensions parallel or perpendicular to the
horizontal edge of the drawing sheet.
5. Use Dimension Axis places dimensions with respect to the element that you
specify using the Dimension Axis button. You can use this option when default
horizontal and vertical axes are not appropriate for the geometry that you are
dimensioning
To learn more about these options, see the Dimension Command Bar Help topic in online
Help.
Reposition views on the drawing sheet
You can adjust the position of views whenever you need to make room for dimensions
and annotations.
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Click the Select command
Use the technique described below to adjust the spacing of the Top view and the Front
view on the drawing. Dashed, red alignment lines keep the drawing views aligned as you
move them.
1. Position the cursor over the view so that it highlights and the cursor changes to a
circle.
2. Hold the left mouse button while you drag the view.
3. Release the mouse button.
Your drawing views should be spaced approximately like those shown below.
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Dimension the front view
Use the Distance Between, Angle Between, and SmartDimension commands to add
missing dimensions in the Front view.
Delete three unneeded dimensions in the Front view (19, 51, and 60 degrees) using the
technique illustrated below.
1. Click the dimension on one of its format handles: either the dimension line or an
extension line. Do not click the dimension text.
2. Press the Delete key.
Add a dimension between elements:
1. Choose the Distance Between command.
2. Place the cursor on the hole, and when the center point indicator is displayed
click. (1)
3. Click the part edge at the top of the notch.(2)
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,
4. Move the cursor to the left to position the dimension as shown below, and then
click to place it.
5. Press Esc.
Dimension the angle between the two top faces of the part.
1. In the Home tab>Dimension group, select the Angle Between command.
2. On the command bar, in the Properties group, select By 2 Points from the
Orientation list.
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3. Place the cursor on the line representing the angled face (1), and when the
midpoint indicator is displayed, click.
4. Place the cursor on the line representing the lower, notched face (2), and when the
midpoint indicator is displayed, click.
5. Click to place the radial dimension as shown below.
6. Press Esc.
Dimension the radius at the bottom of the part.
1. Click SmartDimension.
2. Position the cursor so the radius highlights, and then click.
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3. Click to position the dimension.
4. Press Esc.
The dimensioned Front view should match the illustration at the top of the page.
Adjust the position of dimensions
You can adjust the position of dimensions, dimension text, and dimension arrows. Cursor
placement determines how you manipulate a dimension.
Click the Select command. Adjust the position of a dimension as follows.
1. Place your cursor on the 48 dimension line.
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2. Press the left mouse button, and then drag the dimension closer to the part.
3. Release the mouse button.
Adjust the position of dimension text:
1. Place your cursor on the 48 dimension text.
2. Press the left mouse button, and then drag the dimension text outside the
extension lines.
3. Release the mouse button.
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Adjust the position of another dimension by moving the 105 dimension line so that it is
positioned above the part. Your Front view should be as follows:
Rather than move the dimension text, you can move the dimension arrows outside the
extension lines. Just drag either of the dimension arrows.
Use a callout to extract the hole size
In the Home tab>Annotation group, select the Callout command.
In the Callout Properties dialog box:
1. Click the Diameter button. (1)
2. Click the Hole Size button. (2)
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3. Click OK to continue.
On the command bar, select Leader and Break Line.
Place the callout.
1. In the Front view, click the hole.
2. Move the cursor so that the callout is positioned as shown in the illustration at
the top of the page, and then click.
Press Esc to end the command.
Place a feature control frame
Use the Feature Control Frame command to define the required tolerance on a feature.
Tolerance is specified with respect to letters (or characters) that reference other part
features. These are called datums.
In the Home tab>Annotation group, select the Feature Control Frame command.
On the command bar, click the Properties button to open the Feature Control Frame
dialog box.
In the Feature Control Frame dialog box, create the frame shown in the illustration
below, and then click OK to continue.
1. Click the appropriate buttons to generate the symbols.
2. Click the Divider button
to insert a vertical separator between symbols and
values.
3. Type the symbol values 0.3, B, A, and C. Click in the Content box at the location
you want the value to appear, and then type.
The Preview area at the right side of the dialog box shows how the annotation will
appear on the drawing.
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Place the Feature Control Frame without a leader below the hole diameter callout by
doing the following:
1. Clear the Leader option on the command bar.
2. Click in free space below the callout.
3. Position the Feature Control Frame as shown in this illustration, and then click to
place it.
4. Press Esc.
A feature control frame is composed of two or more rectangular compartments that
contain information about tolerances. The first block always contains a geometric
characteristic symbol. Subsequent compartments contain tolerance values and symbols
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representing part variations, such as maximum material condition.
A feature control frame has the following parts:
1. (A) Geometric characteristic symbol (required).
2. (B) Tolerance
3. (C) Datum reference. You can reference up to three datums in a feature control
frame. These represent the primary, secondary, and tertiary datums.
4. (D) Tolerance zone symbol
5. (E) Tolerance value
6. (F) Material condition symbol
Place a datum frame
Use the Datum Frame command to add datum frame A to the Front view. When you are
finished, the Front view should match the one at the top of this page.
In the Home tab>Annotation group, select the Datum Frame command.
On the command bar, do the following:
1. Clear the Leader and Break Line options.
2. In the Text box, type A.
In the drawing view, position the cursor on the line at the top of the notch, as shown
below. When the midpoint indicator is displayed, click the line.
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Move the cursor to the right of the part, and click to place the datum frame.
Press Esc.
Hold the Shift key and click the Fit button
.
This brings everything within the drawing border back into view, but not the drawing
sheet itself. When you are finished, the Front view should match the one the one shown
below.
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If you have trouble selecting exactly what you want among multiple elements, you can
use QuickPick. When you see the QuickPick symbol displayed near your cursor, rightclick.
Then, from the QuickPick list, click the element that you want to select. If there are
multiple elements with the same name, such as Line, move your cursor down the list and
watch as each one highlights in the window.
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The command you are using continues uninterruptedly, using the element you selected.
Save the file
On the Quick Access toolbar at top-left of the application window, click the
Save button to save your work.
Zoom in on the top view
Click the Zoom Area button, and then size the area around the Top view. Right-click to
exit the Zoom Area command.
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Adjust the position of retrieved dimensions in the top
view
In the Top view, adjust the positions of the retrieved dimensions to make room for new
dimensions and annotations. Use the illustration below as your guide.
Move dimensions by placing the cursor on the dimension line, and then dragging the
dimension. Move dimensions 67, 19 (top), 18, and 19 (left side).
Adjust the position of the dimension text by placing the cursor on the text, and then
dragging the text. Move the text in dimensions 19 (top), 18, and 19 (left side). Adjust
the placement of dimension arrows by placing the cursor on either arrow, and then
dragging it outside (or inside) the extension line.
1. At the top of the part, move the dimension 19 arrows to the right, so they are
outside the extension lines.
2. At the left side of the part, move the dimension 19 arrows up, so they are above
and outside the extension lines.
Fix the overlapping dimension arrows by changing terminator properties:
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1. Right-click dimension 19, and choose Properties from the shortcut menu.
2. In the Dimension Properties dialog box, click the Terminator And Symbol tab.
3. On the Terminator and Symbol page, in the Terminator area, change the Display
setting from Both to Origin, as shown below.
Now, only one of the dimension 19 arrows is displayed, removing the overlap with
dimension 18.
Dimension the top view
Add the missing dimensions to the Top view using the Distance Between and Chamfer
Dimension commands. The view should match the illustration below when you are done.
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Create a stacked dimension by doing the following:
1.
2.
3.
4.
5.
Choose the Distance Between command.
On the command bar, verify that the Orientation is set to By 2 Points.
Click the top line of the part. (1)
Place the cursor on the circle that represents the simple hole, so that it highlights.
Move the cursor to the middle of the circle, and when the center point indicator is
displayed, click to select it. (2)
6. Position the dimension as shown in the illustration below, and then click.
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7. Click the line at the bottom of the part, and then click to place the second
dimension in the stack, as shown below.
8. Press Esc.
Dimension one of two chamfered corners, adding a dimension prefix that references both
chamfers.
1. In the Home tab>Dimension group, select the Chamfer Dimension command.
2. Click the vertical line at the right side of the part, between the chamfered lines.
(1)
3. Click the bottom chamfer. (2).
4. On the command bar, in the Tolerance group, click Dimension Prefix.
5. In the Dimension Prefix dialog box, in the Prefix box, type 2X, click Apply, and
close the dialog box.
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6. Move the cursor to position the dimension as shown below, and then click to
place it.
7. Press Esc.
Extract simple and counterbore hole information
Use the Callout command with the Hole Callout option to extract hole diameter and other
information for the simple and counterbore holes. You can customize the information
shown in the hole callout annotation. You may need to move the Top view again to make
room for the annotations. The hole annotations in the Top view should match the
illustration below when you are done.
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Choose the Callout command.
In the Callout Properties dialog box, on the General page, click the Hole Callout button.
The Hole Callout option causes the callout to reference the predefined property text
strings on the Hole Callout page of the dialog box. The hole you select to place the
callout determines which string is used to extract information.
On the command bar, select Leader and Break Line.
Place the hole callout on the simple hole:
1. Click the circle representing the simple hole.
2. Move the cursor above and to the right of the part, and then click to place the
callout.
On the command bar, click the Properties button.
In the Callout Properties dialog box, customize the information to be extracted for the
counterbore hole. You will substitute symbols for the text 'C'BORE' and 'DEEP' on the
drawing.
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1. Click the Hole Callout tab.
2. In the Counterbore box, select the text C'BORE, and then click the Counterbore
button.
3. With your cursor still in the Counterbore box, press the right arrow key until you
see the text DEEP, and then double-click to select it.
4. Click the Depth button.
5. Close the dialog box to continue.
The property text strings you see in the following illustrations should match what you
have.
1. This string replaces the text C'BORE with the counterbore symbol:
2. This string replaces the text DEEP with the Depth symbol:
Place the callout on the counterbore hole.
1. Click the outer circle representing the counterbore hole.
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2. Move the cursor above the part, and watch the annotation flips based on your
cursor position. Move it slightly to the right of the hole, so the annotation is
oriented as shown below, and click to place it. (1)
3. Press Esc.
4. Select the annotation leader at the jog, and drag it to a better position. (2)
Finish annotating the top view
Use the Feature Control Frame command and the Datum Frame command to finish
annotating the Front view. It should look like the illustration below when you are done.
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Add datum frame B to the Top view.
1. Choose the Datum Frame command.
2. On the command bar, do the following:


Clear the Leader and Break Line options.
In the Text box, type B.
3. Place datum frame B, as shown below.
4. In the Text box, type C.
5. Place datum frame C, as shown below.
6. Press Esc.
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Add a Feature Control Frame to the simple hole and the counterbore hole.
1. Choose the Feature Control Frame command.
2. On the command bar, do the following:

Clear the Leader option.

Click the Properties button.
3. In the Feature Control Frame dialog box, use the buttons and type to create the
frame for both holes in the Top view, as shown below.
4. Place the annotation using the simple hole callout by doing the following:


Click the hole callout to activate it.
Position the Feature Control Frame below the callout, and then click to place
it.
5. Use the same technique to place the feature control frame using the counterbore
hole callout.
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6. Press Esc.
Click Fit
Save and finish
Your fully detailed drawing should look like the one below.
.
Save your work and obtain a print out.
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Congratulations!
You have completed the Detailing Drawings tutorial. To summarize, you have learned
how to do the following:
1. Retrieve dimensions from the model.
2. Add new dimensions to the drawing views, such as:
1. SmartDimension
2. Distance Between
3. Chamfer Dimension
3. Modify the format of dimensions.
4. Add a variety of annotations:
1. Smart Hole callouts
2. Datum frames
3. Feature control frames
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