Defining a New Dimension Style

Dimension styles have many components, so the process of defining a dimension style is complex. Your task is organized for you by the tabs of the dialog box.

When you click Continue in the Create New Dimension Style dialog box, a second New Dimension Style dialog box opens, as shown in Figure 15-3.

Figure 15-3: The New Dimension Style dialog box with the

Lines tab displayed.

The New Dimension Style dialog box has the following tabs:

Lines: Sets specifications for dimension lines and extension lines.

Symbols and Arrows: Sets specifications for arrowheads, center marks, the arc length symbol and the jog angle for dimensioning large radii.

Text: Determines the appearance, placement, and alignment of dimension text.

Fit: Sets how text and arrows fit inside narrow dimensions, as well as where text is placed when it doesn’t fit in its default position. This tab also allows you to set the scale factor for dimension features, and whether to place a dimension line inside narrow dimensions.

Primary Units: Determines the format and precision for the primary measuring unit for both linear and angular dimensions.

Alternate Units: Determines the format and precision for secondary units, if turned on (such as metric measurements if your primary units are English, or vice versa).

Tolerances: Formats tolerances.

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Managing dimension lines

An important part of defining a dimension style is specifying how the dimension lines and extension lines look, which you do on the Lines tab of the New Dimension Style dialog box. In Chapter 14, Figure 14-1, I illustrate the parts of a dimension. Refer to that figure if you need a refresher.

Dimension lines

To set the color of the dimension line so that it differs from that of the rest of the dimension, click the Color drop-down list and choose a color. Choose Select Color to open the Select Color dialog box if you want to use a nonstandard color. Remember, a dimension is a block — that is, it is one object. The default color is ByBlock so that dimensions take on the color of the current layer or color setting. In general, you should have a separate layer for dimensions, so that the entire dimension is the color set for that layer. Use this setting only if you want the dimension lines to be a different color from your dimension layer color. The arrowheads do not have a separate color setting and always follow the dimension-line setting.

To specify a linetype for a dimension, choose one from the Linetype drop-down list. If the linetype that you want isn’t on the list, then you need to load it. To do this, choose Other to open the Select Linetype dialog box. (For more information on loading linetypes, see Chapter 11.)

The default lineweight is ByBlock, which means that the lineweight will follow the lineweight of the dimension’s layer.

To set a lineweight for the dimension line, click the Lineweight drop-down list and choose a lineweight. In general, you want your objects to stand out, so dimensions should have a lineweight the same as or lower than the objects that you’re dimensioning.

The Extend Beyond Ticks text box determines how far the dimension lines extend past the extension lines. When you have arrowheads at the ends of the dimension lines, the Extension option is unavailable. However, if you choose Architectural Tick, Oblique, Dot Small, Integral, or None in the Arrowheads section of the dialog box, the Extend Beyond Ticks option becomes available. This type of extension is typical for architectural drafting. Figure 15-4 shows a dimension with an architectural tick and a 0.1-unit extension.

The Baseline spacing text box determines the distance between successive dimension lines when you create baseline dimensions. This specification creates evenly spaced dimension lines.

In some dimension styles, the dimension text splits the dimension line into two parts, as shown in Figure 15-5. This creates two dimension lines. You can suppress — that is, turn off — the first or second dimension line (or both dimension lines) by checking the appropriate box (or boxes). The first line is nearest where you specified the first extension-line origin. (If you selected an object instead of specifying two extension-line origins, you may not be able to predict which dimension line is the first and which is the second. Experiment.) You would usually suppress dimension lines when they interfere with other dimensions or with objects in your drawing.

Extension

Architectural tick

Figure 15-4: A typical architectural dimension showing the text above one dimension line, an architectural tick, and the dimension line extending slightly beyond the extension lines.

Figure 15-5: A typical mechanical dimension with text splitting two dimension lines.

Extension lines

As with dimension lines, you can pick a color for the extension lines that differs from that of the rest of the dimension. Click the Color drop-down list and choose a color. Choose Select Color to open the Select Color dialog box if you want a nonstandard color. The default color is ByBlock so that extensions take on the color of the current layer or color setting.

You can now choose a separate linetype for each extension line. Choose the linetype that you want from the drop-down lists. If the linetype that you want isn’t listed, click Other to open the Select Linetype dialog box, where you can load the linetype that you need.

Extension lines typically extend slightly past the dimension line, as you can see in some of the figures in this chapter. Use the Extend Beyond Dim Lines text box to specify this extension distance.

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Extension lines don’t usually touch the object that they dimension to make it easier to distinguish the dimension from the object. Use the Offset from Origin text box to define the distance from the specified points on the object to the extension lines.

Extension lines usually vary in length throughout a drawing, depending on the shape of the objects that you’re dimensioning. However, sometimes you may want the extension lines to all be the same length, even if they don’t reach near their objects. This method avoids dimension lines crossing each other when you’re dimensioning a complex shape.

To specify fixed-length dimension lines, check the Fixed Length Dimension Lines check box and specify the length in the Length text box.

You can suppress the first or second extension line (or both lines) so that either or both are not visible. To do this, check the appropriate box (or boxes). Figure 15-6 shows a dimension with the first extension line suppressed.

Figure 15-6: A dimension with the first extension line suppressed.

Defining symbols and arrows

A new tab in the New Dimension Style dialog box, Symbols and Arrows, organizes your settings related to arrowheads and certain dimension-related symbols, as shown in Figure 15-7. Many of these settings were previously on the first tab.

Defining arrowheads

The Arrowheads section controls the arrowheads at the ends of dimension lines. You don’t actually have to use arrowheads, as you saw in Figure 15-4. You can also set the first and second arrowheads individually. However, if you change the first arrowhead, the second one follows suit, assuming that you want both ends of the dimension to look the same. To make them different, specify your choices in the first drop-down box and then in the second dropdown box.

Figure 15-7: The new Symbols and Arrows tab lets you define arrowheads and fine-tune dimension symbols.

You can create and use your own arrowhead:

1.In any drawing, create the arrowhead that you want with a unit size of 1.

2.Make a block out of it. For an arrow-shaped block, pick the point of the arrow for the insertion point and create it pointing to the right. You may have to experiment with the right insertion point. Save the block. (See Chapter 18 for instructions on creating blocks.)

3.In the first and second drop-down lists, choose User Arrow. The Select Custom Arrow Block dialog box opens, displaying the blocks available in the drawing.

4.Choose the block that you want from the drop-down list.

5.Click OK.

Figure 15-8 shows a dimension with a user arrow.

Figure 15-8: A dimension with a user arrow.

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Set the size of the arrowhead in the Arrow Size text box. As explained later in this chapter in the discussion of scale, you should use the final size that you want to see when the drawing is plotted on paper.

Defining symbols

The Center Marks section of the New Dimension Style dialog box specifies how you want to mark the centers of arcs and circles when you choose Center Mark from the Dimension toolbar (the DIMCENTER command). In the Center Marks section, choose Mark to create a small cross, Line to create a cross plus four lines that cross, or None. Figure 15-9 shows a circle with centerlines and an arc with a center mark.

Specify the size of the center mark or centerline in the Size text box. For center marks, the size is the distance from the intersection of the two lines to their endpoints. If you use centerlines, the size also determines the distance from the circle quadrants to the end of the centerlines.

Because the Standard dimension style is closest to mechanical drafting standards, in the following exercise (and others in this chapter), you start to create an architectural dimension style using the Standard style as a base. This requires you to make a maximum number of changes, thereby letting you become as familiar as possible with the dimension style settings. Here you practice controlling dimension lines and arrows.

Figure 15-9: A circle with a centerline and an arc with a center mark.

The new Arc Length Symbol section is for specifying the location of the symbol used when you dimension arc lengths. By default, the symbol goes before the dimension value, but you can choose to put it on top or omit it completely.

The Radius Dimension Jog section lets you specify the angle used when you create a jogged dimension for circles or arcs with large radii. A jogged dimension is a small dimension that doesn’t reach to the center of the circle or arc. For more information on the new jogged dimensions, see “Creating radial dimensions” in Chapter 14.

STEPS: Controlling Dimension Lines and Arrows

1.Open ab15-a.dwg from your CD-ROM.

2.Save the file as ab15-01.dwg in your AutoCAD Bible folder. This drawing is an elevation of a garage, as shown in Figure 15-10. ORTHO and OSNAP should be on. Set running object snaps for endpoint and intersection. The Dim layer is current. If the Dimension toolbar is not visible, right-click any toolbar and choose Dimension.

3.To see what the Standard dimension style looks like, choose Linear Dimension from the Dimension toolbar. At the Specify first extension line origin or <select object>: prompt, pick 1 in Figure 15-10. At the Specify second extension line origin: prompt, pick 2. At the Specify dimension line location or [Mtext/ Text/Angle/Horizontal/Vertical/Rotated]: prompt, pick a location for the dimension line below the line that you dimensioned. The arrows and text are so small that you can’t even see them.

4.Use a Zoom Window to zoom in on 1 and the left end of the dimension. Choose Zoom Previous from the Standard toolbar. Zoom in on the center of the dimension to see the text. Choose Zoom Previous again. As you can see, this dimension needs some modification.

5.Choose Dimension Style from the Dimension toolbar. The current dimension style should be Standard. Click New. In the New Style Name text box, type Arch 48 and click Continue.

6.Click the Symbols and Arrows tab if it isn’t on top. In the Arrowheads section, choose Oblique from the first drop-down list. The size should be 3/16".

7.Click the Lines tab. In the Dimension Lines section, type 3/32 in the Extend beyond Ticks text box. (Because of the units precision setting — set by choosing Format Units — this value is rounded off to 1/8" in the display, although the value is still 3/32.) Click OK to return to the Dimension Style Manager.

Figure 15-10: The garage elevation.

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8.In the Dimension Style Manager, notice that the arrows have been changed to ticks in the preview. Click Set Current, and then click Close.

9.Select the dimension that you created in Step 3. In the Dim Style Control drop-down list on the Dimension toolbar, choose Arch 48. The dimension now has the geometry settings that you just made. To check it out, do a Zoom Window to the left end of the dimension. You can see that the oblique mark has replaced the arrow. Do a Zoom Previous.

10.Save your drawing. Keep this drawing open if you’re continuing on to the next exercise.

Managing dimension text

You can format the text of the dimension for readability and to match other text in your drawing. In the New Dimension Style dialog box, the Text tab, shown in Figure 15-11, controls text appearance, placement, and alignment.

Text appearance

You have full control over dimension text appearance, as you do over any other text in your drawing. To specify a text style for your dimension text, choose a text style from the Text style drop-down list. You may want to create a special text style, such as Dim Text for dimension text, to give you the flexibility to alter dimension text without changing other text in your drawing. Create the dimension text style before creating your dimension style.

Figure 15-11: The Text tab of the New Dimension Style dialog box.

Choose a color from the Text color drop-down list. You can pick a color for the dimension text that differs from that of the rest of the dimension. The default color is ByBlock so that dimensions take on the color of the current layer or color setting. Use this setting only if you

want the dimension text to be a different color from your dimension layer color. To choose a nonstandard color, choose Select Color from the drop-down list to open the Select Color dialog box.

Choose the height for your dimension text. When you set the text style height to zero, you can set the height in the New Dimension Style dialog box. Otherwise, the text style height takes over. It’s much easier to make all of your dimension style adjustments in one place than to make changes in the text style as well.

If your unit type uses fractions, use the fraction height scale to set a ratio of fraction text to whole text. This option is available only if your units specify the use of fractions. You may want the fractions to be smaller than whole numbers. A scale of 0.5 makes the fractions half the size of whole numbers; the resulting overall fraction is slightly higher than the whole numbers of the dimension text.

Text placement

The Vertical drop-down list affects how text is justified relative to the dimension line. As you make changes, be sure to look at the preview to see whether the results are what you want. You have the following options:

Centered: Centers the text in the dimension line, breaking the dimension line into two. This is typical for mechanical drafting. You can see an example in Figure 15-5.

Above: Places text above the dimension line. This is typical for architectural drafting. You can see an example in Figure 15-4.

Outside: Places the text on the side of the dimension line that is farthest from the object that you’re dimensioning.

JIS: Places text in conformation to the Japanese Industrial Standards rules, which vary the placement according to the angle of the dimension line.

The Horizontal drop-down list affects the placement of dimension text between the extension lines. Here again, you have a handy visual confirmation of your choice. You have the following choices:

Centered: This is the default. It centers text between the two extension lines.

At Ext Line 1: Places the text next to the first extension line. The first extension line is always the first point that you specified at the Specify first extension line origin or <select object>: prompt. The picture and the words Horizontal Justification can be especially confusing for vertical dimensions. If you aren’t consistent in how you pick your dimensions, you can get some strange results.

At Ext Line 2: Places the text next to the second extension line. The comments for the previous option apply to this option as well.

Over Ext Line 1: Places the text over the first extension line. The comments for the At Ext Line 1 option apply to this option as well.

Over Ext Line 2: Places the text over the second extension line. The comments for the At Ext Line 1 option apply to this option as well.

Use the Offset from dim line text box to set the gap between the dimension text and the dimension line. If the dimension line is broken, the gap is the space between each side of the dimension text and the two dimension lines. If the dimension line is unbroken and the text is above

416 Part II Drawing in Two Dimensions

the line, the gap is the space between the bottom of the text and the dimension line. The gap also controls the space between the box created for Basic tolerance dimensions and the text inside them. Basic tolerances are discussed in the “Formatting tolerances” section later in this chapter.

Tip When trying to fit dimension text, lines, and arrows in a narrow space, AutoCAD and AutoCAD LT also use the gap to calculate the minimum space required on either side of the dimension text. Therefore, reducing the gap can help fit more of the dimension elements between the extension lines.

Text alignment

Different disciplines have different standards for aligning dimension text. The Text Alignment section of the Text tab affects how the text is aligned relative to the dimension line, as follows:

STEPS: Defining Dimension Text

1.If ab15-01.dwg is open from the previous exercise, use it for this exercise as well. Otherwise, open ab15-01.dwg from the Results folder of the CD-ROM. ORTHO and OSNAP should be on. Set running object snaps for endpoint and intersection. The Dim layer is current. If the Dimension toolbar is not visible, right-click any toolbar and choose Dimension.

2.Save the file as ab15-02.dwg in your AutoCAD Bible folder.

3.Choose Dimension Style from the Dimension toolbar. The Arch 48 dimension style should be current. Choose Modify to continue working on the Arch 48 dimension style. Click the Text tab.

4.In the Text Appearance section, choose ROMANS as the text style.

5.In the Text Placement section, choose Above from the Vertical drop-down list.

6.In the Text Alignment section, choose Aligned with dimension line. Although mechanical dimensions usually require horizontal text, architectural dimensions require that the text be aligned with the dimension line.

7.Click OK and then click Close to update the dimension to include the changes. The text is still too tiny to see clearly.

8.Save your drawing. Keep this drawing open if you’re continuing on to the next exercise.

Fitting dimensions into tight spaces

When there is not enough room to place the arrowheads, dimension line, and text between the extension lines, some elements of the dimension need to go outside the extension lines. The Fit tab, shown in Figure 15-12, lets you specify how you want to handle this situation.

Figure 15-12: The Fit tab of the New Dimension Style dialog box.

Fit Options

The Fit Options section determines which elements are moved outside the extension lines — text, arrows, or both — when they can’t fit inside the extension lines. These are among the hardest of the dimension styles options to understand, yet they can greatly affect how your dimensions appear.

Here are your choices:

Either Text or Arrows (Best Fit): Puts whatever fits inside the extension lines. The arrowheads might fit inside and the text might not, or the other way around. If there isn’t enough room for either text or arrows, then they both go outside the extension lines. Figure 15-13 shows a dimension using this option.

418 Part II Drawing in Two Dimensions

Figure 15-13: A narrow dimension using the Either Text or Arrows (Best Fit) option.

Arrows: If there is not enough room for both the text and the arrows between the extension lines, the arrows go outside and the text goes between them. Figure 15-14 shows a dimension using this option. The results of this option happen to look the same as Figure 15-13, but a different setting produced them.

Figure 15-14: A narrow dimension using the Arrows option.

Text: If there isn’t enough room for the text and the arrows between the extension lines, the text goes outside and the arrows go between them. Figure 15-15 shows a dimension using this option.

Figure 15-15: A narrow dimension using the Text option.

Both Text and Arrows: Keeps the text and arrows together — between the extension lines if there is enough room, and outside the extension lines if there is not. Figure 15-16 shows a dimension using this option.

Figure 15-16: A narrow dimension using the

Both text and arrows option.

Always Keep Text between Ext Lines: As it says, this option always keeps the text between the extension lines, even if they don’t fit. Figure 15-17 shows a dimension using this option.

Figure 15-17: A narrow dimension using the

Always keep text between ext lines option.

Suppress Arrows If They Don’t Fit inside the Extension Lines: Use this check box to suppress the display of arrows completely if they don’t fit inside the extension lines (instead of putting them outside). This option is used together with one of the previous options. Figure 15-18 shows a dimension using this option with the Either Text or Arrows (Best Fit) option.

Figure 15-18: A narrow dimension using the Suppress Arrows if They Don’t Fit inside the Extension Lines option along with the Either Text or Arrows (est Fit) option.

Text Placement

The Text Placement section determines where you want the dimension text when it isn’t in its default position, due to a tight fit. Your options are:

Beside the Dimension Line: Places the dimension text next to the dimension line, but outside the extension lines. Figure 15-19 shows a dimension using this option, as well as the same dimension edited to move the text off the model. You can move the text anywhere to the left or the right of the dimension line, but not above or below it. Editing dimensions is covered later in this chapter.

420 Part II Drawing in Two Dimensions

Figure 15-19: Dimension text is placed beside the dimension line when it doesn’t fit inside the extension lines. You can move the text from side to side. On the right, the text has been moved to the right slightly so that it doesn’t cross the model.

Over Dimension Line, with Leader: Places the dimension text over the dimension line and between the extension lines, but above them, with a leader from the dimension line to the text. You can move the text anywhere to suit your needs and dimensioning conventions, as shown in Figure 15-20.

Figure 15-20: Dimension text is placed over the dimension line with a leader. On the right, the text has been moved to the right of the model.

Over Dimension Line, without Leader: Places the dimension text over the dimension line and between the extension lines, but above them, with no leader, as shown in Figure 15-21. You can move the text anywhere.

Figure 15-21: Dimension text is placed over the dimension line without a leader.

Scale for Dimension Features

The Scale for Dimension Features section lets you specify the scale factor. The scale factor adjusts the size of dimension text (unless a nonzero text style height controls the text), arrowheads, spacing, and so on. It has no effect on the content of dimension text — that is, it does not affect actual measurements. So many size options are possible in a dimension style that you could spend all day trying to multiply each size option by the scale. Then, if you have to change the scale of the drawing, you would need to recalculate all of the size specifications. Setting the Overall Scale factor makes your life easier because AutoCAD or AutoCAD LT automatically multiplies every size specification by the scale factor.

In the Fine Tuning section, if you check the Place Text Manually option, the horizontal text placement settings are ignored, and the point that you pick at the Specify dimension line location or [Mtext/Text/Angle/Horizontal/Vertical/ Rotated]: prompt is used. Before you click, as you move the cursor along the dimension line, you can see the text following the cursor.

Check the Draw Dim Line Between Ext Lines option to force a dimension line between the extension lines, even when there isn’t room for text or arrows, as shown in Figure 15-22.

Figure 15-22: A dimension with a dimension line forced.

STEPS: Setting Dimension Fit

1.If ab15-02.dwg is open from the previous exercise, use it for this exercise as well. Otherwise, open ab15-02.dwg from the Results folder of the CD-ROM. ORTHO and OSNAP should be on. Set running object snaps for endpoint and intersection. The Dim layer is current. If the Dimension toolbar is not visible, right-click any toolbar and choose Dimension.

2.Save the file as ab15-03.dwg in your AutoCAD Bible folder.

3.Choose Dimension Style from the Dimension toolbar. Make sure that the Arch 48 dimension style is current. Choose Modify to continue working on the Arch 48 dimension style.

422 Part II Drawing in Two Dimensions

4.On the Fit tab, in the Text Placement section, choose Over Dimension Line, with Leader.

5.In the Fine Tuning section, check Draw Dim Line Between Ext Lines. Architectural dimensions customarily place a line between the extension lines, even if the text cannot fit.

6.Because the drawing’s scale is 1⁄4"=1', or 1:48, type 48 in the Use Overall Scale Of text box.

7.Click OK. Click Close to return to your drawing.

8.Save your drawing. You can finally see the dimension! It should look like Figure 15-23. Keep this drawing open if you’re continuing on to the next exercise.

Figure 15-23: As a result of changing the overall scale, you can finally see the dimension.

Defining primary units

The primary units define the type of units used to display the dimension in your drawing. You need to set primary units separately from the units for the drawing, which affect coordinate display but not dimensions.

Click the Primary Units tab, shown in Figure 15-24, to set the format and precision for linear and angular dimensions. You should already be familiar with setting units, which I discuss in Chapter 5. You must set your units for dimensions separately.

Figure 15-24: The Primary Units tab of the New Dimension

Style dialog box.

Linear Dimensions

To get the look and accuracy that you want, you should specify the format and precision of your linear dimensions. The Linear Dimensions section provides settings for linear dimensions. You have the following options:

Choose a format from the Unit format drop-down list. You have the same choices as in the Drawing Units dialog box: Scientific, Decimal, Engineering, Architectural, and Fractional, as well as an additional option, Windows Desktop.

Choose a precision (the number of decimal points or the fraction denominator) from the Precision drop-down list.

Choose a fraction format from the Fraction Format drop-down list. This option is available only if the format that you chose uses fractions. Horizontal places a horizontal line between stacked numerators and denominators. Diagonal uses a diagonal slash between the stacked numerator and denominator. Not Stacked uses a diagonal line between the numerator and denominator, which are not stacked. You can see the effect of each choice in the preview box.

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Choose a decimal separator. This option is available only if the format that you chose uses decimals. You can choose from a period, a comma, and a space.

Use the Round Off text box to round off linear dimension distances. For example, you can round to the nearest 0.1 unit or 1⁄2 inch.

Use the Prefix and Suffix boxes to add a prefix or suffix that you want to place before or after every dimension. For example, you might want to add a suffix of mm after every dimension if you’re measuring in millimeters and giving the drawing to a client who usually sees dimensions in inches.

You can use the Scale Factor text box to set a scaling factor for linear dimensions, including radial and diameter dimensions, and ordinal dimensions. This factor changes the actual measurement text. For example, if you draw a line 2.5 units long and you specify a linear scale of 0.5, the object is dimensioned as 1.25 units. You could set this scale to 25.4 to use metric measurements on a drawing that you have created with U.S. measurements. This can occur if you’re sending the same drawing to certain clients in the United States and other clients elsewhere in the world. You can also use this scale in conjunction with alternate units, as explained in the next section.

Check the Apply to Layout Dimension Only option to apply the linear scaling factor only to layout (paper space) dimensions.

In the Zero suppression section, choose whether you want to suppress leading and trailing zeros. If you suppress leading zeros, a number such as 0.375 appears as .375. If you suppress trailing zeros, a number such as 3.7500 appears as 3.75.

For architectural units, you can choose to suppress 0 feet and 0 inches. If you suppress 0 feet, a number such as 0'-8" becomes 8". If you suppress 0 inches, a number such as 6'-0" becomes 6'.

Angular Dimensions

To get the look and accuracy that you need for angular dimensions, you should also set their format and precision. The Angular Dimensions section of the Primary Units tab lets you format angular measurements. You have the following options:

Choose from Decimal Degrees, Degrees Minutes Seconds, Gradians, and Radians.

Choose a precision from the Precision drop-down list.

In the Zero Suppression section, choose whether you want to suppress leading and trailing zeros for angular dimensions. For example, an angle of 37.0° would appear as 37° with the trailing zero suppressed.

Defining alternate units

If you want, you can show an alternate set of units in your dimensions. The most common use of this feature is to show millimeters and inches together. Alternate units appear in square brackets. To show alternate units, click the Alternate Units tab of the New Dimension Style dialog box, as shown in Figure 15-25. Check the Display Alternate Units check box.

As you can see, this dialog box is very similar to the Primary Units tab, discussed in the previous section. Notice the default scale of 25.40 in the Multiplier for Alt Units text box. There are 25.4 millimeters to an inch. If your primary units are millimeters, you can set the linear scale to 0.03937, which is the number of inches to a millimeter. Of course, if your units are not inches but meters, miles, or something else, you need to make the appropriate calculations.

Figure 15-26 shows two dimensions with alternate units.

In the Placement section, choose one of the options to place alternate units after or below the primary units.

Figure 15-25: The Alternate Units tab.

Figure 15-26: Dimensions showing both U.S. and metric measurements.

Thanks to Jerry Bottenfield of Clow Valve Company, Oskaloosa, Iowa, for this drawing.

426 Part II Drawing in Two Dimensions

STEPS: Defining Primary Units

1. If ab15-03.dwg is open from the previous exercise, use it for this exercise as well. Otherwise, open ab15-03.dwg from the Results folder of the CD-ROM. ORTHO and OSNAP should be on. Set running object snaps for endpoint and intersection. The Dim layer is current. If the Dimension toolbar is not visible, right-click any toolbar and choose Dimension.

2. Save the file as ab15-04.dwg in your AutoCAD Bible folder.

3. Choose Dimension Style from the Dimension toolbar. The Arch 48 dimension style should be current. Choose Modify to continue working on this dimension style. Click the Primary Units tab.

4. In the Unit Format drop-down list, choose Architectural.

5. In the Precision drop-down list, change the precision to 0'-0 1/8".

6. In the Fraction format drop-down list, choose Diagonal.

7. In the Zero Suppression section, uncheck the 0 Inches check box because architectural dimensions sometimes show 0 inches.

8. Click the Text tab. In the Fraction Height Scale text box, type .75.

9. Click OK. In the Dimension Style Manager, click Set Current and then click Close to return to your drawing. The dimension is automatically updated and now looks appropriate for an architectural drawing.

10. To see how the stacked fractions appear, create a linear dimension from 1 to 2 in Figure 15-27. If necessary, zoom in to see the dimension text clearly.

1 2

Figure 15-27: The dimension style is now complete.

11.Return to the previous view if you zoomed in. Save your drawing. It should look like Figure 15-27.

Formatting tolerances

Tolerances are used in mechanical drafting to specify how much deviation is allowed from the exact measurement when the model is manufactured. Format the tolerance notation on the Tolerances tab of the New Dimension Style dialog box. The Tolerances tab is shown in Figure 15-28.

Figure 15-28: The Tolerances tab of the New Dimension Style dialog box.

Use the Tolerance Format section to specify how you want the tolerances to be displayed. You can choose one of four tolerance methods from the Method drop-down list:

Symmetrical tolerances have the same upper and lower amounts and are shown with a plus/minus sign, as shown in Figure 15-29. The Upper Value text box is active so that you can type in the tolerance amount.

Deviation tolerances can have different upper and lower amounts and are therefore shown after separate plus and minus signs, as shown in Figure 15-30. When you choose a deviation tolerance, the Upper Value and Lower Value text boxes become active.

Limits tolerances include the upper and lower tolerances in the measurement, as shown in Figure 15-31. Use the Upper Value and Lower Value text boxes to type in the upper and lower tolerance amounts.

Basic dimensions place the dimension in a box, as shown in Figure 15-32.

In the Precision drop-down list, choose a precision value. Use the Upper Value text box to set the tolerance value for symmetrical tolerances. For deviation and limits tolerances, use both the Upper Value and Lower Value text boxes.

428 Part II Drawing in Two Dimensions

Figure 15-29: Symmetrical tolerances.

Figure 15-30: Deviation tolerances.

Figure 15-31: Limits tolerances.