Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three...
Transcript of Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three...
![Page 1: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/1.jpg)
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Chapter 7Pictorials
TopicsExercises
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Pictorials: TopicsSummary7.1) Pictorials Introduction7.2) Isometric Pictorial Axes7.3) Drawing Linear Features7.4) Drawing Circles and Radii7.5) Drawing Cylinders7.6) Oblique Pictorials Overview
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Ortho. Projection: ExercisesExercise 7-1: Creating an isometric
pictorial 1Exercise 7-2: Creating an isometric
pictorial 2
![Page 4: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/4.jpg)
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Pictorials
Summary
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SummaryWhat will we learn in Chapter 7?→ How to create isometric pictorials.
Key points→ A pictorial is a pseudo 3-D drawing.→ They are used to aid visualization.
![Page 6: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/6.jpg)
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Pictorials
7.1) Pictorials Introduction
![Page 7: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/7.jpg)
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IntroductionPictorials are pseudo 3-D drawings.
Drawn in 2-D.Looks 3-D.
![Page 8: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/8.jpg)
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IntroductionPictorials are often used to help the print reader visualize the part.
![Page 9: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/9.jpg)
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IntroductionPictorials are very effective at illustrating assemblies.
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IntroductionThe two most common types of pictorials are:→ Isometric→ Oblique
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Pictorials
7.2) Isometric Pictorial Axes
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Isometric Pictorial AxesIsometric pictorials are drawn in a coordinate system where the axes are 60 degrees apart.
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Isometric Pictorials ScaleThe linear features on or parallel to these three axes are drawn at 80% of full scale to represent true size.
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Isometric Pictorials ScaleIsometric pictorials may be drawn at any scale as long as the scale is uniform on all axes.
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Pictorials
7.3) Drawing Linear Features
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Drawing Linear FeaturesHow do we draw an isometric pictorial?
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Drawing Linear FeaturesStep 1) Draw the three construction lines that represent the isometric axes.
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Drawing Linear FeaturesStep 2) Draw a defining box.
→ Sides = maximum height, width and depth dimensions of the object.
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Drawing Linear Features
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Drawing Linear FeaturesStep 3) Draw the lines of the object that are parallel to the axes.
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Drawing Linear FeaturesStep 4) Add the lines of the object that are not parallel to one of the axes.
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Drawing Linear FeaturesStep 5) Erase or remove the construction lines. Step 6) If the drawing is produced in a 2-D drawing package, it should be scaled by 80%.
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Exercise 7-1
Creating an Isometric Pictorial 1
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Exercise 7-1 Create a half scale isometric pictorial of the following object. (Use a pencil.)
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Step 1) Draw three construction lines that represent the isometric axes. (Done)
The grid spacing is 0.25 inch.
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Step 2) Draw a box whose sides are parallel to the three axes and whose lengths are ½ the maximum height, width and depth dimension of the object.
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Step 3) Draw the lines of the object that are parallel to the axes.
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Step 4) The lines of the object that are not parallel to one of the axes are added by connecting the ends of existing lines.
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Step 4) Erase or remove the construction lines.
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Pictorials
7.4) Drawing Circles and Radii
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Drawing Circles and RadiiCircular features of an object appear as ellipses on an isometric pictorial.
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Drawing Circles and RadiiStep 1) Draw the linear features of the object using the procedure previously described.
![Page 35: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/35.jpg)
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Drawing Circles and RadiiStep 2) Draw a box whose diagonals meet at the center of the circle and the length of the sides are equal to the circle’s diameter.
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Drawing Circles and Radii
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Drawing Circles and RadiiStep 3) Draw an ellipse in the box whose major axis is aligned with the long diagonal of the box. → The ellipses touch
the box at the midpoint of its sides.
Major Axis
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Circles in IsometricCircles appear as ellispses when drawn in an isometric sketch.To sketch an isometric circle, locate the center and then sketch the box that would enclose the circular shape. Draw the ellipse tangent to the lines of the box.
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Four Center Ellipses
To sketch an isometric circle, proceed as in following figures. Determine the 4 centers and then use the compass construct the ellipse.
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Circles in Isometric
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Circles in Isometric
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Circles in Isometric
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Drawing Circles and RadiiThe same procedure is used for creating radii except that the unwanted part of the ellipse is erased or trimmed.
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Pictorials
7.5) Drawing Cylinders
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Drawing CylindersDrawing cylinders in an isometric pictorial is just a matter of drawing two circles and adding some connecting lines.
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Drawing CylindersStep 1) Draw a defining box.→ The height is equal
to the height of the cylinder and the width and depth are equal to the diameter of the cylinder.
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Drawing CylindersStep 2) Draw diagonals and ellipses in boxes that define the beginning and end of the cylinder.
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Drawing CylindersStep 3) Draw two lines that connect the two ellipses. → The lines will start
and end at the intersection between the ellipse and the major axis diagonal.
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Drawing CylindersStep 4) Erase all construction lines and any lines that fall behind the cylinder.
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Exercise 7-2
Creating an isometric pictorial 2
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Exercise 7-2Create a full scale isometric pictorial of the following object. The grid spacing is 10 mm.
Skip to next part of the exercise
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Step 1) Draw the linear features of the object using the procedure previously described.
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Step 2) Draw a box whose diagonals meet at the center of the radius and the length of the sides are equal to the 2R.
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Step 3) Draw an ellipse in the box whose major axis is aligned with the long diagonal of the box. The ellipses touch the box at the midpoint of its sides.
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Repeat for the bottom radius.
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Use a vertical line to connect the ellipses.
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Draw the defining boxes for the cylindrical feature on the top of the part.
![Page 58: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/58.jpg)
Draw and connect the ellipses.
![Page 59: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/59.jpg)
Draw the ellipse that represents the thru hole.
![Page 60: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/60.jpg)
Draw the defining box and cylinder that defines the counterbore.
![Page 61: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/61.jpg)
Draw the ellipse representing the drill. Only a small piece shows.
![Page 62: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/62.jpg)
Step 4) Erase all construction and unwanted lines.
![Page 63: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/63.jpg)
Copyright ©2006 by K. PlantenbergRestricted use only
Pictorials
7.6) Oblique Pictorial Overview
![Page 64: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/64.jpg)
Copyright ©2006 by K. PlantenbergRestricted use only
Oblique PictorialsWhat differences can you see?
![Page 65: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/65.jpg)
Copyright ©2006 by K. PlantenbergRestricted use only
Oblique PictorialsIn the oblique pictorials coordinate system only one axes is at an angle. → The angle may range between 0 and 90
degrees; however, the most commonly used angle is 45 degrees.
![Page 66: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/66.jpg)
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Oblique PictorialsThe features drawn on the plane defined by the vertical and horizontal axes are drawn at full scale and true shape.
![Page 67: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/67.jpg)
Copyright ©2006 by K. PlantenbergRestricted use only
Oblique PictorialsThe linear features drawn on the angled axis may be full scale (cavalier projection) or may be drawn foreshortened. → The most common,
is half scale (cabinet projection).
![Page 68: Chapter 7 Pictorials - engineering.union.edutchakoa/mer101/Pictorials.pdf · Step 1) Draw three construction lines that represent the isometric axes. (Done) The grid spacing is 0.25](https://reader031.fdocuments.in/reader031/viewer/2022013110/5a9e34307f8b9a75458bfbd0/html5/thumbnails/68.jpg)
Copyright ©2006 by K. PlantenbergRestricted use only
Pictorials
The End