Introduction to AutoCAD 2012

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Page 1 Introduction to AutoCAD 2012 Alf Yarwood Chapter 12 Exercise 1 3. Click on Top in the ViewCube. 4. Call the Polyline tool from the Home/Draw panel and construct the pline outline. 5. Call the Polysolid tool from the Home panel. The command line shows: _Polysolid Height = 80.0000, Width = 5.0000, Justification = Center Specify start point or [Object/Height/Width/Justify] <Object>: enter h right-click Specify height <80.0000>: enter 100 right-click Height = 100.0000, Width = 5.0000, Justification = Center Specify start point or [Object/Height/Width/Justify] <Object>: enter w right-click Specify width <5.0000>: enter 3 right-click Height = 100.0000, Width = 3.0000, Justification = Center Specify start point or [Object/Height/Width/Justify] <Object>: right-click Select object: pick the polyline 6. Place in the ViewCube/Front view. 7. Call the Box tool from the 3D Modeling panel and construct boxes of a height of 10 for the door and windows in the front of the polysolid, 8. In ViewCube/Right view and construct boxes for the windows in the right of the polysolid. 9. ViewCube/Back view and construct boxes for the windows and door at the back of the polysolid 10. ViewCube/Left view and construct windows for the left of the polysolid. 11. ViewCube/Top view and move the windows and doors by 5 units inwards. 12. Subtract the boxes from the polysolid. 13. Place in the ViewCube/ Isometric view. 14. Save to a memory stick with the file name 13_Exercise01.dwg. 12. Close the drawing window. Material accompanying Introduction to AutoCAD 2012, ISBN 9780080969473. Copyright 2011, Alf Yarwood. Published by Elsevier Ltd. All rights reserved.

Page 2 Chapter 12 Exercise 2 3. Place in the ViewCube/Top view. 4. Call the Polygon tool from the Home/Draw panel and construct a 6-sided polygon of edge length 30. 5. Call the Polysolid tool from the Home/3D Modeling panel. The command line shows: _Polysolid Height = 80.0000, Width = 5.0000, Justification = Center Specify start point or [Object/Height/Width/Justify] <Object>: enter h right-click Specify height <80.0000>: enter 40 right-click Height = 40.0000, Width = 5.0000, Justification = Center Specify start point or [Object/Height/Width/Justify] <Object>: enter w right-click Specify width <5.0000>: enter 5 right-click Height = 40.0000, Width = 5.0000, Justification = Center Specify start point or [Object/Height/Width/Justify] <Object>: right-click Select object: pick the polygon 6. Call the Copy tool from the Home/Modify panel and copy the polysolid to form the four polysolids for the final model. 7. With the Union tool from the Home/Edit panel form a union of the four polysolids. 8. Place in the ViewCube/Isometric view. 9. Save the drawing to a memory stick with the file name 12_Exercise02.dwg. 10. Close the drawing window. Chapter 12 Exercise 3 2. Open the drawing 12_Exercise02.dwg. 3. Call the Presspull tool from the Home/3D Modeling panel The command line shows: _presspull Click inside bounded areas to press or pull. Click as shown in illustration to the right and pull away from the selected surface 1 loop extracted. 1 region created. 4. Repeat for another face. 5. Change to the ViewCube/Isometric view and using Presspull pull out two other faces. 6. Using Presspull pull out two other faces. 7. The result is shown on Page 3. 8. Save the drawing to a memory stick with the file name 12_Exercise03.dwg. 9. Close the drawing window. Material accompanying Introduction to AutoCAD 2012, ISBN 9780080969473. Copyright 2011, Alf Yarwood.

Page 3 Chapter 12 Exercise 4 1. Open AutoCAD 2012 with a double-click on its shortcut icon in the Windows desktop. 3. Set the variable PELLIPSE to 1. 3. Call the Ellipse tool from the Home/Draw panel and construct two ellipses: _ellipse Specify axis endpoint of ellipse or [Arc/Center]: -c Specify center of ellipse: pick Specify endpoint of axis: drag down and enter 104 right-click Specify distance to other axis or [Rotation]: enter 45 right-click 4. Call the Offset tool from the Home/Modify panel and offset the ellipse outwards by 2 units: _offset Specify offset distance or [Through] <Through>: enter 2 rightclick Select object to offset or <exit>: pick the ellipse Specify point on side to offset: pick outside the ellipse Select object to offset or <exit>: right-click 5. Enter region at the command line and enter region right-click Select objects: <Snap off> pick one ellipse 1 found Select objects: right-click 1 loop extracted. 1 Region created. 6. Make the other ellipse into a region..

Page 4 7. Call the Subtract tool from the Home/Edit panel: _subtract Select solids and regions to subtract from... Select objects: pick the outer ellipse 1 found Select objects: right-click Select solids and regions to subtract... Select objects: pick the inner ellipse 1 found Select objects: right-click 8. Make further regions as shown in the drawing to the right. 9. With the Subtract tool from the Home/Solid Editing panel, subtract the two rectangular regions from the elliptical region. 10. Call the Union tool from the Home/Edit panel: _union Select objects: pick the quarter ellipse region 1 found Select objects: pick the other region 1 found, 2 total Select objects: right-click The resulting region can now be revolved. 11. Set ISOLINES to 24. 12. Call the Revolve tool from the Home panel and revolve the region through 360. 13. Place the model in the ViewCube/Isometric view. 14. In the Home/Layers & View panel select the Visual Styles/X- Ray. 15. Save the drawing to a memory stick with the file name 12_Exercise04.dwg. 16. Close the drawing window.

Page 5 Chapter 12 Exercise 5 1. Open AutoCAD 2012 with a double-click on its shortcut in the Windows desktop. 3. With the Polyline tool from the Home/Draw panel construct the outline Fig. 12.51 working to the given dimensions.. 4. Set ISOLINES to 24 as follows: enter isolines right-click Enter new value for ISOLINES <4>: enter 24 right-click 5. Call the Revolve tool with a click on its tool icon in the Home panel. The command line shows: _revolve Current wire frame density: ISOLINES=24 Select objects to revolve: pick the polyline 1 found Select objects to revolve: right-click Specify axis start point or define axis by [Object/X/ Y/Z] <Object>: enter o (Object) right-click Select an object: pick the centre line Specify angle of revolution or [STart angle] <360>: right-click 6. Call the Mirror tool from the Home/ Modify panel and mirror the 3D solid drawing. Erase the centre line. 7. Place the drawing in the View Cube/Isometric view and Zoom in a window of reasonable size. 8. Place the model in Home/Layers/3D Hidden. 9. Save the drawing to a memory stick with the file name 12_Exercise05.dwg. 10. Close the drawing window.

Page 6 Chapter 12 Exercise 6 3. Place the screen in the ViewCube/Right view and Zoom to 1. 4. With the Polyline tool construct an outline for an extrusion of the angled part of the bracket. 5. Call the Extrude tool with a left-click on its tool icon in the Home/3D Modeling panel. _extrude Current wire frame density: ISOLINES=4 Select objects: pick the outline 1 found Select objects to extrude: right-click Specify height of extrusion or [Direction/Path/Taper angle]: enter 80 right-click 6. Place in the View/Cube/Front view and Zoom to 1. 7. Construct a closed polyline of the vertical sloping part of the bracket and the hole at its upper end and extrude the outline and the circle to a height of 6. 8. With Subtract, subtract the hole from the back piece just extruded. 9. In the centre of the lower portion construct two circles of radii 15 and 5 and extrude to a height of 12. Subtract the smaller extrusion from the larger. 10. Place in the ViewCube/Right view, Zoom to 1 and with the Move tool, move the last two parts into their correct positions relative to the bottom part. 11. Construct a polyline outline for the web. 12. Place in the ViewCube/Front view and with the Move tool, move the web into its correct position relative to the remainder of the model. 13. Place the model in the ViewCube/Isometric view and with the Union tool form a union of the three extrusions. 14. Select the Conceptual visual style from the Home/Layers & View panel. 15. Save the drawing to a memory stick with the file name 12_Exercise06.dwg. 16. Close the drawing window.

Page 7 Chapter 12 Exercise 7 3. Create a new layer of colour magenta. 4. Using the Circle, Polyline and Ellipse tools, construct the four outlines as shown. 5. Using the Region tool form each of the four outlines into a region. 6. With the Subtract tool, subtract the circular and elliptical regions from the rectangular region. 7. Extrude the region so formed to a height of 5 units. 8. Place the extrusion in the ViewCube/Isometric view and Zoom to 1. 9. Select the Conceptual visual style from the Home/Layers & View panel. 10. Save your model drawing to a memory stick with the file name 12_Exercise07.dwg. 11. Close the drawing window.

Page 18 Chapter 12 Exercise 8 3. Place the screen in the ViewCube/Front view and Zoom to 1. 4. Make two new layers coloured magenta and red. 5. Using the Polyline tool, construct two closed plines on the two new layers - one for the top part - red layer, and the other for the vertical part - magenta layer. 6. Set ISOLINES to 16. enter isolines right-click Enter new value for ISOLINES <4>: enter 16 right-click 7. Call the Revolve tool from the Home panel: _revolve Current wire frame density: ISOLINES=16 Select objects: pick upper polyline 1 found Select objects: right-click Specify start point for axis of revolution: pick Specify endpoint of axis: pick Specify angle of revolution <360>: right-click right-click REVOLVE Current wire frame density: ISOLINES=16 Select objects: pick lower polyline 1 found Select objects: right-click Specify start point for axis of revolution: pick Specify endpoint of axis: pick Specify angle of revolution <360>: right-click 8. Place the model in the ViewCube/Isometric view. 9. Set Visual Style to Conceptual. 10. Save your model drawing to a memory stick with the file name 12_Exercise08.dwg. 11. Close the drawing window. Material accompanying Introduction to AutoCAD 2012, ISBN 9780080969473. Copyright 2011, Alf Yarwood. Published by Elsevier Ltd. All rights reserved.

Page 9 Chapter 12 Exercise 9 2. Select 3D Basics from the Workspace Settings menu. 3. Place the screen in the ViewCube/Front view and Zoom to 1. 4. Make a new layer of colour red. 5. Using the Polyline tool, construct two plines on the new layer - one for the path, and the other for the object to sweep. 6. Place the screen in the ViewCube/Isometric view and move the two so that the path is central to the object. 7. Call the Sweep tool from the Home panel. The command line shows: _sweep Current wire frame density: ISOLINES=4 Select objects to sweep: pick the object 1 found Select objects to sweep: right-click Select sweep path or [Alignment/Base point/scale/ Twist]: pick the path line 8. Select Conceptual from Visual Styles. 9. Save your model drawing to a memory stick with the file name 12_Exercise09.dwg. 10. Close the drawing window.

Page 10 Chapter 12 Exercise 10 3. Place the screen in the ViewCube/Top view and Zoom to 1. 4. Make four layers of colours red, blue, green and magenta. 5. Construct the two square rectangles and four circles for the lofting. 6. Place the screen in the ViewCube/Front view and Zoom to 1. 7. Move the six cross-sections to suitable positions relative to each other. 8. Make the layer colour red current. 9. Place the screen in the ViewCube/Isometric view and call the Loft tool with a click on its tool icon in the Home panel. The command line shows: _loft Select cross-sections in lofting order: pick the lowest rectangle 1 found Select cross-sections in lofting order: pick the next rectangle 1 found, 2 total Select cross-sections in lofting order: right-click Enter an option [Guides/Path/Cross-sections only] <Cross-sections only>: The lowest loft appears. 10. Continue lofting the other two lofts. 11. Set the visual style to Realistic. 12. Save your model drawing to a memory stick with the file name 12_Exercise10.dwg. 13. Close the drawing window.

Page 11 Additional exercises 1. A two-view drawing of a pulley wheel is given. Construct a 3D model drawing of the wheel in the following steps: a) Part 1 - Construct the outline shown to the right and Revolve around the centre of the wheel. b) Part 2 - Construct the central boss and move it to its correct position relative to the outer cylinder. c) Construct an elliptical cylinder in its correct position relative to the first two parts and array it four times around the central boss. d) Place in 3D Views/SW Isometric view and call Hide. 2. Construct the 3D solid model drawing of a gear wheel as shown in the righthand drawing working to the stages shown in the drawings which follow. Note The illustrations for Exercise 2 on the next page do not show a correct method of drawing gear teeth. The drawings are for illustrative purposes only and for constructing the 3D model for this exercise. Material accompanying Introduction to AutoCAD 2012, ISBN 9780080969473. Copyright 2011, Alf Yarwood.

Page 12 3. The two-view drawing is of a cover. Construct the 3D solid model drawing shown below from the details given in the two-view drawing.

Page 13 Multiple choice questions 1. The Region tool can be called from: (a) The Home/Modify panel (b) The Home/Block panel (c) The Home/Draw panel (d) The tool cannot be called from the ribbon 2. When using the Extrude tool the set variable ISOLINES must be set to: (a) 4 b) 16 (c) Any number (d) Any number below 2047 3. When using the Extrude tool which of the following can be extruded? (a) Regions (b) An outline constructed using the Line tool (c) Circles (d) Closed plines (e) Ellipses (f) Any outline (g) Another extrusion 4. When using the Revolve tool which of the following can be revolved? (a) Regions (b) An outline constructed using the Line tool (c) Circles (d) Closed plines (e) Ellipses (f) Any outline (g) Another solid of revolution 5. Can the Union tool be used to form 3D solid drawings from a number of objects constructed using any of the 3D Objects tools Box, Sphere, Cylinder, Cone, Torus and Wedge? (a) Yes (b) No (c) Only from the Box and Cone tools (d) Yes, but not from the Torus tool 6. Which of the following tools from the Home/Draw panel can be used when constructing 3D solid model drawings - Move, Copy, Chamfer, Fillet, Mirror, Rotate, Scale? (a) None of them (b) Only the Chamfer and Fillet tools (c) Any of them (d) Only Move and Copy 7. Why is the name Boolean operators given to the tools Union, Subtract and Intersect? (a) It is the name assigned for this purpose by computer programmers (b) It is just a name selected for this purpose (c) It is based on the name of the scientist George Boole (d) Boolean is a name always given to this type of construction 8. Is it possible to form unions from solids constructed using the Extrude tool with solids formed using the 3D Objects tools? (a) Yes (b) No (c) Only when the 3D Objects tool is the Box or Sphere tool (d) Only when the 3D Objects tool is the Cone tool

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