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AUTOCAD 2014- DAYWISE SCHEDULE2D Drafting
Day 1 Introduction about Auto cad user interface of Auto cad
(all work spaces) 2D drafting
Line Co-ordinate systems Absolute co- Relative rectangular co-ordinate system Relative Polar co-
Erase Circle
Center Radius Center Diameter 3 Point 2 Point TTR (Tangent,Tangent, Radius) TTT (Tangent,Tangent, Tangent)
Zoom Ellipse Arc Polygon Rectangle Point Point style Multiple point
Move Copy Rotate Scale
Mirror Break Join Stretch Array
Fillet Chamfer
Hatch Hatch edit
Use of mouse andannotation
Auto cad classic 3D modeling 3d Basics
ordinate systemordinate system
Day 3
Day 4 Drafting Setting
Osnap Polar Otrak
Option
Trim Extend Offset
Units Limits
Distance& Area Color ID Point Donut Fill Polyline Explode Lengthen
Construction Line Ray Spline Properties Match property Revision Cloud
Day 7
Day 8
keyboardDay 2
Day 5 Line type Line weight Dimension Linear Aligned Radius Diameter Ordinate Baseline Continue Space Break jogged Linear jogged Arc length Angular Tolerance Center mark Inspection Dimension Edit Dimension Tedit
Dimension Style
Day 6 List
Multiline Multiline Style Multiline edit
Single line text Multiline text Text Style Text edit Mirror Text Spell
Layer Creating Layer Layer Properties Layer
on/freeze/lock Layer Current Layer
Isolate/Unisolateetc..
Multi leader Add Leader Remove leader Align leader Multi leader Style Table Table style
ProductivityTools
Parametric Tab Geometric constrain Dimensional constrain
Make Block Insert Block
Layout Tile Horizontally Tile Vertically X-ref Reference Edit
Design center Tool pallets Tool pallets creation
Quick calculator
Group Divide Measure
Day 9
Day 10
Day 11
Day 12
Day 13
Day 14
Day 15
3D Modelling
Introduction of 3D View manager
Orthographic/Isometric views Box Wedge
3D solids Cylinder Cone Torus Sphere Pyramid
Extrude Region Subtract Intersect Union Interfere Press/pull Revolve Sweep
Align Polysolid Slice Helix UCS Dynamic UCS Rotate 3D Mirror 3D 3D Array
Loft Section Plane
Thicken
Day 16
Day17
Day 18
Day 19
Solid edit
Material
Visual style 3D Polyline 3D solids
Fillet Chamfer
Fillet Cham
Exercises
Fig. 2.28 Exercise 1
Fig. 2.29 Exercise 2
3. Using the Line tool, construct the outline shown in Fig. 2.30 .
Fig. 2.30 Exercise 3
Fig. 2.31 Exercise 4
1. Using the Line tool construct the rectangle shown in Fig. 2.28 .
2. Construct the outline shown in Fig. 2.29 using the Line tool. The coordinate points of each corner of the rectangle will need to be calculated from the lengths of the lines between the corners. 4. Using the Circle tool, construct the two circles of
radius 50 and 30. Then using the Ttr prompt add the circle of radius 25 and then add the circle of radius 25 ( Fig. 2.31 ).
5. In an acadiso.dwt screen and using the Circle and Line tools, construct the line and the circle of radius 40 shown in Fig. 2.32 . Then, using the Ttr prompt, add the circle of radius 25.
6. Using the Line tool construct the two lines at the length and angle as given in Fig. 2.33 . Then, with the Ttr prompt of the Circle tool, add the circle as shown.
Fig. 2.32 Exercise 5
Fig. 2.33 Exercise 6
7. Using the Polyline tool, construct the outline given in Fig. 2.34 .
Fig. 2.34 Exercise 7
8. Construct the outline given in Fig. 2.35 using the Polyline tool.
Fig. 2.35 Exercise 8
9. With the Polyline tool construct the arrows
shown in Fig. 2.36 .
Fig. 2.36 Exercise 9
Exercises
Fig. 3.45 Exercise 1
Fig. 3.46 Exercise 2
Fig. 3.47 Exercise 3
Fig. 3.48 Exercise 4
Fig. 3.49 Exercise 5
1. Using the Line and Arc tools, construct the outline given in Fig. 3.45 .
3. Using the Ellipse and Arc tools construct the drawing shown in Fig. 3.47 .
2. With the Line and Arc tools, construct the outline shown in Fig. 3.46 .
4. With the Line , Circle and Ellipse tools construct the drawing shown in Fig. 3.48 .
5. With the Ellipse tool, construct the drawing shown in Fig. 3.49 .
7. Figure 3.51 shows seven hexagons with edges touching. Construct the inner hexagon using the Polygon tool, then with the aid of the Edge prompt of the tool, add the other six hexagons.
Fig. 3.50 Exercise 6
Fig. 3.51 Exercise 7
6. Figure 3.50 shows a rectangle in the form of a square with hexagons along each edge. Using the Dimensions prompt of the Rectangle tool construct the square. Then, using the Edge prompt of the Polygon tool, add the four hexagons. Use the Object Snap
endpoint to ensure the polygons are in their exact positions.
Fig. 3.55 Exercise 11
Fig. 3.54 Exercise 10
10. Construct the drawing shown in Fig. 3.54 using the Line and Arc tools. Then change all widths of lines and arcs to a width of 2 with Polyline Edit .
11. Construct the two outlines shown in Fig. 3.55 using the Rectangle and Line tools and then with Edit Polyline change the parts of the drawing to plines of widths as shown.
CHAP
T 3
5. Construct the arrow shown in Fig. 5.51 . Array the arrow around the centre of its circle 8 times to produce the right-hand drawing of Fig. 5.51 .
Fig. 5.50 Exercise 4
Fig. 5.51 Exercise 5
6. Construct the left-hand drawing of Fig. 5.52 . Then with Move , move the central outline to the top left-hand corner of the outer outline. Then with Copy make copies to the other corners.
Fig. 5.52 Exercise 6
7. Construct the drawing shown in Fig. 5.53 and make two copies using Copy . With Rotate rotated each of the copies to the angles as shown.
Fig. 5.53 Exercise 7
8. Construct the dimensioned drawing of Fig. 5.54 . With Copy copy the drawing. Then with Scale scale the drawing to a scale of 0.5 , followed by using Rotate to rotate the drawing through an angle of as shown. Finally, scale the original drawing to a scale of 2:1 .
9. Construct the left-hand drawing of Fig. 5.55 . Include the dimensions in your drawing. Then, using the Stretch tool, stretch the drawing, including its dimensions to the sizes as shown in the right-hand drawing. The dimensions are said to be associative (see Chapter 6 ) .
Fig. 5.54 Exercise 8
Fig. 5.55 Exercise 9
Exercises
1. Open any of the drawings previously saved from working through examples or as answers to exercises and add appropriate dimensions.
2. Construct the drawing shown in Fig. 6.28 but in place of the given dimensions add dimensions showing tolerances of 0.25 above and below.
Fig. 6.28 Exercise 2
3. Construct and dimension the drawing of Fig. 6.29 .
Fig. 6.29 Exercise 3
4. Construct two polygons as in Fig. 6.30 and add all diagonals. Set osnaps endpoint
Fig. 6.30 Exercise 4
all unwanted lines. Dimension the angles labelled A , B , C and
and intersection and using the lines as in Fig. 6.30 construct the stars as shown using a polyline of width � 3. Next erase
Redraw the following objects as solid models based on the given dimen-sions. Make all models from mild steel.
MILLIMETERS
INCHES
MILLIMETERS
MILLIMETERS
MILLIMETERS MILLIMETERS
INCHES
MILLIMETERS
MILLIMETERS