Saturday, 15 September 2012
Friday, 14 September 2012
CAD LAB MANUAL
STANDARD TITLE BLOCK IN A3 SIZE SHEET
AIM:
To draw the
standard title block in A3 size sheet using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software by using following
steps.
2.
Set the drawing limits to A3 size.
3.
Draw the rectangle using lower left corner (0,0)
and upper right corner (490,297).
4.
Enter zoom and all.
5.
Set dimscale to 15.
6.
Set Lt scale to 5.
7.
Draw the title block as per the dimension given
to the lower right of the rectangle as per given drawing.
8.
Dimension all the items.
9.
Save the drawing.
10.
Check all and take the print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the title block is drawn in
A3 size sheet by using Auto CAD commands.
SIMPLE DIAGRAM USING ABSOLUTE, RELATIVE, POLAR CO-ORDINATE
SYSTEM
AIM:
To draw the given simple diagram using absolute, relative,
polar co-ordinate system.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the simple diagram using draw commands and
modify commands using absolute, relative, polar co-ordinate system.
3.
Draw the title block in A3 size templates.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the given simple diagram is
drawn in Auto CAD by using the absolute, relative, polar co-ordinate system.
ORTHOGRAPHIC VIEWS OF CYLINDER AND PRISM
AIM:
To draw the orthographic views
of cylinder and prism using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the front view and top view of the cylinder
and prism using draw commands and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the orthographic views of
cylinder and prism is drawn by using Auto CAD commands.
ORTHOGRAPHIC VIEWS OF CONE AND PYRAMID
AIM:
To draw the orthographic views
of cone and pyramid using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the front view and top view of the cone and
pyramid using draw commands and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the orthographic views of
cone and pyramid is drawn by using Auto CAD commands.
PARABOLA, SPIRAL AND INVOLUTE CURVES
AIM:
To draw the parabola, spiral and
involute curves using B-spline or cubic spline in Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the parabola, spiral and involute curves
using B-spline or cubic spline.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the parabola, spiral and
involute curves using B-spline or cubic spline is drawn by using Auto CAD
commands.
ORTHOGRAPHIC VIEWS OF MIXIE BASE AND OPEN BEARING
AIM:
To draw the orthographic views
of mixie base and open bearing using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the front view and top view of the mixie
base and open bearing using draw commands and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the orthographic views of
mixie base and open bearing is drawn by using Auto CAD commands.
ORTHOGRAPHIC VIEWS OF TOOL POST AND V BLOCK
AIM:
To draw the orthographic views
of tool post and V block using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the front view and top view of the tool
post and V block using draw commands and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the orthographic views of
tool post and V block is drawn by using Auto CAD commands.
SECTIONAL VIEWS OF CYLINDER AND PRISMS
AIM:
To draw the sectional views of
cylinder and prisms using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the sectional views of cylinder and prisms
using draw commands and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the sectional views of
cylinder and prisms is drawn by using Auto CAD commands.
SECTIONAL VIEWS OF CONE AND PYRAMIDS
AIM:
To draw the sectional views of
cone and pyramids using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the sectional views of cone and pyramids
using draw commands and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the sectional views of cone
and pyramid is drawn by using Auto CAD commands.
ISOMETRIC PROJECTION OF MACHINE BLOCK, CI CASTING AND ROD
SUPPORT
AIM:
To draw the isometric projection
of machine block, CI casting and rod support using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Set the GRID style in Isometric option.
4.
Set ORTHO mode on.
5.
Draw the left, right and top phase diagram in
left plane, right plane and top plane respectively.
6.
Give the dimension using aligned option then
oblique the dimension with respect to the plane axes.
7.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the isometric projection of
machine block, CI casting and rod support is drawn by using Auto CAD commands.
3D MODEL OF ROD SUPPORT AND OBTAINING MULTIVIEW DRAWINGS
AIM:
To draw the 3d model of rod
support and obtaining multi view drawings
Using Auto
CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Set the view-3d view-sw isometric view.
4.
Draw the top view and give extrude, subtract and
intersect commands to build the model.
5.
Give the dimension using aligned option.
6.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the 3d model of rod support
and obtaining multi view drawings are obtained from 3D model by using Auto CAD
commands.
PLAN OF RESIDENTIAL BUILDING
AIM:
To draw the plan of residential
building by using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the plan of residential building using draw
commands and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the plan of residential
building is drawn by using Auto CAD commands.
SIMPLE STEEL TRUSS
AIM:
To draw the simple steel truss
by using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the simple steel truss using draw commands
and modify commands.
4.
Set the dimension style and give the dimension
using dimension commands.
5.
Check all the diagrams and take print out.
Commands
used:
1. Starting
commands:
Limits, Zoom all, ltscale,
dimscale, dimstyle.
2. Drawing
commands:
Line, rectangle, circle,
polygon, multiline text.
3. Edit
commands:
Erase, move, copy, trim, extend,
chamfer, fillet.
4.
Dimensioning commands:
Dimlinear, Dimalligned,
Dimradius, Dimdiameter.
Result:
Thus the simple steel truss is
drawn by using Auto CAD commands.
ME2155 COMPUTER AIDED DRAFTING AND MODELING LABORATORY
2D COMMANDS
Ex.No: Date:
Aim:
Study
of capabilities of software for drafting and modeling co ordinate system
Commands and functions:
Sl. No
|
Commands
|
Functions
|
1.
|
ARC
|
Creates an arc
|
2.
|
ARRAY
|
Creates multiple copies of objects in a pattern
|
3.
|
BHATCH
|
Fills an enclosed area or selected objects with a
hatch pattern or gradient fill
|
4.
|
BLOCK
|
Creates a block definition from objects you select
|
5.
|
BREAK
|
Breaks the selected object between two points
|
6.
|
CHAMFER
|
Bevels the edges of objects
|
7.
|
CIRCLE
|
Creates a circle
|
8.
|
CLOSE
|
Closes the current drawing
|
9.
|
COPY
|
Copies objects a specified distance in a specified
direction
|
10.
|
Creates and modifies dimension styles
|
|
11.
|
Draws filled circles and rings
|
|
12.
|
Creates an ellipse or an elliptical arc
|
|
13.
|
Removes objects from a drawing
|
|
14.
|
Breaks a compound object into its component objects
|
|
15.
|
EXPORT
|
|
16.
|
EXTEND
|
|
17.
|
FILLET
|
|
18.
|
FIND
|
|
19.
|
GRID
|
|
20.
|
HATCH
|
|
21.
|
HELP
|
|
22.
|
HIDE
|
|
23.
|
IMPORT
|
|
24.
|
ISOPLANE
|
|
25.
|
JOIN
|
|
26.
|
LAYER
|
|
27.
|
LEADER
|
|
28.
|
LENGTHEN
|
|
29.
|
LIMITS
|
|
30.
|
LINE
|
|
31.
|
LINETYPE
|
|
32.
|
LWEIGHT
|
|
33.
|
MENU
|
|
34.
|
MIRROR
|
|
35.
|
MLINE
|
|
36.
|
MOVE
|
|
37.
|
MTEXT
|
|
38.
|
NEW
|
|
39.
|
OFFSET
|
|
40.
|
OOPS
|
|
41.
|
OPEN
|
|
42.
|
ORTHO
|
|
43.
|
OSNAP
|
|
44.
|
PAN
|
|
45.
|
POINT
|
|
46.
|
POLYGON
|
|
47.
|
QUIT
|
|
48.
|
RECTANG
|
|
49.
|
REDO
|
|
50.
|
REDRAW
|
|
51.
|
REGEN
|
|
52.
|
REGION
|
|
53.
|
ROTATE
|
|
54.
|
SAVE
|
|
55.
|
SAVEAS
|
|
56.
|
SPLINE
|
|
57.
|
SUBTRACT
|
|
58.
|
|
|
59.
|
TEXT
|
|
60.
|
TRIM
|
|
61.
|
U
|
|
62.
|
UCS
|
|
63.
|
UCSICON
|
|
64.
|
UNDO
|
|
65.
|
|
|
66.
|
VIEW
|
|
67.
|
XPLODE
|
|
68.
|
ZOOM
|
FUNCTION KEYS
Ex.No: Date:
Aim:
To
study about FUNCTION KEYS used in AUTOCAD.
Function Keys and functions:
Sl. No
|
Function Keys
|
Functions
|
1.
|
F1
|
Displays Help
|
2.
|
F2
|
Toggles Text Window
|
3.
|
F3
|
Toggles OSNAP
|
4.
|
F4
|
Toggles TABMODE
|
5.
|
F5
|
Toggles ISOPLANE
|
6.
|
F6
|
Toggles UCSDETECT
|
7.
|
F7
|
Toggles GRIDMODE
|
8.
|
F8
|
Toggles ORTHOMODE
|
9.
|
F9
|
Toggles SNAPMODE
|
10.
|
F10
|
Toggles Polar Tracking
|
11.
|
F11
|
Toggles Object Snap Tracking
|
12.
|
F12
|
Toggles Dynamic Input
|
SHORTCUT KEYS
Ex.No: Date:
Aim:
To
study about SHORTCUT KEYS used in AUTOCAD.
Shortcut
Keys and functions:
Sl. No
|
Shortcut Keys
|
Functions
|
1.
|
ALT+F11
|
Displays the Visual Basic Editor
|
2.
|
ALT+F8
|
Displays the Macros dialog box
|
3.
|
CTRL+0
|
Toggles Clean Screen
|
4.
|
CTRL+1
|
Toggles Properties palette
|
5.
|
CTRL+2
|
Toggles DesignCenter
|
6.
|
CTRL+3
|
Toggles the Tool Palettes window
|
7.
|
CTRL+4
|
Toggles Sheet Set Manager
|
8.
|
CTRL+6
|
Toggles dbConnect Manager
|
9.
|
CTRL+7
|
Toggles Markup Set Manager
|
10.
|
CTRL+8
|
Toggles the QuickCalc palette
|
11.
|
CTRL+9
|
Toggles the Command Line window
|
12.
|
CTRL+A
|
Selects all the objects in drawing that
are not locked or frozen
|
13.
|
CTRL+SHIFT+A
|
Toggles Groups
|
14.
|
CTRL+B
|
Toggles Snap
|
15.
|
CTRL+C
|
Copies objects to the Windows Clipboard
|
16.
|
CTRL+SHIFT+C
|
Copies objects to the Windows Clipboard
with Base Point
|
17.
|
CTRL+D
|
Toggles Dynamic UCS
|
18.
|
CTRL+E
|
Cycles through isometric planes
|
19.
|
CTRL+F
|
Toggles running object snaps
|
20.
|
CTRL+G
|
Toggles Grid
|
21.
|
CTRL+H
|
Toggles PICKSTYLE
|
22.
|
CTRL+SHIFT+H
|
Toggles the display of palettes with
HIDEPALETTES and SHOWPALETTES
|
23.
|
CTRL+I
|
Toggles the Coordinates display
|
24.
|
CTRL+J
|
Repeats last command
|
25.
|
CTRL+K
|
Inserts a hyperlink
|
26.
|
CTRL+L
|
Toggles Ortho mode
|
27.
|
CTRL+M
|
Repeats last command
|
28.
|
CTRL+N
|
Creates a new drawing
|
29.
|
CTRL+O
|
Opens an existing drawing
|
30.
|
CTRL+P
|
Plots the current drawing
|
31.
|
CTRL+SHIFT+P
|
Toggles the Quick Properties interface
|
32.
|
CTRL+Q
|
Quits AutoCAD
|
33.
|
CTRL+R
|
Cycles through the viewports on the
current layout
|
34.
|
CTRL+S
|
Saves current drawing
|
35.
|
CTRL+SHIFT+S
|
Displays up the Save As dialog box
|
36.
|
CTRL+T
|
Toggles Tablet mode
|
37.
|
CTRL+V
|
Pastes data from the Windows Clipboard
|
38.
|
CTRL+SHIFT+V
|
Pastes data from the Windows Clipboard as
a Block
|
39.
|
CTRL+X
|
Cuts objects from the current drawing to
the Windows Clipboard
|
40.
|
CTRL+Y
|
Cancels the preceding Undo action
|
41.
|
CTRL+Z
|
Reverses the last action
|
42.
|
CTRL+[
|
Cancels current command
|
43.
|
CTRL+\
|
Cancels current command
|
44.
|
CTRL+PAGE UP
|
Moves to the next layout tab to the left
of the current tab
|
45.
|
CTRL+PAGE DOWN
|
Moves to the next layout tab to the right
of the current tab
|
3D COMMANDS
Ex.No: Date:
Aim:
To
study about AUTOCAD 3D commands.
Commands and functions:
COMMANDS
|
FUNCTIONS
|
3D
|
Creates three-dimensional polygon mesh objects in common
geometric shapes that can be hidden, shaded, or rendered
|
3DALIGN
|
Aligns objects with other objects in 2D and 3D
|
3DARRAY
|
Creates a three-dimensional array
|
3DCLIP
|
Starts an interactive 3D view and opens the Adjust
Clipping Planes window
|
3DCONFIG
|
Provides 3D graphics system configuration settings
|
3DCORBIT
|
Starts an interactive 3D view and sets the objects into continuous
motion
|
3DDISTANCE
|
Starts the interactive 3D view and makes objects appear
closer or farther away
|
3DDWF
|
Creates a 3D DWF file of your three-dimensional model
and displays it in the DWF Viewer
|
3DFACE
|
Creates a three-sided or four-sided surface anywhere in
3D space
|
3DFLY
|
Interactively changes your view of 3D drawings so that
you appear to be flying through the model
|
3DFORBIT
|
Controls the interactive viewing of objects in 3D, using
an unconstrained orbit
|
3DMESH
|
Creates a free-form polygon mesh
|
3DMOVE
|
Displays the move grip tool in a 3D view and moves
objects a specified distance in a specified direction
|
3DORBIT
|
Controls the interactive viewing of objects in 3D
|
3DORBITCTR
|
Sets the center of rotation in 3D Orbit view
|
3DPAN
|
When a drawing is in a Perspective view, starts the
interactive 3D view and enables you to drag the view horizontally and
vertically
|
3DPOLY
|
Creates a polyline of line segments in 3D space
|
3DROTATE
|
Displays the rotate grip tool in a 3D view and revolves
objects around a base point
|
3DSIN
|
Imports a 3D Studio (3DS) file
|
3DSWIVEL
|
Changes the target of the view in the direction that you
drag
|
3DWALK
|
Interactively changes the view of a 3D drawing so that
you appear to be walking through the model
|
3DZOOM
|
Zooms in and out in a perspective view
|
POLYGONS
Ex. No. : Date:
Question:
Draw
the following polygons using co-ordinate system. Draw according to the
dimensions and also mark the dimensions.
i.
Equilateral triangle of side 50 mm
ii.
Square of side 50 mm
iii.
Pentagon of side 50 mm
iv.
Hexagon of side 50 mm
v.
Octagon of side 50 mm
Aim:
To draw the following
polygons using co-ordinate system
i.
Equilateral triangle of side 50 mm
ii.
Square of side 50 mm
iii.
Pentagon of side 50 mm
iv.
Hexagon of side 50 mm
v.
Octagon of side 50 mm
System configuration:
o Pentium IV computer or better hardware, 512 MB RAM, 14 inch
Colour monitor with suitable graphics facility
o Laser Printer or Plotter to print / plot drawings
Software used:
Licensed
software for Drafting and Modeling - AutoCAD 2000 series
Commands used:
o
Starting commands:
§
Limits, Zoom all, ltscale, dimscale, dimstyle.
o
Drawing commands:
§
Line, rectangle, circle, polygon, multiline
text.
o
Edit commands:
§
Erase, move, copy, trim, extend, chamfer,
fillet.
o
Dimensioning commands:
§
Dimlinear, Dimalligned, Dimradius, Dimdiameter.
Procedure:
1.
Open the AutoCAD software and set the starting commands.
2.
Size of the page is set according to the drawing size by
using LIMITS command and ZOOM on to generate.
3.
By clicking the line command to draw required lines by
giving measurement in command
- Polygon command is used to create an equilateral closed poly line.
5.
Unwanted extensions are erased by TRIM command.
6. MOVE
command is
used to Move the objects a specified distance in a specified direction
7. ERASE command is used to erase
unwanted objects in the diagram.
8. Click on dimension , select linear to
give measurement to the required lines and press enter.
9.
Save the drawing.
10. Check
all and take the print out.
Result:
Thus the given polygons are drawn as per the given dimension using using the software AutoCAD.
INVOLUTES
Ex. No. : Date:
Question:
Draw
an INVOLUTE of the following polygons.
i.
Equilateral triangle of side 50 mm
ii.
Square of side 40 mm
iii.
Pentagon of side 40 mm
iv.
Hexagon of side 30 mm
Aim:
To construct the INVOLUTE of the following polygons using AutoCAD
i.
Equilateral triangle of side 50 mm
ii.
Square of side 40 mm
iii.
Pentagon of side 40 mm
iv.
Hexagon of side 30 mm
System configuration:
o Pentium IV computer or better hardware, 512 MB RAM, 14 inch
Colour monitor with suitable graphics facility
o Laser Printer or Plotter to print / plot drawings
Commands used:
o
Starting commands:
§
Limits, Zoom all, ltscale, dimscale, dimstyle.
o
Drawing commands:
§
Line, rectangle, circle, polygon, multiline
text.
o
Edit commands:
§
Erase, move, copy, trim, extend, chamfer,
fillet.
o
Dimensioning commands:
§
Dimlinear, Dimalligned, Dimradius, Dimdiameter.
Software used:
Licensed
software for Drafting and Modeling - AutoCAD 2000 series
Procedure:
1.
Open the AutoCAD software and set the starting commands.
2.
Size of the page is set according to the drawing size by
using LIMITS command and ZOOM on to generate.
3.
By clicking the line command to draw required lines by
giving measurement in command
4.
Polygon command
is used to create an equilateral closed poly line.
5.
CIRCLE command is used to draw a circle.
6.
Unwanted extensions are erased by TRIM command.
7. MOVE
command is
used to Move the objects a specified distance in a specified direction
8. ERASE command is used to erase
unwanted objects in the diagram.
9. Click on dimension , select linear to
give measurement to the required lines and press enter.
10. Save
the drawing.
11. Check
all and take the print out.
Result:
Thus the INVOLUTE of
the given polygons were drawn using AutoCAD.
STANDARD TITLE BLOCK IN A3 SIZE SHEET
Aim:
To draw the
standard title block in A3 size sheet using Auto CAD commands.
System configuration:
o Pentium IV computer or better hardware, 512 MB RAM, 14 inch
Colour monitor with suitable graphics facility
o Laser Printer or Plotter to print / plot drawings
Software used:
Licensed
software for Drafting and Modeling - AutoCAD 2000 series
Commands used:
o
Starting commands:
§
Limits, Zoom all, ltscale, dimscale, dimstyle.
o
Drawing commands:
§
Line, rectangle, circle, polygon, multiline
text.
o
Edit commands:
§
Erase, move, copy, trim, extend, chamfer,
fillet.
o
Dimensioning commands:
§
Dimlinear, Dimalligned, Dimradius, Dimdiameter.
Procedure:
1.
Open the AutoCAD software and set the starting commands.
2.
Size of the page is set according to the drawing size by
using LIMITS command and ZOOM on to generate.
3.
By clicking the line command to draw required lines by
giving measurement in command
4.
Polygon command
is used to create an equilateral closed poly line.
5.
Unwanted extensions are erased by TRIM command.
6.
MOVE command is used to Move the objects a
specified distance in a specified direction
7.
ERASE
command is used to erase unwanted objects in the diagram.
8.
Click
on dimension , select linear to give measurement to the required lines and
press enter.
9.
Save the drawing.
10.
Check all and take the print out.
Result:
Thus the
title block is drawn in A3 size sheet by using Auto CAD commands.
SIMPLE DIAGRAM USING
ABSOLUTE, RELATIVE, POLAR CO-ORDINATE SYSTEM
AIM:
To draw the
given simple diagram using absolute,
relative, polar co-ordinate system.
System configuration:
o Pentium IV computer or better hardware, 512 MB RAM, 14 inch
Colour monitor with suitable graphics facility
o Laser Printer or Plotter to print / plot drawings
Software used:
Licensed
software for Drafting and Modeling - AutoCAD 2000 series
Commands used:
o
Starting commands:
§
Limits, Zoom all, ltscale, dimscale, dimstyle.
o
Drawing commands:
§
Line, rectangle, circle, polygon, multiline
text.
o
Edit commands:
§
Erase, move, copy, trim, extend, chamfer,
fillet.
o
Dimensioning commands:
§
Dimlinear, Dimalligned, Dimradius, Dimdiameter.
Procedure:
1.
Open the AutoCAD software and set the starting commands.
2.
Size of the page is set according to the drawing size by
using LIMITS command and ZOOM on to generate.
3.
By clicking the line command to draw required lines by
giving measurement in command
4.
Polygon command
is used to create an equilateral closed poly line.
5.
Unwanted extensions are erased by TRIM command.
6.
MOVE command is used to Move the objects a
specified distance in a specified direction
7.
ERASE
command is used to erase unwanted objects in the diagram.
8.
Click
on dimension , select linear to give measurement to the required lines and
press enter.
9.
Save the drawing.
10.
Check all and take the print out.
Result:
Thus
the given simple diagram is drawn in Auto CAD by using the absolute, relative,
polar co-ordinate system.
PENTAGONAL PRISM RESTING ON HP
Question:
Draw the
front view and top view of a pentagonal prism of base side 50 mm and axis
length 100 mm resting on HP on one of its bases when
i.
One of the base edges is perpendicular to VP.
ii.
One of the base edges is parallel to VP and nearer to
it.
iii.
One of the base edges is inclined 450 to VP.
iv.
Two adjacent base edges are equally inclined to VP.
Aim:
To draw the
orthographic views of a pentagonal prism resting on HP using Auto CAD commands.
System configuration:
o Pentium IV computer or better hardware, 512 MB RAM, 14 inch
Colour monitor with suitable graphics facility
o Laser Printer or Plotter to print / plot drawings
Software used:
Licensed
software for Drafting and Modeling - AutoCAD 2000 series
Commands used:
o
Starting commands:
§
Limits, Zoom all, ltscale, dimscale, dimstyle.
o
Drawing commands:
§
Line, rectangle, circle, polygon, multiline
text.
o
Edit commands:
§
Erase, move, copy, trim, extend, chamfer, fillet.
o
Dimensioning commands:
§
Dimlinear, Dimalligned, Dimradius, Dimdiameter.
Procedure:
11.
Open the AutoCAD software and set the starting commands.
12.
Size of the page is set according to the drawing size by
using LIMITS command and ZOOM on to generate.
13.
By clicking the line command to draw required lines by
giving measurement in command
14.
Polygon command
is used to create an equilateral closed poly line.
15.
Unwanted extensions are erased by TRIM command.
16. MOVE
command is
used to Move the objects a specified distance in a specified direction
17. ERASE command is used to erase
unwanted objects in the diagram.
18. Click on dimension , select linear to
give measurement to the required lines and press enter.
19.
Save the drawing.
20.
Check all and take the print out.
Result:
Thus the
orthographic views of a pentagonal prism resting on HP is drawn by using Auto
CAD commands.
PENTAGONAL PYRAMID RESTING ON HP
Question:
Draw the
front view and top view of a pentagonal pyramid of base side 50 mm and axis
length 100 mm resting on HP on one of its bases when
v.
One of the base edges is perpendicular to VP.
vi.
One of the base edges is parallel to VP and nearer to
it.
vii.
One of the base edges is inclined 450 to VP.
viii.
Two adjacent base edges are equally inclined to VP.
Aim:
To draw the
orthographic views of a pentagonal pyramid resting on HP using Auto CAD
commands.
System configuration:
o Pentium IV computer or better hardware, 512 MB RAM, 14 inch
Colour monitor with suitable graphics facility
o Laser Printer or Plotter to print / plot drawings
Software used:
Licensed
software for Drafting and Modeling - AutoCAD 2000 series
Commands used:
o
Starting commands:
§
Limits, Zoom all, ltscale, dimscale, dimstyle.
o
Drawing commands:
§
Line, rectangle, circle, polygon, multiline
text.
o
Edit commands:
§
Erase, move, copy, trim, extend, chamfer,
fillet.
o
Dimensioning commands:
§
Dimlinear, Dimalligned, Dimradius, Dimdiameter.
Procedure:
21.
Open the AutoCAD software and set the starting commands.
22.
Size of the page is set according to the drawing size by
using LIMITS command and ZOOM on to generate.
23.
By clicking the line command to draw required lines by
giving measurement in command
24.
Polygon command
is used to create an equilateral closed poly line.
25.
Unwanted extensions are erased by TRIM command.
26. MOVE
command is
used to Move the objects a specified distance in a specified direction
27. ERASE command is used to erase
unwanted objects in the diagram.
28. Click on dimension , select linear to
give measurement to the required lines and press enter.
29.
Save the drawing.
30.
Check all and take the print out.
Result:
Thus the
orthographic views of a pentagonal pyramid resting on HP is drawn by using Auto
CAD commands.
ORTHOGRAPHIC VIEWS OF
CONE AND PYRAMID
AIM:
To draw the
orthographic views of cone and pyramid using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the front view and top view of the cone and
pyramid using draw commands and modify commands.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
orthographic views of cone and pyramid is drawn by using Auto CAD commands.
PARABOLA, SPIRAL AND
INVOLUTE CURVES
AIM:
To draw the
parabola, spiral and involute curves using B-spline or cubic spline in Auto CAD
commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the parabola, spiral and involute curves using
B-spline or cubic spline.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
parabola, spiral and involute curves using B-spline or cubic spline is drawn by
using Auto CAD commands.
ORTHOGRAPHIC VIEWS OF
MIXIE BASE AND OPEN BEARING
AIM:
To draw the
orthographic views of mixie base and open bearing using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the front view and top view of the mixie base and
open bearing using draw commands and modify commands.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
orthographic views of mixie base and open bearing is drawn by using Auto CAD
commands.
ORTHOGRAPHIC VIEWS OF
TOOL POST AND V BLOCK
AIM:
To draw the
orthographic views of tool post and V block using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the front view and top view of the tool post and V
block using draw commands and modify commands.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
orthographic views of tool post and V block is drawn by using Auto CAD
commands.
SECTIONAL VIEWS OF
CYLINDER AND PRISMS
AIM:
To draw the
sectional views of cylinder and prisms using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the sectional views of cylinder and prisms using
draw commands and modify commands.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
sectional views of cylinder and prisms is drawn by using Auto CAD commands.
SECTIONAL VIEWS OF
CONE AND PYRAMIDS
AIM:
To draw the
sectional views of cone and pyramids using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the sectional views of cone and pyramids using
draw commands and modify commands.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
sectional views of cone and pyramid is drawn by using Auto CAD commands.
ISOMETRIC PROJECTION
OF MACHINE BLOCK, CI CASTING AND ROD SUPPORT
AIM:
To draw the
isometric projection of machine block, CI casting and rod support using Auto
CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Set the GRID style in Isometric option.
4.
Set ORTHO mode on.
5.
Draw the left, right and top phase diagram in left
plane, right plane and top plane respectively.
6.
Give the dimension using aligned option then oblique
the dimension with respect to the plane axes.
7.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
isometric projection of machine block, CI casting and rod support is drawn by
using Auto CAD commands.
3D MODEL OF ROD
SUPPORT AND OBTAINING MULTIVIEW DRAWINGS
AIM:
To draw the
3d model of rod support and obtaining multi view drawings
Using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Set the view-3d view-sw isometric view.
4.
Draw the top view and give extrude, subtract and
intersect commands to build the model.
5.
Give the dimension using aligned option.
6.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the 3d
model of rod support and obtaining multi view drawings are obtained from 3D
model by using Auto CAD commands.
PLAN OF RESIDENTIAL
BUILDING
AIM:
To draw the
plan of residential building by using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the plan of residential building using draw
commands and modify commands.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
plan of residential building is drawn by using Auto CAD commands.
SIMPLE STEEL TRUSS
AIM:
To draw the
simple steel truss by using Auto CAD commands.
Procedure:
1.
Open the Auto CAD software and set the starting
commands.
2.
Draw the title block in A3 size templates.
3.
Draw the simple steel truss using draw commands and
modify commands.
4.
Set the dimension style and give the dimension using
dimension commands.
5.
Check all the diagrams and take print out.
Commands used:
1. Starting commands:
Limits,
Zoom all, ltscale, dimscale, dimstyle.
2. Drawing commands:
Line,
rectangle, circle, polygon, multiline text.
3. Edit commands:
Erase,
move, copy, trim, extend, chamfer, fillet.
4. Dimensioning commands:
Dimlinear,
Dimalligned, Dimradius, Dimdiameter.
Result:
Thus the
simple steel truss is drawn by using Auto CAD commands.
VIVA VOCE QUESTIONS & ANSWERS
1.
Define the following terms?
3D face: A triangular or four-sided
flat surface that is the basic unit of a 3D surface.
3D
mesh: A set of adjacent flat surfaces that together form a geometrical
depiction of a three dimensional curved surface.
3D model: An AutoCAD drawing file
containing AutoCAD objects that occupy 3D space and represent building
components or geometrical objects in the n See also object.
3ds Max: A complementary product to
AutoCAD, also produced by j With 3ds Max you can create and animate 3D scenes.
2.
What is absolute coordinates?
Values
for locating a point in space that describe its displacement from t (0, 0, 0)
point of the drawing.
3.
Define alias.
A shortcut for
starting commands. It's a short string of characters that enter at the command
line instead of the full command.
4. Define
aligned dimension
A linear dimension
measuring the distance between two points. The dime for an aligned dimension is
parallel to a line between the two points.
5. Define
angular dimension
A dimension that
measures the angle between two lines or the angle ins an arc segment.
6. What is
Angular unit?
The unit in which
angle values are displayed. The choices are Decimal Degrees-Minutes-Seconds
(listed as Deg/Min/Sec), Grads, Radians, and S Units.
7. Define
associative dimension.
A dimension that
updates automatically when the object being dimensione size.
12. Define The
description of an. association of AutoCAD objects that is stored \vith the
drm.ving file and incllj.d.eSllname, an insertion point, and a listing of
objects in the association.
13. Wfiat is
block reference'?
An' instance of a grouping of objects that is inserted into
a drawing and is based all the block definition for that grouping. Casually
called a block,
15 What is Boolean operation?
A series of tools that, when used with two overlapping 3D
objects, result in either the two objects being joined as one (Union), one
object and the overlapping volume being deleted (Subtract), or the parts of
both objects outside the overlapping volume
are deleted
(Intersect). .
16. Define Box
A 3D object consisting of a rectangular base and cap and
four rectangular sides.
17. What is
ByLayer?
A value that can be assigned to colors and linet'jpes so
that objects receive their color and linetype properti~ according to the layer
they are on.
19 Define Cartesian coordinate system
A 2D system of locating 'points on a plane. It uses a
horizontal (X) component and a vertical (Y) component to locate a point
relative tothe 0,0 point, or origin.
20. What is
cOmllland line?
A text window at the boltom of the screen that displays
COll1.'Tland: prompts. This is where you see what yOu're entering through the
keyboard. Also called the Command- window.
21. What is
Command: prompt :
The prompt at tIle command line, when no commands are currently
running.
22. What is
c()llle'Xtmcnu--?
A menu that~~~~~S()ll_the drawing area usually as the
resultof a right-c1ick¬and contains options relevant to what the user is doing
at that moment. Also called a shortcut me
Define continued dimension
A dimensioning option that allows you to pJace sequential
dimensions adjacent to each other so that the dimension Jines are aligned.
What is crosshair cursor'!
A form of the cursor that consists of a horizontal line and
a vertical line intersecting at their midpoints, resembling the crosshairs in a
sighting device.
The user coordinate system (UCS) that is active in a
drawing. It determines th~ positive X, Y, and Z directions.
Define Dashboard
A specialized palette that houses tools and controls for easy
access, It's subdivided into one to sixteen control panels.
A measurement, usually of distance or angu~arity, relating
to features in the drawing. Define dimension style
A coilection of settings for dimensIon variables that is
saved in a drawing under a specifieclname. Dimensions placed in the drawing
follow the settings of the current diInension
The text in a dimension. It expresses the measurement
displaying or textual information at the end of a leader.
Define dimension variables. -
A group of settings and values that control the appearance
of dimensions. What is display locking?
The practice of setting a floating vieHpOl1 so that, when it
is active, the scale factor does not change.
38. What is
docking?
Relocating a toolbar or a palette to the perimeter of the
drawing area so it won't interfere with the AutoCAD drawing or other items on
the screen.
39. What is
drawing area?
The portion of the monitor screen where you draw objects and
view your drawing.
40. What is
drawing exients?
The minimum rectangular area with the same proportions as
your drawing area that will enclose nonfrozen objects in your drawing. 'When
you use the Zoom Extents command, the rectangular area fills the drawing area.
Define grid.
2. A series of horizontal and vertical lines in a floor plan
or section that locate the main structural elements of a building, such as
columns and walls. This type is also called a column grid or a structural grid.
What is an hatch patterns?
A pattern of Jines, dots, and other shapes that fills in a
closed area. Define an insertion point.
A reference point that is part of a block and is used to
locate the block when it's inserted into a drawing. It's attached to the cursor
while a block IS being inserted. Once a block has been inserted, use the
Insertion osnap to snap to the insertion point of the block.
Define Isometric view
A pictorial view of a 3D object in which all lines that are
parallel on the object appear parallel in the view.
What is jamb?
A surface that forms the side or top of an opening for a
cloor or window in a wall. What is justification point?
A reference point on a line of single-line text or a body of
multiline text that like the insertion point for blocks.
Define layer
An organizing tool that operates like an electronic version
of transparent overlays on a drawing board. Layers can be assigned color and a
linetype, and their visibility can be controlled. All objects in an AutoCAD
drawing are assigned to a layer.
Derme layout
An optional interface that serves as an aid to the user in
setting up a drawing for printing. It rests "on top of" the model
space in which the drawing of the bUilding resides. It usually contains the
title block, notes, scale, and other infonnation. User view a drawing through
openings in the layout called floating viewpons. A singl drawing file can have
multiple layouts, one for each print to be made from th file. The layout
interface is sometimes referred to as paper space.
Derme linetype. The style of appearance of a line. AutoCAD
styles include continuous, dash-dot, and so on.
Define lineweight. The value of a line's width measured in
inches or millimeters. Define Mirror. A command that makes a copy of selected
objects and flips the copy around specified line to produce a reciprocal image
of those objects.
A view of your drawing that is saved and given a name so
that it can be restored ,i
later. :1
Define an
object. il
A basic AutaCAD graphical element that is created and
manipulated as part of the II
drawing, such as a line, an are, a dimension, a block, or
text. Also called an entity. II
83. What is an
Object Snap mode? ,I
Any of a set of tools for precisely picking strategic poinrs
on an (jl~iecr, including :1
Endpoint,
Midpoint, Center, and so on. It's casually called osnap. ii'
What is an
oril:dn'? I
The p,aint
with ~~e coordinates il
What is an
Ortho mode? 0,0,0, where the X-,
y-. and z-axes meet,
A C01l1illRHC1 that slides the current dra\ving around on
the dra\ving area \vithuut 11
II
changing
the magnification of the view. "
Define
paper space :1
A term sometimes used to ret'h 10 the interface for a
drawing that contains layoms. Ii What is Perspective view'? i,'l' A pictorial
view of a 3D object in which p, arallel lines that aren't parallel La the
!i plane of the screen appear to converge as they move
farther from the viewer. similar 'I
1',,'1
to the way objects appear in the rea] wOTld (such as
railroadtracks in tbe distance)
What is pick button? II
:1
The button on the mouse (usually the left one) that is used
to pick points, buttons, :i
or menu
items, as well as to select objects in the drawing area. il
What is
pickbox?
An on/off setting that, when on, forces lines to be drawn
and objects to be moved in a horizontal or vertical direction only.
A system or creating views in which each view shO\vs a
different side of a bllllding or an object, such as the top, from, left side,
right side, and so OIL
A form of the cursor as a small square that occurs \vhen
AutoCAD is in selection mode.
A view of a drawing in which the viewer is looking straight
at the XY plane in
What is Plan view?
94. What is plot
style?
A group of settings assigned to a layer , a color, or an
object. determine how that layer, color, or object is printed.
97. DermePolat
coordiri.ates.
Values forlocating'apoint• in space that describe itS
locationre point picked as defined by an angle and a diStance.
99. Derme
polyline.
A special rype oHinetImt (a) treats multiple segments as one
obje¢t; arcs, (c) can be smoothed into a curved line, and (d) can h
applications.
102. Define Redra.w
A command to refresh the drawing area or a particular viewPQ it of any graphic
distortions that show upon the monitor whil
10J.Define regeneration.
A process in . which the geometry for the objects in the
current . recalculated.
105. Define
relative coordinates
Values for locating a point in space that describe its
displacel1le,n, point picked in the drawing rather than from the origin.
106. Define render.
The practice of calculating the ~,L~}CeS, lights, materials,
andenvir
an image file. The command_ to do so is alsQcalled Render.
107. What is
rubberbanding?
The effect of a line extending between the last point picked
and stretching like a rubber band as the cursor is moved.
,
109. What
isscalefa.ctor?
The number that expresses the true ratio of a scale. For
example,•4 factor for quarter-inch scale (ID 4" = 1'-0").
112. What is
selection set?
Any object or group of objects. that have been selected for
modifica been selected to be used in a modification process.
113. Derme
selection window
A tool for selecting objects whereby the user creates a
rectangular win drawingarea. Objects are selected in two ways, depending on
whether th windoW iSactossing window or a regular window.
117. Derme soffit
The underside of the roof overhang that extends from the
outside edge back to the wall.
1.
2. The
3. A threedim a
solid block of
4. Define stud
pattern that fills a defmed boundary with a solid color.
j;)bject in AutoCAD that has properties similartQ those of erial, such as mass,
center of gravity, density, and so. on.
5.
A verticaLpie~~pflumber or metal used in framing walls. It's
usually 2" x 4" or 2" Xi 6"in cross dimension and extends
the height of the wall.
120. What is
SllrY~YOr's Units?
An angular unit of direction in which the value is the angle
that the direction devia,tes away (or bears)from true north or south, toward
the east or west.
121. Derme table.'
A matrix of information such as a spreadsheet, usually
included in construction drawings, '. tht\tcontains data presented in rows and
columns separated by lines.
122. Derme
template'drawing
A draWing t1jathasbeen set up to serve as a format for anew
drawing. This allows the user to.begiiIanew drawing with certain parameters
already set up, because various settings/have been predetermined.
123. What
istext"'$tyle?
A collectionq:l?c'$c:ttingsthatcontrols the appearance of
text and is saved in a drawing under asp~jfi~qpl;ll)lY.Text placed in the
drawing will follow the settings of the current text/§.tYle:
124. Def'm~ a The
onp on layer during a
125. What is
Thedi in whic
a buildin
See also
,
a setting called Freeze/Thaw that controls the visibility of
objects 'ines whetherAutoCAD calculates the geometry of these objects n.
~Qbjectisex.truded in a direction perpendicular to the.
plane lydrawn,.rY~91ting in a 3D object .. For a floor plan of .
lIleextruded.•tcfathickness that is the wall's actual height.
126. Whati
A fea
user setsuptempqrary points or angles as guides for
~ir¢pqintsinthe pracessof drawing. Object snap tJ:W.tell1pOfl:lfY points,. and
polar tracking sets the angles.
. is tracking
points'!
The temporary points that are set up for use
129. What is
transparent command?
A command that can be executed while another command is
interfering WiLtl fue ruillling command. Display commands, such
. are transparent.
130. What is true
ratio?
An expression of two numbers fuat defInes that• is, the
number of units represented by a
132. Derme user
coordinate system (UCS).
A defInition for the orientation of the X-, y-, and z-axes
in space relative t objects in the drawing or to the world coordinate system
(WeS) named, saved,and restored.
133. Derme view.• A
display of the current drawing is shown on the screen or in a viewport. Views
134. Define
viewport An opening •usually rectangular, but not always--through which the a
drawing or a portion of it. There are two kinds of viewports: tiled (used in
model space) and floating viewports (~d in layouts).
135. Define
wireframe A view of a 3D object that uses lines to represent fue intersections
planes defIned by these lilles represent surfaces of building componentS,
parts, and so on.
Define workspace. A customizable arrangement of dockable
palettes, menus, and to graphics window that can be named, saved, and made
current.
138. Define world
coordinate system (WCS) The default user coordinate system (UeS) for all new
drawing fIles, in positive directions for the x- and y-axes are to the right
and upward, res and in which the positive direction for the z-axis is toward
the user and perpe
to the plane of the screen.
140. Derme Zoom
The name of a command with several options, all of which
allow the user to . or decrease the magnifIcation of the view of the current
drawing in the area or in a viewport.
1. What is meant by command ?
The instructions to be input into a drafting software for
making a drawing, copying, saving, etc. are called commands.
2. State the different methods of sending in commands.
Command can be typed on the keyboard. It may be picked from
a menu or tablet or selected from a bar like standard tool bar and modify tool
bar by using a mouse.
3. What is an entity?
A drawing element like line, arc and circle is called an
entity.
4. State the different items displayed in a typical
user-system graphic int~rface of AutoCAD.
A typical user-system graphic interface consists of menu
bar, standard toolbar, draw toolbar, modify toolbar, status bar, vertical
scroll bar, horizontal scroll bar, drawing area and command area.
5. Drawing area is a rectangular part of the graphics area
of the screen. True / False Ans: True.
6. Command area is generally a three-line area in AutoCAD.
True / False Ans: True.
7. What is dialog box?
The user-graphic interface that appears on the screen as response
to certain commands is called dialog box. It has check boxes, buttons to click
on for alternative options. There are boxes for OK, apply, cancel and so on.
Click on OK will return the user to the usual user interface.
8. State the different methods of drawing a line by using
AutoCAD.
The different methods of drawing a line are i) absolute
co-ordinate system ii) relative rectangular co-ordinate system and iii)
relative polar co-ordinate system.
9. Write the sequence to be followed for drawing an equilateral
triangle ABC shown in Fig. 1.
Command From point
Line or L
Pick A ..-J (Take the cursor to any pui.:1t on the screen
and press the left button).
To point @ 5,
0 ..-J
To point @ 5
< 120 ..-J
To point @ 5
< 240 ..-J
To point ..-J
Remember that..-J means 'press ENTER key'.
10. Write the sequence to be followed for drawing the lines
AB, BC and CD shown in Fig. 2.
Command Line or L
From point Pick A ..-J
To point To point To point To point
@ 4,0 .-J @ 0, 2 .-J
@ 5 < 45 .-J .-J
4
11. How is @ entered? Aa.2
@ is entered by pressing both shift key and 2 key
simultaneously.
12. How will command: prompt be restored if everything got
messed up while handling the AutoCAD?
If everything got messed up while replying to prompts or
sending in command, just press Ese key available on the keyboard at left, top
corner or press Ctrl and C keys. Command: prompt will be restored.
13. Illustrate the method of finding the co-ordinates of the
line AB shown in
Fig. 3. B
Command : ID.-J
Point End .-J of PI
.-J
Now, the x and y co-ordinates of A are displayed. Command :
ID.-J
Point End .-J of P2
.-J
Now, the x and y co-ordinates of B are displayed. A
Note: With Osnap on, the end point command will select the
end point of a line nearest to the cursor.
16. Name the commands to be used for drawing the diagram
shown in Fig. 4. Line command for drawing line. Arc com. mand for drawing the.,
[QJ
arc. Circle command, for drawing the circle. 0 FigA
17. State the use of CLOSE command.
Close command joins the first point (start point) and the
last point of a series of lines drawn. AB, BC and CD are~. c
~D
t'J.rawn by using line command (Fig.5). When close L C .
command is issued, the line DA joining the last point with ~
.
the first point is automatically drawn. A B
Flg.5
18. Write the commands for drawing a rectangle, ellipse and
polygon. Command for drawing a rectangle is Rectang, ellipse - Ellipse or EL,
polygon - Polygon or POL.
19. State the minimum and maximum number of sides of a
polygon that can be drawn by using AutoCAD.
In Auto CAD , polygon having a minimum of 3 sides and a
maximum of 1 024 sides can be drawn. Here, all the sides are of equal length.
20. Write the command and sequence for drawing a rectangle
of sides 5 units and 3 units.
Command Rectang
..-J
First Corner 2, 2
..-J
Other corner 7, 5
..-J
First corner may be any point of any co-ordinates. Increase
the x co-ordinate by 5 units and y co-ordinate by 3 units to locate the other
corner. A rectangle of sides 5 units and 3 units is drawn.
21. State the different methods of drawing ellipse by using
AutoCAD. i) An ellipse of given major axis and minor axis.
ii) An ellipse of given major axis and angle of rotation
around major axis. iii) An ellipse of known centre, major axis and minor axis.
22. State the op!t~ns available for drawing a polygon.
i) A polygon of known number of sides given the
inscribing/circumscribing circle. ii) A polygon of known number of sides and
edge length.
23. What is a polyline in AutoCAD? Write its command.
Polyline represents a group of lines and arcs taken as a
single unit. Command for polyline is Pline or PL.
24. What is the speciality oipolyline command? or State when
polyline command is used.
Different entities like line, are, chamfers and fillets are
taken as a single unit in polyline. Individual segments of polyline can be of
single wtdth or varying width forming a closed polygon. The perimeter and area
of polyline can be obtained.
25. State the characteristics of a polyline command.
Same as that for Qn.24.
26. What is Osnap? State its uses.
Osnap means 'running object snap. OSNAP, DDOSNAP or OS means
the same. OSNAP command is used to place a snap point at an exact location of
an object line like the end point of a line, intersection of two lines,
mid-point of a line and centre of circle.
27. State the uses of grid command and snap command. Grid
command is used to display a grid of dots of desired spacing.
Snap command is used to control the movement of cursor at
specified intervals. When the snap is on, the cursor moves on an imaginary
rectangular grid of specified interval. Normally, snap interval is kept the
same as grid spacing.
What are the commands to be used for drawing the diagram
shown in Fig. 6"(
e commands
to be used are OSnap, Snap, Ortho and circle. 100
o
100 50 I Fig.6
. Sub-commands CEN, QUA, MID operate even with Osnap off.
True / False ue. But only one such sub-command is operational at a time .
. What are the commands used for drawing isometric views?
State the order which they are to be issued.
le commands used for drawing isometric views are i) DDRMODES
or RM and ii) OPLANE. RM command is issued first. Isoplane is issued next.
Isoplane command Ips in choosing the isometric plane and also the current pair
of axes which are required work on .
.. Distinguish between ERASE and UNDO commands.
rase command removes objects from the screen. Undo or U
command undoes the last mmand whatever may be the nature of the last command.
~. Distinguish between ERASE and OOPS commands.
rase command removes objects from the screen. OOPS command
brings back the object 'ased by the latest (or the last) erase command. OOPS is
just the reverse of erase.
3. Illustrate the use of OOPS command. ommand: OOPS +-'
(a) Removed object in dotted lines
Fig.7
'he inner rectangle which was erased' by the last erase
command (Fig. 7a) which is not een now (Fig.7b) is brought back (Fig.7c) after
the issue of OOPS command.
14. Illustrate the use of Undo command.
A --------- B (5, 6) after L command (10, 6) . (a)
A _ .. _._-.-.----------.-------- B
After U command (AB removed)
(b)
Command : U +-'
The last command issued was L command and the line AB was draw
n. U command given after line command undoes the line command, the last
command. That means, the line AB vanishes. See Fig.8(b).
35. Circle command, line comman~ and arc command were issued
one after another in the order given. What will happen if undo command is
issued twice successively?
Undo command can be used any number of times. 2 undo
commands issued in succession undoes the arc and line commands which are the
last two commands. Circle will remain after the issue of Undo command twice.
36. Illustrate the use of Redo command.
Redo command reverses the previous Undo command. Redo can be
used only once.
o
o
o
Before U Mter U After
Redo
command command command
The line was drawn last by using L command. When U command
was issued next, thf line vanished. Redo command issued immediately after U
command reverses the effec1 of U. That means, the line appears again. (See Fig.
9)
37. State the use of Zoom command.
Zoom command is used to magnify or decrease the display size
of objects. Command i,
zoomorz@ @ Ig/1
Before Z Fig.IO Mter
Z Fig. 11
38. Zoom command is used only for magnifying the size of
objects. True / false False. Zoom command is used for both magnifying the size
or decreasing the size oj objects.
39. State the different object selection methods.
The different object selection methods are i) selection with
the mouse ii) All/multiple iii; Window iv) crossing v) last/previous vi) remove
vii) single viii) W PolygoniC Polygon.
40. Distinguish between window and crossing methods of
object selection.
In the window method, a window like area surrounds objects
to be selected as shown in Fig. 11. All the objects lying wholly within the
window are selected. Objects partly within and partly outside the wincl:t>w
are NOT selected. In crossing, objects lying within the window and also objects
crossing the boundary of the window are selected.
41. Distinguish between W Polygon and C Polygon method of
object selection. W Polygon is used to select objects lying within a polygon. C
Polygon is used to select objects lying within the crossing polygon.
42. State how dynamic option of zoom command is used.
Dynamic option is used to zoom the portion of the drawing
included within a view box. The view box can be reduced or enlarged. It can be
moved anywhere within the drawings.
43. What are the three ways in which scale option of the
Zoom command can be used?
Scale option of Zoom command is used to increase or decrease
the display size of the drawing. It can also be effectively used to alter the
model paper scale ratio and thus t<J display the different parts of the
drawing in different sizes.
44. How is HATCH command implemented in AutoCAD?
B hatch or H command is used to fill a closed area with a
selected hatch pattern. Boundary hatch dialog box appears when Hatch command is
given. The required pattern of hat chi nil
is selected by clicking on 'pattern' and then on the
required pattern in the hatch pattern palette. By using Advanced option, one of
the three styles of hatching is selected. The
thregeBhOWa ••
Outer
Fig. 12
45. State the uses of DDCHPROP and CHPROP commands (change
prop commands.
Both the commands are used to change the colour, linetype,
layer and thickness of existing objects. DDCHPROP uses dialog box to change
properties. The command CHPROP does not display any dialog box.
46. State the use of OFFSET command.
Offset command is used to draw parallel lines, concentric
circles, parallel arcs and parallel polylines.
47. State the two options of offset command.
Offset distance and Through are the two options of offset
command. Offset distance option is used to draw parallel entities at specified
offset distance. Through option is used to draw parallel entities at any point.
48. State the different types of commands used for
dimensioning different entities.
Dimlinear or DLI, Dimaligned or DAL, Dimradius or DRA,
Dimdiamattr or DDI, Dimcenter or DCE, Dimangular or DAN and Dimordinate or DOR
are the different commands used for dinlensioning.
49. What is base line dimensioning?
In base line dimensioning, linear, angular or ordinate
dimensions are made from the same base line of the selected dimension. Command
is Dim baseline or DBA.
50. Illustrate the use of base line dimensioning for
dimensioningthe steps shown
in Fig.13. 2
The steps are drawn keeping ORTHO on. Complete the 2
dimensioning of the first step (Dimension 2) using 2
D1..mh.nea-r. Use Dimbase line command for placing the Fig.13
dimensions 4 ann Q start.):n.~ Vlit\\. t\\.e same base Yme.
51. Explain how continued dimensioning is eJ(ecuted ?
Command Dimcontinue or DCO is used for making continued dimensioning. Here,
dimensions are continued from the second extension line of the already existing
linear, angular or ordinate dimension. (See Fig. 14)
54. State the three types of 3D modelling.
Types of 3D modelling are i) wire-frame modelling ii)
surface modelling and iii) solid modelling.
55. What is wire-frame modelling?
Wire-frame model is a 3D representation of objects by using
mostly lines, arcs and circles. It is skeletal and does not have surfaces. Only
edge details are shown by a wire frame model (See Fig.15).
56. What is surface modelling?
In surface modelling, the 3D object is made up of opaque
surfaces (3D faces). The inner portion of the object is hollow. The details
available behind the surfaces are hidden.
57. What is solid modelling?
In solid modelling, a solid 3D object is produced. It is
like a solid object made of a material like wood. The solid thus produced
"Can be cut into pieces. Mass properties of solid models can be determined
(See Fig.16).
58. What is the use of box command?
Box command is used to draw three-dimensional solid box. To
see the box as a three dimensional object, view point should be altered from 0,
0, 1 to some other point, (say) 1, 1, 1.
59. What is the use ofVPOINT command?
VPOINT command is used to specify the viewing direction for
a three dimensional visualisation of the drawing. VPoint locates the observer
in a specified position to look at the drawing back at the origin 0, 0, 0.
60. State the limitation of VPOINT command.
VPoint can be applied only in model space and not in paper
space.
61. What is the use of view point option'!
Different views can be obtained by entering different view
point values. 0, 0, 1 gives top view; 0, -1, 0 gives front view; 1',0,0 gives
right view and -1,0,0 gives left view. View point option is used to enter
different view point values.
62. What is the use ofVPORTS command.
VPORTS command is used to divide the screen (graphics) area
into a number of tiled view-ports. TILEMODE available on the status bar should
be switched on before issuing VPORTS command.
63. State any three options under VPORTS command.
Horizontal option divides the area into 3 horizontal
view-ports. Vertical option diviqes the area into 3 vertical view-ports. 2
Option divides the area into two halves either vertically or horizontally. 4
option divides the area into 4 equal view-ports. Join option is used to join
two adjacent view-ports into a larger view-port.
64. A -- is a rectangular part of the graphics area of the
screen. Ans: View-port
65. What is the use of cylinder command?
Cylinder command is used to draw a three dimensional solid
cylinder.
66. State the uses of CONE and SPHERE commands.
Cone command is used to draw a three dimensional cone.
Sphere command is used to draw a three dimensional solid sphere.
9
Elevation
If
67. Illustrate elevation and thickness of an entity.
Fig 17(a) illustrates elevation and Fig.17(b) shows
thickness of an entity. Command used for drawing the elevation is Elevation.
Elevation command is also used to set extrusion thickness properties of new
objects.
(a) Fig.17 (b)
68. Distinguish between elevation and thickness commands.
Elevation and thickness set by using ELEV command become
permanent. Subsequent extrusion of objects is thus not possible. Thickness set
by using thickness or TH command can be altered if needed.
69. State the use Of UNION command.
Union command is used to draw a composite region or solid by
adding different regions or solids. A composite region is formed by combining
two or more
_9-1 ~ r:v Lj
Solids before Union .' is after Union Fig.I8 (b)
Fig.19 (a) Fig.19 (b)
71. What is the use of MASSPROP?
Massprop command is used tonetermine the mass properties of
solids or regions. In the case of co-planar and non co-planar regions, the
properties displayed are area, perimeter, centroid, moment of inertia, products
of inertia, radii of gyration and principal moments. In the case of solids, the
properties displayed are mass, volume, centroid, moment of inertia, products of
inertia and radii of gyration.
72. What is meant by extrusion?
Extrusion is the process of drawing solids by extruding
existing two-dimensional objects. If a taper angle is entered, the object is
extruded in a tapered manner. Positive angle tapers the object in the positive
z-direction. Negative angle tapers the object
Fig.20
in the negative z-direction. Fig.20(a) and (b) show an
object PI extruded in the positive z direction. Fig.20(c) shows positive
tapered extrusion. Fig.20(d) shows negative taperec extrusion.
73. Illustrate the method of drawing the sectional view by
using AutoCAD. Command SECTION or SEC is used to draw a region obtained by
intersecting solid: with a plane. 3 points option creates a plane passing
through three given points. )0 option keeps the plane parallel to xy plane of
the current DCS.
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