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8/10/2019 Lecture4 Theory of Projections
http://slidepdf.com/reader/full/lecture4-theory-of-projections 1/31
Projection theoryProjection theory
3-D objects and structures arerepresented graphically on 2-D media.
All projection theory are based on two
variables:
Line of sight Plane of projection.
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Projection system
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Plane of ProjectionPlane of Projection
A plane of projection (i.e, an image or picture
plane) is an imaginary flat plane upon which the
image created by the line of sight is projected.
where the lines of sight pierce the projection
plane. In effect, 3-D object is transformed into a
2-D representation, also called projections.
The paper or computer screen on which a
drawing is created is a plane of projection.
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Projection Methods
Projection methods are very important
techniques in engineering drawing.
Perspective and
Parallel.
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In perspective
projection, all
lines of sightstart at a
single point.
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In parallel projection, all lines of sight are parallel.
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Parallel vs Perspective ProjectionParallel vs Perspective Projection
Parallel projection Distance from the observer to the object is infinite,
projection lines are parallel – object is positioned atinfinity.
Less realistic but easier to draw.
Χ Perspective projection Distance from the observer to the object is finite and
the object is viewed from a single point – projectors
are not parallel.
Perspective projections mimic what the human eyes
see, however, they are difficult to draw.
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Orthographic ProjectionOrthographic Projection
A parallel projection technique in which the plane ofprojection is perpendicular to the parallel line of sight.
Orthographic projection technique can produce eitherpictorial drawings that show all three dimensions of anobject in one view, or multi-views that show only two
.
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MultiMulti--view Projectionview Projection
In an orthographic projection, the object is oriented in sucha way that only two of its dimensions are shown. Thedimensions obtained are the true dimensions of the object
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Frontal plane of projectionFrontal plane of projection
Frontal plane of projection is the plane onto which the Front
View (FV) of the multi-view drawing is projected.
Front view of an object shows the width and heightdimensions.
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Horizontal plane of projectionHorizontal plane of projection
Horizontal plane of projection is the plane ontowhich the Top View of the multi-view drawing isprojected.
Top view of an object shows the width and depthdimensions.
Dr P. S. RobiIIT Guwahati
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Profile plane of projectionProfile plane of projection
In multi-view drawings, the right side view is the standardside view used. The right side view of an object shows thedepth and the height dimensions. The right side view isprojected onto the profile plane of projection, which is a
plane that is parallel to the right side of the object.
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Orientation of views from projectionOrientation of views from projection
planesplanes
Top view is always
positioned andaligned with the
,
view is always
positioned to the
side of and alignedwith the front view.
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Six Principal viewsSix Principal views• The plane of projection can be oriented to produce an
infinite number of views of an object. However, someviews are more important than others.
• These principal views are six mutually perpendicularviews that are produced by six mutually perpendicular
.
• Imagine suspending an object in a glass box with majorsurfaces of the object positioned so that they are
parallel to the sides of the box, six sides of the boxbecome projection planes, showing the six views –front, top, left, right, bottom and rear.
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Six Principal ViewsSix Principal ViewsObject is
suspended in a
glass box
producing six
principal views:
each view is
perpendicular to
and aligned with
the adjacent
views.
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Unfolding the glassbox to produce six-
view drawing• Top, front and bottom
views are all alignedvertically and sharethe same widthdimension.
• Rear, left side, frontand right side viewsare all alignedhorizontally and sharethe same heightdimension.
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Conventional view placement
The three-view multiviewdrawing is the standardused in engineering andtechnology, because many
times the other threeprincipal views are mirrorimages and do not add to
object.
The standard views used in
a three-view drawing arethe top, front and the rightside views
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The width dimensions arealigned between the front
and top views, usingusing verticalverticalprojectionprojection lineslines..
The height dimensions arealigned between the frontand the profile views, usinghorizontal projection lines.
Because of the relativepositioning of the threeviews, the depth dimension
cannot be aligned usingprojection lines. Instead, thedepth dimension is
measured in either the top orright side view.
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ExampleTV X1
1. Visible
2. Hidden
3. Center
FV RHSV
X Y
Y1
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First Angle Projection
Object in the first quadrant
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Placing the object in
the third quadrantputs the projectionplanes between theviewer and theobject.
When placed in thefirst quadrant, theobject is betweenthe viewer and theprojection planes.
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Difference between first- and third-angle projections
First angle projection Third-angle projectionObject is kept in the first quadrant. Object is assumed to be kept in
the third quadrant.
Object lies between observer and the
plane of projection.
Plane of projection lies between
the observer and the object.The plane of projection is assumed tobe non-transparent.
The plane of projection isassumed to be transparent.
the XY line
below the XY line
Top (plan) view is drawn below the XYline
Top (plan) view is drawn abovethe XY line
Left view is projected on the rightplane and vise versa
Left view is projected on the leftplane itself.
Followed in India, European countries Followed in USA
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