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ORTHOGRAPHIC PROJECTIONS

Orthographic projections are a method of technical drawing where views of an object are projected onto planes perpendicular to the object. There are three principal planes - the horizontal plane, vertical frontal plane, and profile plane. Views are the front view projected on the vertical plane, top view on the horizontal plane, and side view on the profile plane. The document provides details on first and third angle projection methods, examples of orthographic projections of different objects, and terminology used in orthographic projections.

Engineering
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Introduction to orthographic projections outlining the types of reference planes (HP, VP, PP) and the views (FV, TV, SV) used in technical drawing.

Details on the principal planes (HP, VP) and auxiliary planes (A.V.P., P.P., A.I.P.) used in projections.

Illustration of how to visualize the first angle method by rotating planes, showing actual pattern of views.

Explanation of First Angle and Third Angle Projection methods and their respective viewpoints.

Describes the positioning of the object in the first quadrant for First Angle Projections with actual view patterns.

Details the setup for Third Angle Projections using transparent planes and their view arrangements.

Insight on observing machine elements from three views and conducting various illustrated case studies.

Further illustration of First Angle Projection with the positioning of the object affecting the visibility of views.

Illustration of view arrangement in Third Angle Projections with the relationship between observer, planes, and object.

Series of slides showing different views (FV, SV, TV) of an object to be drawn using First Angle Projection methods with various object outlines.

Sequential practice slides for drawing and visualizing views in First Angle Projection with provided specifications and dimensions for accuracy.

Lastly, practice slide depicting left side view with dimensions, adhering to First Angle Projection methodology.

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ORTHOGRAPHIC PROJECTIONS: Horizontal Plane (HP), Vertical Frontal Plane ( VP ) Side Or Profile Plane ( PP) Planes. Pattern of planes & Pattern of views Methods of drawing Orthographic Projections Different Reference planes are FV is a view projected on VP. TV is a view projected on HP. SV is a view projected on PP. And Different Views are Front View (FV), Top View (TV) and Side View (SV) IMPORTANT TERMS OF ORTHOGRAPHIC PROJECTIONS: IT IS A TECHNICAL DRAWING IN WHICH DIFFERENT VIEWS OF AN OBJECT ARE PROJECTED ON DIFFERENT REFERENCE PLANES OBSERVING PERPENDICULAR TO RESPECTIVE REFERENCE PLANE 1 2 3
 A.I.P. ⊥ to Vp&∠ to Hp  A.V.P. ⊥ to Hp & ∠ to Vp PLANES PRINCIPAL PLANES HP AND VP AUXILIARY PLANES Auxiliary Vertical Plane (A.V.P.) Profile Plane ( P.P.) Auxiliary Inclined Plane (A.I.P.) 1
THIS IS A PICTORIAL SET-UP OF ALL THREE PLANES. ARROW DIRECTION IS A NORMAL WAY OF OBSERVING THE OBJECT. BUT IN THIS DIRECTION ONLY VP AND A VIEW ON IT (FV) CAN BE SEEN. THE OTHER PLANES AND VIEWS ON THOSE CAN NOT BE SEEN. X Y HP IS ROTATED DOWNWARD 900 AND BROUGHT IN THE PLANE OF VP. PP IS ROTATED IN RIGHT SIDE 900 AND BROUGHT IN THE PLANE OF VP. X Y X Y VP HP PP FV ACTUAL PATTERN OF PLANES & VIEWS OF ORTHOGRAPHIC PROJECTIONS DRAWN IN FIRST ANGLE METHOD OF PROJECTIONS LSV TV PROCEDURE TO SOLVE ABOVE PROBLEM:- TO MAKE THOSE PLANES ALSO VISIBLE FROM THE ARROW DIRECTION, A) HP IS ROTATED 900 DOUNWARD B) PP, 900 IN RIGHT SIDE DIRECTION. THIS WAY BOTH PLANES ARE BROUGHT IN THE SAME PLANE CONTAINING VP. PATTERN OF PLANES & VIEWS (First Angle Method) 2 Click to view Animation On clicking the button if a warning comes please click YES to continue, this program is safe for your pc.
Methods of Drawing Orthographic Projections First Angle Projections Method Here views are drawn by placing object in 1st Quadrant ( Fv above X-y, Tv below X-y ) Third Angle Projections Method Here views are drawn by placing object in 3rd Quadrant. ( Tv above X-y, Fv below X-y ) FV TV X Y X Y G L TV FV SYMBOLIC PRESENTATION OF BOTH METHODS WITH AN OBJECT STANDING ON HP ( GROUND) ON IT’S BASE. 3 NOTE:- HP term is used in 1st Angle method & For the same Ground term is used in 3rd Angle method of projections
FOR T.V. FOR S.V. FOR F.V. FIRST ANGLE PROJECTION IN THIS METHOD, HE OBJECT IS ASSUMED TO BE SITUATED IN FIRST QUADRANT MEANS ABOVE HP & INFRONT OF VP. OBJECT IS INBETWEEN OBSERVER & PLANE. ACTUAL PATTERN OF PLANES & VIEWS IN FIRST ANGLE METHOD OF PROJECTIONS X Y VP HP PP FV LSV TV
FOR T.V. FOR S.V. FOR F.V. IN THIS METHOD, THE OBJECT IS ASSUMED TO BE SITUATED IN THIRD QUADRANT ( BELOW HP & BEHIND OF VP. ) PLANES BEING TRANSPERENT AND INBETWEEN OBSERVER & OBJECT. ACTUAL PATTERN OF PLANES & VIEWS OF THIRD ANGLE PROJECTIONS X Y TV THIRD ANGLE PROJECTION LSV FV
ORTHOGRAPHIC PROJECTIONS { MACHINE ELEMENTS } OBJECT IS OBSERVED IN THREE DIRECTIONS. THE DIRECTIONS SHOULD BE NORMAL TO THE RESPECTIVE PLANES. AND NOW PROJECT THREE DIFFERENT VIEWS ON THOSE PLANES. THESE VEWS ARE FRONT VIEW , TOP VIEW AND SIDE VIEW. FRONT VIEW IS A VIEW PROJECTED ON VERTICAL PLANE ( VP ) TOP VIEW IS A VIEW PROJECTED ON HORIZONTAL PLANE ( HP ) SIDE VIEW IS A VIEW PROJECTED ON PROFILE PLANE ( PP ) ND THEN STUDY NEXT 26 ILLUSTRATED CASES CAREFULL RY TO RECOGNIZE SURFACES ERPENDICULAR TO THE ARROW DIRECTIONS FIRST STUDY THE CONCEPT OF 1ST AND 3RD ANGLE PROJECTION METHODS
FOR T.V. FOR S.V. FOR F.V. FIRST ANGLE PROJECTION IN THIS METHOD, HE OBJECT IS ASSUMED TO BE SITUATED IN FIRST QUADRANT MEANS ABOVE HP & INFRONT OF VP. OBJECT IS INBETWEEN OBSERVER & PLANE. ACTUAL PATTERN OF PLANES & VIEWS IN FIRST ANGLE METHOD OF PROJECTIONS X Y VP HP PP FV LSV TV
ACTUAL PATTERN OF PLANES & VIEWS OF THIRD ANGLE PROJECTIONS X TV LSV FV IN THIS METHOD, THE OBJECT IS ASSUMED TO BE SITUATED IN THIRD QUADRANT ( BELOW HP & BEHIND OF VP. ) PLANES BEING TRANSPERENT AND INBETWEEN OBSERVER & OBJECT. FOR T.V. FOR S.V. FOR F.V. Y THIRD ANGLE PROJECTION
x y FRONT VIEW TOP VIEW L.H.SIDE VIEW FOR F.V. FOR S.V. FOR T.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD ORTHOGRAPHIC PROJECTIONS 1
FOR F.V. FOR S.V. FOR T.V. X Y FRONT VIEW TOP VIEW L.H.SIDE VIEW ORTHOGRAPHIC PROJECTIONS PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 2
FOR F.V. FOR S.V. FOR T.V. ORTHOGRAPHIC PROJECTIONS X Y FRONT VIEW TOP VIEW L.H.SIDE VIEW 3 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
FOR T.V. FOR S.V. ORTHOGRAPHIC PROJECTIONS FOR F.V. FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y 4 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
FOR T.V. FOR F.V. FOR S.V. ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y 5 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
FOR T.V. FOR F.V.FOR S.V. ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y 6 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y FOR T.V. FOR F.V. FOR S.V. ORTHOGRAPHIC PROJECTIONS 7 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
Z STUDY ILLUSTRATIONS X Y 50 20 25 25 20 FOR T.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 8 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW
FOR T.V. FOR F.V. FOR S.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 9 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
FOR T.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 10 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
FOR T.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 11 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
FOR T.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 12 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
Z STUDY ILLUSTRATIONS x y FV 35 35 10 TV 302010 40 70 O FOR T.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 13 ORTHOGRAPHIC PROJECTIONS
ZSTUDY ILLUSTRATIONS SV TV yx FV 30 30 10 30 10 30 ALL VIEWS IDENTICAL FOR T.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 14 ORTHOGRAPHIC PROJECTIONS
x y FV SV Z STUDY ILLUSTRATIONS TV 10 40 60 60 40 ALL VIEWS IDENTICAL FOR T.V. OR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 15 ORTHOGRAPHIC PROJECTIONS
FOR T.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 16ORTHOGRAPHIC PROJECTIONS x y FV SV ALL VIEWS IDENTICAL 40 60 60 40 10 TOP VIEW
40 20 30 SQUARE 20 50 60 30 10 F.V. S.V. O FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 17 ORTHOGRAPHIC PROJECTIONS FRONT VIEW L.H.SIDE VIEW X Y
50 80 10 30 D TV O FOR T.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 18ORTHOGRAPHIC PROJECTIONS 40 10 45 FV O X Y
X Y FV O 40 10 10 TV 25 25 30 R 100 103010 20 D FOR F.V. O PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 19 ORTHOGRAPHIC PROJECTIONS FOR T.V.
O 20 D 30 D 60 D TV 10 30 50 10 35 FV X Y RECT. SLOT FOR T.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 20ORTHOGRAPHIC PROJECTIONS TOP VIEW
O O 40 25 80 F.V. 10 15 25 25 25 25 10 S.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 21 ORTHOGRAPHIC PROJECTIONS
450 X FV Y 30 40 TV 30 D 40 40 15 O FOR T.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 22 ORTHOGRAPHIC PROJECTIONS
O O 20 20 15 40 100 30 60 30 20 20 50 HEX PART FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV ABD SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 23 ORTHOGRAPHIC PROJECTIONS FRONT VIEW L.H.SIDE VIEW
O 10 30 10 80 30 T.V. O 10 30 4020 F.V. X Y FOR T.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 24ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW
LSV Y 25 25 1050 FV X 10 10 15 O FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND LSV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 25 ORTHOGRAPHIC PROJECTIONS
YX F.V. LEFT S.V. 20 2010 15 15 15 30 10 30 50 15 FOR S.V. FOR F.V. O PICTORIAL PRESENTATION IS GIVEN DRAW FV AND SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 26 ORTHOGRAPHIC PROJECTIONS

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ORTHOGRAPHIC PROJECTIONS

  • 1.
    ORTHOGRAPHIC PROJECTIONS: Horizontal Plane(HP), Vertical Frontal Plane ( VP ) Side Or Profile Plane ( PP) Planes. Pattern of planes & Pattern of views Methods of drawing Orthographic Projections Different Reference planes are FV is a view projected on VP. TV is a view projected on HP. SV is a view projected on PP. And Different Views are Front View (FV), Top View (TV) and Side View (SV) IMPORTANT TERMS OF ORTHOGRAPHIC PROJECTIONS: IT IS A TECHNICAL DRAWING IN WHICH DIFFERENT VIEWS OF AN OBJECT ARE PROJECTED ON DIFFERENT REFERENCE PLANES OBSERVING PERPENDICULAR TO RESPECTIVE REFERENCE PLANE 1 2 3
  • 2.
     A.I.P. ⊥ to Vp&∠ toHp  A.V.P. ⊥ to Hp & ∠ to Vp PLANES PRINCIPAL PLANES HP AND VP AUXILIARY PLANES Auxiliary Vertical Plane (A.V.P.) Profile Plane ( P.P.) Auxiliary Inclined Plane (A.I.P.) 1
  • 3.
    THIS IS APICTORIAL SET-UP OF ALL THREE PLANES. ARROW DIRECTION IS A NORMAL WAY OF OBSERVING THE OBJECT. BUT IN THIS DIRECTION ONLY VP AND A VIEW ON IT (FV) CAN BE SEEN. THE OTHER PLANES AND VIEWS ON THOSE CAN NOT BE SEEN. X Y HP IS ROTATED DOWNWARD 900 AND BROUGHT IN THE PLANE OF VP. PP IS ROTATED IN RIGHT SIDE 900 AND BROUGHT IN THE PLANE OF VP. X Y X Y VP HP PP FV ACTUAL PATTERN OF PLANES & VIEWS OF ORTHOGRAPHIC PROJECTIONS DRAWN IN FIRST ANGLE METHOD OF PROJECTIONS LSV TV PROCEDURE TO SOLVE ABOVE PROBLEM:- TO MAKE THOSE PLANES ALSO VISIBLE FROM THE ARROW DIRECTION, A) HP IS ROTATED 900 DOUNWARD B) PP, 900 IN RIGHT SIDE DIRECTION. THIS WAY BOTH PLANES ARE BROUGHT IN THE SAME PLANE CONTAINING VP. PATTERN OF PLANES & VIEWS (First Angle Method) 2 Click to view Animation On clicking the button if a warning comes please click YES to continue, this program is safe for your pc.
  • 4.
    Methods of DrawingOrthographic Projections First Angle Projections Method Here views are drawn by placing object in 1st Quadrant ( Fv above X-y, Tv below X-y ) Third Angle Projections Method Here views are drawn by placing object in 3rd Quadrant. ( Tv above X-y, Fv below X-y ) FV TV X Y X Y G L TV FV SYMBOLIC PRESENTATION OF BOTH METHODS WITH AN OBJECT STANDING ON HP ( GROUND) ON IT’S BASE. 3 NOTE:- HP term is used in 1st Angle method & For the same Ground term is used in 3rd Angle method of projections
  • 5.
    FOR T.V. FOR S.V. FOR F.V. FIRSTANGLE PROJECTION IN THIS METHOD, HE OBJECT IS ASSUMED TO BE SITUATED IN FIRST QUADRANT MEANS ABOVE HP & INFRONT OF VP. OBJECT IS INBETWEEN OBSERVER & PLANE. ACTUAL PATTERN OF PLANES & VIEWS IN FIRST ANGLE METHOD OF PROJECTIONS X Y VP HP PP FV LSV TV
  • 6.
    FOR T.V. FOR S.V. FOR F.V. INTHIS METHOD, THE OBJECT IS ASSUMED TO BE SITUATED IN THIRD QUADRANT ( BELOW HP & BEHIND OF VP. ) PLANES BEING TRANSPERENT AND INBETWEEN OBSERVER & OBJECT. ACTUAL PATTERN OF PLANES & VIEWS OF THIRD ANGLE PROJECTIONS X Y TV THIRD ANGLE PROJECTION LSV FV
  • 7.
    ORTHOGRAPHIC PROJECTIONS { MACHINEELEMENTS } OBJECT IS OBSERVED IN THREE DIRECTIONS. THE DIRECTIONS SHOULD BE NORMAL TO THE RESPECTIVE PLANES. AND NOW PROJECT THREE DIFFERENT VIEWS ON THOSE PLANES. THESE VEWS ARE FRONT VIEW , TOP VIEW AND SIDE VIEW. FRONT VIEW IS A VIEW PROJECTED ON VERTICAL PLANE ( VP ) TOP VIEW IS A VIEW PROJECTED ON HORIZONTAL PLANE ( HP ) SIDE VIEW IS A VIEW PROJECTED ON PROFILE PLANE ( PP ) ND THEN STUDY NEXT 26 ILLUSTRATED CASES CAREFULL RY TO RECOGNIZE SURFACES ERPENDICULAR TO THE ARROW DIRECTIONS FIRST STUDY THE CONCEPT OF 1ST AND 3RD ANGLE PROJECTION METHODS
  • 8.
    FOR T.V. FOR S.V. FOR F.V. FIRSTANGLE PROJECTION IN THIS METHOD, HE OBJECT IS ASSUMED TO BE SITUATED IN FIRST QUADRANT MEANS ABOVE HP & INFRONT OF VP. OBJECT IS INBETWEEN OBSERVER & PLANE. ACTUAL PATTERN OF PLANES & VIEWS IN FIRST ANGLE METHOD OF PROJECTIONS X Y VP HP PP FV LSV TV
  • 9.
    ACTUAL PATTERN OF PLANES& VIEWS OF THIRD ANGLE PROJECTIONS X TV LSV FV IN THIS METHOD, THE OBJECT IS ASSUMED TO BE SITUATED IN THIRD QUADRANT ( BELOW HP & BEHIND OF VP. ) PLANES BEING TRANSPERENT AND INBETWEEN OBSERVER & OBJECT. FOR T.V. FOR S.V. FOR F.V. Y THIRD ANGLE PROJECTION
  • 10.
    x y FRONT VIEW TOPVIEW L.H.SIDE VIEW FOR F.V. FOR S.V. FOR T.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD ORTHOGRAPHIC PROJECTIONS 1
  • 11.
    FOR F.V. FOR S.V. FOR T.V. X Y FRONTVIEW TOP VIEW L.H.SIDE VIEW ORTHOGRAPHIC PROJECTIONS PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 2
  • 12.
    FOR F.V. FOR S.V. FOR T.V. ORTHOGRAPHIC PROJECTIONS XY FRONT VIEW TOP VIEW L.H.SIDE VIEW 3 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
  • 13.
    FOR T.V. FOR S.V. ORTHOGRAPHIC PROJECTIONS FOR F.V. FRONTVIEW TOP VIEW L.H.SIDE VIEW X Y 4 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
  • 14.
    FOR T.V. FOR F.V. FOR S.V. ORTHOGRAPHIC PROJECTIONS FRONTVIEW TOP VIEW L.H.SIDE VIEW X Y 5 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
  • 15.
    FOR T.V. FOR F.V.FOR S.V. ORTHOGRAPHIC PROJECTIONS FRONTVIEW TOP VIEW L.H.SIDE VIEW X Y 6 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
  • 16.
    FRONT VIEW TOP VIEW L.H.SIDEVIEW X Y FOR T.V. FOR F.V. FOR S.V. ORTHOGRAPHIC PROJECTIONS 7 PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD
  • 17.
    Z STUDY ILLUSTRATIONS X Y 50 20 25 25 20 FORT.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 8 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW
  • 18.
    FOR T.V. FOR F.V. FOR S.V. PICTORIAL PRESENTATIONIS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 9 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
  • 19.
    FOR T.V. FOR S.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 10 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
  • 20.
    FOR T.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATIONIS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 11 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
  • 21.
    FOR T.V. FOR S.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 12 ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW L.H.SIDE VIEW X Y
  • 22.
    Z STUDY ILLUSTRATIONS x y FV 35 35 10 TV 302010 40 70 O FOR T.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 13 ORTHOGRAPHIC PROJECTIONS
  • 23.
    ZSTUDY ILLUSTRATIONS SV TV yx FV 30 30 10 30 10 30 ALLVIEWS IDENTICAL FOR T.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 14 ORTHOGRAPHIC PROJECTIONS
  • 24.
    x y FV SV Z STUDY ILLUSTRATIONS TV 10 4060 60 40 ALL VIEWS IDENTICAL FOR T.V. OR S.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 15 ORTHOGRAPHIC PROJECTIONS
  • 25.
    FOR T.V. FOR S.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW THREE VIEWS OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 16ORTHOGRAPHIC PROJECTIONS x y FV SV ALL VIEWS IDENTICAL 40 60 60 40 10 TOP VIEW
  • 26.
    40 20 30 SQUARE 20 50 60 30 10 F.V. S.V. O FOR S.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW FV AND SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 17 ORTHOGRAPHIC PROJECTIONS FRONT VIEW L.H.SIDE VIEW X Y
  • 27.
    50 80 10 30 D TV O FOR T.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 18ORTHOGRAPHIC PROJECTIONS 40 10 45 FV O X Y
  • 28.
    X Y FV O 40 10 10 TV 25 25 30 R 100 103010 20D FOR F.V. O PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 19 ORTHOGRAPHIC PROJECTIONS FOR T.V.
  • 29.
    O 20 D 30 D 60D TV 10 30 50 10 35 FV X Y RECT. SLOT FOR T.V. FOR F.V. PICTORIAL PRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 20ORTHOGRAPHIC PROJECTIONS TOP VIEW
  • 30.
    O O 40 25 80 F.V. 10 15 25 25 25 25 10 S.V. FOR S.V. FOR F.V. PICTORIAL PRESENTATIONIS GIVEN DRAW FV AND SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 21 ORTHOGRAPHIC PROJECTIONS
  • 31.
    450 X FV Y 30 40 TV 30 D 40 40 15 O FOR T.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 22 ORTHOGRAPHIC PROJECTIONS
  • 32.
    O O 20 20 15 40 100 30 60 30 20 20 50 HEX PART FOR S.V. FOR F.V. PICTORIAL PRESENTATIONIS GIVEN DRAW FV ABD SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 23 ORTHOGRAPHIC PROJECTIONS FRONT VIEW L.H.SIDE VIEW
  • 33.
    O 10 30 10 80 30 T.V. O 10 30 4020 F.V. X Y FOR T.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW FV AND TV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 24ORTHOGRAPHIC PROJECTIONS FRONT VIEW TOP VIEW
  • 34.
    LSV Y 25 25 1050 FV X 10 10 15 O FOR S.V. FOR F.V. PICTORIALPRESENTATION IS GIVEN DRAW FV AND LSV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 25 ORTHOGRAPHIC PROJECTIONS
  • 35.
    YX F.V. LEFT S.V. 202010 15 15 15 30 10 30 50 15 FOR S.V. FOR F.V. O PICTORIAL PRESENTATION IS GIVEN DRAW FV AND SV OF THIS OBJECT BY FIRST ANGLE PROJECTION METHOD 26 ORTHOGRAPHIC PROJECTIONS