ge 6152-engineering graphics · projection ofstraightlinesand planes[firstangle]...
TRANSCRIPT
![Page 1: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/1.jpg)
8208 – E.G.SPILLAY ENGINEERING COLLEGE,NAGAPATTINAM
DEPARTMENT OF MECHANICAL ENGINEERING
[Type a quote from the document or the summary of an interesting point. You can position the text box anywhere in the document. Use the Drawing Tools tab to change the formatting of the pull quote text box.]
GE 6152-ENGINEERING GRAPHICS FIRST SEMESTER
![Page 2: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/2.jpg)
5
DRAWINGINSTRUMENTS ANDSHEET LAYOUT
DRAWINGBOARD SIZE
![Page 3: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/3.jpg)
6
DRAWINGSHEET LAYOUT
DRAWINGSHEET SIZE
![Page 4: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/4.jpg)
7
TITLE BLOCK OF DRAWING SHEET
LINES,LETTERINGAND DIMENSIONING
![Page 5: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/5.jpg)
8
SPECIFICATION OF“A”TYPE LETTERING:
SPECIFICATION OF“B”TYPELETTERING:
ALIGNEDDIMENSION
UNIDIRECTION
DIMENSION
![Page 6: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/6.jpg)
9
GENERALDIMENSION
![Page 7: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/7.jpg)
10
GEOMETRICALCONSTRUCTIONS
The constructionofplane
figuressuchastriangle,circles,andpolygonsetc.,usedinplanegeometryis
calledgeometricalconstructions.
![Page 8: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/8.jpg)
10
![Page 9: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/9.jpg)
11
(i) APentagon is thatwhichhasfive equalsides.
(ii) A hexagon is thatwhichhassix equalsides.
(iii) A heptagon is thatwhichhassevenequalsides.
(iv) Anoctagon is thatwhichhaseight equalsides.
(v) A nonagon is thatwhichhasnine equalsides.
(vi) Adecagonis thatwhichhas tenequal sides.
(vii) An UN decagonis that whichhas elevenequalsides.
(viii) decagonisthatwhich hastwelveequalsides.
(ix) A diagonalofapolygonis the line joininganytwo
ofitsangularpoints.
![Page 10: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/10.jpg)
12
![Page 11: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/11.jpg)
13
Bisecttheline, Bisectthe Arc,
andDrawtheperpendicularline To dividealineinto any numberofequal
partandBisectanglebetween twolines
SCALE
Scale =Size of Drawing /ActualSize
![Page 12: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/12.jpg)
14
UNITI
PLANECURVESANDINTRODUCTIONTOORTHOGRAPHIC
PROJECTION(CurvesusedinEngineeringPractices)
ConstructionofEllipse,parabolaandhyperbolabyeccentricitymethodonly.
ConstructionofCYCLOID,INVOLUTEOFSQUAREANDCIRCLE
only.Drawingnormalandtangenttotheabovecurves. INTRODUCTION TOORTHOGRAPHIC PROJECTION
Principleof1stangleand3rdangleprojection.Projectionofpointssituatedinallthef
ourquadrants.Problemsinvolvingprojectionofpoints,projectionoftwopointssit
uatedindifferentquadrants.
![Page 13: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/13.jpg)
15
Unit-I
EngineeringCurves
![Page 14: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/14.jpg)
16
Constructanellipse byeccentricity
![Page 15: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/15.jpg)
17
Constructaparabola byeccentricity
![Page 16: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/16.jpg)
18
Constructahyperbolabyeccentricity
SPECIAL CURVES INVOLUTE:
An involuteisthelocusofapointonastring, as thestringunwinds
itselffromalineorpolygon,ora circle, keepingalwaysthestringtaut.
![Page 17: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/17.jpg)
19
INVOLUTE OFA CIRCLE AND SQUARE
![Page 18: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/18.jpg)
20
CYCLOIDAL: Cycloid
curvesareformedbyapointonthecircumstanceofacircle,rollinguponali
neorananothercircle.Therollingcircleiscalled
thegeneratingcircle.Thelineon whichthe
generatingcirclerollsiscalledbaseline.Thecircleonwhichthegenerating
circlerollsiscalleddirectingorbasecircle.Acycloidisacurvetracedbyap
ointonthecircumferenceofacirclewhichrollswithoutslipping along a
line
EPICYCLOID: An epicycloidsis acurve tracedbyapoint
onthecircumference ofacircle which Rolls
withoutslippingonthe
outsideofan another circle.
![Page 19: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/19.jpg)
21
![Page 20: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/20.jpg)
20
HYPOCYCLOID:
A hypocycloidis acurve tracedbyapoint
onthecircumference ofa circle when itrolls withoutslippingonthe
insideofanother circle.
Projection ofPoints:
A point is simplyaspacelocation ofinfinitesimalsize.
Itmayrepresent thecornerofanobject,the intersectionoftwo lines
oradesignatedspotinspace. The projectionobtained on
verticalplaneVPis
calledtheelevationandonhorizontalplaneHP,theplan.
The intersectionlineoftheverticalplane and thehorizontalplaneis
known as groundlineorreferenceline.
![Page 21: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/21.jpg)
21
Position ofpoints: (i) Infrontofthe VPandabove the HP
(ii) Infrontofthe VPandintheHP
(iii) IntheVPand abovetheHP
(iv) Behindthe VPandabove theHP
(v) Behindthe VPandintheHP
(vi) Behindthe VPandbelowtheHP
(vii) IntheVPand belowtheHP
(viii) Infrontof the VPandbelow theHP
(ix) IntheVPandHP
GENERALPROCEDURETO DRAWPROJECTION
OFPOINTS
1. Fromgiven data identifythequadrant
2. Draw theXY lineandprojection
3. Alongthisprojectormarkbydotsthedistancesofthegivenpointform
theHPandVP,onthecorrespondingsideoftheXYline,dependingup
onthequadrantinwhichthepointlies,tolocate thefrontviewandthe
top view,respectively.
4. Makethefrontviewandthetopviewboldandrubofftheunwantedlen
gth oftheprojector tocomplete thesolution.
![Page 22: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/22.jpg)
22
Important Questions
1. Drawtheinvolutesof a circleof diameter
40mmanddrawthetangentandthenormal totheinvolutes atanypoints
onthecurve.
2. Drawthefront, top,and sideviewsof theobject shown below.
3. Drawthecoincure,ifthedistanceoffocusfromthedirectoryis70mmandtheeccentri
cityis¾.Alsodrawatangentandanormalatanypointonthecurve.
4. Acircleof50mmdiameterrollsasahorizontallinefor¾ofarevolutionclockwise.Dr
awthepathtracedbypointPonthecircumferenceofthecircle.Alsodrawatangentand
normal at anypointon thecure
5. Draw a hyperbola whenthe distance
betweenitsfocusanddirectrixis50mmandeccentricityis3/2.Alsodrawthetangenta
ndnormalatapoint23mmfromthedirectrix.
6. Thefocusofa conic is50mmfrontthedirectory.Draw the locus
ofapointPmovinginsuchawaythatitsdistancefromthedirectrixisequaltoitsdistanc
efromthefocus.Namethecure.Drawatangenttothecurveatapoint60mmfromthedi
rectrix.
7. Drawtheinvolutesofacircleofdiameter40mmanddrawthetangentandthenormal
totheinvolutesatanypointon thecure.
![Page 23: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/23.jpg)
23
UNIT II
PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE]
Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland
vertical planes– LOCATION OF TRACESONLY.Determinationof truelengthand
trueinclinationsof straightlines fromtheprojections (not
involvingtraces)Projectionofplane surfaces likerectangle,square,
pentagon,hexagon,circle- surfacesinclined to one
referenceplane.
UNIT-II
PROJECTION OF LINESANDPLANES
Astraightlineistheshortestdistancebetweentwopoints.Projectio
nsoftheendsofanylinecanbedrawnusingtheprinciplesdeveloped
forprojectionsof
points.Topviewsofthetwoendpointsofaline,whenjoined,givethet
opviewoftheline.Frontviewsofthetwoendpointsoftheline,whenj
oined,give thefrontview
oftheline.BoththeseProjectionsarestraightlines.
![Page 24: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/24.jpg)
24
Projectionofstraightlines
![Page 25: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/25.jpg)
25
![Page 26: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/26.jpg)
26
ProjectionofPlaneSurfaces:
A plane isatwodimensionalobjecthavinglength and
breadthonly.Itsthicknessis always neglected;variousshapes
ofplanefigures areconsideredsuchassquare,rectangle,circle,
pentagon,hexagon, etc.
TYPESOF PLANES:
1. Perpendicularplaneswhichhavetheirsurfaceperpendicularto
anyoneofthereferenceplanesandparallelorinclined to
theotherreferenceplane.
2. Obliqueplaneswhichhavetheirsurfaceinclinedtoboththerefere
nce planes.
![Page 27: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/27.jpg)
27
TRACE OFPLANE:
The traceofa plane is theline ofintersectionormeeting
oftheplane surface withthe referenceplane;
ifnecessarytheplanesurface is extendedtointersectthereferenceplane.
Theintersectionline of the planesurface withHP
iscalledtheHorizontal Trace(HT)and that ofVPis
calledtheVerticalTrace (VT).
A plane figureispositionedwithreference
tothereferenceplanesbyreferring its surface inthe
followingpossiblepositions.
![Page 28: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/28.jpg)
28
1. surfaceoftheplanekeptperpendicular toHPandparallel to
VP
2. surfaceoftheplanekeptperpendicular toVP andparallel to
HP
3. surfaceoftheplanekeptperpendicular tobothHPandVP
![Page 29: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/29.jpg)
29
![Page 30: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/30.jpg)
30
4. surfaceoftheplanekeptperpendicular toHPand inclinedto
VP
5. surfaceoftheplanekeptperpendicular toVPand inclinedto
HP
![Page 31: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/31.jpg)
30
6. surfaceoftheplanekeptinclined toHPandVP
![Page 32: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/32.jpg)
31
Important Questions
1. AlinePS65mmhasitsendp,15mmabovethehpand15mminfrontoftheVP.It is
inclinedat 55otothehpand35® to theVP.Drawitsprojections.
2. Apentagonofsides30mmrestsonthegroundononeofitscornerswiththesidescontai
ningthecornersbeingequallyinclinedtotheground.Thesideoppositetothecorneron
whichitrestsisinclinedat30ototheVPandisparalleltothehp.Thesurfaceofthepentag
onmakes50owiththeground.Drawthetop andfrontviews ofthepentagon.
3. AlineCD,inclinedat25®totheHP,measures80mm
intopview.TheendCisinthefirstquadrantand25mmand15mmfromtheHPandtheV
Prespectively.TheendDisatequaldistancefromtheboththereferenceplanes.Drawt
heprojections,finetruelengthandtrueinclinationwiththeVP.
4. AstraightlineSThasitsendS,10mminfrontoftheVPandnearertoit.Themid-
pointMlineis50mminfrontoftheVPand40mmaboveHP.Thefrontandtopviewmea
sure90mmand120mmrespectively.Drawtheprojectionoftheline.Also findits
truelengthandtrueinclinationswiththeHPandVP.
5. Aregularpentagonof30mmside,isrestingononeofitsedgesonHPwhichisinclineda
t45®toVP.Itssurfaceisinclinedat30®toHP.Drawitsprojections.
6. AlinePQhasitsendP,10mmabovetheHPand20mminfrontoftheVP.TheendQis85
mminfrontoftheVP.Thefrontviewofthelinemeasures75mm.thedistancebetweent
heendprojectorsis50mm.drawtheprojectionsof thelineand find itstruelengthand
itstrueinclinationswiththeVPandhp.
![Page 33: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/33.jpg)
32
7. Drawtheprojectionsofacircleof70mmdiameterrestingontheH.PonapointAofthe
circumference.Theplaneisinclinedtothe
HPsuchthatthetopviewofitisanellipseofminoraxis40mm.thetopviewofthediame
ter,throughthepointAismakinganangleof45®withtheV.P.determinetheinclinati
onof the plane with theHP
8. Theprojectionsofalinemeasure80mminthetopviewand70mminthefrontview.Th
emidpointofthelineis45mminfrontofVPand35mmaboveHP. oneend is
10mminfront of VP andnearer toit. Theotherend is
nearertoHP.Drawtheprojections oftheline.Find thetruelengthand
trueinclinations.
9. Drawtheprojectionofacircleof70mmdiameterrestingontheH.P.onapointAofthec
ircumference.Theplaneisinclinedtothe
HPsuchthatthetopviewofitisanellipseofminoraxis40mm.thetopviewofthediame
terthroughthepointAismakinganangleof45withtheV.P.determinetheinclination
ofthe plane with theHP.
10. Apentagonofside30mmrestsonthegroundononeofitscornerswiththesidescontain
ingthecornerbeingequallyinclinedtotheground.Thesideoppositetothecorneronw
hichitrestsisinclinedat30®totheVPandisparalleltotheHP.Thesurfaceofthepenta
gonmakes50®withtheground.Drawthetop andfrontviews ofthepentagon.
11. AlinePF,65mmhas itsend P, 15mmabovetheHPand15mminfront
oftheVP.Itis inclinedat55®to theVP.Drawits projections.
![Page 34: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/34.jpg)
33
UNITIII
PROJECTIONOFSOLIDSANDSECTIONOFSOLIDS
Projectionsofprism,pyramid,coneandcylinder,axisinclinedtooneplanebychang
eofpositionmethod.Sectionofabovesolidsinsimpleverticalposition(axisperpen
diculartoHPalone)byplaneseitherinclinedtoHPorVPalone-
Trueshapeofsection.
UNIT-III
PROJECTIONOFSOLIDSANDSECTIONOFSOLIDS
ProjectionofSolids:
A solid isa threedimensional objecthavinglength,breadthandthickness.It
is
Completelyboundedbyasurfaceorsurfaces,whichmaybecurvedorplane.
Theshapeofasolidisdescribedorthographicallybydrawingitstwoorthographic
projections, usually, onthe twoprincipalplanesofprojection i.e.,HP andVP.
Thefollowingarethedifferentpositions whichtheaxis
ofasolidcantakewithrespectto the referenceplanes:
![Page 35: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/35.jpg)
34
1. Axis perpendicular toHPandparallel
toVP.(CONEANDPYRAMID)
![Page 36: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/36.jpg)
35
2. Axis perpendicular to VP andparallel toHP (PYRAMID, CONE,PRISM)
![Page 37: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/37.jpg)
36
3. Axis paralleltobothHP andVP,i.e., axisperpendicular
toaprofileplane.
![Page 38: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/38.jpg)
37
4. Axis inclined to HPandparalleltoVP.
` (Auxiliaryprojectionmethod)
(freelysuspeded method)
![Page 39: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/39.jpg)
38
5. Axis inclined toVP andparallel toHP.
6. Axisinclined tobothHP andVP.(NotFor
UniversitySyllabus)
![Page 40: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/40.jpg)
40
SECTION OFSOLIDS:
Thehiddenorinternalpartsofanobjectareshownbysectionalviewsi
ntechnicaldrawings.Thesectionalviewofanobjectisobtainedbycuttingt
hroughtheobjectbyaSuitableplaneknownasthesectionplaneorcuttingpl
aneandremovingtheportionlyingbetweentheplaneand theobserver.
Thesurfaceproducedbycuttingtheobjectiscalledthesectionanditsproje
ctioniscalledasectionalplanorsectionalelevation.Thesectionisindicate
dbythinsectionlinesuniformlyspacedandinclined at 45°.
Asectionalviewofanobjectisobtainedbyprojectingtheretainedpor
tionofthe
Jetwhichisleftbehindwhenobjectiscutbyanimaginarysectionplaneandt
heportiontheobjectbetweenthesectionplaneandtheobserverisassumed
asremoved.
TheobjectiscutbyasectionplaneAA.Thefronthalfoftheobject between
the
Sectionplaneandtheobserverareremoved.Theviewoftheretainedportio
noftheobjectisprojectionVP.Thetopviewisprojected forthe
wholeuncutobject.
![Page 41: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/41.jpg)
41
Types ofsectional viewsofsolids: Byusingthefivedifferenttypesofperpendicular
sectionplaneswe.obtainthe followingfivetypesofsectionalviews
ofsolids:
1. Sectionofsolidsobtainedbyhorizontalplanes.
2. Sectionofsolidsobtainedbyverticalplanes.
![Page 42: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/42.jpg)
42
3. Sections ofsolidsobtainedbyauxiliaryinclinedplanes.
4. Sectionofsolidsobtainedbyauxiliaryverticalplanes.
5. Sectionofsolidsobtainedbyprofileplanes.
![Page 43: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/43.jpg)
43
![Page 44: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/44.jpg)
44
![Page 45: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/45.jpg)
45
![Page 46: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/46.jpg)
46
Important Questions
1. Atetrahedronofedges30mmrests
ononeofitsedgesontheVP.Thatedgesisnormaltothehp.oneofthefacescontainingthe
restingedgeisinclinedat30oto theVP.Draw theprojections ofthe tetrahedron.
2. Acubeof70mmlongedgeshasitsverticalfacesequalityinclinedtotheVP.Itiscutbyan
auxiliaryinclinedplaneinsuchawaythatthetrueshapeofthecutpartisaregularhexago
n.DeterminetheinclinationofthecuttingplanewiththeHP.Drawfrontview,sectional
topviewand trueshapeofthesection.
3. AregularpentagonallaminaABCDFofside30mmhasoneofitsedgesparalleltotheV
Pandinclinedat30®totheHP.Thepentagonisinclined45®to
theVP.Drawprojections.
4. Apentagonalprismof30-mmsideofbaseand70mmheightisrestingononeof its
edgesof thebasein such awaythat thebase makes anangelsof45®HP,and
theaxisisparallel toVP.Drawthe projections oftheprism.
5. Drawthetopfrontviewsofarightcircularcylinderofbase45mmdiameterand60mmlo
ngwhenitlineonHP,suchthatitsaxisisinclinedat30®toHPand
theaxisappearstoparallel totheVP in thetopview.
6. Draw the projection ofa cylinder of
diameter40mmandaxis70mmlongwhenitrestsontheVPononeofitsbasepoints.The
axisifcylinderisparalleltoVP andinclinedat 30® to VP.
7. Ahexagonalpyramidofbasesside30mmandaxislength60mmisrestingonVP
oneofitsbaseedgeswiththefacecontainingtherestingedgesperpendicular
tobothHPandVP.Drawitsprojections.
8. Aconeofbasediameter60mmandaxis70mmisrestingonHPonitsbase.Itiscutbyapla
neperpendiculartoVPandparalleltoacontourgeneratorandis10mmawayfromit.Dra
![Page 47: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/47.jpg)
47
wthefrontview,sectionaltopviewandthetrueshapeofthesection.
9. Anequilateraltriangularprism20mmsideofbaseand50mmlongrestswithoneofitss
horteredgesonHPsuchthattherectangularfacecontainingtheedgeonwhichthepris
mrestsisinclinedat30®toHP.Thisshorteredgeresting onHP is perpendicular
toVP.
10. Asquarepyramidofbase40mmandaxis70mmlonehasoneofitstriangularfaces
onVPand theedgeofbase contained bythatfaceis perpendiculartoVP. Draw
itsprojections.
11. Ahexagonalprismofsideofbase35mmandaxislength55mmrestswithitsbaseonHP
suchthattwooftheverticalsurfacesareperpendiculartoVP.Itiscutbyaplaneinclined
at50®toHPandperpendiculartoVPandpassingthroughapointantheaxisatadistanc
e15mmfromthetop.Drawitsfrontview,sectional topviewand trueshapeofsection.
12. Anequilateraltriangularprism20mmsideofbaseand50mmrestswithareofitsshorte
redgesonH.P.suchthattherectangularfacecontainingtheedgeonwhichtheprismres
tsisinclinedat30toH.P.theshorteredgerestingonHPisperpendicular toVP.
13. Drawtheprojectionsofahexagonalpyramidwithsideofthebase30mmandaxisonHP
suchthatthetriangularfacecontainingthatsideisperpendiculartoHP andaxisis
parallel to VP.
14. Averticalcylinder40mmdiameteriscutbyaverticalsectionplanemaking30toVPins
uchawaythatthetrueshapeofthesectionisarectangleof25mmand60mmside.
Drawtheprojectionsand trueshapeof thesection.
15. Atetrahedronofedges30mmrestsononeofitsedgesontheVP.Thatedgeisnormaltot
heHP.Oneofthefacescontainingtherestingedgeisinclinedat30® to
theVP.Drawtheprojectionsof thetetrahedron.
16. A cone ofbasediameter60mmandaltitude 80mmrestson the
HPwithitsaxisinclinedat30® tothe HPandparallel totheVP.Drawits front
![Page 48: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/48.jpg)
48
andtopviews.
![Page 49: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/49.jpg)
49
UNITIV
DEVELOPMENTOFSURFACESANDISOMETRICPROJECTION
Developmentof lateralsurfacesofvertical prism,
cylinderpyramid,andconetruncatedbysurfacesof inclinedtoHPalone.
Developmentofsurfacesof verticalcylinderand prismwithcylindricalcutouts
perpendiculartotheaxis. Isometricprojectionofsolids likeprism, pyramid,
cylinderandcone;combinationof anytwo;truncationwhensolid
isinsimpleverticalposition, bya cuttingplaneinclinedtoHP.
UNIT-IV
Development ofsurfaces:
A layoutofthecompletesurface of
athreedimensionalobjectonaplanesurfaceiscalleditsdevelopmentorpat
tern.Developmentisatermfrequentlyusedinsheetmetalworkwhereitme
anstheunfoldingorunrollingofadetailintoaflatsheetcalledapattern
Therearethreemethodsofpatterndevelopment;(i)Parallelline,
(ii) Radialline and (iii) Triangulation.
ParallelLineMethod:
Thismethodcanonlybeusedtodevelopobjects(orpartsthereof)havi
ngaconstantcross-
sectionfortheirfulllength,forexample,prismsandcylindersandrelatedf
orms.Parallellines,paralleltotheaxisofthedetail,areshownonaviewwhi
chshowsthemastheirtruelengths.
![Page 50: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/50.jpg)
50
1. Afterdrawingthegivenviews,determinetheviewinwhichtherig
htsectionofthesolidappearsasanedgeview.Hereitshould benoted that
topviewsofrightprisms and cylindersare
equivalenttotheirrightsections willhave to befound
intheformofan auxiliaryview. 2. Layoutthestretch-outlineofthedevelopmentparalleltothe edge
viewofthe rightsection.
3. Locatethedistancebetweenlateralcomeredgesbymeasuringfro
mthetruesizeviewsintherightsectionandthentransferringthesemeasure
mentstothestretch-outline.Nametheirpoints.
4. Drawthelateralfoldlinesperpendiculartothestretch-
outlinethrough thepoints alreadyplotted.
5. Thedevelopmentshould becommencedatthe
shortestline,sothattheleastamountofweldingorotherjoiningeffortisreq
uired.
6. Joinallendpointsformingtheboundaryofthepatterninproperord
er.Onlytheboundaryofthepatternshouldbemadebold, leaving allother
linesasthinlines.
7. Checkupthatthepointwherethedevelopmentendsisthesamepoi
nt asthebeginningpointonthe rightsection.
RadialLine Method:
Thismethodofdevelopmentisusedforrightandobliquepyramidsan
dcones.Itemploysradiallineswhichareslantedgesfromvertextobaseco
merpointsforpyramids,andradialsurfacelinesonthe cone surfacefrom
the vertex tothebase.
![Page 51: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/51.jpg)
51
Development ofRight Cones
Thedevelopmentofanyrightconeisasectorofacirclesincetheradial
surfaceLinesare allofthesametruelength.Theangle
atcentreofthesectordependsonthebaseradiusandtheslantheightoftheco
ne.LettheradiusofthebaseoftheconebeR,theslantheightoftheconebeL,
andtheangleatthecentreofthedevelopmentbeθ. θ=(Radiusofthebasecircle/Trueslantlength)X360=(R/L)X360
Inthismethodofdevelopmentthesurfaceoftheobjectisdividedinto
anumberoftriangles.Thetruesizesofthetrianglesarefoundandthenthese
trianglesaredrawninorder,sidebyside,toproducethepattern.Itissimplet
orealizethattofindthetruesizesofthetriangles,itisfirstnecessarytofindth
etruelengthoftheirsides.
1. Whenthetopandbottomedgesofasheetmetaldetailareparalleltot
heHPthetruelengthsoftheseedgesmaybetakendirectlyfromthe top
view.
2. Incaseofcircularedges,chordaldistancemaybetakenandtransfe
rredtothedevelopment.Thoughsuchlengthsarenottheoreticallyaccurat
e they aresatisfactoryfordevelopmentwork.
3. Foralltransitionpieceshavinginclinedtopandbottomedges,TL
constructionmustbecarriedoutif theseedgesarecurved.
4. Awelldefinedlabelingsystemshouldbeusedinorderthatthecons
tructiontechniquemaybeprogressiveandeasytounderstand.
![Page 52: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/52.jpg)
52
![Page 53: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/53.jpg)
53
![Page 54: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/54.jpg)
54
![Page 55: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/55.jpg)
55
![Page 56: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/56.jpg)
56
![Page 57: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/57.jpg)
57
![Page 58: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/58.jpg)
58
![Page 59: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/59.jpg)
59
IsometricProjection:
Theisomericprojectionofanobjectisobtainedonaverticalplaneofpr
ojectionbyplacingtheobjectinsuchawaythatitsthreemutuallyperpendic
ularedgesmakeequalinclinationswiththeplaneofprojection.Sincethethr
eemutuallyperpendicularedgesofanobjectareprojectedintheisometricp
rojectionatequal
![Page 60: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/60.jpg)
60
axonometricangles,theanglesbetweenthoseedgesintheisometricprojec
tionwillbeat12°.Thelengthsofthethreemutuallyperpendicularedgesoft
heobjectintheisometricprojectionare
foreshortenedinthesameproportion.
IsometricScale:
Inthe isometric
projection,alltheedgesofanobjectalongthedirection
ofthethreeisometric axes are
foreshortenedto0.816timestheiractuallengths. To facilitate an
easyand quickmethod
ofmeasurement ofthe lengths of thedifferentedgesin
theirreducedsizeswhile drawingtheisometricprojectionofthe
object,aspecialscale calledisometricscaleisconstructed.
Theviewdrawn to
theactualscaleiscalledtheisometricvieworIsometricDrawingwhile
thatdrawnusing the isometricscale iscalledtheIsometric Projection.
ImportancePointsin Isometric:
1. For drawing the isometric,theobjectmust
beviewedsuchthateitherthefront-rightorthe left edges becomes
![Page 61: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/61.jpg)
61
nearest.
2. Allvertical edgesofthe objectremainverticalinisometric 3. Thehorizontaledgesofthe object whichareparallel
totheisometric axesaredrawnat30°to the horizontal.
4. The inclinededgeswhich are notparallel totheisometric
axesshould notbedrawnat thegiven inclination in isometric.
Theseinclined edgesaredrawnbyfirstlocatingthe endpoints
inisometric andthenjoined.
5. All circlesare representedasellipses in isometric. 6. Allconstructionlineshave toberetained as
thinlinesandthevisible edgesare to beshown asthicklines.
7. Generallythe hiddenedges neednotbe shown
inisometricunlessotherwiserequiredeitherforlocatinga comer,oran
edge,orface, ormentioned.
8. Unless otherwisespecificallymentionedtodraw the
isometricview or isometricdrawingalldimensionlinesparallel
totheisometricunlessotherwise if mentioned.
9. No dimensions areindicated inisometric
unlessotherwisementioned.
10. Thegivenorthographicviews neednotbedrawn
unlessrequiredfor consideration
.
![Page 62: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/62.jpg)
62
Isometricviewofdifferentgeometricalsurfaces
![Page 63: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/63.jpg)
63
Isometricviewoftriangle
Isometricviewofsemicircle Isometricforcylinder Isometricforcone
![Page 64: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/64.jpg)
64
IsometricforprismIsometricforpyramid
Isometricforcombination solid
![Page 65: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/65.jpg)
65
Isometricforcuttingmodel incylinder andcone
Isometricforcuttingmodel inconeand pyramid
![Page 66: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/66.jpg)
66
Isometricforcuttingmodelsquarepyramid
![Page 67: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/67.jpg)
67
Important Questions
1. Acylinderofdiameter40mmandheight50mmisrestingverticallyononeofitsendonthehp.
Itiscutbyaplaneperpendiculartothevpandinclinedat30®tothehp.Theplanemeetstheaxis
atapoint30mmfromthebase.Drawthedevelopmentofthelateralsurfaceofthelowerportio
nsofthetruncatedcylinder.
2. Ahexagonalprismofbaseside20mmandheight40mmhasasquareholeofside16mmatthe
centre.Theaxesofthesquareandhexagoncoincide.Oneofthefacesofthesquare
isparallelto thefaceofthehexagon.Draw theisometricprojectionoftheprismwith
holetofull scale.
3. Aright
circularcone,40mmbaseand50mmheight,restsonitsbaseonHP.Asectionplaneperpendi
culartoVPandinclinedtoHPAT45®cutstheconebisectingaxis.Drawprojectionsofthetru
ncatedconeanddevelopitslateralsurface.
4. Apentagonalpyramidof40mmedgeofbaseandheight70mmrestswithitsbaseonHP.Oneo
fthebasesedgesisperpendiculartoVPandlineontheleftofaxisofthepyramid.Asectionpla
neperpendiculartoVPandinclinedat30®toVPcuttheaxisofthepyramidatapoint30mmab
ovethebaseofthepyramid.Drawtheisometricprojectionof thetruncatedpyramid.
5. Apentagonalpyramidofbaseedge25mmandheight60mmrestsverticallyonitsbaseonthe
HPsuchthatoneofitsbaseedgeparalleltoVP.Itiscutbyaplane,inclinedat60toHPandpasse
sthroughapoint35mmfromtheapex.Drawthedevelopment of
thelateralsurfaceofthepyramid.
6. Anobjectconsistsofahemisphericalvesselof80mmdiameterwhichisplacedcentrallyove
racylinderof50mmdiameterandheightof60mm.thecylinderinturnisplacedcentrallyove
rasquareprism of60mmbasesideand20mmhheight.Draw theisometricprojection
oftheobject.
7. Drawthedevelopmentofthelateralsurfaceofthelowerportionofacylinderofdiameter50
![Page 68: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/68.jpg)
68
mmandaxis70mm.
thesolidiscutbyasectionalplaneinclinedat40®toHPandperpendicularto
VPandpassingthroughthemidpoint oftheaxis.
8. Drawtheisometricprojectionof the object fromtheviewshown infigure.
9. Aregularhexagonalpyramidsideofbase20mmandheight60mmisrestingverticallyonits
baseonHP,suchthattwoofthesidesofthebaseareperpendiculartheVP.Itiscutbyaplanein
clinedat40®toHPandperpendiculartoVP.Thecuttingplanebisectstheaxisofthepyramid
.Obtainthedevelopment ofthelateralsurfaceofthetruncatedpyramid.
10. Acylinderof50mmdiameterand75mmheightstandswithitsbaseonHP.Itiscutbyasection
planeinclinedat45®toHPandperpendiculartoVPpassingthroughapointontheaxis20m
mbelowthetopend.Drawtheisometricprojectionat thetruncatedcylinder.
11. Acylinderofdiameter40mmandheight50mmisrestingverticallyononeofitsendsontheH
P.ItiscutbyaplaneperpendiculartotheVPandinclinedat30®tothe HP.Theplane
meetsthe axisatapoint 30mm fromthe
base.Drawthedevelopmentofthelateralsurfaceofthelowerportionofthetruncatedcylind
er.
12. Ahexagonalprismofbaseside20mmandheight40mmhasasquareholeofside16mmatcen
ter.Theaxisofthesquareandhexagoncoincide.Oneofthefacesofthesquareholeisparallelt
othefaceofthehexagon.Drawtheisometricprojectionoftheprismwith holeof fullscale.
![Page 69: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/69.jpg)
70
UNIT V
FREEHAND SKETCHINGAND
PERSPECTIVEPROJECTION FreeHandsketchingoffrontview,topviewand asuitable sideview
ofsimplecomponents
fromtheirisometricviews.Normalperspectiveofprism,pyramid,
cylinder&cone in verticalpositionbyvisual raymethodonly.
UNIT-V
PerspectiveProjection:
The perspective projection,
alsosometimescalledscenographicprojection orcentralprojection,
is the form
ofpictorialdrawingwhichmostnearlyapproachesthepicturesasseenb
ythe eyes.
Perspectiveprojectionis sometimescalledscenographicprojection
orcentralprojection,since the linesofsight convergetoasingle point
or centre.Perspectiveobtained willdependontherelative positionofthe
object,pictureplane and pointofsight. Inthis projection, the eyeis
assumedtobesituatedata definiteposition
relativetotheobject.Thepicture plane(verticalplane)
isplacedbetweentheobjectand the eye.Visualraysfromthe
eyetotheobjectpierce the pictureplaneandforman imageon it.
Thisimageis knownasperspectiveofthe object.
![Page 70: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/70.jpg)
71
![Page 71: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/71.jpg)
72
![Page 72: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/72.jpg)
73
VisualRayMethod:
Thepoints at whichthevisual rays joiningthe stationpoint
andtheobject piercesthepicture plane in both the top and
profileviews,areprojectedtointersecteachothertogivepointsinthepersp
ective. Since the perspectiveviewis obtained
bytheintersectionofthevisualray, thismethod is called
VisualRayMethod.
IMPORTANCEPOINTIN VISUALRAY METHOD:
1. Draw the PP linetorepresentthepictureplane inthetopview 2. DrawtheplanoftheobjectbasedonitspositionwithrespecttothePP
3. DrawtheGroundPlane,theGPatanyconvenientdistancefromPPan
dprojectthefrontviewbasedonthepositionofobject
withrespecttoGP.
4. Locatethepositionofthecentralplanewithrespecttotheobjectandre
presentitasalineinboththeviews.Onitmarkthetopview(s)andfront
view(s')ofthestationpointbasedon this positionwithrespect toPP
andGP.
5. JoinallplanpointswithsandnotetheinterceptsofeachlinewithPP
line
6. Fromeachintercept,withPP,drawprojectorverticallytillitmeetsthe
linejoiningtheelevationofthecorrespondingpointands' togetthe
perspective.
7. Followtheabovesteptogettheperspectiveofotherpointsoftheobjec
t
8. Joinallthesepointsinpropersequencetogettheperspectiveofthe
objective
![Page 73: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/73.jpg)
74
Perspective viewofthepointP.
Perspective viewofline
![Page 74: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/74.jpg)
75
Perspective viewofplane
Perspective viewofsquareprism&pyramid (Restingon theground ononeof itsfaces /onthegroundverticallywith
anedge ofbaseparallel)
![Page 75: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/75.jpg)
76
On theground on its basewithafaceparallel
![Page 76: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/76.jpg)
77
Perspective view ofCONE
![Page 77: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/77.jpg)
78
FreeHand Sketching:
Inorderto achievea complete
shapedescription,itisnecessarytogetmorethan oneprojection,
andtherefore,additionalplanesofprojectionareusedtoprojectmorevie
ws onthem,forthe object.Assuch, the orthographicsystem
ofprojectionis also calledmulti-viewprojectionmethod.
Intheorthographicprojectiondrawing,forgettingthedifferentview
sofanobject,threemainplanesareusuallyused.Oneofthesesetupinvertic
alpositioniscalledtheverticalplaneofprojection(VP)orFrontalPlane(F
P).Thesecond,setupinhorizontalposition,i.e.,perpendiculartotheVP,is
calledHorizontalPlane(HP).Thethird,planesetupperpendiculartotheve
rtical andhorizontalplanesiscalled Profile Plane(PP).
![Page 78: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/78.jpg)
79
FIRSTANGLEPROJECTION
Symbolofprojection
Inthefirstangleprojection,theprofileviewisprojectedontheoppo
siteside,i.e.,Leftviewisprojectedontherightplaneandviceversa,wher
easinthethirdangleprojection,itisprojectedonthesame sideplane
i.e.,leftview is projectedon the leftplane.
![Page 79: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/79.jpg)
80
![Page 80: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/80.jpg)
81
![Page 81: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/81.jpg)
82
![Page 82: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/82.jpg)
83
![Page 83: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/83.jpg)
84
![Page 84: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/84.jpg)
85
![Page 85: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/85.jpg)
86
![Page 86: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/86.jpg)
87
Important Questions
1. Aregularhexagonalpyramidofbaseedge20mmandheight35mmrestsonitsbaseont
hegroundplanewithoneofitsbaseedgestouchingthepictureplane.Thestationpointi
s30mmabovethegroundplaneand40mminfrontofthepp.thecenterplaneis30mmto
therightoftheaxis.Drawtheperspectiveprojectionof thepyramid.
2. Drawbyfreehand,frontview(fromX),topviewandasuitablesideviewoftheobjectsh
own infigure1.Addnecessarydimensions ofthepart.
3. Asquareprismof25mmsideofbaseandheight40mmrestswithitsbaseongroundsuc
hthatoneoftherectangularfacesisinclinedat30®tothepictureplane.Thenearestvert
icaledgetouchesthepictureplane.Thestationpointis50mminfrontofthepictureplan
e,60mmabovethegroundandliesoppositetothe nearestverticaledge the
touchesthe pictureplane. Draw the perspectiveview.
4. Drawthefront,topandsideviewsoftheisometricviewoftheobjectshowninfigure 1.
5. Draw the perspective view ofa squareprismofedgeofbase
40mmandlength60mmlyingonarectangularfaceontheground,withacorneronPPa
ndthebasesequallyinclinedtoPP.thestationpointis60mminfrontofPPand80mmab
oveGLandliesinacentralplane,whichispassingthroughthecentreoftheprism.
Makefreehandsketches offront,topand rightsideviews ofthe3D
objectshownblow
6. Drawtheperspectiveprojectionofacubeof25mmedge,lyingonafaceonthegroundp
lane,withanedgetouchingthepicture planeandall vertical
facesequallyinclinedtothepictureplane.Thestationpointis50mminfrontofthe
![Page 87: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/87.jpg)
88
pictureplane,35mmabovethegroundplaneandliesinacenterplanwhichis10mmtot
heleftofthecube.
7. Makefreehandstretchesofthefront,topandrightsideviewoftheobjectshown
below.
8. Drawtheperspectiveprojectionofacubof25mmedge,lyinginafaceonthegroundpl
ane,withanedgetouchingthepictureplaneandallverticalfacesequallyinclinedtoth
epictureplane.Thestationpointis50mminfrontofthepictureplane,35mmabovethe
groundplaneandplaneandliesinacentralplanewhich is 10mmto
theleftofthecentreof thecube.
9. Drawthefront, top,and rightsideviewof theobjectshown below.
10. Aregularhexagonalpyramidofbaseedge20mmandheight35mmrestsonitsbaseont
hegroundplanewithoneofitsbaseedgestouchingthepictureplane.Thestationpoint
is30mmabovethegroundplaneand40mminfront
ofthePP.thecenterplaneis30mmtotherightoftheaxis.Drawtheperspectiveprojecti
onof thepyramid.
![Page 88: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/88.jpg)
89
KEYPOINTS&NOTATIONS IMPORTANT NOTATIONINENGINEERINGGRAPHICS
HP meanstheHorizontalPlaneVP
meanstheVertical PlaneFV
meanstheFrontView
TV means theTop
ViewSV
meanstheSideView
STV means theSectional
TopViewGR means theGround
TL means theTrueLengthCP
meanstheCutting Plane
PPP means thePicture Planefor PerspectiveProjection.
KEYPOINTSABOUTTHEPROJECTIONSOFPOINTS:
1. Thefrontviewandthetopviewofapointarealwaysonthesameverticalline.
2. ThedistanceofthefrontviewofapointfromtheXYlineisalwaysequaltothedist
anceof thegivenpointfromtheHP.
3. IfagivenpointisabovetheHp,itsfrontviewisabovetheXYline.Ifthegivenpoint
isbelow theHp,its frontview is belowtheXYline.
4. ThedistanceofthetopviewofapointfromtheXYlineisalwaysequaltothedistan
ceof thegiven point fromtheVP.
5. Ifagivenpointis infrontoftheVP,itstopview isbelowtheXYline.
Ifthegivenpoint isbehind theVP,its topviewis abovetheXYline.]
![Page 89: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/89.jpg)
90
KEYPOINTSABOUTTHEPOSITIONSOF A
POINTANDITSPROJECTIONS:
DihedralAngleor Quadrant
PositionoftheGivenPoint PositionintheFrontView
PositionintheTop View
FIRST AbovetheHP,in frontof theVP Above XY Below XY
SECOND AbovetheHP,behind theVP Above XY Above XY
THIRD Below theHP,behindtheVP Below XY Above XY
FOURTH Below theHP,infrontof theVP Below XY Below XY
PROJECTIONS OFALINEINCLINED TOBOTH THE REFERENCEPLANES:
CaseI:
IfastraightlineisprojectedwhenitisinclinedatetotheHPandeitherparallel totheVP or
inclinedto theVP,then:
(i) ) Thelengthinthetop or plan viewremains thesameand
(ii) IfoneendpointintheFVremainsatconstantdistancefromXY,theotherendpoi
ntwillalsoremainatthesamedistancefromXY,providedtheanglewiththeHPdoesnotch
ange.Inotherwords,ifpointAofastraightlineABisfixed,pointBwill haveits
frontviewb' onapath parallel totheXYline.CaseII:
Ifastraightlineisprojectedwhenitisinclinedatq;totheVPandeitherparallel
totheHP or inclinedto theHP,then:
(i) ) Thelengthinthefront viewremains thesame and
(ii) IfoneendpointintheTVremainsataconstantdistanceandiftheanglefromXY
withtheVPdoesnotchange,theotherendpointwillalsoremainatthesamedistancefrom
XY.Inotherwords,ifpointAofastraightlineABisfixed,pointBwill haveitstop viewbon
apath parallel totheXYline.
![Page 90: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/90.jpg)
91
KEYPOINTSTOREMEMBERABOUTPROJECTIONSOFPLANES:
1.Planeperpendicularto onereference planeandparallel to theother(onestep)
Ifit isparalleltotheVPand perpendicular totheHP,its front viewisdrawnwith
thetrueshapeand sizeandthetop viewis a horizontalline.
Ifit isparalleltotheHP and perpendicular totheVP,its top viewisdrawnwith
thetrueshapeand sizeandthefrontviewis a horizontalline.
II. When a planeisperpendicular tooneand inclined to theother,two
stepsarerequiredtodraw theprojections(two steps)
Step I:
Ifthegivenplaneisperpendicular to theVP and inclinedtotheHP,assumeit
tobeparallel totheHP inStep I. If it isperpendicular to theHP and inclinedto
theVP,assumeit tobeparallel totheVP in Step I.Step II:
Rotatetheplanetomakeit inclined to onereferenceplane, as required,keepingit
perpendiculartotheother.
III. When a
planeisinclinedtobothreferenceplanes,threestepsarerequiredtodrawtheprojectio
ns
Step I:
Theplateisassumed to beparallel totheVP,perpendicular to
theHP,andhaveoneof itsedges,say,AIBl,perpendicular to theHP.
Step II:
Theplateisassumed to beinclined to theVP at anangleΦ,whileremaining
perpendicularto theHP.Theotheredge,say,A2B2alsoremainsperpendicular to
theHP.Asrelationswith theHP donot change,projection on
![Page 91: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/91.jpg)
92
theHP,that is,thetopview,remains asa straightlineand frontviews areat
thesamedistancefromXYas thecorrespondingpointsarefromXYinStep 1.
Step III:
Theplateisassumed to berotatedsothatA2B2becomesAB,inclinedat
etotheHP.However,noneof
thelinesorpointschangestheirrelationswiththeVP.Hence,inthefront
viewtheshapedoes not changeandthedistances ofvariouspointsfromtheXYlinein
thetop viewremain thesamein StepIIandStep III.
![Page 92: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/92.jpg)
93
THEPOSITIONOF THE PLANETWO STEPPROBLEM:
![Page 93: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/93.jpg)
94
THEPOSITION OFTHE PLANE FOR THREE-STEP PROBLEMS:
![Page 94: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/94.jpg)
95
Projections of Solids:
Fordrawingprojectionsofsolids,onehastofrequentlydrawprojectionsoflineseit
herparalleltotheHPortheVPandinclinedtotheotherwithananglethatisbetween0to90°
.Similarly,sometimes,theprojectionsofplanesurfacesPerpendiculartooneandincline
dtotheotherarerequiredtobedrawn.
IMPORTANCE POINTSOF PROJECTIONOF LINES
Further,it mayberecollected that therelationsof theoriginalpoint,line,or
planewiththe HParetherelationsof its FV orSV withtheXYline.
Similarly,thosewith theVP aretherelationsof its TV withtheXY lineorit’sSVwith the
XIY1 line.
![Page 95: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/95.jpg)
96
IMPORTANCEPOINTSOFPROJECTION OF PLANES:
PROJECTIONS OF SOLIDS WITH THEAXISPARALLELTOONE
ANDINCLINEDTO THE OTHERREFERENCEPLANE:
Theprojectionsof a solidwithitsaxisparallel totheVPandinclined totheHP
orparallel tothe HP andinclinedto theVPcannot bedrawndirectlyasthebaseofsuch
asolidwillnot beparallel toanyoneofthereferenceplanes andtwo stepsare required to
drawtheprojections.Suchproblemsare solved in twostepsandthepossiblecasesare
listed in atable.
![Page 96: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/96.jpg)
97
HINTSFORCONDITIONSTOBE SATISFIEDINTWO-STEPPROBLEMS:
![Page 97: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/97.jpg)
98
HINTFOR POSITIONOFTHE AXIS:
![Page 98: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/98.jpg)
99
PROJECTIONS OF
SOLIDSWITHTHEAXISINCLINEDTOBOTHTHEHPAND THE
VP(HINTSFORCONDITIONSTOBE SATISFIEDINTHETHREE-STEP
PROBLEMS):
![Page 99: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/99.jpg)
100
SECTIONOFSOLIDS:
Thefollowingsteps can beused to drawsectionalviews:
Step I:
Drawtheprojectionsofthegivensolidinanuncutconditioninboththeviews
(theFV andtheSTY) bythinconstructionlines.
Step II:
Draw the cuttingplane (orthesectionplane)asa straightlineinclinedatBtothe
XY line in thefront view if itis givento be perpendicularto the
VP.DrawitinclinedatBtotheHPorasastraightlineinclinedatrptoXYinthetopview,ifit
isgivento beperpendicularto theHPandinclinedatrp to theVP.Step III:
Ifthesolidisacylinderoracone,drawanumberofgeneratorsintersectingthecuttin
gplaneline.Obtaintheirprojectionsintheotherview.Generatorsarelinesdrawnthrought
hepointsonthebasecircleandareparalleltotheaxisfor a cylinder orjoiningtheapex for
a cone.
Step IV:
Locatethepoint’scommonbetweenthecuttingplanelineandthesurfacelinesofthe
solid.Thesesurfacelinesincludethebaseandsideedgesofprismsandpyramidsorthegen
eratorsandcircularedgesofcylindersandcones.Numberthesepoints asfollows:
(i) Start fromone endofthecuttingplane,andmovetowardstheotherendnaming
thepointsonvisiblesurfacelinessequentially.
(ii) Afterreachingtheotherend,returnalongthecuttingplanelineandcontinueton
umberthosepointsthatareonhiddensurfacelinessequentially.In
![Page 100: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/100.jpg)
100
caseofahollowsolid,imaginetheholeasaseparatesolidandnumberthepointsin
theusualmanner.
Step V:
Projectthepointsintheotherviewsby
drawinginterconnectingprojectorsandintersectingtheconcernedsurfacelines.
Step VI:
JointhepointsobtainedinStepVbycontinuouscurvedlinesifthepointsareonacon
icaloracylindricalsurface.Otherwise,jointhembystraightlines.Theapparentsectionis
completedbydrawingcross-hatchingsectionlineswithin thenewlycutsurface.
Step VII:
Completetheprojectionsbydrawingtheproperconventionallinesforalltheexisti
ngedgesandsurfaceboundaries.
HINTTOLOCATE THE CUTTINGPLANE:
Therequiredcuttingplanecanbequicklylocatedifthefollowinghintsarekeptinmind:
1. Thenumberofcomersinthetrueshapeofasectionisalwaysequaltothenumber
of edgesofthesolidthat iscut bythecuttingplane.
2. Thetrueshapeofasectionhasaconfigurationsimilartothatofitsapparentsectio
n.Thismeans:
(i) ) Thenumber of edgesandcornersare equal.
(ii) Anypair oflines,ifparallel inone,will remainparallel intheother.
(iii) Arectangleinoneneednotbearectangleintheother.Instead,itwillbeafour-
sidedfigurewiththeoppositesidesparallel.Thatis,itmaybearectangle,aSquareor a
parallelogram.
![Page 101: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/101.jpg)
100
(iv) Acurvedboundaryinonewillremainacurvedboundaryintheotherbut a
Circleneed not beacircle.Itmayalso beanellipse.
3. Asectionascurvecanbeobtainedonlywhenthegeneratorsofacylinder or of
aconearecut.
4. When a cuttingplanecutsall thegenerators ofa cylinder ora
cone,thenthetrueshapeofthesection is anellipse.
5. Whenthecuttingplaneisinclinedtothebaseofaconeatananglethatisequalto,gr
eaterthanorlessthanthatmadebyitsgeneratorwiththebase,thenthetrueshapeofthesecti
onisaparabolaahyperbola oranellipse,respectively.
6. Whenacuttingplanecutsalongthegeneratorsofacone,thenthetrueshapeofthes
ection is anisosceles triangle.
7. Whenacuttingplanecutsalongthegeneratorsofacylinder,thenthetrueshapeof
thesection is arectangle.
Theactualprocedureto locatethecuttingplaneinvolves thefollowing steps:
Step I:
Drawtheprojectionsofthegivenuncutsolidintheproperpositionwithrespect
totheHPand theVP bythenlines.
Step II:
IfthecuttingplaneistobeperpendiculartotheVPortheHP,drawanumberoftrialcu
ttingplanesinthefrontvieworinthetopview,respectively.Selectthosecuttingplanesthat
intersectthenumberofedgesofthesolidequaltothenumber of
cornersofthetrueshapeoftherequiredsection.Ifthesolid is aconeoracylinder,select
the cuttingplanebased onHints(4) to(7).
StepIII:
![Page 102: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/102.jpg)
100
Sketchtheshapeofthesectionbyprojectingpointsononeoftheselectedcuttingpla
nes.IfthecuttingplanelineisinclinedtotheXYline,theshapeofthesectionthatwillbeobt
ainedwillnotbethetrueshapeanditiscalledanapparentsection.
Step IV:
Fromasketchofthetrueshape,findoutthedependenceofitsdimensionsonthevari
ouslinesinprojections,andfindoutwhetherbyshiftingthecuttingplanethesameedgesan
dsurfacescanbecutandwhethertherequiredlengthscanbeobtainedforthetrueshapeofth
esection.Accordingly,adjustthepositionofthecuttingplane.Ifadjustmentofdimension
sisnotpossible,tryanothercuttingplaneand rework stepsIIIand IV.
DEVELOPMENTOF SURFACES;
Step I:
Drawtheprojectionsofthegivensolidintheuncutconditionusingthin
lines.
Step II:
Drawthecuttingplaneasalineinthefrontortopviewdependinguponwhetheritisp
erpendiculartotheVPortheHP.Ifthecutisacylindricalorprismatichole,itwillbedrawna
sacircleorapolygonintheFVortheTVdependinguponwhether its axisisperpendicular
totheVP ortheHP.
Step III:
Drawanumberofsurfacelines,particularlytheonesthatareintersectingtheCuttin
gplanelineandpassingthroughthecriticalpointsasinthecaseof
intersectionsofsurfacesproblems.Foracurvedsolidoracurvedcut,drawatleast
![Page 103: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/103.jpg)
100
onemore surfacelinebetween two adjacentcritical points.
Step IV:
Locatethepoint’scommonbetweenthecuttingplanelinesandsurfacelines,andn
umbertheminthesamemannerasinChapter10.Theedgesofthebaseorsidesurfacesare
alsosurfacelines.
Step V:
DrawthedevelopmentoftheuncutsolidandlocatethepositionsofthesurfaceLines
bythinlinesdrawn in Step III.
Step VI:
Thepoint’scommonbetweenthecuttingplaneandthesurfacelinesnamed in
StepIVcanbelocatedontherespectivesurfacelinesofthedevelopmentattruedistancesfr
omtheknownendpointsofthosesurfacelines.Iftheconcernedsurfacelinedoesnotrepres
entthetruelengtheitherintheFVortheTV,finditstruelengthbymakingoneviewparallelt
oXYandtransferthecuttingplanepointonit.Finditstruedistancefromoneoftheendpoint
s.Andusethisdistanceto plotthepointin thedevelopment.
Step VII:
Jointhecuttingplanepointsinserialcyclicorderinthedevelopment.Ifthesolidisacurve
doneorthecuttingplaneiscurved,jointhepointsbycurvedlines,otherwise,bystraightl
ines.Thenumberoflinesinthedevelopmentwillbeequaltothenumberofformedcorner
s,andacornermayformwheretheedgeofthesolidiscutbythecuttingplaneorwherether
eisacornerinthecut.Ifthetwopointstobejoinedinsequencearelocatedonedgesofthesa
mebase,
theyshouldbejoinedbymovingalongexistingbase/vedgesifthedevelopmento
f thelateralsurfaceis drawn.
![Page 104: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/104.jpg)
100
Step VIII:
Completethedevelopmentbydrawingboundarylinesbythicklines.Co
mpletetheprojectionsbydrawingproperconventionallinesforallexistingedg
esandsurfaceboundaries.
Isometric Projections:
Isometricand OrthographicProjectionsof PrincipalLines
Principlepositi
onoftheline
OrthographicProjection IsometricProjection
Positionofli
neinFV
Positionofl
ineinTV
Positionofli
neinSV
Length Positionof line Length
PerpendicularTh
eHP
Vertical Point Vertical Trueleng
thifproje
ctionof
lines
Vertical Reduced
ToIsome
tricScale PerpendicularTh
eVP
Point Vertical Horizontal inclinedat300
tothehorizontal
PerpendicularTh
e PP
Horizontal Horizontal Point Inclinedat300
tothehorizontali
notherdirection
Thestepsfordrawing isometricprojections ofanobjectareasfollows:
Step I:
Draworthographicprojectionsofthegivenobjectandencloseeachvie
winthesmallestrectangle.Thesidesoftherectanglesshouldbeverticalandhor
izontallinesonlybecausetheyaresupposedtobetheprincipallinesoftheenclo
singboxof theObject.
Step II:
SelectthefacesthataretobevisiblesothatthemaximumnumberofvisibleLines/surfac
![Page 105: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/105.jpg)
100
esareobtainedintheisometricprojection.Generally,thefrontface,thetopface,andone
sidefacearemadevisible.Iftheleft-
sideviewgivesthemaximumnumberofvisiblelines,theleftfaceismadevisible.Iftheri
ght-sideviewgives themaximumnumber of visiblelines,therightface ismade
visible.
Step III:
CorrelatetheprojectionsofthevarioussurfacesinalltheviewsbyusingthePropertieso
fprojectionsofplanesurfaces.Havingco-
relatedtheprojectionsintwoviewsormore,pointsshouldbemeasuredinprincipaldire
ctionsinanytwoviewsandshouldbeplottedinisometricprojections.Coordinatedista
ncesshould bereducedtoisometricscalebeforeplotting.
Step IV:
Drawalltheboundariesofsurfacesbyproperconventionallinesdependingupontheir
visibility.
Importantpoints inperspectiveprojection:
i. AsurfacetouchingthePPP has itstrueshapeand sizein theperspectivev i e w
• PerspectiveviewsoflinestouchingthePPP are of
theirtruelengthsandtrueinclinations.
• Perspectiveviewsofverticallinesare verticallines.
• Perspectiveviewsofhorizontallines,parallel
toeachotherandinclinedtothePPP; convergeintoasinglepoint,which
isthefrontviewofthevanishingpoint.
![Page 106: GE 6152-ENGINEERING GRAPHICS · PROJECTION OFSTRAIGHTLINESAND PLANES[FIRSTANGLE] Projectionofstraightlines,situated infirstquadrantonly,inclined to bothhorizontaland vertical planes–](https://reader033.vdocuments.us/reader033/viewer/2022051808/600d027cf05f710b9a778984/html5/thumbnails/106.jpg)
100
• Perspectiveviewsoflinesparallel tothePPP are parallel totheoriginallines.
• Iftheobject isbehindthePPP,thesizeofitsperspectiveviewwill bereduced in
sizecompared to theobject.Also,thegreater
thedistancefromthePPP,thesmallertheperspective.