ENGINEERING DRAWING I

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Transcription:

INSTITUTE OF ENGINEERING DEPARTMENT OF MECHANICAL ENGINEERING ENGINEERING DRAWING I [TUTORIAL SHEETS] 1

CONTENTS Sheet No. 1: Technical Lettering 3 Sheet No. 2: Plane Geometrical Construction 5 Sheet No. 3: Descriptive Geometry I 7 Sheet No. 4: Descriptive Geometry II 9 Sheet No. 5: Orthographic Drawings I Sheet No. : Orthographic Drawings II 17 Sheet No. 7: Sectional And Auiliary Views 19 Sheet No. : Development Of Surfaces I 21 Sheet No. 9: Development Of Surfaces II 22 Sheet No. : Intersection Of Solids 23 Sheet No. 11: Orthographic And Sectional Views Sheet No. : Freehand Sketching 2-2-

ENGINEERING DRAWING I SHEET NO: 1 (TECHNICAL LETTERING) 1. Write down alphaets (A to Z) of different size in Vertical capital Inclined capital Vertical small, and Inclined small letters. 2. Write down vertical and inclined numerals (0 to 9) and fractions different size. 3. Draw the following lines with 0 mm length Visile outline Hidden Center Projection Cutting plane Break 4. Dimension the following figures. Size may e otained y measuring the drawing. Figure T1.4-3-

0 5 5 5 5 S. N. DESCRIPTION QTY. MATERIAL REMARK DRAWN BY ROLL NO CHKD BY TITLE NAME OF THE INSTITUTE 5 SCALE DRG SHEET NO. 5 DATE 5 METRIC SYSTEM -4-

ENGINEERING DRAWING I SHEET NO: 2 (PLANE GEOMETRICAL CONSTRUCTION) 1. (a) Draw a mm line and trisect it. () Draw an angle of 75 0 and trisect it. (c) Draw a line whose length is greater than mm and divide the same into 7 equal parts and proportionately in the ratio of 1:2:3. 2. (a) Construct a regular heagon with mm distance across flats. () Construct a regular octagon with 0 mm distance across corners. (c) Draw a regular pentagon on a circumscriing circle of 0 mm diameter. 3. (a) Draw circular arc of radius mm tangent to two lines which are inclined at 45 0, 90 0 and 0 0 to each other. () Draw a line AB of any length. Mark a point O at a distance of mm from AB. With O as a center, draw a circle of mm diameter. Descrie another circle (i) of mm radius, touching circle and AB; (ii) of 35 mm radius, touching AB and the circle, and including the circle within it. (d) Draw two horizontal lines mm apart. Locate two points 75 mm apart horizontally, one on each line. Draw an ogee (reverse) curve tangent to these lines. 4. Reconstruct the Figure Shown in Figure T2.4 (a) and T2.4 (). 2 φ 44 3 φ 2 R23 72 42 R5 φ 90 R2 R47 4 R R 45 Figure T2.4 (a) φ 0 φ φ 2 39 Figure T2.4 () 5. Draw an ellipse with major minor ais of 90 mm and 0 mm respectively. -5-

. Draw a paraola with doule ordinate 0 mm and ais 0 mm. 7. The distances etween the focii and etween the vertices of a hyperola are 0 mm and 0 mm respectively. Construct the hyperola.. Draw a locus of a point on the circumference of a circle of radius 35 mm for one complete rotation when it rolls on a horizontal surface. 9. Draw an involute of circle having diameter of mm.. Draw one turn of a heli of pitch 0 mm on a cylinder of diameter mm. 11. Draw an Archemedian's spiral of one convolution of radius 0 mm. --

ENGINEERING DRAWING I SHEET NO: 3 (DESCRIPTIVE GEOMETRY I) 1. Draw the projections of the following points. (a) Point A, mm infront of VP and mm aove HP. () Point B, 32 mm infront of VP and in the HP. (c) Point C, 22 mm ehind VP and 2 mm aove HP. (d) Point D, 35 mm ehind VP and in the HP. (e) Point E, 2 mm ehind VP and mm elow HP. (f) Point F, in the VP and mm elow HP. (g) Point G, mm infront of VP and mm elow HP. (h) Point H, in the VP and HP. 2. Draw the projections of the following lines: (a) Line AB, 45 mm long, parallel to HP and VP oth, when its distance from HP and VP is mm and mm respectively. () Line CD, 45 mm long, perpendicular to HP and mm away from VP, when one of its etremities nearer to HP is mm away from the HP. (c) Line EF, 45 mm long, contained y HP, and perpendicular to VP, when one of its etremities is mm away from the VP. (d) Line GH, mm long, parallel to VP and inclined to HP at 0, when one of its ends is mm from HP and mm from the VP. (e) Line IJ, mm long, contained y HP and inclined to VP at 45 0, when one of its ends is mm from the VP. (f) Line KL, mm long contained y oth the HP and the VP. 3. Draw the projections of the line MN when its end M is mm from HP and mm from VP and end N is mm from HP and mm from VP. Its end projectors are mm apart. 4. The front view of a line, inclined at 0 to the VP is 5 mm long. Draw the projections of the line, when it is parallel to and mm aove the HP, its one end eing mm in front of the VP. 5. A 90 mm long line is parallel to and mm in front of the VP. Its one end is in the HP while the other is mm aove the HP. Draw its projections and find its inclination with the HP.. A square lamina ABCD, of mm side is parallel to HP and is mm from it. Its side nearer to VP is parallel to and mm from VP. Draw its projections. 7. A rectangle ABCD 0 mm mm is parallel to HP with one of its sides inclined at 0 to VP and the end of the side near to VP is mm in front of the VP and mm aove the HP. Draw its projections. -7-

. A regular pentagon ABCDE mm side has its corner A in HP and the side CD parallel to the HP. Draw its projections when its plane is parallel to and mm from the VP. 9. A square lamina ABCD of mm side is perpendicular to VP and inclined to HP at 45 0. It rests on its side BC in HP. Draw its projections when corner point C is mm infront of the VP.. A regular pentagon ABCDE, of mm side, has its side BC in HP. Its plane is perpendicular to the HP and inclined at 45 0 to the VP. Draw the projections of the pentagon when its corner nearest to VP is mm from it. 11. Draw the projections of a thin circular sheet of mm diameter and negligile thickness, when its plane is inclined at 45 0 to VP and is perpendicular to HP. A point on it circumference and nearest to the VP is mm away from the HP and 14 mm from the VP. --

ENGINEERING DRAWING I SHEET NO: 4 (DESCRIPTIVE GEOMETRY II) 1. A line AB 75 mm long is inclined at 45 0 to the HP and 0 to the VP. Its end B is in the HP and mm in front of the VP. Draw its projections. 2. Draw the projections of a line AB, 90 mm long, its midpoint M eing mm aove the HP and mm in front of the VP. The end A is mm aove the HP and mm in front of the VP. 3. The top view of a 75 mm long line measures 5 mm while the length of its front view is mm. Its one end is in the HP and mm in front of the VP. Draw the projections of AB and determine its inclinations with the HP and the VP. 4. A line 5 mm long has its one end mm aove the HP and mm in front of the VP. The other end is mm aove the HP and 5 mm in front of the VP. Draw the projections of the line and determine its inclinations with the HP and the VP. 5. Reproduce the given view of the lines and determine the true lengths using the auiliary view method. 22 ' 4 5 27 a c d c 17 d' 7 a Figure T4 5 (a) Figure T4 5 () d -9-

. Reproduce the given view of the lines and determine the true lengths using the revolution method. h' f' i' 7 e' e f 27 g' g 2 h 2 i 2 j' j e 35 h 2 j g i Figure T4. (a) f Figure T4. () Figure T4. (c) 7. Determine the shortest distance etween the point C and line AB.. Reproduce the given views of the plane and draw the view showing the true size and shape. 2 a a c c' 22 2 c Figure T4.7 ' 54 13 3 a' a 31 45 13 Figure T4. (a) c' 2 4 c 3 a' 37 13 '/c' 53 4 a c Figure T4. () 9. Determine the angle etween the line MN and non-transparent plane ABC. Also determine the visile portion of the line.. Determine the shortest distance etween the lines MN and ST. 11. Determine the angle etween the planes ABC and BCD. --

n' 47 n' n a' ' 42 34 7 a c c' m' 33 13 4 m 2 5 32 2 11 9 27 22 35 m' m a' a 32 s' 4 s n Figure T4. c' 13 5 19 d Figure T4.9 Figure T4.11 d' c ' 9 t 29 3 11-11-

ENGINEERING DRAWING I SHEET NO: 4 (DESCRIPTIVE GEOMETRY II). A line AB 75 mm long is inclined at 45 0 to the HP and 0 to the VP. Its end B is in the HP and mm in front of the VP. Draw its projections. 13. Draw the projections of a line AB, 90 mm long, its midpoint M eing mm aove the HP and mm in front of the VP. The end A is mm aove the HP and mm in front of the VP. 14. The top view of a 75 mm long line measures 5 mm while the length of its front view is mm. Its one end is in the HP and mm in front of the VP. Draw the projections of AB and determine its inclinations with the HP and the VP.. A line 5 mm long has its one end mm aove the HP and mm in front of the VP. The other end is mm aove the HP and 5 mm in front of the VP. Draw the projections of the line and determine its inclinations with the HP and the VP. 1. Reproduce the given view of the lines and determine the true lengths using the auiliary view method. 22 ' d' 4 a c d c 17 a d Figure T4 5 (a) Figure T4 5 () 17. Reproduce the given view of the lines and determine the true lengths using the revolution method. 27 5 7 --

f' h' i' 7 e' e f 27 g' g 2 h 2 i 2 j' j e 35 h 2 j g i Figure T4. (a) f Figure T4. () Figure T4. (c) 1. Determine the shortest distance etween the point C and line AB. 19. Reproduce the given views of the plane and draw the view showing the true size and shape. 2 a a c c' 22 2 c Figure T4.7 ' 54 13 3 a' a 31 45 13 Figure T4. (a) c' 2 4 c 3 a' 37 13 '/c' 53 4 a c Figure T4. (). Determine the angle etween the line MN and non-transparent plane ABC. Also determine the visile portion of the line. 21. Determine the shortest distance etween the lines MN and ST. 22. Determine the angle etween the planes ABC and BCD. -13-

n' 47 n' n a' ' 42 34 7 a c c' m' 33 13 4 m 2 5 32 2 11 9 27 22 35 m' m a' a 32 s' 4 s n Figure T4. c' 13 5 19 d Figure T4.9 Figure T4.11 d' c ' 9 t 29 3 11-14-

ENGINEERING DRAWING I SHEET NO: 5 (ORTHOGRAPHIC DRAWINGS I) The figures for Prolems T5.1 to T5. contain a numer of pictorial views of pieces of various shapes. Translate them into three-view orthographic drawings. 44 14 4 1 35 1 23 14 1 22 4 Figure T5.1 Figure T5.2 3 72 35 2 19 7 45 75 21 14 14 42 5 14 14 35 45 Figure T5.3 Figure T5.4 32 7 54 75 Figure T5.5 Figure T5. --

7 4 45 0 1 45 14 3 43 3 34 3 5 0 Figure T5.9 Figure T5. 3 7 1 3 72 2 21 0 43 1 2 5 57 1 34 1 35 Figure T5.7 Figure T5. 1 94 13 3 14 14 5 4 2 Figure T5.11 Figure T5. 22 0-1-

ENGINEERING DRAWING I SHEET NO: (ORTHOGRAPHIC DRAWINGS II) Make a complete orthographic drawing (with necessary numer of projections) of each model and dimension it. 1 Rectangular Through Hole Through Hole 14 Dia. 54 4 19 2 23 1 4 3 9 52 7 1 Figure T.1 Figure T.2 FV 0 Hole 1 Dia FV Through Hole 14 Dia. 52 SQ Through Hole 22 Dia Through Hole Dia 3 5 5 17 3 SQ 2 4 R 4 FV Figure T.3 Figure T.4 FV -17-

5 Through Hole Dia. 32 Through Hole Dia 3 45 1 1 45 1 42 42 74 FV 1 22 5 13 1 94 FV Figure T.5 Figure T. 0 14 74 2 14 FV 70 0 FV 5 14 Figure T.7 Figure T. -1-

ENGINEERING DRAWING I SHEET NO: 7 (SECTIONAL AND AUXILAIRY VIEWS) 1. Draw the views of the ojects given elow with sectional front view. 7 R 42 R 52 0 5 10 0 70 Figure T7.1 (a) Figure T7.1 () 2. Draw the views of the ojects given elow with sectional front view and sectional side view. 2 22 2 Holes, Dia 0 0 22 Dia RIB THICK Dia 0 70 1 75 Dia 75 Figure T7.2 (a) R 0 Figure T7.2 () 0-19-

3. Draw the half sectional front view, half sectional side view and top view for the given oject. φ C'BORE φ DEEP φ R 2 φ, 2 HOLES φ 35 35 Figure T7.3 4. Draw the front view, the top view, and the normal view of the inclined surfaces for ojects given elow. R1 φ14 R2 4 R3 5 0 32 72 φ 1, 2 HOLES 0 72 Figure T7.4 (a) Figure T7.4 () --

ENGINEERING DRAWING I SHEET NO: (DEVELOPMENT OF SURFACES I) Make a complete orthographic drawing of a geometrical solid cut y a plane. Find the true shape of the section. Construct the development of the surface of the solid. P Y P Y P Y X 3 0 4 5 X 9 0 52 55 54 X 32 45 5 P H P H P H Figure T.1 Figure T.2 Figure T.3 P Y P Y P Y X 34 45 53 X 37 45 2 45 X 34 22 22 45 42 4 P H P H 4 4 Figure T.4 Figure T.5 Figure T. P H -21-

ENGINEERING DRAWING SHEET NO: 9 (DEVELOPMENT OF SURFACES II) 1. A right circular cone is cut as shown in Figure T9.1. Develop its lateral surface. 2. Two views of right regular heagonal prism cut at oth end y section planes and resting on its lower cut end on ground are shown in Figure T9.2. Develop its lateral surface. 3. Develop the lateral surface of a cylindrical piece shown in Figure T9.3. 45 45 φ 3 4 φ φ0 0 Figure T9.1 Figure T9.2 Figure T9.3 4. Two views of an olique, truncated rectangular pyramid are shown in Figure T9.4. Develop its lateral surface. 5. Figure T9.5 and T9. show parts of olique cone. Develop the surfaces. 37 R 0 27 3 4 φ0 φ Figure T9.4 Figure T9.5 Figure T9. -22-

ENGINEERING DRAWING I SHEET NO: (INTERSECTION OF SOLIDS) Draw the given views of assigned form and complete the intersection. Then develop the lateral surfaces. 51 φ φ 51 φ3 3 3 φ 7 7 2 Figure T.1 Figure T.2 2 φ 2 51 φ42 3 7 95 φ 2 Figure T.3 φ70 Figure T.4-23-

φ4 φ φ3 φ 45 1 7 7 45 54 44 Figure T.5 Figure T. φ SQ 70 44 SQ 22 13 Dia 3 7 0 57 Figure T.7 Figure T. --

ENGINEERING DRAWING I SHEET NO: 11 (ORTHOGRAPHIC AND SECTIONAL VIEWS) 1. Construct and dimension three projections of a model with a vertical section. Dia Through Hole Through Holes 0 1 4 4 Dia 7 2 42 R 74 14 5 1 1 21 Figure T11.1 Figure T11.2 2. Construct and dimension three projections of a model with a horizontal section. 4 3 2 R17 1 1 14 1 1 11 4 Dia 3 Through Hole 44 Dia 2 Through Hole Figure T11.3 Figure T11.4 --

ENGINEERING DRAWING I SHEET NO: (FREEHAND SKECTHING) 3. Sketch, freehand, the following one view drawings. 32 2 Holes 14 Dia R9 2 HOLES φ 9 R φ 32 92 Dia 0 Dia 7 Dia 55 R 55 5 Holes Dia R 14 32 Figure T.1(a) Figure T.1() 4. Sketch the required views of the ojects given elow. Figure T.2(a) Figure T.2() Figure T.2(c) -2-

5. Sketch the pictorial view from the orthographic views given. 70 R 35 35 45 φ R Figure T.3() Figure T.3(a) Figure T.3(c) 0-27-

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