INTRODUCTION OF ENGINEERING DRAWING
Application of Drawing in Industries - Importance of graphics in engineering applications - Use of drafting instruments - Specifications - Size, layout and folding of drawing sheets - Lettering and dimensioning.
PLANE CURVES AND FREE HAND SKETCHING
Curves used in engineering practices, Visualization concepts and Free Hand sketching - Layout of views.
QUADRANTS AND PROJECTION OF SOLIDS
Various types of Quadrants with their Projections and applications, Projection of simple solids like prisms, pyramids, cylinder, cone
INTRODUCTION OF ENGINEERING DRAWING
Application of Drawing in Industries - Importance of graphics in engineering applications - Use of drafting instruments - Specifications - Size, layout and folding of drawing sheets - Lettering and dimensioning.
PLANE CURVES AND FREE HAND SKETCHING
Curves used in engineering practices, Visualization concepts and Free Hand sketching - Layout of views.
QUADRANTS AND PROJECTION OF SOLIDS
Various types of Quadrants with their Projections and applications, Projection of simple solids like prisms, pyramids, cylinder, cone
Basics of engineering drawing by Rishabh NatholiaRISHABH NATHOLIA
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It is a powerpoint presentation that discusses about the topic or lesson: Types and Examples of Lettering. It also includes the definition, characteristics, types and examples of Lettering..
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A basic 2 day training on understanding of GDnT,Geometrical Dimensioning & Tolerancing to Technical & Egineering Group as a common language in understanding Drawings.
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Detail drawings completely describe a single part with multiview orthographic projections.
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The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
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Culturally, the Romans were eclectic, absorbing and adapting elements from the civilizations they encountered, particularly the Greeks. Roman art, literature, and philosophy reflected this synthesis, creating a rich cultural tapestry. Latin, the Roman language, became the lingua franca of the Western world, influencing numerous modern languages.
Roman architecture and engineering achievements were monumental. They perfected the arch, vault, and dome, constructing enduring structures like the Colosseum, Pantheon, and aqueducts. These engineering marvels not only showcased Roman ingenuity but also served practical purposes, from public entertainment to water supply.
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Engineering Drawning & Graphics-Introduction-lettering and dimension-Lecture 2,3- By Engr Zohaib Ali Khan
1. BASICS OF LETTERING
1. NEED FOR LETTERING
Lettering is needed for
• Dimensions of parts
• Notes relating to the manufacture of parts
• Descriptive titles.
Shall be
• Highly legible
• Uniform
• Capable of being done rapidly
2. 2. CONSIDERATIONS FOR GOOD LETTERING
A. General Proportions
• No specific standard for the proportions of letters
• Proportion of width to the height of letters varies.
• Low and extended letters are more legible than high compressed
ones.
B. The Rule of Stability
• In order to give the appearance of stability, letters as B, E, K, S, X,
and Z and the digits 3 and 8 must be drawn smaller at the top than at
the bottom.
C. Guide Lines
• Always draw light guide lines for both tops and bottoms of letters. A
very sharp pencil shall be used for the purpose.
3. D. Styles of Lettering
• No specific standard for the style of lettering
• Styles shall be simple and clear to facilitate the reading of a drawing.
• TIME-CONSUMING LETTERING STYLE
• AN EFFICIENT LETTERING STYLE
• A LIMITED-USE LETTERING STYLE
E. Size of Lettering
• Shall be at least 0.125 in (3.00 mm) high
F. Aspect Ratio
• The width/height ratio
• No specific standard
4. THEORY OF DIMENSIONING
1. PURPOSE OF DIMENSIONING
• To provide exact information on the size and position of each feature
of the part for production purposes.
2. SIZE VS. POSITION DIMENSIONS
• Dimensions can be classified as those for size or position.
• Each feature shall be dimensioned and positioned only once.
• Each feature shall be dimensioned and positioned where its shape is
shown.
5. P P
PS
S
P
S
S Drill, 2 holes
SR
(S)
S
S
S
Dimensions of size and position. S indicates size, P position
6. 3. BASIC EXAMPLES OF DIMENSIONS OF SIZE AND POSITION
Each of the geometric shapes making up the object must have its height, width,
and depth indicated in the dimensioning.
a. Prism
• The most common shape
• Requires all the three dimensions (for base and length)
60 45
45
7. b. Cylinder
• The second most common shape
• Requires only two dimensions, diameter and length
• Partial cylinders are dimensioned by radius instead of diameter.
Ø20 Drill
35
Ø40
8. c. Right Cone
• Requires only altitude and base diameter.
• Frustum will require diameters at both ends and the length.
30
Ø20
Ø40
9. f. Sphere
• Dimensioned by giving the diameter.
Position of each basic shape relative to the others must be given after they
are dimensioned.
10. 4. SELECTION OF DIMENSIONS
• More care shall be taken in selecting dimensions of position than
selecting dimensions of size.
• Positional dimension usually are given between finished surfaces,
center lines, or a combination
• Rough castings or forgings vary in size. Therefore DO NOT position
machined surfaces relative to unfinished surfaces.
11. 5. THE CONTOUR PRINCIPLE
• One view of a part usually describe the shape of some feature better than
other views.
• A feature is best dimensioned in the view showing the shape of the
feature.
• Duplicate or unnecessary dimensions shall be avoided. A duplicate
dimensioned may go unnoticed if a drawing is revised, creating confusion.
• Unnecessary dimensions can be used only as references but shall be
enclosed within parentheses.
• Dimensions are preferred to be placed outside the views.
• Dimensions shall be kept off the cut surfaces of sections.
• Always place a longer dimension line outside a shorter one to avoid
crossing dimension lines with the extension lines of other dimensions.
13. 6. DIMENSIONAL CLARITY USING A DATUM
• Datum points, lines and edges of surfaces of a part are used to establish
the position of other features.
• Where positions are specified by dimensions from a datum, different
features are always positioned from this datum and not with respect to one
another.
• A feature selected as a datum must be clearly identified an readily
recognizable. It must also be accessible during manufacture.
• A datum surface on a physical part must be more accurate than the
allowable variation on any dimension of position.
• It is necessary to specify the perfection of datum surfaces for flatness,
straightness, roundness, etc.
15. DIMENSIONING TECHNIQUES AND CONVENTIONS
1. USE OF SCALE
• A part may be drawn to any convenient scale.
• The scale must be indicated in an easily seen area of the working drawing,
often in the title block. If a sheet of drawing has more than one scale
used, then the scale shall be mentioned next to the relevant view.
• The dimensions placed on the part are always actual size dimensions.
16. 2. DIMENSIONS AND NOTES
• Distances can be given as either dimensions or notes.
• Specific notes have a leader and shall be placed close to the feature to
which they apply.
• General notes do not require a leader and should be grouped together
above the title block.
50
R15
Ø12 Drill
17. 3. EXTENSION LINES AND LEADERS
A. Extension Lines
• Shall not touch the outline of the view. There shall be an offset of
about 1.5 to 2 mm from the origin.
• Shall extend 2.5 to 3 mm beyond the last dimension line.
• Dimensions may also terminate at center lines or visible outlines of
the view.
• Center lines are extended to serve as extension lines where the
distance between centers is to be shown.
• Extension lines for an angular dimension can be used to place linear
dimensions.
• Extension shall not be broken where they cross each other or an
outline of a view. When space is restricted and extension lines come
close to arrowheads, the extension lines may be broken for clarity.
• Where a point is located by extension lines alone, the extension lines
should pass through the point.
19. A. Leaders
• Leaders are straight (not curved) lines leading from a dimension value
or an explanatory note to the feature on the drawing to which the note
applies.
• Arrowhead is used at the pointing end of the leader.
• Shall be drawn at an angle to the principal lines of the drawing.
• A dot sometimes may be use for termination of a leader.
• For circular features, leader shall be radial.
• Avoid long leaders or crossing leaders.
3 x 45°
CHROME
20. 4. LINE WEIGHTS AND ARROWHEADS
• Line weights for the dimension lines and extension lines shall be 0.2 mm to
0.25 mm.
• Arrowheads shall be darker in appearance than the extension lines and
dimension lines. Both open 30o
and closed filled can be used.
• Arrowheads shall be about 3 mm long and shall have a consistent size and
appearance throughout the drawing.
5. DIMENSION TEXT
• Dimension text shall be about 3 mm high.
• In the BSI and ANSI methods the text is placed horizontal between the
dimension line.
• In the ISO methods the text is always placed above the dimension line.
The text must be aligned to the dimension line if it is written between the
extension lines. If however, it is written outside, then it shall be horizontal.
• In the BSI and ANSI methods, if arrows are placed outside, then
dimension line shall not be drawn between the extension lines.
• In the ISO methods, the dimension line shall always be drawn.
