Engineering Drawing: Understanding Different Types of Lines and Dimensioning Conventions, Study notes of Engineering

This lecture note focuses on the engineering drawing conventions for lines and dimensioning. It covers various types of lines used in engineering drawing, including visible outline lines, section lines, centre lines, hidden lines, construction lines, and dimension lines. The document also explains the rules for drawing centre lines and the notation of dimensioning, such as dimension lines, extension lines, arrow heads, and dimension figures. Understanding these conventions is essential for producing accurate and clear engineering drawings.

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2021/2022

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ENGINEERING
DRAWING
LECTURE 4
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ENGINEERING

DRAWING

LECTURE 4

Conventions

  • Convention or Code:
    • The representation of any matter by some sign or mark on the drawing is known as convention or code.
    • The convention make the drawing simple and easy to draw.

Detailed Description and Uses of Various

Lines

1. Visible Outline or Object Line: The outline or object line is represented

by thick line and used to show the outer visible feature of the object in the drawing. Every edge or surface that is visible is represented by these lines.

2. Section Line or Hatching Line: It is a thin continuous line and is used

for the purpose of sectioning an object.

(Note: The section lines are drawn at angle of 45° to the horizontal line and are
spaced uniformly from 2 to 4 mm apart depending upon the size of the object )

3. Centre Line, Locus Line, Pitch Circles, Extreme Position of

Moveable Parts and Parts Situated Infront of Cutting Plane: These lines are represented by long and short dashes in proportion ranging from 6:1 to 4:1, closely and evenly spaced in any drawing. The Proportional once selected should be maintained through the drawing these are used to show the centre and location of cylindrical, conical and spherical object. The following rules should be kept in mind while drawing centre lines of various objects:- i. The centre lines should not end at out line representing surfaces but should extend approximately from 2 to 5 mm beyond the out lines of the object ii. Where centre lines cross, the short dashes should ntersect at symmetrical. In case of very small circles, the short dashes should be neglected while drawing centre lines.

9. Cutting Plane Line: The cutting plane line is represented by thick long

line at the ends with thin long and short lines at the centre. It is used to show the edge of the cutting plane.

10. Short Break Line: The short break line is represented by thin free-hand

and is used to show the break of an object for a short length. It results in a saving in space and time used for drawing without loss of any details.

11. Long Break Line: The long line is represented by thin ruled line provided

with free-hand zig-zags at suitable intervals and is used to show the break for a considerable length of the object.

Conventions For Various Materials

  • In engineering practice, there are different types of materials used for manufacturing the various parts of a machine. It is therefore, desirable that different conventions should be adopted to differentiate various materials for convenience on the drawing. The conventions materials thus save time and labour of the drawing work.

Notation of Dimensioning

  • The notation of dimensioning consists of dimension lines, extension lines, arrow heads, dimension figures, notes, symbols, etc. These notations are explained below:-
1. Dimension Line: Dimension line is a thin continuous line used to indicate the

measurement which is shown by figure in a space above the dimension line or space left in the dimension line.

2. Extension Line: Extension line is also a thin continuous line extending beyond

the outline of the object. It should extend about 3 mm beyond the dimension line. There should be a visible gap of 1.5 mm between the feature’s corners and the end of the extension line.

3. Arrow Heads: Arrow heads are used to terminate dimension lines. These touch

the extension lines and indicates the extent of a dimension. The length of the arrow-head is about three times its width, the space in the arrow-heads should be filled in. The size of the arrow-heads should be proportionate to the thickness of the lines of the drawing.

4. Dimension Figure: A numerical that indicates the size of a particular feature of

an object is called dimension figure.

5. Leader (Pointer Line): A leader is a thin continuous line drawn from note of the

figure to show where it applies. It is terminated by an arrow-head or a dot. The arrow-head touches the outline, whereas the dot is placed within the outline of the object. The leader is generally drawn at any convenient angle, usually 30°, 45° and 60 ° but of not less than 30°. (Note : The use of long leaders should be avoided even if it is involves repetition dimensions or notes )

Spacing of Dimensions

Theory of Dimensioning

  • An object may be considered to be made up of a number of geometrical shapes such as prism, cylinder, pyramid, cone, sphere, etc. It then becomes very simple to dimension these geometric forms in a manner that will show their individual sizes and location to each other. Thus, the following two types of dimensions are commonly used in engineering drawing:

1. Size Dimensions.

2. Location Dimensions.

System of Placing Dimensions

  • Aligned System: In this system, all dimensions are so placed that they may be read from the bottom or the right hand edges of the drawing sheet. Here all the dimensions are placed normal and above the dimensions lines (Latest Method).
  • Unidirectional System: In this system, all dimensions are so placed that they may be read from bottom edge of the drawing sheet. Note, there is no restriction on the controlling the direction of the dimension lines.