Chapter 2: Dimensioning Basic Topics Advanced Topics Exercises

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1 Chapter 2: Dimensioning Basic Topics Advanced Topics Exercises

2 Dimensioning: Basic Topics Summary 2-1) Detailed Drawings 2-2) Learning to Dimension 2-3) Dimension Appearance and Techniques. 2-4) Dimensioning and Locating Simple Features. 2-6) Dimension Choice.

3 Dimensioning: Advanced Topics 2-5) Dimensioning and Locating Advanced Features.

4 Dimensioning: Exercises Exercise 2-1: Dimension type Exercise 2-2: Spacing and readability 1 Exercise 2-3: Spacing and readability 2 Exercise 2-4: Duplicate dimensions Exercise 2-5: Dimension placement Exercise 2-6: Circular and rectangular views Exercise 2-7: Dimensioning and locating features Exercise 2-8: Advanced features Exercise 2-9: Dimension accuracy Exercise 2-10: Round off

5 Dimensioning: Exercises Exercise 2-11: Dimension choice Exercise 2-12: Dimensioning 1 Exercise 2-13: Dimensioning 2 Exercise 2-14: Dimensioning 3 Exercise 2-15: Dimensioning 4

6 Dimensioning Summary

7 Dimensioning Summary What will we learn in Chapter 2? How to dimension an orthographic projection using proper dimensioning techniques. Key points Dimensions affect how a part is manufactured.

8 Dimensioning 2-1) Detailed Drawings

9 Detailed Drawings Orthographic Projection: A shape description of an object (front, top, right side views). Detailed Drawing: An orthographic projection, complete with all the dimensions and specifications needed to manufacture the object.

10 Detailed Drawing Example

11 Detailed Drawings Can we dimension an object using the dimensions that we used to draw the object? No These are not necessarily the same dimensions required to manufacture it. We need to follow accepted standards. (ASME Y )

12 Dimensioning 2-2) Learning To Dimension

13 Learning to Dimension What is our goal when dimensioning a part? Basically, dimensions should be given in a clear and concise manner and should include everything needed to produce and inspect the part exactly as intended by the designer.

14 Learning to Dimension Proper dimensioning techniques require the knowledge of the following three areas. Dimension Appearance/Technique Dimensioning and Locating Features Dimension Choice

15 Learning to Dimension 1. Dimension Appearance/Technique: Dimensions use special lines, arrows, symbols and text. a) The lines used in dimensioning. b) Types of dimensions. c) Dimension symbols. d) Dimension spacing and readability. e) Dimension placement.

16 Learning to Dimension 2. Dimensioning and Locating Features: Different types of features require unique methods of dimensioning.

17 Learning to Dimension 3. Dimension Choice: Your choice of dimensions will directly influence the method used to manufacture the part. a) Units and decimal places. b) Locating feature using datums. c) Dimension accuracy and error build up.

18 Dimensioning 2-3) Dimension Appearance and Techniques

19 Lines used in Dimensioning Dimensioning requires the use of Dimension lines Extension lines Leader lines All three line types are drawn thin so that they will not be confused with visible lines.

20 Dimension Line Dimension line: A line terminated by arrowheads, which indicates the direction and extent of a dimension.

21 Extension Line Extension line: An extension line is a thin solid line that extends from a point on the drawing to which the dimension refers. Long extension lines should be avoided.

22 Leader Line Leader Line: A straight inclined thin solid line that is usually terminated by an arrowhead.

23 Leader Line Leaders may be terminated: with an arrow, if it ends on the outline of an object.

24 Leader Line Leaders may be terminated: with a dot if it ends within the outline of an object.

25 Leader Line Leaders may be terminated: without an arrowhead or dot, if it ends within the outline of an object.

26 Leader Line Avoid! Crossing leaders. Long leaders. Leaders that are parallel to adjacent dimension, extension or section lines. Small angles between the leader and the terminating surface.

27 Arrowheads Arrowheads are drawn between the extension lines if possible. If space is limited, they may be drawn on the outside.

28 Types of Dimensions Dimensions are given in the form of linear distances, angles, and notes. Linear distances: They are usually arranged horizontally or vertically, but may also be aligned with a particular feature of the part.

29 Types of Dimensions Dimensions are given in the form of linear distances, angles, and notes. Angles: Used to give the angle between two surfaces or features of a part.

30 Types of Dimensions Dimensions are given in the form of linear distances, angles, and notes. Notes: Used to dimension diameters, radii, chamfers, threads, and other features that can not be dimensioned by the other two methods.

31 Exercise 2-1 Dimension types

32 Exercise 2-1 Count the different types of dimensions. How many linear horizontal dimensions are there? 5

33 Exercise 2-1 Count the different types of dimensions. How many linear vertical dimensions are there? 3

34 Exercise 2-1 Count the different types of dimensions. How many angular dimensions are there? 1

35 Exercise 2-1 Count the different types of dimensions. How many leader line notes are there? 1

36 Lettering Lettering should be legible, easy to read, and uniform throughout the drawing. Upper case letters should be used for all lettering unless a lower case is required. The minimum lettering height is 0.12 in (3 mm).

37 Dimensioning Symbols Dimensioning symbols replace text. The goal of using dimensioning symbols is to eliminate the need for language translation. Why is it important to use symbols. How many products are designed in the United States? How many products are manufactured or assembled in the United States?

38 Dimensioning Symbols Term Symbol Diameter n Spherical diameter Sn Radius R Spherical radius SR Reference dimension (8) Counterbore / Spotface v Countersink w Number of times or places 4X

39 Dimensioning Symbols Term Symbol Depth / Deep x Dimension not to scale 10 Square (Shape) o Arc length Conical Taper Slope Symmetry 5 ) y z i

40 Spacing and Readability Dimensions should be easy to read, and minimize the possibility for conflicting interpretations.

41 Spacing and Readability a) The spacing between dimension lines should be uniform throughout the drawing. b) Do not dimension inside an object or have the dimension line touch the object unless clearness is gained.

42 Spacing and Readability c) Dimension text should be horizontal which means that it is read from the bottom of the drawing. d) Dimension text should not cross dimension, extension or visible lines.

43 Exercise 2-2 Spacing and Readability 1

44 Exercise 2-2 List the dimensioning mistakes and then dimension the object correctly.

45 What are the 6 dimensioning mistakes?

46 1) Spacing 2) Don t dim. inside the object. 3 & 4) Text 5) No Gap 6) Missing dim. (n of hole)

47 Correctly Dimensioned

48 Spacing and Readability e) Dimension lines should not cross extension lines or other dimension lines. Extension lines can cross other extension lines or visible lines. f) Extension lines and centerlines should not connect between views.

49 Spacing and Readability g) Leader lines should be straight, not curved, and point to the center of the arc or circle at an angle between 30 o 60 o.

50 Exercise 2-3 Spacing and Readability 2

51 Exercise 2-3 List the dimensioning mistakes and then dimension the object correctly.

52 What are the 4 dimensioning mistakes?

53 1) Leader line 3) Text 2) Center line 4) Crossing dim. and ext. line

54 Correctly Dimensioned

55 Spacing and Readability h) Dimensions should not be duplicated or the same information given in two different ways. If a reference dimension is used, the size value is placed within parentheses (e.g. (10) ).

56 Exercise 2-4 Duplicate dimensions

57 Exercise 2-4 Find the duplicate dimensions and cross out the ones that you feel should be omitted.

58 Are there any duplicates Which in this one group? should be omitted?

59 Which ones Are there any duplicates should in this group? be omitted?

60 Are there any duplicates Which one in this group? should be omitted?

61 Dimension Placement Dimensions should be placed in such a way as to enhance the communication of your design.

62 Dimension Placement a) Dimensions should be grouped whenever possible. b) Dimensions should be placed between views, unless clearness is promoted by placing some outside.

63 Dimension Placement c) Dimensions should be attached to the view where the shape is shown best. d) Do not dimension hidden lines.

64 Exercise 2-5 Dimension placement

65 Exercise 2-5 List the dimensioning mistakes and then dimension the object correctly.

66 What are the 6 dimensioning mistakes?

67 1) Between views 3) Don t dim. Hidden lines 2) Leaders angle up 4) Dim where feature shown best 5) Group 6) Long ext. line

68 Correctly Dimensioned

69 Dimensioning 2-4) Dimensioning and Locating Simple Features

70 Dimensioning Features a) A circle is dimensioned by its diameter and an arc by its radius using a leader line and a note.

71 Exercise 2-6 Circular and rectangular views

72 Exercise 2-6 Answer questions about the cylindrical and hole features of the part shown.

73 Find the hole and cylinder. Circular view Which view is considered the circular view and which is considered the rectangular view? Rectangular view

74 Looking at just the top view, can you tell the difference between the hole and the cylinder? No

75 Why is the diameter of the hole given in the circular view and diameter of the cylinder given in the rectangular view? So that the cylinder is not confused with a hole.

76 Dimensioning Features b) Holes are dimensioned by giving their diameter and location in the circular view.

77 Dimensioning Features c) A cylinder is dimensioned by giving its diameter and length in the rectangular view, and is located in the circular view.

78 Dimensioning Features d) Repetitive features or dimensions may be specified by using the symbol X along with the number of times the feature is repeated. There is no space between the number of times the feature is repeated and the X symbol, however, there is a space between the symbol X and the dimension.

79 Exercise 2-7 Dimensioning and locating features

80 Exercise 2-7 Dimension the object shown.

81 How do we dimension the hole diameters?

82 How do we locate the holes?

83 How do we dimension the cylinder diameters?

84 How do we dimension the cylinder heights?

85 Completely dimensioned.

86 Skip advanced topic Dimensioning 2-5) Dimensioning and Locating Advanced Features

87 Dimensioning Features a) If a dimension is given to the center of a radius, a small cross is drawn at the center.

88 Dimensioning Features a) Where the center location of the radius is unimportant, the drawing must clearly show that the arc location is controlled by other dimensioned features such as tangent surfaces.

89 Dimensioning Features b) A complete sphere is dimensioned by its diameter and an incomplete sphere by its radius.

90 Dimensioning Features c) The depth of a blind hole may be specified in a note and is the depth of the full diameter from the surface of the object.

91 Dimensioning Features d) If a hole goes completely through the feature and it is not clearly shown on the drawing, the abbreviation THRU follows the dimension.

92 Dimensioning Features e) If a part is symmetric, it is only necessary to dimension to one side of the center line of symmetry. Symmetry symbol

93 Dimensioning Features f) Counterbored holes Drill DIA C Bore DIA C Bore depth

94 Dimensioning Features f) If the thickness of the material below the counterbore is significant, this thickness rather than the counterbore depth is given.

95 Application Question 2-1 What do you think a counterbored hole is used for?

96 Dimensioning Features g) Spotfaced Holes: The difference between a C BORE and a Spotface is that the machining operation occurs on a curved surface. Notice that the depth can not be specified in the note.

97 Dimensioning Features h) Countersunk Holes Drill Depth Drill DIA Space C Sink DIA C Sink angle

98 Application Question 2-2 What do you think a countersunk hole is used for?

99 Dimensioning Features i) Chamfers: Dimensioned by a linear dimension and an angle, or by two linear dimensions.

100 Dimensioning Features i) Chamfers: Dimensioned by a linear dimension and an angle, or by two linear dimensions. Space

101 Application Question 2-3 What do you think a chamfer is used for? Safety. Improve engagement of mating parts.

102 Drawing Notes Drawing notes give additional information that is used to complement conventional dimension. manufacturing requirements treatments and finishes blanket dimensions (e.g. size of all rounds and fillets on a casting or a blanket tolerance). The note area is identified with the heading NOTE:.

103 Exercise 2-8 Advanced features

104 Exercise 2-8 List the dimensioning mistakes and then dimension the object correctly.

105 What are the 7 dimensioning mistakes?

106 1 & 2) Use symbols 4) Dim. where features is shown best 5) Radius 3) Spaces / Angle up 7) Locate radius center 6) Don t dim. hidden features

107 Correctly Dimensioned

108 Dimensioning 2-6) Dimension Choice

109 Dimension Choice Dimension placement and dimension text influences the manufacturing process used to make the part. Manufacturing process should not be specifically stated on the drawing. Choose dimensions based on function first then manufacturing.

110 Units and Decimal Places a) Decimal dimensions should be used for all machining dimensions. You may encounter a drawing that specifies standard drills, broaches, and the like by size. For drill sizes that are given by number or letter, a decimal size should also be given.

111 Units and Decimal Places b) Metric dimensions are given in mm and to 0 or 1 decimal place (e.g. 10, 10.2). When the dimension is less than a millimeter, a zero should proceed the decimal point (e.g. 0.5).

112 Units and Decimal Places c) English dimensions are given in inches and to 2 decimal places (e.g. 1.25). A zero is not shown before the decimal point for values less than one inch (e.g..75).

113 Units and Decimal Places d) Metric 3rd angle drawings are designated by the SI symbol.

114 Locating Features Using Datums Consider three mutually perpendicular datum planes. These planes are imaginary and theoretically exact.

115 Locating Features Using Datums Now, consider a part that touches all three datum planes. The surfaces of the part that touch the datum planes are called datum features.

116 Locating Features Using Datums Most of the time, features on a part are located with respect to a datum feature.

117 Locating Features Using Datums

118 Locating Features Using Datums How do we choose which surface will be a datum feature? Good datum features are: functionally important surfaces mating surfaces big enough to permit its use in manufacturing the part

119 Locating Features Using Datums In a class setting, do we always know the function of the part? We need to make an educated guess as to the function of the part.

120 Locating Features Using Datums a) Datum dimensioning is preferred over continuous dimensioning.

121 Locating Features Using Datums b) Dimensions should be given between points or surfaces that have a functional relation to each other Slots, mating hole patterns, etc...

122 Application Question 2-4 Why is the distance between the two holes functionally important? If the hole pattern mates with 2 pins or bolts, the distance between the holes is more important than the distance from the edge to the second hole.

123 Dimension Accuracy There is no such thing as an "exact" measurement. Every dimension has an implied or stated tolerance associated with it. A tolerance is the amount a dimension is allowed to vary.

124 Exercise 2-9 Dimension Accuracy

125 Exercise 2-9 Which dimensions have implied tolerances and which have stated tolerances? Implied Implied Stated

126 Exercise 2-9 Does the arrow indicate an increasing or decreasing accuracy? Increasing

127 Exercise 2-9 Write down the range in which the dimension values are allowed to vary. > 0.5 < 1.5 > 0.95 <

128 Rounding Off The more accurate the dimension the more expensive it is to manufacture. To cut costs it is necessary to round off fractional dimensions.

129 Rounding Off How do we round off? Let s round off to the second decimal place nd decimal place 3 rd decimal place

130 Rounding Off If the third decimal place number is: less than 5, we truncate after the second decimal place

131 Rounding Off If the third decimal place number is: greater than 5, we round up and increase the second decimal place number by

132 Rounding Off If the third decimal place number is: exactly 5, whether or not we round up depends on if the second decimal place number is odd or even. If it is odd, we round up and if it is even, it is kept the same

133 Exercise 2-10 Rounding Off

134 Exercise 2-10 Round off the following fractions to two decimal places according to the rules stated above. (5/16).3125 (5/32) (1/8).125 (3/8)

135 Cumulative Tolerances Continuous dimensioning has the disadvantage of accumulating error. It is preferable to use datum dimensioning to reduce error buildup.

136 Cumulative Tolerances What is error build up? e = individual dimension error x.e 3x.e x.e + x.e + x.e = 3x.3e

137 Exercise 2-11 Dimension Choice

138 Exercise 2-11 List the dimensioning mistakes and then dimension the object correctly.

139 What are the 5 dimensioning mistakes?

140 1 & 2) 2 decimal places / No leading zero 3) Use datum dimensioning 4) Symbol / Decimal 5) Don t dim. hidden features

141 Correctly Dimensioned

142 Exercise 2-12 Dimensioning 1

143 Exercise 2-12 Dimension the following object using proper dimensioning techniques.

144 Notice the datum features that were used. Did we need the right side view?

145 Exercise 2-13 Dimensioning 2

146 Exercise 2-13 Dimension the following object using proper dimensioning techniques.

147

148 Exercise 2-14 Dimensioning 3

149 Exercise 2-14 Dimension the following object using proper dimensioning techniques.

150

151 Exercise 2-15 Dimensioning 4

152 Exercise 2-15 Dimension the following object using proper dimensioning techniques.

153

154 Dimensioning The End

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