Surface Developments. Sacramento City College Engineering Design Technology. Surface Developments 1
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1 Surface Developments Sacramento City College Engineering Design Technology Surface Developments 1
2 Surface Developments A surface development is a full-size layout of an object made on a single flat plane. Refer to Figure Example: bookcover 2
3 3
4 Surface Developments Surface developments are also called: Stretchouts Developments Surface developments are an important part of industrial drafting. 4
5 Surface Developments Many different industries use surface developments. 5
6 Surface Developments These items are made using developments. Pipes. Air conditioning ducts. Aircraft. Automobiles. Storage tanks. Cabinets. Boxes and cartons. Frozen food packages. Many other items. 6
7 Surface Developments A surface development is first drawn as a pattern. The pattern is then cut from flat sheets of material, that can be folded, rolled or otherwise formed into the required shape. 7
8 Surface Developments Pattern materials include: Paper. Cardboard. Plastics and films. Metals. Wood. Fiberboard. 8
9 Surface Developments The packaging industry uses surface developments extensively. Creating packaging requires engineering and artistic skills. Each package must meet many requirements. The package must protect the contents. It must look attractive for sales appeal. 9
10 Surface Developments Packaging must also protect the contents during shipping. Packaging must also be durable. One use package. Multiple use package. 10
11 Surface Developments Designers use many different materials in various thicknesses. Thin paper stock. Medium thickness paper stock. Material can be folded easily into the desired shape. Tabs. Glueless tabs. 11
12 Surface Developments Packages require allowances for the material thickness. Bend marks are shown with a circle on the fold line. Refer to Figure
13 13 Figure 18.4
14 Sheet Metal Pattern Drafting Surface Developments 14
15 Sheet Metal Pattern Drafting Many different metal objects are made from sheets of metal that are laid out, cut and formed into the required shape and then fastened together. Computer cases Automobiles Air conditioning ductwork Toys File cabinets Etc. 15
16 Sheet Metal Pattern Drafting For each sheet-metal object to be produced, two drawings are usually made. Pictorial drawing. Shows the product as a picture. Development or pattern. Used to actually cut out the sheet metal which is then bent and assembled into the final shape 16
17 Sheet Metal Pattern Drafting Pictorial drawing Shows the appearance of the final product. Development or pattern Shows the shape of the object as a flat sheet, that after rolling, folding and fastening, will form the finished object. 17
18 Figure 18-6 Pictorial Drawing Pattern 18
19 Sheet Metal Pattern Drafting Many thin metal objects are formed by die stamping. Die Stamping Is pressing a flat sheet into the desired shape under great pressure. The flat stock is inserted into a die, which is a mirror image of the final product. Many thin metal objects are die stamped. 19
20 Sheet Metal Pattern Drafting Die Stamping examples Brass cartridge cases. Household utensils. Wheelbarrows. Automobile fenders, hoods, doors. Aircraft parts. 20
21 Sheet Metal Pattern Drafting Making sheet-metal objects can involve many operations. All are done with machines. Refer to Figure Most industrial plants now use mass production with highly complex automatic machines. 21
22 Sheet Metal Pattern Drafting Sheet Metal Operations Squaring. Folding. Wiring. Box and Pan Brake. Burring. Forming. Setting-down machine. Turning machine. Doubling-seaming machine. Beading machine. 22
23 Shaping Shaping: Shearing Cutting 23
24 Shaping Shaping: Bending 24
25 25
26 26
27 27
28 Shaping Shaping: Folding 28
29 29
30 30
31 31
32 Sheet Metal Pattern Drafting Fastening: Riveting Seaming Soldering Welding 32
33 Seams and Laps Surface Developments 33
34 Seams and Laps Knowledge of Wiring. Hemming. Seaming. is also required. 34
35 Sheet Metal Pattern Drafting Wiring involves reinforcing open ends of articles by enclosing a wire in the edge. See Figure 18-11A. The drafter must add a band of material equal to 2.5 times the wire diameter. Hemming Method of stiffening edges Refer to Figure 18-11B and C. 35
36 36 Wiring
37 37 Seaming
38 38 Seaming
39 Pattern Development Surface Developments 39
40 Sheet Metal Pattern Drafting Sheet Metal patterns are developed using surface geometry. There are two classes of patterns: Plane. Flat, rectangular, non-spherical objects Curved. Spherical objects. 40
41 Sheet Metal Pattern Drafting Plane surfaces: Sides of a cube. Top and bottom of a cylinder. 41
42 Sheet Metal Pattern Drafting Curved surfaces: Surfaces that can be rolled in contact with a plane surface. Side of a cylinder. Side of a cone. 42
43 Sheet Metal Pattern Drafting Double curved surfaces: Spheres. Spheroids. Exact surface developments cannot be made for objects with double-curved surfaces. Drafters can make approximations. 43
44 44 Double-Curved Approximations
45 45 Pattern for a Cube
46 46 Pattern for a Cube
47 Making Paper Patterns Patterns can be laid out on stiff drawing paper. Cut out pattern and fold to make a solid. Secure the joints with tape. 47
48 Pattern Line Development Surface Developments 48
49 Parallel Line Development Parallel-Line Development is a simple way of making a pattern by drawing the edges of an object as parallel lines. Refer to Figure 18-9 and
50 50 Parallel Line Development
51 51 Parallel Line Development
52 52 Parallel Line Development
53 Prisms Patterns for prisms are made by parallel-line development. Refer to Figure
54 Parallel Line Development Procedure 1. Draw the front and top views full-size. Label the points. Refer to Figure 18-14A. 54
55 Parallel Line Development Procedure 2. Draw the stretchout line (SL). The stretchout line shows the full length of the pattern. Find the lengths of sides 1-2, 2-3, 3-4, 4-1. Measure these lengths off on SL. Refer to Figure 18-14B. 55
56 56
57 Parallel Line Development Procedure 3. At points 1, 2, 3, 4 and 1 on the stretchout line, draw vertical crease lines. Make them equal in length to the height of the prism Refer to Figure 18-14C. 57
58 Figure 18.14C Vertical lines = prism height 58
59 Parallel Line Development Procedure 4. Project the top line of the pattern from the top of the front view. Make it parallel to SL. Darken all outlines until thick and black. Refer to Figure 18-14D. 59
60 60 Figure 18.14D
61 Parallel Line Development Procedure 5. Add the top and bottom to the pattern by transferring distances 1-4 and 2-3 from the top view. Refer to Figure 18-14E. Add laps or tabs as necessary for assembly of the prism. 61
62 62 Figure 18.14D
63 63 Figure 18.15
64 Cylinder Patterns Surface Developments 64
65 Cylinder Patterns In the pattern for cylinders, The stretchout line is straight. The stretchout line is equal in length to the circumference of the cylinder. 65
66 Cylinder Patterns If the base of the cylinder is perpendicular to the axis, its rim will roll out to form the straight line. If the base is not perpendicular to the axis, You will have to make a right section to get the stretchout line. 66
67 67 Figure 18.16
68 68 Truncated Cylinder
69 Truncated Cylinder Patterns To develop a truncated cylinder, imagine that the cylinder is a many-sided prism. Each side forms an edge called an element. Because there are so many elements, they seem to form a smooth curve on the surface of the cylinder. 69
70 Cylinder Patterns Refer to Figure Mark off elements at convenient equal spaces around the circumference of the cylinder. Then, add up these spaces to make the stretchout line. 70
71 71 Figure 18.17
72 Cylinder Patterns Refer to Figure This figure is a pictorial view of a truncated right cylinder Notice the imaginary elements. 72
73 73 Figure 18.18
74 Cylinder Patterns Figure shows the steps to draw the pattern. 74
75 75 Figure 18.19
76 Drawing Truncated Cylindrical Patterns Surface Developments 76
77 Truncated Cylinder Patterns 1. Draw the front and top views full size. Divide the top view into a convenient number of equal parts. 77
78 Truncated Cylinder Patterns 2. Begin the stretchout line. You will determine its actual length later. 78
79 Truncated Cylinder Patterns 3. Using dividers, find the distance between any two consecutive elements. Mark off this distance along SL. Repeat for each elements in the top view, along the SL. Label each point. From each point, draw a vertical construction line upward. 79
80 80
81 Truncated Cylinder Patterns 4. Project other lines downward from the elements on the top view to the front view. Label the points where they intersect the front view. 81
82 Truncated Cylinder Patterns 5. From the intersection points, project horizontal construction lines toward the development. 82
83 Truncated Cylinder Patterns 6. Locate the points where the horizontal construction lines intersect the vertical lines from the SL. Connect these points in a smooth curve. 83
84 Truncated Cylinder Patterns 7. Darken outlines and add laps as necessary. 84
85 Truncated Cylinder Patterns Since the surface of a cylinder is a smooth curve, the pattern will not be completely accurate. The pattern was made by measuring distances on a straight line rather than on a curve. 85
86 Right Rectangular Pyramids Surface Developments 86
87 87 Figure 18-29
88 88 Figure 18-29
89 89 Figure 18-30
90 Triangulation Surface Developments 90
91 Triangulation Triangulation is a method used for making approximate developments of surfaces that cannot be developed exactly. Maps Approximations of spherical surfaces 91
92 Triangulation In Triangulation the surface is divided into triangles, by finding the true length of the sides. The triangles are connected to form the object. The triangles approximate the shape of the object. 92
93 Triangulation Maps of the Earth are often represented using triangulation. 93
94 Transition Pieces Surface Developments 94
95 Transition Pieces Transition pieces are used to connect pipes of different shapes to pipes of other shapes. 95
96 Transition Pieces Transition pieces have a surface that is a combination of different forms. Planes Curves Refer to Figure
97 Transition Pieces Figure shows the making of a transition piece. 97
98 Transition Pieces Figure shows a transition piece to connect a round pipe with a rectangular pipe. 98
99 Drawing a Transition Piece Surface Developments 99
100 Transition Pieces Also known as a square to round, this transition piece is a duct component that provides a change in shape from square or rectangular to round. Transition pieces may be designed to fit any given situation, but the pattern development technique is always as follows. 100
101 Transition Pieces Accuracy and the use of a number system is very important. Do all lay-out work using construction lines FIRST, then darken in object lines when you know your figure is correct. 101
102 Figure Page 18-55A Assignment 102
103 103 Pattern Development
104 104
105 Transition Piece - Step 1 Step 1 Draw the top and front views. Divide the circle in the top view into twelve equal parts. Connect the points in each quarter of the circle to the adjacent corner of the square. 105
106 106
107 Transition Piece - Step 1 Project the same corresponding system to the front view. Number and letter each point in each view as shown in Figure
108 108 Transition Piece - Step 1
109 109 Transition Piece - Step 1
110 Transition Piece - Step 1 The transition piece shown in Figure is made up of a series of triangles 1,A,D. 1,2,A. 2,3,A. 110
111 Transition Piece - Step 1 The development progresses by attaching the true size and shape of each triangle together in order. 111
112 Transition Piece - Step 1 This technique is known as triangulation. There is no stretch-out line. 112
113 Transition Piece - Step 2 Each element of the development must be in true length. Establish the true-length diagram using revolution as shown in Figure Only one set of true-length elements is required because the given problem is a right transition piece (symmetrical about both axes). 113
114 Establishing True Length Figure
115 115 Establishing True Length
116 Transition Piece - Step 3 Begin the pattern development on a sheet in an area where there is a lot of space. Start with the true size and shape of triangle 1,A,D. The true lengths of 1-A and 1-D are the same and may be found in the truelength diagram. 116
117 Transition Piece - Step 3 The true length of A-D is in the top view (See Figure ) 117
118 Transition Piece - Step 3 Work both ways from triangle 1,A,D in Figure to develop the adjacent triangles. From points A and D draw arcs equal to A-2 and D-12, respectively. 118
119 Transition Piece - Step 4 Set a compass for the distance from 1-2. Keep this compass setting as it is used several times. With this setting, scribe two arcs from point 1 that intersect the previously drawn arcs. These intersections are points 2 and
120 Transition Piece - Step 4 Connect points 2-A and 12-D. Do not connect points 1,2 and 12 yet. (See Figure ) Do all work with construction lines until complete 120
121 Transition Piece - Step 5 Continue the same procedure, working both ways around the transition piece until the entire development is complete. Every triangle must be included 121
122 Transition Piece - Step 5 The pattern will end on both sides with the element 7-X, which is true length in the front view. The two final triangles are right triangles, because each is half of the full side that is an equilateral triangle. 122
123 Transition Piece - Step 5 Every line transferred from the views to the pattern must be true length. Use the numbering system be used to avoid errors. When all points have been established, the outline may be darkened. 123
124 Transition Piece - Step 5 When all points have been established, the outline may be darkened. A series of points form the inside curve. Connect these points with an irregular curve. 124
125 125 Transition Piece - Step 5
126 Transition Piece - Step 5 If any point is out of alignment with the others, you have made an error at this location. 126
127 127 Error at this point
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