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LOGO UNITEN Dr. HABEEB HATTAB HABEEB Office: BN-Block, Level-3, Room-088 Email: [email protected] Ext. No.: 7292 University TENAGA Nasional Lecturer: Dr. HABEEB ALANI LOGO UNITEN University TENAGA National College Of Engineering Mechanical Department Academic Year – 2008-2009 Lecture Note University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN CAM University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering Design University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering Design Engineering design is the partial realization of designers concept. Today's a designer usually cannot directly transform a concept into a physical product. Instead, the designer conveys his idea to others through an alternative medium, such as an engineering drawing, and then the manufacturing engineer or machinist produces the design ( Fig. 2.1 ). University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Development of designer idea Operation plan 1. 2. 3. 4. 5. Idea 1 Engineering Design 2 Sawing Turning Milling Grinding Inspection Production Design Manufacture 3 4 ( Fig. 2.1 ) Evolution of product University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued Prior to the industrial revolution, if any one needed to use/ farmer tool for example, normally he will go to the blacksmith to fabricate this tool by using conventional methods. (why) because most tools were simple and did not require significant accuracy. Sometime blacksmith he don’t understand clearly, then the farmer will use the workshop wall as drawing paper to explain the real idea. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued Conventional Plough University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued Nowadays product requirements and designs became more complex, (Fig.2.2) University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued (Fig. 2.2) University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued A picture became necessary to relate the information to others. Multiview drawings have long been adopted by engineers as the standard tool to represent a design. With such drawings, design information can be passed from the designer to others who are well trained in reading the design drawing. The designer should be build very good background to provide the engineers and technicians clear designs and completed. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued University TEAGA Nasional (Fig. 2.3) Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued - To present the engineering drawing there are several methods: 1 Drafting on paper with pen or pencil. Manual drafting is tedious. 2 Computer Aided Drafting CAD/ can improve drafting efficiency University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Engineering design: Continued Design is stored in a computer and retrieved 1 when needed 2 Built-in symbols, templates and tools 3 Drafting is done in 2D & 3D included all Engineering specifications CAD Benefits 4 University TENAGA Nasional Media display is available ( Screen, printer, plotter, LCD) Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Design Drafting Engineering drawing is an abstract universal language used to represent a designers idea to others. It is the most accepted media of communication in all phases of industrial and engineering work. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Design Drafting Today pictorial drawings are still employed to supplement other design representations. The basic engineering drawing that uses orthographic projection provides a complete and unambiguous representation of a part or product . Fig. 2.4 illustrates the difference between perspective and orthographic projections. The perspective projection drawing in the figure uses two-point perspective. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Design Drafting Perspective and orthographic Projections Perspective Projection University TENAGA Nasional (Fig. 2.4) Orthographic Projection Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Design Drafting Most engineering drawings use isometric projection Fig. 2.5 . Isometric projection uses orthographic projection to each projection plane. The projection planes are oriented in such away that each of axes 120˚ apart. The reduction in length on each axes is the same. University TEAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Design Drafting (Fig. 2.5) University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Multiview drawing In modern manufacturing industry, several types of drawings are acceptable. The standard Example: American standard (ANSI Y14), or ISO standard (128, 129, 3098 etc,)) is still the multiview drawing Fig. 2.6 . University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Multiview drawing University TENAGA Nasional (Fig. 2.6) Lecturer: Dr. HABEEB ALANI Related Documents LOGO UNITEN A multiview drawing usually contain two or three views…. (Front view, Top view, Side view) Multiview Drawing Front view University TENAGA Nasional Top view Side view Lecturer: Dr. HABEEB ALANI Related Documents University TENAGA Nasional UNITEN LOGO UNITEN Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN US & CANADA, the third-angle projection is the system used. Fig. 2.7, In the figure the four quadrant of the Z-Y plane is called: I angle II angle III angle IV angle University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN For the third-angle projection, always place the object in the 3rd quadrant and project the object in the three planes . Done by projection the object onto: Frontal Horizontal Profile …. planes University TENAGA Nasional (Fig. 2.7) Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN The projection on the frontal X-Y plane is fixed, and the image is called the front view. The horizontal X-Y plane is rotated 90° clockwise on the X-axis, the result is a top view of the object. The profile Y-Z plane is rotated 90° clockwise about the Y-axis, to obtain a righthand side view. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Partial View When a symmetrical object is drafted / Two views are sufficient to present it. (Hence the third view is typically omitted) Fig. 2.9 . -Two View Drawing of a Cap (Fig. 2.9) University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Partial View A partial view can be used to substitute for one of the two views Fig. 2.10 Sectional and auxiliary views are also commonly used to present part detail. Sectional views, like that depicted Fig. 2.10 , are extremely useful in displaying the detailed design of a complicated internal configuration. University TENAGA Nasional (Fig. 2.10) Lecturer: Dr. HABEEB ALANI Partial View Computer Aided Manufacturing LOGO UNITEN When a major surface is inclined to all three projection planes, a translation of the picture is seen, a circle becomes an ellipse. In that case, an auxiliary plane that is parallel to the major surface, like that in Fig. 2.11 , can be used to display an undistorted view. (Fig. 2.11) University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Dimensioning and Tolerancing A drawing is expected to convey a complete description of every detail of a part. o Dimensions convey the required size. o Tolerances convey the required precision. Dimensioning basic rules of American national Standards Institute (ANSI) as following: o Show enough dimensions. o State each dimension clearly. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Dimensioning and Tolerancing Cont……. o Show the dimensions between points, lines, or surfaces. o Select and arrange dimensions to avoid accumulations of tolerances. o Show each dimension only ones. o Specify the dimensions, In order to provide materials, parts, gauges etc… marks and labels. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Dimensioning and Tolerancing Cont……. Drawing information very important for who will use or read the drawing which affect to choice of the following: • Processes. • Fixtures. • Machine required. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Dimensioning and Tolerancing Cont……. Computer Aided Manufacturing LOGO UNITEN - Dimensioning of circle use either dia. added to the end of the dimension value or the symbol ø added in front of the dimension value. For the specification of a radius an (R) is added in front of the dimension value. : Example --- University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Dimensioning Computer Aided Manufacturing LOGO UNITEN Main features of basic dimension: o Two extension lines. o Dimension line. Dimension line o Dimension value. Dimension value University TENAGA Nasional Extension lines Lecturer: Dr. HABEEB ALANI Dimensioning Computer Aided Manufacturing LOGO UNITEN Basic rules of dimensioning: • Dimensions should be unambiguous and clearly. • Dimensions should be complete, with none missing. • There should be no redundancy; each dimension should be shown only once. Example --- University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Dimension elements…. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Dimensions are used to show an object’s: 1. Overall: Width Depth Height 2. University TENAGA Nasional The actual size of features (rounds, fillets, holes, arcs, etc.) Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing 3. LOGO UNITEN And where features are located such as centers, angles, etc. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Dimensions should be stacked in a “broken chain” format. “Breaking the Chain” refers to leaving out one dimension as shown above so that manufacturing tolerances are maintained. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN -As a general rule…Stay off the object as much as possible. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN -Extension lines can be shared and even broken to clarify crowded dimensions. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN -Some features are dimensioned from their center lines. -The center line may also be used as an extension line. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN - Leader with dimension for one hole used to show all cylinders (holes). - The leader should always be placed to penetrate the center of all round features. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN Features such as counterbores, countersinks and spot faces are all dimensioned using a leader. Note: Each of these features has a special dimensioning symbol that can be used to show: a. Diameter b. Shape c. Depth University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN - Arcs are always dimensioned as a radius. Full circles are dimensioned showing their diameter value. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN - When dimensioning a part, always start with the inner-most dimensions and work to the outermost values. Remember: Dimensions are used to show both the size and location of features. University TENAGA Nasional Lecturer: Dr. HABEEB ALANI Computer Aided Manufacturing LOGO UNITEN - Always dimension features clear. - Drawing lines clear Remember…. NEVER, NEVER, NEVER dimension to hidden lines! University TENAGA Nasional Lecturer: Dr. HABEEB ALANI LOGO UNITEN University TENAGA Nasional Lecturer: Dr. HABEEB ALANI