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The book has been prepared for international use, and includes a comprehensive discussion of the fundamental differences between the ISO and ASME standards, as well as recent updates regarding legal components, such as copyright, patents, and other legal considerations. The text is applicable to CAD and manual drawing, and it covers the recent developments in 3D annotation and surface texture specifications. Its scope also covers the concepts of pictorial and orthographic projections, geometrical, dimensional and surface tolerancing, and the principle of duality. The text also presents numerous examples of hydraulic and electrical diagrams, applications, bearings, adhesives, and welding. The book can be considered an authoritative design reference for beginners and students in technical product specification courses, engineering, and product designing. Show more Manual of Engineering Drawing is a comprehensive guide for experts and novices for producing engineering drawings and annotated 3D models that meet the recent BSI and ISO standards of technical product documentation and specifications. This fourth edition of the text has been updated in line with recent standard revisions and amendments. The book has been prepared for international use, and includes a comprehensive discussion of the fundamental differences between the ISO and ASME standards, as well as recent updates regarding legal components, such as copyright, patents, and other legal considerations. The text is applicable to CAD and manual drawing, and it covers the recent developments in 3D annotation and surface texture specifications. Its scope also covers the concepts of pictorial and orthographic projections, geometrical, dimensional and surface tolerancing, and the principle of duality. The text also presents numerous examples of hydraulic and electrical diagrams, applications, bearings, adhesives, and welding.
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The book can be considered an authoritative design reference for beginners and students in technical product specification courses, engineering, and product designing. All rights reserved Imprint Butterworth-Heinemann No.Purchase the book Authors Colin H. Simmons International Engineering Standards Consultant, Member of BS and ISO Committees dealing with Technical Product specifications and Documentation Formerly Global Standards Engineer, Lucas CAV Neil Phelps Practising Mechanical Design Manager, Member of BSI and ISO Committees dealing with Technical Product Documentation specifications and Realization Chairman BSI Committee Covering Digital Product Specification The Late Dennis E. Maguire Design Consultant, Formerly Senior Lecturer, Mechanical and Production Engineering Department, Southall College of Technology City and Guilds International Chief Examiner in Engineering Drawing About ScienceDirect Remote access Shopping cart Advertise Contact and support Terms and conditions Privacy policy We use cookies to help provide and enhance our service and tailor content and ads. By continuing you agree to the use of cookies. Equally applicable to CAD and manual drawing it includes the latest development in 3D annotation and the specification of surface texture. The Duality Principle is introduced as this important concept is still very relevant in the new world of 3D Technical Product Specification. Written by members of BSI and ISO committees and a former college lecturer, the Manual of Engineering Drawing combines up to the minute technical information with clear, readable explanations and numerous diagrams and traditional geometrical construction techniques rarely taught in schools and colleges. This approach makes this manual an ideal companion for students studying vocational courses in Technical Product Specification, undergraduates studying engineering or product design and any budding engineer beginning a career in design.
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The comprehensive scope of this new edition encompasses topics such as orthographic and pictorial projections, dimensional, geometrical and surface tolerancing, 3D annotation and the duality principle, along with numerous examples of electrical and hydraulic diagrams with symbols and applications of cams, bearings, welding and adhesives. Show more The Manual of Engineering Drawing has long been the recognised as a guide for practicing and student engineers to producing engineering drawings and annotated 3D models that comply with the latest British and ISO Standards of Technical Product Specifications and Documentation. This new edition has been updated to include the requirements of BS8888 2008 and the relevant ISO Standards, and is ideal for International readership; it includes a guide to the fundamental differences between the ISO and ASME Standards relating to Technical Product Specification and Documentation. Equally applicable to CAD and manual drawing it includes the latest development in 3D annotation and the specification of surface texture. The Duality Principle is introduced as this important concept is still very relevant in the new world of 3D Technical Product Specification. Written by members of BSI and ISO committees and a former college lecturer, the Manual of Engineering Drawing combines up to the minute technical information with clear, readable explanations and numerous diagrams and traditional geometrical construction techniques rarely taught in schools and colleges. This approach makes this manual an ideal companion for students studying vocational courses in Technical Product Specification, undergraduates studying engineering or product design and any budding engineer beginning a career in design.
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The comprehensive scope of this new edition encompasses topics such as orthographic and pictorial projections, dimensional, geometrical and surface tolerancing, 3D annotation and the duality principle, along with numerous examples of electrical and hydraulic diagrams with symbols and applications of cams, bearings, welding and adhesives. All rights reserved Imprint Butterworth-Heinemann No.By continuing you agree to the use of cookies. However, due to transit disruptions in some geographies, deliveries may be delayed.There’s no activationEasily readThis fourth edition of the text has been updated in line with recent standard revisions and amendments. The book has been prepared for international use, and includes a comprehensive discussion of the fundamental differences between the ISO and ASME standards, as well as recent updates regarding legal components, such as copyright, patents, and other legal considerations. The text is applicable to CAD and manual drawing, and it covers the recent developments in 3D annotation and surface texture specifications. Its scope also covers the concepts of pictorial and orthographic projections, geometrical, dimensional and surface tolerancing, and the principle of duality. The text also presents numerous examples of hydraulic and electrical diagrams, applications, bearings, adhesives, and welding. The book can be considered an authoritative design reference for beginners and students in technical product specification courses, engineering, and product designing. He is a former practising mechanical design engineer and author of many publications on engineering drawing, product specification and standards. This fourth edition of the text has been updated in line with recent standard revisions and amendments.
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The book has been prepared for international use, and includes a comprehensive discussion of the fundamental differences between the ISO and ASME standards, as well as recent updates regarding legal components, such as copyright, patents, and other legal considerations. The text is applicable to CAD and manual drawing, and it covers the recent developments in 3D annotation and surface texture specifications. Its scope also covers the concepts of pictorial and orthographic projections, geometrical, dimensional and surface tolerancing, and the principle of duality. The text also presents numerous examples of hydraulic and electrical diagrams, applications, bearings, adhesives, and welding.We value your input. Share your review so everyone else can enjoy it too.Your review was sent successfully and is now waiting for our team to publish it. Reviews (2) write a review Sort: Select Newest Highest Rating Lowest Rating Most Votes Least Votes Updating Results I always carry this book and have it in my desk for technical manufacturing drawing instruction. Very in-depth and informative. I now have 5 spread across our design office and will be buying more in the near future.If you wish to place a tax exempt orderCookie Settings Thanks in advance for your time. The 13-digit and 10-digit formats both work. Please try again.Please try again.Please try again. This fourth edition of the text has been updated in line with recent standard revisions and amendments. The book has been prepared for international use, and includes a comprehensive discussion of the fundamental differences between the ISO and ASME standards, as well as recent updates regarding legal components, such as copyright, patents, and other legal considerations. The text is applicable to CAD and manual drawing, and it covers the recent developments in 3D annotation and surface texture specifications.
Its scope also covers the concepts of pictorial and orthographic projections, geometrical, dimensional and surface tolerancing, and the principle of duality. The text also presents numerous examples of hydraulic and electrical diagrams, applications, bearings, adhesives, and welding. The book can be considered an authoritative design reference for beginners and students in technical product specification courses, engineering, and product designing. Then you can start reading Kindle books on your smartphone, tablet, or computer - no Kindle device required. In order to navigate out of this carousel please use your heading shortcut key to navigate to the next or previous heading. In order to navigate out of this carousel please use your heading shortcut key to navigate to the next or previous heading. Register a free business account This new edition has been updated in line with recent standard revisions and amendments, including the requirements of BS8888 2011 and related ISO standards. Ideal for international use, it includes a guide to the fundamental differences between the relevant ISO and ASME standards, as well as new information on legal aspects such as patents and copyright, and end-of-life design considerations. Equally applicable to CAD and manual drawing, the book includes the latest developments in 3D annotation and the specification of surface texture. Its broad scope also encompasses topics such as orthographic and pictorial projections, dimensional, geometrical and surface tolerancing, and the duality principle, along with numerous examples of electrical and hydraulic diagrams with symbols and applications of cams, bearings, welding and adhesives. This new edition has been updated in line with recent standard revisions and amendments, including the requirements of BS8888 2011 and related ISO standards.
Ideal for international use, it includes a guide to the fundamental differences between the relevant ISO and ASME standards, as well as new information on legal aspects such as patents and copyright, and end-of-life design considerations. Equally applicable to CAD and manual drawing, the book includes the latest developments in 3D annotation and the specification of surface texture. Its broad scope also encompasses topics such as orthographic and pictorial projections, dimensional, geometrical and surface tolerancing, and the duality principle, along with numerous examples of electrical and hydraulic diagrams with symbols and applications of cams, bearings, welding and adhesives. Seen by many as an essential design reference, Manual of Engineering Drawing is an ideal companion for students studying vocational courses in technical product specification, undergraduates studying engineering or product design, and professional engineers beginning a career in design. He is a former practising mechanical design engineer and author of many publications on engineering drawing, product specification and standards. Dennis E. Maguire was a design engineer and senior lecturer at Southall College, UK.To calculate the overall star rating and percentage breakdown by star, we don’t use a simple average. Instead, our system considers things like how recent a review is and if the reviewer bought the item on Amazon. It also analyzes reviews to verify trustworthiness. Please try again later. David 5.0 out of 5 stars Best buy I did this semester.I produce mechanical drawings on a regular basis as a mechanical engineer and while both are good books I find this one more useful as a reference for those who already have a good understanding of drawing production, it has a higher page count and more detailed content and explanation on the subject matter.Useful and interesting.
A good focus on the drawing convention, interesting historical explanations of how and why things are 'the way they are' (welding standards, history of drawing standards etc). I can use this book as a reference to quickly and confidently generate standard templates in Solidworks, AutoCAD etc with the correct settings (as opposed to my workplace, which has a strange 'evolved' non-standard set up which varies from person-to-person!!!). Most details I 'knew anyway', but a surprising amount of 'bits and bobs' that I did not. It certainly filled a few knowledge gaps. Useful and interesting. Before buying, I read other reviews that were negative, pointing to some inaccuracies, but for my needs this book is great. I wasn't looking for an all-encompassing, full-depth encyclopaedia on the topic - I wanted a mid-depth agile reference which covers all the bases. Which I believe I found.This is an ideal book for me; I need to know what the various symbols mean, which way around things are pictured (it's not always obvious) and what different sorts of dot mean. For this it is great; an appendix showing all the different conventions would be nice, but it sits happily on my desk as a reference.Page 1 of 1 Start over Page 1 of 1 In order to navigate out of this carousel please use your heading shortcut key to navigate to the next or previous heading. For example, jaguar speed -carFor example, marathon OR race.More Dimensioning Where to Put Dimensions Introduction One of the best ways to communicate one's ideas is through some form of picture or drawing. This is especially true for the engineer. The purpose of this guide is to give you the basics of engineering sketching and drawing. This is just an introduction. Don't worry about understanding every detail right now - just get a general feel for the language of graphics. We hope you like the object in Figure 1, because you'll be seeing a lot of it.
Before we get started on any technical drawings, let's get a good look at this strange block from several angles. Figure 1 - A Machined Block. Isometric Drawing The representation of the object in figure 2 is called an isometric drawing. This is one of a family of three-dimensional views called pictorial drawings. In an isometric drawing, the object's vertical lines are drawn vertically, and the horizontal lines in the width and depth planes are shown at 30 degrees to the horizontal. When drawn under these guidelines, the lines parallel to these three axes are at their true (scale) lengths. Lines that are not parallel to these axes will not be of their true length. Figure 2 - An Isometric Drawing. Any engineering drawing should show everything: a complete understanding of the object should be possible from the drawing. If the isometric drawing can show all details and all dimensions on one drawing, it is ideal. One can pack a great deal of information into an isometric drawing. However, if the object in figure 2 had a hole on the back side, it would not be visible using a single isometric drawing. In order to get a more complete view of the object, an orthographic projection may be used. Orthographic or Multiview Drawing Imagine that you have an object suspended by transparent threads inside a glass box, as in figure 3. Figure 3 - The block suspended in a glass box. Then draw the object on each of three faces as seen from that direction. Unfold the box (figure 4) and you have the three views. Figure 4 - The creation of an orthographic multiview drawing. Figure 5 - A multiview drawing and its explanation. Which views should one choose for a multiview drawing. The views that reveal every detail about the object. Three views are not always necessary; we need only as many views as are required to describe the object fully. For example, some objects need only two views, while others need four. The circular object in figure 6 requires only two views.
Figure 6 - An object needing only two orthogonal views. Dimensioning Figure 7 - An isometric view with dimensions. Put in exactly as many dimensions as are necessary for the craftsperson to make it -no more, no less. Do not put in redundant dimensions. Repeatedly measuring from one point to another will lead to inaccuracies. It is often better to measure from one end to various points. This gives the dimensions a reference standard. It is helpful to choose the placement of the dimension in the order in which a machinist would create the part. This convention may take some experience. Sectioning There are many times when the interior details of an object cannot be seen from the outside (figure 8). Figure 8 - An isometric drawing that does not show all details. Figure 10 - Sectioning the object in figure 8. Take away the front half (figure 10) and what you have is a full section view (figure 11). Figure 11 - Sectioned isometric and orthogonal views. The cross-section looks like figure 11 when it is viewed from straight ahead. Drawing Tools To prepare a drawing, one can use manual drafting instruments (figure 12) or computer-aided drafting or design, or CAD. The basic drawing standards and conventions are the same regardless of what design tool you use to make the drawings. In learning drafting, we will approach it from the perspective of manual drafting. If the drawing is made without either instruments or CAD, it is called a freehand sketch. It corresponds closely to what you actually see when viewing the object from a particular angle. We cannot tell what the inside of the part looks like from this view. This allows you to see the inner components of the bearing system. Isometric drawings can show overall arrangement clearly, but not the details and the dimensions. Figure 13 - Pillow-block (Freehand sketch). Figure 14 - Disassembled Pillow-block.
Cross-Sectional Views A cross-sectional view portrays a cut-away portion of the object and is another way to show hidden components in a device. Imagine a plane that cuts vertically through the center of the pillow block as shown in figure 15. Then imagine removing the material from the front of this plane, as shown in figure 16. Figure 15 - Pillow Block. Figure 16 - Pillow Block. This is how the remaining rear section would look. Diagonal lines (cross-hatches) show regions where materials have been cut by the cutting plane. This cross-sectional view (section A-A, figure 17), one that is orthogonal to the viewing direction, shows the relationships of lengths and diameters better. These drawings are easier to make than isometric drawings. Seasoned engineers can interpret orthogonal drawings without needing an isometric drawing, but this takes a bit of practice. It is an orthogonal (perpendicular) projection. Half-Sections A half-section is a view of an object showing one-half of the view in section, as in figure 19 and 20. Figure 19 - Full and sectioned isometric views. Figure 20 - Front view and half section. The diagonal lines on the section drawing are used to indicate the area that has been theoretically cut. These lines are called section lining or cross-hatching. The lines are thin and are usually drawn at a 45-degree angle to the major outline of the object. The spacing between lines should be uniform. A second, rarer, use of cross-hatching is to indicate the material of the object. One form of cross-hatching may be used for cast iron, another for bronze, and so forth. More usually, the type of material is indicated elsewhere on the drawing, making the use of different types of cross-hatching unnecessary. Figure 21 - Half section without hidden lines. Usually hidden (dotted) lines are not used on the cross-section unless they are needed for dimensioning purposes.
Also, some hidden lines on the non-sectioned part of the drawings are not needed (figure 12) since they become redundant information and may clutter the drawing. Sectioning Objects with Holes, Ribs, Etc. The cross-section on the right of figure 22 is technically correct. However, the convention in a drawing is to show the view on the left as the preferred method for sectioning this type of object. Figure 22 - Cross section. Dimensioning The purpose of dimensioning is to provide a clear and complete description of an object. A complete set of dimensions will permit only one interpretation needed to construct the part. Dimensioning should follow these guidelines. Accuracy: correct values must be given. Clearness: dimensions must be placed in appropriate positions. Completeness: nothing must be left out, and nothing duplicated. Readability: the appropriate line quality must be used for legibility. The Basics: Definitions and Dimensions The dimension line is a thin line, broken in the middle to allow the placement of the dimension value, with arrowheads at each end (figure 23). Figure 23 - Dimensioned Drawing. An arrowhead is approximately 3 mm long and 1 mm wide. That is, the length is roughly three times the width. An extension line extends a line on the object to the dimension line. The first dimension line should be approximately 12 mm (0.6 in) from the object. Extension lines begin 1.5 mm from the object and extend 3 mm from the last dimension line. A leader is a thin line used to connect a dimension with a particular area (figure 24). Figure 24 - Example drawing with a leader. A leader may also be used to indicate a note or comment about a specific area. When there is limited space, a heavy black dot may be substituted for the arrows, as in figure 23. Where To Put Dimensions The dimensions should be placed on the face that describes the feature most clearly. Examples of appropriate and inappropriate placing of dimensions are shown in figure 25.
Figure 25 - Example of appropriate and inappropriate dimensioning. In order to get the feel of what dimensioning is all about, we can start with a simple rectangular block. With this simple object, only three dimensions are needed to describe it completely (figure 26). There is little choice on where to put its dimensions. Figure 26 - Simple Object. We have to make some choices when we dimension a block with a notch or cutout (figure 27). It is usually best to dimension from a common line or surface. This can be called the datum line of surface. Notice how the dimensions originate on the datum surfaces. We chose one datum surface in figure 27, and another in figure 28. As long as we are consistent, it makes no difference. (We are just showing the top view). Figure 27 - Surface datum example. Figure 28 - Surface datum example. In figure 29 we have shown a hole that we have chosen to dimension on the left side of the object. Figure 29 - Exampled of a dimensioned hole. The total length is known because the radius of the curve on the left side is given. Then, for clarity, we add the overall length of 60 and we note that it is a reference (REF) dimension. This means that it is not really required. Figure 30 - Example of a directly dimensioned hole. Somewhere on the paper, usually the bottom, there should be placed information on what measuring system is being used (e.g. inches and millimeters) and also the scale of the drawing. Figure 31 - Example of a directly dimensioned hole. This drawing is symmetric about the horizontal centerline. Centerlines (chain-dotted) are used for symmetric objects, and also for the center of circles and holes. We can dimension directly to the centerline, as in figure 31. In some cases this method can be clearer than just dimensioning between surfaces. Find materials for this course in the pages linked along the left. Freely browse and use OCW materials at your own pace. There's no signup, and no start or end dates.
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Ideal for international use, it includes a guide to the fundamental differences between the relevant ISO and ASME standards, as well as new information on legal aspects such as patents and copyright, and end-of-life design considerations. Equally applicable to CAD and manual drawing, the book includes the latest developments in 3D annotation and the specification of surface texture. Its broad scope also encompasses topics such as orthographic and pictorial projections, dimensional, geometrical and surface tolerancing, and the duality principle, along with numerous examples of electrical and hydraulic diagrams with symbols and applications of cams, bearings, welding and adhesives. Seen by many as an essential design reference, Manual of Engineering Drawing is an ideal companion for students studying vocational courses in technical product specification, undergraduates studying engineering or product design, and professional engineers beginning a career in design. Expert interpretation of the rules and conventions provided by authoritative authors who regularly lead and contribute to BSI and ISO committees on product standards Combines the latest technical information with clear, readable explanations, numerous diagrams and traditional geometrical construction techniques Includes new material on patents, copyrights and intellectual property, design for manufacture and end-of-life, and surface finishing considerations Written by Dennis Maguire, an ex.He is a former practising mechanical design engineer and author of many publications on engineering drawing, product specification and standards. Dennis E. Maguire was a design engineer and senior lecturer at Southall College, UK. Neil Phelps is an experienced mechanical engineer currently working as a design manager within a manufacturing environment. He is a member of BSI and ISO committees responsible for technical documentation and realization, and chairman of the BSI committee covering digital product specification.