Introduction to Dimensioning

Slides:



Advertisements
Similar presentations
Dimensioning Dimensioning Gateway To Technology®
Advertisements

CE En 112 Engineering Drawing with CAD Application
Dimensioning Guidelines
Dimensioning Dimensioning.
Introduction to Dimensioning
Dimensioning Ø 8 FACING Ø14 X 3 DEEP ° Technical drawings must not only faithfully reproduce the shape of objects, but also serve as.
Dimensioning Dimensioning Gateway To Technology®
Dimensioning Dimensioning.
Dimensioning Ø 8 FACING Ø14 X 3 DEEP ° Working document Linguistic review Technical drawings must not only faithfully reproduce.
DIMENSIONING Sizing of drawings in Drafting has standards and guidelines.
Basics of Mechanical Drawing and Dimensioning ChE 126 Borrowed mostly from the Fundamentals of Engineering Honors program at Ohio State 1.
Dimensioning Guidelines
Dimensioning Guidelines
Dimension Guidelines (Material developed by Project Lead the Way)
Dimensioning. Why Dimension?  Size and  Location of all features Engineers, designers, and engineering technologists need to know.
Introduction to Dimensioning © 2012 Project Lead The Way, Inc.Introduction to Engineering Design.
Dimensioning © 2011 Project Lead The Way, Inc.Design and Modeling.
Detail Drawings Suggested Layouts Dimensioning Guidelines
Learning Objectives Define the following: Dimension line, Extension line, Reference dimension, and Leader Be able to understand the basic rules of dimensioning.
CHAPTER Dimensioning 10 Copyright Goodheart-Willcox Co., Inc. May not be posted to a publicly accessible website. Objectives Explain why dimensions and.
Dimensioning Standards and Techniques. Organizations for Dimension Standards American National Standards Institute – a U.S. organization that recommends.
Forging new generations of engineers
Dimensioning Guidelines
Forging new generations of engineers
Line Conventions Introduction to Engineering DesignTM
What are Dimensions? Dimensions are the text that is provided with a drawing that describe the exact size and location for the features shown. Also known.
Chapter 3 DIMENSIONING Dimensioning refers to the act of giving dimensions. Dimension is a numerical value expressed in appropriate units of measurement.
Dimensioning Fundamentals
Dimensioning Standards
Dimensioning Standards
Dimensioning Guidelines
Dimensioning Dimensioning PLTW Gateway®
Line Conventions Introduction to Engineering DesignTM
Dimension Guidelines Introduction to Engineering Design
Standard Practice for Dimensioning Drawings
Dimension Terminology:
Introduction to Dimensioning
Introduction to Dimensioning
Introduction to Dimensioning
Introduction to Dimensioning
Dimensioning Dimensioning Gateway To Technology®
Introduction to Dimensioning
Dimension Guidelines Introduction to Engineering Design
Dimensioning Working document
Dimensioning Dimensioning PLTW Gateway®
Introduction to Dimensioning
Introduction to Dimensioning
Forging new generations of engineers
Introduction to Dimensioning
BASIC DIMENSIONING RULES
Introduction to Dimensioning
Dimensioning Through an Object
Forging new generations of engineers
Dimensioning Guidelines
Dimension Guidelines NOTE: Students will need a highlighter
Dimensioning Guidelines
Forging new generations of engineers
Introduction to Dimensioning
Dimensioning Guidelines
Introduction to Dimensioning
Dimensioning Guidelines
Dimensioning Dimensioning Gateway To Technology®
Dimensioning Guidelines
Dimensioning Guidelines
Dimensioning Dimensioning PLTW Gateway®
Dimensioning Guidelines
Dimensioning Dimensioning PLTW Gateway®
Dimensioning Guidelines
Introduction to Dimensioning
Presentation transcript:

Introduction to Dimensioning

Presentation Name Course Name Unit # – Lesson #.# – Lesson Name Dimensions should reflect actual size of the object, not the scaled size. The dimension measured on the drawing is ¾ in., but the actual dimension of the part is 2 in. Therefore, show 2.00 on drawing. Do not used the measurement on a drawing as the true dimension of the part. The part could be shown larger or smaller than actual size. Always show the actual (designed) dimension of a part on the drawing.

2. Include overall dimension in the three principle directions – depth, width, and height. Overall dimensions should be placed the greatest distance away from the object so that intermediate dimensions can nest closer to the object.

2. Include overall dimension in the three principle directions – height, width, and length. Overall dimensions should be placed the greatest distance away from the object so that intermediate dimensions can nest closer to the object.

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 3. Include all dimensions necessary to produce or inspect the part. Dimensions should be placed so that it is not necessary to calculate or scale a dimension. Incorrect What are the measurements of these dimensions? Can this part be built without these dimensions? ? ? Project Lead The Way, Inc. Copyright 2007

3. Include all dimensions necessary to produce or inspect the part. Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 3. Include all dimensions necessary to produce or inspect the part. References: Pg 337 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 109 Fundamentals of Modern Drafting by Paul Wallach Pg 425 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 701 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

Incorrect 4. Do not include unnecessary dimensions. Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 4. Do not include unnecessary dimensions. Dimensions should NOT be duplicated or the same information given in two different ways. DUPLICATED All of the red dimensions are duplicated somewhere else. DO NOT DUPLICATE DIMENSIONS! [Ask student to identify unnecessary dimensions, then click through duplicated dimensions.] Incorrect Project Lead The Way, Inc. Copyright 2007

Incorrect 4. Do not include unnecessary dimensions. Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 4. Do not include unnecessary dimensions. Do not include chain dimensions that add up to a given overall dimension. Provides the same information in two different ways. References: Pg 109 Fundamentals of Modern Drafting by Paul Wallach Pg 392 Technical Drawing 9th Edition by Frederick Giesecke et. al. Note: In a chain of dimensions, as seen with the width and height dimensions in the front view, one of the dimensions is unnecessary in each chain and must be removed. Overall dimensions for width, height, and depth must be present. Incorrect Project Lead The Way, Inc. Copyright 2007

4. Do not include unnecessary dimensions. Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 4. Do not include unnecessary dimensions. References: Pg 337 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 109 Fundamentals of Modern Drafting by Paul Wallach Pg 425 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 701 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 5. Dimensions should be attached to the view that best shows the contour of the feature to be dimensioned. References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 405 & 425 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 698, 700, 701-703 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe It should be noted that the 2.00 inch dimension would be appropriately located if placed on the top view, but the front view is preferred because it is supposed to provide the most information about an object’s geometry. Incorrect Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 5. Dimensions should be attached to the view that best shows the contour of the feature to be dimensioned. References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 405 & 425 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 698, 700, 701-703 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe It should be noted that the 2.00 inch dimension would be appropriately located if placed on the top view, but the front view is preferred because it is supposed to provide the most information about an object’s geometry. Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 6. A dimension should be attached to only one view; for example, extension lines should not connect two views. Reference: Pg 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Incorrect Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 6. A dimension should be attached to only one view; for example, extension lines should not connect two views. Reference: Pg 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 7. Whenever possible, locate dimensions between adjacent views. Incorrect References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 108 Fundamentals of Modern Drafting by Paul Wallach Pg 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Project Lead The Way, Inc. Copyright 2007

7. Whenever possible, locate dimensions between adjacent views. Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 7. Whenever possible, locate dimensions between adjacent views. References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 108 Fundamentals of Modern Drafting by Paul Wallach Pg 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Project Lead The Way, Inc. Copyright 2007

Incorrect 8. Avoid dimensioning to hidden lines. 0.75 0.75 Reference: Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 8. Avoid dimensioning to hidden lines. Incorrect Reference: Pg 342-343 Engineering Drawing and Design 3rd Edition by David Madsen et. al. 0.75 0.75 Project Lead The Way, Inc. Copyright 2007

8. Avoid dimensioning to hidden lines. Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 8. Avoid dimensioning to hidden lines. Reference: Pg 342-343 Engineering Drawing and Design 3rd Edition by David Madsen et. al. 0.75 Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 9. Do not place dimensions on the object unless it is absolutely necessary. Incorrect References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 394, 404, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 692 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 9. Do not place dimensions on the object unless it is absolutely necessary. References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 394, 404, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 692 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 10. Do not cross a dimension line with another dimension line or with an extension line. References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 394, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 10. Do not cross a dimension line with another dimension line or with an extension line. References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 394, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 11. Avoid crossing dimension or extension lines with leader lines. Incorrect References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 394, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Project Lead The Way, Inc. Copyright 2007

11. Avoid crossing dimension or extension lines with leader lines. Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 11. Avoid crossing dimension or extension lines with leader lines. References: Pg 342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 394, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Ø 0.50 THRU Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 12. Leader lines point toward the center of the feature and should not occur horizontally or vertically. References: Pg 45, 344 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 395-396, 402-403, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 686-687, 703 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Note: Slopes greater than 75° and less than 15° from horizontal should be avoided. A leader has a .25 in shoulder at one end that begins at the center of the vertical height of the lettering and an arrowhead at the other end point. Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 13. Dimension numbers should be centered between arrowheads, except when using stacked dimensions, and then the numbers should be staggered. Incorrect References: Pg 341-342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 137 Fundamentals of Modern Drafting by Paul Wallach Pg 400, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 690-691 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Note: The 0.50 dimension cannot fit between its extension lines, so it is placed to the outside of the common extension line to avoid confusion. Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 13. Dimension numbers should be centered between arrowheads, except when using stacked dimensions, and then the numbers should be staggered. References: Pg 341-342 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 137 Fundamentals of Modern Drafting by Paul Wallach Pg 400, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 690-691 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 14. In general, a circle is dimensioned by its diameter and an arc by its radius. References: Pg 344-345, 347-349 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 131, 138-139 Fundamentals of Modern Drafting by Paul Wallach Pg 402-403, 410-411, 427 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 687-688, 695-696 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 15. Holes should be located and sized in the view that shows the feature as a circle. Incorrect References: Pg 351 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 109 Fundamentals of Modern Drafting by Paul Wallach Pg 411, 427 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 693 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 15. Holes should be located and sized in the view that shows the feature as a circle. References: Pg 351 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 109 Fundamentals of Modern Drafting by Paul Wallach Pg 411, 427 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 693 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Note: The top view was removed because it is not needed to completely communicate the object’s geometry. Project Lead The Way, Inc. Copyright 2007

Dimension Guidelines Introduction to Engineering Design Unit 2 – Lesson 2.2 – Dimensions and Tolerances 16. Holes are located by their centerlines, which may be extended and used as extension lines. References: Pg 44, 340 Engineering Drawing and Design 3rd Edition by David Madsen et. al. Pg 393-394, 426 Technical Drawing 9th Edition by Frederick Giesecke et. al. Pg 690-691 Technical Graphics Communication 3rd Edition by Gary Bertoline & Eric Wiebe Project Lead The Way, Inc. Copyright 2007

References Bertoline, G. (2003). Technical graphics communication. (3 ed.). Boston, MA: McGraw-Hill. Giesecke, F. [et al.] (1991). Technical drawing. (9 ed.). New York, NY: Macmillan Pub. Co. Madsen, D., Folkestad, J., Schertz, K., Shumaker, T., Stark, C., & Turpin, J. (2002). Engineering drawing and design. (3 ed.). Albany, NY: Delmar Thomas Learning.