1 / 88

Learning Objectives:

Learning Objectives. NEED FOR DIMENSIONING. To make designs more informative and practical, the drawing must convey more than just the graphic picture of the product. To manufacture an object, the drawing must contain size descriptions such as the length, width, height, angle, radius, diameter, and location of features. All this information is added to the drawing with the help of dimensioning. Some drawings also require information about tolerances with the size of features. This information 30146

ike
Download Presentation

Learning Objectives:

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


    2. NEED FOR DIMENSIONING

    4. FUNDAMENTAL DIMENSIONING TERMS

    6. Dimension Line

    7. Extension Lines

    8. Leader

    9. Center Mark and Centerlines

    10. Alternate Units

    11. Tolerances

    12. Limits

    13. ASSOCIATIVE DIMENSIONS

    14. DEFINITION POINTS

    15. SELECTING DIMENSIONING COMMANDS

    16. Using the Toolbar and the Dimension Menu

    17. Using the Command Line

    18. Using Dimensioning Commands

    20. DIMENSIONING NUMBER OF OBJECTS TOGETHER

    21. CREATING LINEAR DIMENSIONS

    22. DIMLINEAR Command Options

    23. Horizontal Option

    24. Example 1

    27. CREATING ALIGNED DIMENSIONS

    28. Exercise 1

    29. CREATING ROTATED DIMENSIONS

    30. CREATING BASELINE DIMENSIONS

    31. CREATING CONTINUED DIMENSIONS

    32. Exercise 2

    33. CREATING ANGULAR DIMENSIONS

    35. Dimensioning the Angle Between Two Nonparallel Lines

    36. Angular Dimensioning of Circles

    37. Angular Dimensioning Based on Three points

    38. Exercise 3

    39. CREATING DIAMETER DIMENSIONS

    40. CREATING RADIUS DIMENSIONS

    41. GENERATING CENTER MARKS AND CENTERLINES

    42. Exercise 4

    43. CREATING ORDINATE DIMENSIONS

    44. Exercise 5

    45. CREATING TRUE ASSOCIATIVE DIMENSIONS

    46. Converting a Dimension into a True Associative Dimension

    47. REMOVING THE DIMENSION ASSOCIATIVITY (DIMDISASSOCIATE COMMAND)

    48. DRAWING LEADERS

    49. Annotation Tab

    50. Annotation Type Area

    51. MText

    52. Block Reference

    53. Mtext options Area

    54. Annotation Reuse Area

    55. Leader line & Arrow Tab

    56. Leader Line Area

    57. Number of Points Area

    58. Arrowhead Area

    59. Attachment Tab

    60. Exercise 6

    61. USING LEADER WITH THE DIM COMMAND

    62. GEOMETRIC DIMENSIONING AND TOLERANCING

    63. GEOMETRIC CHARACTERISTICS AND SYMBOLS

    64. ADDING GEOMETRIC TOLERANCE

    66. Feature Control Frame

    67. Tolerance Value and Tolerance Zone Descriptor

    68. Datum

    69. Example 2

    71. COMPLEX FEATURE CONTROL FRAMES Combining Geometric Characteristics

    74. Composite Position Tolerancing

    76. USING FEATURE CONTROL FRAMES WITH LEADERS

    77. PROJECTED TOLERANCE ZONE

    80. Example 3

    82. Exercise 7

    83. Exercise 8

    84. Exercise 9

    85. Exercise 10

    86. Problem Solving Exercise 1

    87. Problem Solving Exercise 2

    88. Problem Solving Exercise 3

    89. Problem Solving Exercise 4

More Related