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Scale using 1/128 ths of an inch increments

Scale using 1/128 ths of an inch increments. Scale using 5/1000 ths of an inch increments. Measuring eccentricity of stud CL to the thru hole CL. Hole gage dimensions. Rotate gage until it touches hole wall. Slide gage onto stud. Slide gage into hole.

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Scale using 1/128 ths of an inch increments

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  1. Scale using 1/128 ths of an inch increments Scale using 5/1000 ths of an inch increments

  2. Measuring eccentricity of stud CL to the thru hole CL Hole gage dimensions

  3. Rotate gage until it touches hole wall Slide gage onto stud Slide gage into hole

  4. Top view showing the gage rotated until it is tangent with the hole diameter #16 Road map of gage hole #’s dimensions

  5. View showing machined bushing with a .125” offset inserted in hole

  6. Extreme Mis-Alignment Perfect Alignment .25” Ideal Wall Thickness .10” Minimum Allowable Wall Thickness Stud Stud Bushing Bushing 1.875”

  7. Designing a gage to measure the center offset of 2 holes 1.375” (bored stud diameter) + .250” (ideal wall thickness) + .100” (minimum wall thickness) 1.725” outer diameter of gage 1.725 .100 .250 1.375

  8. o 12 .250 - .100 = .150 (difference in wall thicknesses) .150/ 15 = .010 difference per division .010 is too “sloppy” as far as a good, accurate fit. More increments are needed (15 divisions each side)

  9. Determining the gage increments Take the average of the wall thicknesses .250 (thickest wall) + .100 (thinnest wall) = .350 / 2 = .175 (average) Make 2 gages One gage measures thickness from .250 to .175 One gage measures thickness from .175 to .100 By using the same number of increments on the gages, the smaller and more accurate each increment becomes.

  10. Gage to measure from .250 to .175 .250 1.376 .175

  11. Gage to measure from .175 to .100 .175 1.376 .100

  12. .250 wall + .100 wall = .350 / 2 = .175 avg. wall thickness

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