You're welcome!
The way I've measured those kinds of things in the past before using laser scanning is to use paper or cardboard to cut a profile that matches the contour of the part. Or if they are standard radii, you can use a radius gauge on it to find the approximate radius. With the paper or cardboard, you can scan it into the computer using a multi-function printer and then bring that into Inventor as a pic file and trace around it. Or bring the scan into something like Inkscape or Gimp and convert it to a vector file (DXF), then bring it into Inventor. Then you can get your profiles close to what the customer's part is.
The problem w/the central hump in my part file is the sharp edges that warp up instead of transition smoothly to a tangency. I could do that with more time, but didn't think it was necessary, since you can 'play with it' to get it how you want. That thing took me around 3 hours to make, with a number of revisions, as you can see by the letter at the end of the file name. That's usually how it goes when I do surfacing like this part. In Rhino3D it probably would've taken me about an hour.
Incidentally, you will see which dimensions drive the design if you go into the sketches. I didn't take the usual time to identify them. But you can do that if you want. For example, the offset dimension in the bottom hole profiles is what changes the size of that hole. The hole currently is an ellipse of around 1" minimum radius as you can measure.
... Chris
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