Jon (Feb 2, 2021), lassab999 (Feb 1, 2021), nova_robotics (Feb 7, 2021), Toolmaker51 (Feb 1, 2021)
Thanks machining 4 all! We've added your Dial Indicator to our Measuring and Marking category,
as well as to your builder page: machining 4 all's Homemade Tools. Your receipt:
New plans added on 12/16/2024: Click here for 2,633 plans for homemade tools.
machining 4 all (Jan 30, 2021)
nova_robotics (Feb 7, 2021)
nova_robotics (Feb 7, 2021), Toolmaker51 (Feb 1, 2021)
Not to disagree, DI's operate to detect variances, centering and alignment fit that description. As your adaptation proves, this usage is one of repeatability, not accuracy, distinctly separate interpretations of position. It is possible to attain one, both, wrong or none to coincide.
l, ;
Mechanically, the manometer dial is correct. One drawback has contact not perpendicular to movement, introducing sine error. That detracts accuracy more than repeatability. Extending the lever arm ratio [increased point to axle vs axle to dial] would make this extraordinarily sensitive, reading extremely small increments, or 'resolution'. Again that is distinctly not same result as 'repeatability'.
For elevated levels of inspection, used in proper conditions, DI's are made capable detecting increments of .00005 [fifty-millionths] and less.
Last edited by Toolmaker51; Feb 1, 2021 at 07:59 PM. Reason: slow night..........
Sincerely,
Toolmaker51
...we'll learn more by wandering than searching...
machining 4 all (Feb 1, 2021)
Toolmaker51, thank you for your interest and comments. As soon as possible, I intend to carry out comparative measurements, to try to relate the reading of the manometer with the actual reading of the dial indicator (if there is, of course!). Of course, the purpose of this project is not to replace the dial indicator, but to create a cheap alternative to perform the centering of a surface, since the mechanism of a dial indicator and a pressure gauge have similar characteristics. I hope it is clear that there is no interest, at least in principle, in the nominal value of the eccentricity, but in the location of its position on the surface (basic use of this instrument). I will try to post the results here, soon.
Last edited by machining 4 all; Feb 1, 2021 at 08:10 PM.
Understood. Applauding the utilization of similar action entirely at odds with original mechanism. I'd think adjusting ratio making dial increments approximate .001, qualify this capable of your intent.
You might be aware of an indicator from way back, before watch-like designs, entirely lever operated. One great example is the Starrett No 64; not only one, just easiest to look up with results.
Sincerely,
Toolmaker51
...we'll learn more by wandering than searching...
Toolmaker51 (Feb 1, 2021)
machining 4 all (Feb 2, 2021)
Hans Pearson, thank you for your interest and comments! Probably a greater movement of the pointer could be obtained by moving the point of rotation (fulcrum) of the lever. This is a physical principle taken into account, at least when analyzing forces. However, as there is no scale with smaller divisions on the manometer (as this instrument does not have this function) I believe that this project is particularly useful to fulfill the basic function of the dial indicator, that is, to find the eccentricity point to be modified. I made some measurements varying the contact pressure, I will post here soon and we will see if there is a consistent relationship between displacement and pressure. Your idea can be promising, develop your line of reasoning and if you find something, share it with me.
Last edited by machining 4 all; Feb 2, 2021 at 11:20 AM.
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