https://www.youtube.com/watch?v=JKERC8z42Po
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Thanks machining 4 all! We've added your Drill Press Center Finder to our Drilling and Drill Presses category,
as well as to your builder page: machining 4 all's Homemade Tools. Your receipt:
<div id="blocks"> <div class="block b1 pngfix"> <div class="bimg"> <div> <a href="https://www.homemadetools.net/homemade-drill-press-center-finder"> <img src="/uploads/247452/homemade-drill-press-center-finder.jpeg"/> </a> </div> </div> <div class="head pngfix"></div> <div class="left pngfix"></div> <div class="right pngfix"></div> <div class="blockover b1 pngfix"> <div class="title"> <a href="https://www.homemadetools.net/homemade-drill-press-center-finder">Drill Press Center Finder</a> <span> by <a href="https://www.homemadetools.net/builder/machining+4+all">machining 4 all</a></span> </div> <div class="tags">tags: <a href='https://www.homemadetools.net/tag/drill-press'>drill press</a>, <a href='https://www.homemadetools.net/tag/centering'>centering</a> </div> </div> </div> </div>
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This very clever tool does depend on the fixed and movable jaws being at the same altitude and having the same bevel. It also cannot bottom out on the part.
Rick
Thanks for the interest Rick! Yes, old, misaligned and uneven jaws are not for this tool and for no other! See other geometry options at the end of the video, one may be useful. For me it has been very practical when machining keyways or drilling shafts, fixed horizontally and vertically.
For different bevels, old vises and old jaws provide two equal plates and fix them according to the drawing below. That simple! :cool:
Attachment 38314
I often drill round bar by placing it in the mill table slot. This will speed up centre location. Thanks.
NortonDommi, thank you for your interest! Yes, it is another option, but care must be taken that the drill does not pierce the machine table! If the shaft diameter is smaller than the slot, then you can use a prismatic block (more difficult to manufacture) or use this design (much simpler to manufacture).
This was an interesting trig problem. I figured out that the centerline error is a function of the difference in jaw heights, the gap between jaws, and the diameter of the center finder tool.
For example, say the jaws differ in height by 0.01" and the gap between jaws is 1":
center finder diameter error in centerline
1.1" 0.002"
1.5 0.006"
3.0 0.014"
This tells me that for the best accuracy, you want the center finder's diameter to be as close to the gap as possible without falling in.
Rick
Rick, thanks for the interest again! Yes, any vise with uneven jaws in height (or with longitudinal clearances) can cause this and other position errors. As this device works with tangency points, it would be interesting to at least ensure that these points are reliable (or work with some type of templet as I have shown). Manufacturing tolerances must also be observed, in this and other cases.
Attachment 38319
A simple question, just out of curiosity: how did you check the accuracy of your center finder?
https://rick.sparber.org/acf.pdf
Other geometric options:
Attachment 38327
I like this a lot! But I doubt I shall need to make one! I expect I shall find something like that soon, if it’s not in a box of odds!
That tool has evolved into https://rick.sparber.org/UniversalCenteringTool.pdfQuote:
Originally Posted by machining 4 all
To test, I would drill a holed in bar stock. Put a pin in the hole, and measure the altitude of the pin on a surface plate. Flip the bar the over and measure again.
Rick
