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dovetail dimensioning
i have a colleague that is designing both the male & female halves of a dovetail joint. the dovetail is used for a detachable optical assembly and variations there on have been used with adequate performance for some time at my employer. however since most of those were introduced the company has become more aware of tolerance/repeatability issues and is now using gd&t (asme 14.5m-1994).
he has asked me how i would keep the angled edges in the same alignment, ie effectively keep the width of the dovetail the same to a fairly tight tolerance. the term parallel keeps getting used but isn't really correct.
my initial suggestion was just to control the surfaces with surface profile however he doesn't seem convinced by this. he is very concerned about keeping them aligned but doesn't seem as concerned by other factors. my other suggestion was to call out a fairly tight perpendicular tolerance to the end face but while this would help keep the edges aligned it isn't really necessary for the dovetail to be highly perpendicular to the end face.
now i'm not convinced he's correct as once installed a screw pushes in from one side pushing the dovetail to the other, so i don't see why they need to be tightly controlled but he's convinced.
he wants to call out the machining process, saying they are to be machined in a single step but obviously this doesn't fit well with standard drawing conventions, i'd rather detail the end requirement not how to achieve it.
any ideas appreciated, simplified sketch attatched to give some idea of the female.
kenat, probably the least qualified checker you'll ever meet...
once in place, the male and female are "locked" together, via a screw? if that's the case, i don't really see why the sides need to be so tightly controlled.
if he really wants them to be controlled very tightly, then i would suggest a surface profile tolerance, as you first suggested.
v
mechanical engineer
"when i am working on a problem, i do not think of beauty, but when i've finished, if the solution is not beautiful, i know it is wrong."
- r. buckminster fuller
kenat,
faces cannot be kept parallel because they are not parallel. they look closer to perpendicular to me.
actually, i cannot see a dimensioning scheme other than a gd&t profile tolerance. your maximum and minimum widths are to theoretical sharp corners which will be round on the actual part. you are interested in the position and form of the surfaces. the radii can be fairly sloppy.
i would call up a composite tolerance consisting of profile and angle. the profile tolerance would reflect the positioning requirements of your dovetail, and the angle tolerance would be accurate enough to ensure proper mating.
jhg
vc66, i agree and i'll have the discussion with him again but he's more senior than i and just doesn't seem to get it. doesn't help that my arch nemesis (no i don't treat him like that etc) when it comes to quality drawings, applying gd&t etc reports to him and has i'm sure filled his head with all kinds of ideas.
"faces cannot be kept parallel because they are not parallel" my point exactly.
drawoh, if you don't mind me being dumb, could you expound on what you say about angle tolerance. i take it you mean the angle of the 2 v survaces to each other? with your scheme the angle tolerance will be tighter than would be expected from the surface profile alone?
kenat, probably the least qualified checker you'll ever meet...
kenat: i too wonder how drawoh would apply both profile and angularity to these parts.
1. if we talking about the dovetail mount on the removable optical assembly, i would "profile of the surface" dimension that dovetail similar to figure 6-23 of y14.5, except linear, not diametral, with the fcf on both angular surfaces. the mounting surface being datum a, the large end of the dovetail width being a centering datum b, and the end that serves as a stop being datum c.
2. on the left and right mating dovetail parts (seperate pieces i think), control them too by profile of the surface with a basic angle relative to a three plane datum system on each dovetail half, or use an angular tolerance iaw fig. 6-27. the result is the same.
kenat,
you apply a profile tolerance of 0.5mm and an angular tolerance of 0.1mm. both tolerances specify the acceptable variation.
the profile on its own allows an angular error of up to 0.5mm, assuming you had absolutely no error anywhere else. the additional angular tolerance controls the angle down to 0.1mm, but the angled form is allowed to be as much as 0.25mm off the nominal position.
i am assuming your angle is very much more important than the location of the profile. figure 6-23 controls an entire form with a precision you probably do not need.
jhg
thanks, i'll take a look at those figures in the standard when i'm back at work.
i realized i may not have stated my question clearly so i've added another tiff to try and make it clearer. it trys the show the situation he's concerned with avoiding.
ron, it's sort of the application you're talking about but on a new tool on the other side of the business, the female is i believe a single part not 2 as on the ones we dealt with before.
kenat, probably the least qualified checker you'll ever meet...
kenat,
i assume the top and bottom edges are to be parallel.
the parallel specification usually applies to surfaces, which in your case still are not parallel. your edges are hard to describe and inspect given that they will be manufactured as radii. i suppose you could apply parallel specifications to the edges, but the inspection would be difficult. you really are interested in the surfaces.
if the angle is more critical than the location and separation of the two surfaces, my composite tolerance, above, should still be a good solution. it is possible you only need the angle specification on one side.
jhg
alternatively, specify the angle as a basic dimension, and use profile tolerance only?
the traditional way to measure dovetails is over or between gage balls or gage bars.
mike halloran
pembroke pines, fl, usa
dear all,
nice to see your discussion...i have given a hit here...
pl. correct me if i'm wrong..
catmann |
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发表于 2009-4-29 19:39:06
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