GD&T for centreline positioning?
GD&T for centreline positioning?
(OP)
Hi. I have a plain square plate of unknown exact size and I want to ensure that 4 holes on a 100x100 square pattern are positioned centrally and oriented correctly. How is this dimensioned/toleranced?
I've seen many drawings where plate centrelines will be marked and =100= dimensions are put between holes. Obviously this is dimensioning from virtual centrelines and is difficult to inspect.
How is it done 'properly' using GD&T?
I've seen many drawings where plate centrelines will be marked and =100= dimensions are put between holes. Obviously this is dimensioning from virtual centrelines and is difficult to inspect.
How is it done 'properly' using GD&T?
Hobbs101
Mechanical Design Engineer





RE: GD&T for centreline positioning?
"Know the rules well, so you can break them effectively."
-Dalai Lama XIV
RE: GD&T for centreline positioning?
Hobbs101
Mechanical Design Engineer
RE: GD&T for centreline positioning?
Your drawing is interpretable by ASME Y14.5, but it is not necessarily what you want. A sloppy outline is not a good FOS datum feature. If your outline is sloppy, I would use a hole as a secondary datum, and another hoe or one edge as a tertiary datum.
What are you trying to do? Are you trying to locate your holes accurately enough to accept screws, in an otherwise sloppy part? In addition to allowing screws, are you trying to centre the holes within the otherwise sloppy outline?
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JHG
RE: GD&T for centreline positioning?
On second thoughts, I'm not sure my drawing is correct. What's saying that the hole pattern centre should be on the centrelines?
What I'm trying to do is to position the holes centrally on a cast plate. The plate has a sloppy outline. But, I don't care about the outline, all I want to define is that the 4 holes are positioned centrally relative to the centre lines (i.e. the median planes of opposing sides).
Hobbs101
Mechanical Design Engineer
RE: GD&T for centreline positioning?
Centrelines on your drawing indicate that your design intent is symmetry. How important to you is symmetry? Is it just your nominal condition, or do you have an additional need to control for it.
I would avoid FOS datum features on a casting. If you model your part symmetrically and use an edge and one end as your datums, and you dimension from these, you still get a nominally symmetrical part. You get unambiguous fixturing as well.
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JHG
RE: GD&T for centreline positioning?
Your dimensions of 100 would be basic (boxed) dimensions, and are assumed to be centered on datums B and C, which are the center planes of the part.
John-Paul Belanger
Certified Sr. GD&T Professional
Geometric Learning Systems
RE: GD&T for centreline positioning?
a) the relationship between the holes
b) the positioning of the hole pattern to the plate
Of course it's likely to be both but it's always worth considering whether you really need both (naturally GD&T is there to allow you only to tie down just what you need.)
JP Belanger's example from Y14.5 looks close.
The one thing I would question is the assumption that the 24 TED's are centrally disposed.
The cross-hair in the center only extends to just beyond the large circle so I would argue it only applies to the circle.
Personally I would add two TED's from the datums and keep the datums as the real faces.
Just my take on it!!
RE: GD&T for centreline positioning?
Although your examples don't show it, wouldn't you want the primary datum to be the front or back face?
Also, it greatly depends on whether you want to locate the holes around the center of the part, or from the edges as shown by John. If you want them located around the center of the part, then the two datum triangle symbols would be in line with the width and height dimensions. ( And if the latter, then the location of the holes is presumed to be centered, per the Y14.5 rules.)
John-Paul Belanger
Certified Sr. GD&T Professional
Geometric Learning Systems
RE: GD&T for centreline positioning?
JonSelby's sketch shows what I was suggesting. A cast FOS is not a good datum feature. As shown, the part is nominally symmetric. Assuming you apply a sloppy profile tolerance around the outline, the variations of shape will be asymmetric, but does this matter? You also have the option of a composite FCF, showing the relation of the hole to each other, separate from their relation to the datums.
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JHG
RE: GD&T for centreline positioning?
If so, it's not really an issue here in the small-quantity world, where CMMs are the most common inspection tool for complex parts. If designing for a case where that is the most likely inspection outcome, it would certainly be a nonissue to specify Datums A & B as being the centerlines of either width/length features.
Obviously only applicable depending on the context of the OP's situation.
RE: GD&T for centreline positioning?
John-Paul Belanger
Certified Sr. GD&T Professional
Geometric Learning Systems
RE: GD&T for centreline positioning?
Thanks.
RE: GD&T for centreline positioning?
TED means Theoretically Exact Dimension - or BASIC dimension - or BOXED dimesion
RE: GD&T for centreline positioning?
Keeping it official .. a definition from Y14.5 -2009
1.3.23 Dimension, Basic
dimension, basic: a theoretically exact dimension.
RE: GD&T for centreline positioning?
On the example Belanger links datum's B & C are not the faces, they are the center planes. Referencing those datum's in the FCF for the holes is what allows you to 'assume' symmetrically places around those datum's because the tolerance in the FCF says how far from symmetrical they can be.
I has nothing directly to do with what center lines may or may not be indicated.
What is Engineering anyway: FAQ1088-1484: In layman terms, what is "engineering"?
RE: GD&T for centreline positioning?
I like the Belanger example. I think this is pretty much what I'm after. See attached for my final drawing to achieve what I'm after. Does this look correct?
Hobbs101
Mechanical Design Engineer
RE: GD&T for centreline positioning?
Your drawing is correct. But I would add the center-plane lines to "remind" the reader of the datum center planes. Additionally, the 4 holes and Datums B and C are features of size (FOS), and with the lack of MMC symbols (RFS assumed by Rule #2), I was wondering if there was any consideration of material condition modifiers - MMC in particular.
RE: GD&T for centreline positioning?
Hobbs101
Mechanical Design Engineer
RE: GD&T for centreline positioning?
The center-plane line look good. But I would not casually add MMC unless the design accepts "virtual condition" and "bonus" tolerance concepts.
RE: GD&T for centreline positioning?
Thanks everyone for all the help.
Hobbs101
Mechanical Design Engineer
RE: GD&T for centreline positioning?
You are most welcome. I would definitely start a move towards understanding MMC concepts and the MANY pluses of MMC to communicate design intent and the related manufacturing benefits.
RE: GD&T for centreline positioning?
The face of the plate should be the primary datum, datum A. This means the holes will be square to the face you are drilling into.
Datum B and C should be the length and width of the plate. Usually the longer side would then be the secondary datum. In this case it would not matter.
The 300mm dimensions (width & length) should be shown in brackets as these are references only as the plate sizes already exist.
Datum B & C need to be on the end of the 300mm dimensions, not to one side. This means the datums are the centrelines of the plate in both directions.
Draw the centrelines in in both directions.
Put box dimensions from the centrelines to the holes, 75mm both sides. (75mm dimension should appear 4 times)
Hole positional tolerance should be worked out from the min clearance of the bolt going through the clearance holes on both parts & positional tolerance applied on the other part. As this is a clearance hole the max metal modifier should be used in the positional tolerance box along with the dia 0,25 currently shown.
Assuming 2 plates are the same. 50mm hole smallest size of 49,75 and an M48 bolt then the positional tolerance would be dia 1,75 Max metal to datum A/B/C on both plates. If the other plate is tapped then the pos tol would be 1,75/2 on both plates. Do not use max metal on tapped holes, as the hole drives the pos.
Hope this helps