Another GD&T Question
Another GD&T Question
(OP)
Hi all,
i have another question regarding a hole location call out based on the feature control frame.
Based on the attached pdf i would like to confirm what is being asked for in terms of the hole in question.
It has a FCF of .005 M to datum D (area to the left when looking at the part from side), Datum G (regardless of feature size, which is the hole and Datum E (the line).
Datum G has a callout to be within .016 of datum D, E and F. i see the BASIC dimensions related to this location.
However for the hole in question, i see the BASIC dimensions off of Datum G but not Datum E.
So the question i have is, do i incorporate the values from Datum E (calculated values) or do i just focus on the location of the hole in reference to Datum G (since datum G already is based off Datum E)?
Greatly appreciate the help, thank you
i have another question regarding a hole location call out based on the feature control frame.
Based on the attached pdf i would like to confirm what is being asked for in terms of the hole in question.
It has a FCF of .005 M to datum D (area to the left when looking at the part from side), Datum G (regardless of feature size, which is the hole and Datum E (the line).
Datum G has a callout to be within .016 of datum D, E and F. i see the BASIC dimensions related to this location.
However for the hole in question, i see the BASIC dimensions off of Datum G but not Datum E.
So the question i have is, do i incorporate the values from Datum E (calculated values) or do i just focus on the location of the hole in reference to Datum G (since datum G already is based off Datum E)?
Greatly appreciate the help, thank you





RE: Another GD&T Question
It's 'assumed' this info is for both holes?
Chris
SolidWorks 10 SP4.0
ctopher's home
SolidWorks Legion
RE: Another GD&T Question
Powerhound, GDTP T-0419
Engineering Technician
Inventor 2010
Mastercam X4
Smartcam 11.1
SSG, U.S. Army
Taji, Iraq OIF II
RE: Another GD&T Question
RE: Another GD&T Question
Imagine how datum reference frame is constructed in this case:
- datum feature A establishes primary datum plane A and 3 degrees of freedom (DOF) are constrained,
- axis of datum feature G is associated with two datum planes which constrain 2 DOF's. However these datum planes can still rotate around the axis of G, so...
- third datum is needed to somehow orient these two planes. That's why E is referenced as tertiary datum feature - to say that one of the planes must be parallel to E and second perpendicular to E. Without E remaining DOF would not be taken away, so the hole in question could lie anywhere around G at the distance of [1.950] and the part would still meet the print.
But coming back to OP's question... Only location relative to G (basic [1.950]) should be considered when checking position of the hole. Datum E is referenced in FCF just for defining orientation of datum planes associated with datum axis G.
RE: Another GD&T Question
Datum E's job is merely anti-rotation. Use only the 1.950 when assessing the feature control frame of the hole in question.
John-Paul Belanger
Certified Sr. GD&T Professional
Geometric Learning Systems
RE: Another GD&T Question
Powerhound, GDTP T-0419
Engineering Technician
Inventor 2010
Mastercam X4
Smartcam 11.1
SSG, U.S. Army
Taji, Iraq OIF II
RE: Another GD&T Question
i agree regarding datum E being the rotational constraint. As i see the call out for Datum G, Datum D is the plane in which the part lies (3 degrees), Datum E (2ndary call out) limits the rotation (2 degrees) and F would constrain the 6th degree.
But as i looked at the True Positions for the holes they call out to datum D, Datum G and Datum E. i just want to make sure that when i have the hole locations calculated they would be based on Datum G only and not to where Datum E is located. i apologize if this sounds dumb, but i thought when i have basic dimensions, theoretically they are to be perfect. But when connected to a Feature Control Frame that's where the tolerance comes into play. But with Datum E called out for the hole locations and no specific Basic Dimensions, this threw me off.
So for the first hole, is it safe to measure the location off of Datum G to be 1.950BSC and 0?
RE: Another GD&T Question
RE: Another GD&T Question
The distance between the two holes is simply the 1.95 dim with the .005 position tol (and any bonus).
But if you want to find the distance from datum E to the hole on the left, it would be 1.04 + 1.95 as the basic distance, but then you would have to factor in both position tolerances.
John-Paul Belanger
Certified Sr. GD&T Professional
Geometric Learning Systems
RE: Another GD&T Question
RE: Another GD&T Question
Frank
RE: Another GD&T Question
While the GD&T scheme given is legal, I can't help wondering if this might be a candidate for composite position tolerancing. Since the holes are all the same size, can I assume that the holes are all of equal importance? If so, then composite would have been better. But if there is indeed something special about that first hole, maybe keep everything as is.
(It looks like it this an old design, given the use of the S modifier and also the datum feature symbols, so this might be a useless suggestion anyway.)
John-Paul Belanger
Certified Sr. GD&T Professional
Geometric Learning Systems
RE: Another GD&T Question
This may be a side question but are fixtures made to be at nominal or do they take into account the FCF called out for a hole?
This fixture i see the datums (D, E, F) for Hole Datum G. But when i see that the FCF for datum G calls out .016 this tells me that the hole can be located off the nominal 1.040BSC by a few thousands. But it doesn't look like the fixture accommodates this change...
Does anyone know if the fixtures are designed to accommodate the .016 tolerance for a particular datum? (i'm just asking if fixtures were made as such, since this was made in 1994) =)
RE: Another GD&T Question
There is also a separate question of how accurate that fixture's pin must be. But that's a different discussion -- some shops use a 10% rule, so that any gage or fixture is allowed its own tolerance based on one-tenth of the tolerance on the product drawing. But we'll keep that can of worms closed for now and just say that the fixture pin has a diameter of .366.
John-Paul Belanger
Certified Sr. GD&T Professional
Geometric Learning Systems
RE: Another GD&T Question
If you are interested more in fixtures topic, there is ASME standard which defines dimensioning and tolerancing priniciples for gages and fixtures - it is Y14.43. But if you just need simple answer to your question, John-Paul got it right.
RE: Another GD&T Question
RE: Another GD&T Question
I have seen this drawing a few weeks ago I believe and it really never made sense to me because it appears as if hole (Datum G) is important in an attempt to relate the 4 holes total to a mating part. These FCF's don't work for me.
The problem is that the Datum Reference Frame for the 3x holes DGE doesn't accomplish what the callouts attempt to do, namely establish a relationship to G and create a pattern relationship of all 4 holes.
All DRF's consist of 3 mutually perpendicular planes. The origin where these planes intersect is where the inspection measurements are taken from. In the drawing the defined DRF origins are not at the center of Datum G's axis, as I speculate was hoped for. The DGE and DEF origins are actually only .500 apart along plane E.
I agree with John-Paul that composite FCF would satisfy the hole(s) callout and clearly establish a pattern relationship; whereas the DGE really doesn't accomplish much IMO.
RE: Another GD&T Question
RE: Another GD&T Question
Datum E is identified as the tertiary datum and is one of the 3 planes which establish the DRF for "DGE". A datum simulator must touch this datum feature in order to setup the part for inspection. It must be considered to identify the DRF orgin.
Ref: ASME 1994 Y14.5M
pg 51 4.2.2.1
pg 52 fig 4-1
If you say that it is exactly at the axis of Datum G, then how would account for Datum E in the callout considering at least one contact point in plane E must intersect G and D?
RE: Another GD&T Question
Same spec (ASME 1994 Y14.5M), few pages later:
4.4.2
4.4.3 (and specifically figure 4-8)
RE: Another GD&T Question
Please refer to my first post from 11 Nov 10. I described ther how the DRF is constructed. At that moment we were discussing about a little bit different drawing but that post applies also to current case.
I was trying to find a figure from Y14.5-1994 that would support my statement and I think fig. 4-7 does this. Para. 4.4.3(a) describes how this is technically done.
RE: Another GD&T Question
None of the examples show a DRF that does not have 3 planes that intersect. Three mutually perpendicular planes is the basic concept of for a DRF. In this example if the FCF omitted Datum E then you would be correct to say the DRF origin is datum G axis. It does not and therefore Datum E must be considered as one of the three DRF planes, resulting at the origin that was indicated in my post.
Additionally just because a cylinder represents a datum axis with 2 planes perpendicular to each other that intersect the axis, does not mean that all of the components (axis and planes) are used each time. See fig 4-8 pg 58 and fig 4-9 pg 59 in which two cylindrical features of size are used as secondary and tertiary datums. This fig shows only one plane of datum C being used and notice the DRF origin.
The whole point of this is that the drawing is not calling for what I speculate was hoped for as stated in my previous post. There are more clear ways to achieve the proper callout(s) relative to the mating part and function. I would need to understand that to offer any suggestion of course.
You have not answered my question as to how datum E is accounted for in the DRF "DGE" regarding your position that the DRF origin is the axis of datum G. My interpretation of your position is that you are good with a 4 plane DRF which is not at all a concept of this standard. Datum D is one; datum G accounts for 2 more and Datum E is another. And you did not support your position as to how datum E is accounted for in a gage setup.
Actually if you had a gage setup with a plate and pin representing Datum D and G respectively, and 2 gage pins to establish E and F; along with 3 more pins for the 3 holes referencing DRF "DGE" you will see that it doesn't gain anything differently than referencing all from "DEF"; IMO.
Assertions and opinions are often interesting however to interpret drawings per the standard then the basic concepts are mandatory, unless an amendment to your particular company overrides one.
RE: Another GD&T Question
You refered to figs. 4-8 & 4-9 from Y14.5M-1994. But unfortunately these figures are quite vague, so the committee decided to update them. When you take look at figs. 4-8 & 4-9 in 2009 edition of the standard you will see that the origin of DRF is exactly at the center of hole B. And this is exactly what I mean. Third datum feature is used only for constraining rotation of 2 datum planes associated with datum axis B.
And answering to your question - my interpretation of DRF "DGE" is that these are 3 not 4 datum planes: one planar D and two other associated with axis G. Datum E only tells us that two mutually perpendicular planes established by axis G are aligned to E. Origin of DRF "DGE" is at the center of hole G.
Sorry but I am not able to explain it better.
RE: Another GD&T Question
I will look at 2009 sounds interesting