[Ja...] Posted January 7, 2021 Share Posted January 7, 2021 I am just looking to understand what will you use between the two options and why if any particular reason. I have a part that has a symmetry plane as a datum. And I am thinking of two options; either use a symmetry plane feature with point recall or using symmetry construction. How would they differ? Link to comment Share on other sites More sharing options...
[Jo...] Posted January 7, 2021 Share Posted January 7, 2021 Symmetry Plane will allow a Modifier/width Link to comment Share on other sites More sharing options...
[Er...] Posted January 7, 2021 Share Posted January 7, 2021 You'll need the symmetry plane when dealing with ISO gd&t. Shortest possible answer, symmetry plane will keep the form error. As it's not a flat plane. In ASME you need the symmetry from the two tangent planes. And that symmetry will be a perfect, flat plane. Link to comment Share on other sites More sharing options...
[Ja...] Posted January 7, 2021 Author Share Posted January 7, 2021 And how would the selection affect when used in perpendicularity characteristic with another plane as datum. For e.g., I have this FCF called out under width dimension of the symmetry plane [ perp | .0005 | -A-] where datum -A- is a normal plane. The results vary as .0005 when I use symmetry construction and is .001 when using symmetry plane to evaluate the characteristic. Is the difference related to form(flatness)? As said in the earlier two posts, symmetry construction will give a perfectly flat plane while symmetry plane feature will retain form Link to comment Share on other sites More sharing options...
[Er...] Posted January 7, 2021 Share Posted January 7, 2021 You must first establish what standard the drawing invokes. First then, you know what to do. Im at the hairdresser with my kids, so here is a hand painted sketch: Link to comment Share on other sites More sharing options...
[Ja...] Posted January 7, 2021 Author Share Posted January 7, 2021 I will have to ask the customer as there is no description about drawing interpretation on the print but for the sake of this conversation, let's say it's ASME standard. Link to comment Share on other sites More sharing options...
[Me...] Posted January 7, 2021 Share Posted January 7, 2021 By default the perpendicularity characteristic automatically includes the form error with planar features. If the evaluation is per ASME, you will need to make a copy of the “Symmetry Plane” (outer tangential fit) via Recall One Feature. This will remove the form error and allow for only the orientation of the associated mid-plane to be evaluated. If the evaluation is per ISO, then as Eric already stated, use just the Symmetry Plane. Symmetry Plane - Measured points from both surfaces used to determine the associated mid-plane. Symmetry Construction - Mid-plane determined from two separate associated features. Link to comment Share on other sites More sharing options...
[An...] Posted January 8, 2021 Share Posted January 8, 2021 Please sign in to view this quote. So the amount of the probing points have to be equal,regarding both sides? Link to comment Share on other sites More sharing options...
[Er...] Posted January 8, 2021 Share Posted January 8, 2021 Ideally yes, also perfectly opposite to each other, point for point. Link to comment Share on other sites More sharing options...
[Ja...] Posted January 8, 2021 Share Posted January 8, 2021 There is a pretty good explanation in the operating instructions. It's on page 4-75, and 4-161 in my version. Link to comment Share on other sites More sharing options...
[Ja...] Posted January 8, 2021 Author Share Posted January 8, 2021 Thank you guys for all your help. I have a better understanding of it now. Link to comment Share on other sites More sharing options...
[Ch...] Posted October 21, 2022 Share Posted October 21, 2022 I would like to offer this image for the difference between "Symmetry" and "Symmetry Plane". In the sketch, all features are being evaluated with the outer tangential method.Symmetry.png Link to comment Share on other sites More sharing options...
[Ma...] Posted October 22, 2022 Share Posted October 22, 2022 Are you sure about that? Wouldn't be this described in norms? Or Calypso? Link to comment Share on other sites More sharing options...
[Da...] Posted October 25, 2022 Share Posted October 25, 2022 Patrick is correct. A symmetry plane acting as a datum is made of parallel planes, each contacting at least one point on both surfaces, where the distance between those planes is as large as possible. It is described in the standards, although somewhat bulky in ISO: "For a feature of size made up of two opposite parallel planes, the collection surface associated with the surfaces (or to the portions of the surfaces) used for establishing the datum is obtained with an internal orientation constraint; the associated surfaces (constituting the collection surface) are individually defined with an internal parallelism constraint and a variable intrinsic characteristic constraint [...]" (ISO 5459-2011) In ASME, it is described as: "(b) Primary Datum Feature—Width RMB. The datum is the center plane of the true geometric counterpart of the datum feature. The true geometric counterpart (or unrelated AME) is two parallel planes at minimum separation (for an external feature) or maximum separation (for an internal feature) that make maximum possible contact with the corresponding surfaces of the datum feature. [...]" (ASME Y14.5-2018) No easy reading, I admit. 😉 Link to comment Share on other sites More sharing options...
[Ma...] Posted October 25, 2022 Share Posted October 25, 2022 Please sign in to view this quote. Thx for describing that - good to know - i wasn't sure how it is. Link to comment Share on other sites More sharing options...
Recommended Posts
Please sign in to comment
You will be able to leave a comment after signing in