Pardon the brim remnants. Not pictured: the many prior iterations. This started as a head on photo that I imported into fusion 360 and scaled after some measuring with calipers. It’s not perfect, but it’s rapidly approaching good enough. The square indent is to help with orientation - although the part obviously is not symmetrical, it’s much harder to judge the home.
Whatchya makin?
Excrubulent@slrpnk.net 7 months ago
So are you saying you traced a photo, then printed multiple parts to get a trial-and-error fit? And you’re trying to fit the blue part around the black part?
That seems extremely time consuming and wasteful. 3d printing lets you work this way but you’ll get better results by planning out the part more carefully from the start.
The way I would do it is to identify the key measurements. This looks like a complex shape but it can be easily broken down into a few numbers.
First you obviously need the height, width and depth of the main rectangle. Then you need the screw hole diameter. From there, you can measure the width of the tabs that surround the screw hole, and use that to calculate the radius of that whole tab piece. These are all easy with calipers.
From there, there are tricks you can use to measure the corner fillet radius and the internal fillet radius where the screw tabs meet the main body, but also they look like they could be the same as the screw tab radius. Try that and see if it looks right. If not, try whole-millimeter adjustments in the numbers till they look the same as your reference part. If you can’t get it right that way, go to half-millimeter increments. People working in CAD software very rarely go to finer adjustments than that for superficial details like this, so it’s usually easy to find the numbers they used.
Then you add a margin between the inner part and the part you’re making, like say 1mm or even 0.5mm, and see if that works.
Then all that’s left is to decide whatever measurements you need out of the piece you’re making and go for it.
If you learn to set these parameters up in your CAD software you can easily adjust them until the part looks right.
IMALlama@lemmy.world 7 months ago
I appreciate the reply. You described my usual process, but the dimensions on this thing are very not-round.
Yup!
For simpler shapes, I agree with you. That’s exactly what I do usually and I’m pretty good at getting things on the first shot with a pair of calipers and a radius gauge. I do not have convex radius gauges, but I guess I could have printed some. This thing has… very arbitrary dimensions (it’s 23.22mm tall on a pair of mitutoyo calipers - I doubt I’m off by the 0.03 to make it a nice round 23.25). Even if it really does have 0.25mm dimensions, that would make me want to avoid guessing radii. I also wasn’t sure how to guess at locating the bump out for the screw holes accurately. In either case, I would be iterating a few times to get a snug fit.
They’re not :(
They are!
Normally I agree with this, but the dimensions on this part are super goofy. I’ve seen this on a few other random China parts, but it is pretty uncommon.
I figured I would have to iterate either way and suspect I did less iterating this way than trying to guess radii. The time commitment wasn’t that large, and would have been similar in either case. As for plastic, each test piece weighs 10 grams and I went through four total, including this one. Nearly all my prints are functional, or they’re fixing broken kid toys (I guess this is functional too), so I’m not too worried about the small amount of waste.
Excrubulent@slrpnk.net 7 months ago
Oh wow, that is very strange. I checked if 23.22mm was anything in inches, and it’s 0.914 and change, so it’s not an imperial thing. I wonder if it just comes from people eyeballing it with no real dimensions or something?
Well, as you were I guess. ¯\_(ツ)_/¯