Best Choice of Motor for a Delta Printer
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@bberger I have a predator with a flying orbiter and remote cooling, linear rails, Kevlar belts, with moons p4200 0.9° and duet2.
I’ve bought them without knowing anything about back emf or knowing about the stepper calculator tool.
They are about 1.5 years in use.I was trying to fight VFA’s and while they got slightly better they are still there.
So my reliable travel speeds are max 350mm/s if I go higher I risk layer shifts if the nozzle bumps slightly in to the print. Still fighting with ringing if I go higher then 600mm/s on jerk.
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@bberger Looking at the Wantai and Moons datasheet and introducing their values in the EMF Calculator, the Wantai seems a better choice with much lower inductance (1.8 vs 4 mH) which results in lower Back EMF. Also the speed at which torque starts to drop is also much higher on the Wantai (277 vs 150 mm/s). I do have some LDO 42STH48-1684MAC at hand whose performance seems in the middle between Wantai and Moons (1.65 Ohm / 2.8 mH)...should I use them or ordering the Wantai will worth the money and time?
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LDO-42STH48-2504AC. Swap duet board with a mellow super 8 on rrf and 48v stepper drivers.
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@ignacmc said in Best Choice of Motor for a Delta Printer:
... I do have some LDO 42STH48-1684MAC at hand whose performance seems in the middle between Wantai and Moons (1.65 Ohm / 2.8 mH)...should I use them or ordering the Wantai will worth the money and time?
Keep the LDO. Should be good enough.
What exactly is the problem you're experiencing though? Noise? Layer shifts? Artefacts?
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@bberger Originally I had the LDO42STH48-1684MAC installed, but they were impossible to put in StealthChop mode, giving very loud noise and layer shifts. In Spreadcycle they behaved much better but still found them noisy, although print quality was acceptable. Then I changed to OMC 17HM19-2004S1 and everything get worse specially during high speed movements. Stealthchop which was always used in my Marlin powered Kossel seems out of place in Duet.
So I don't know if going back to 1.8 steppers (LDO-42STH48-2504AC perhaps?) should make life easier for me and not have a noticeable impact on quality (as some people in other forums say) or remain at all costs with 0,9 steppers like you say that would have to be my current LDO42STH48-1684MAC or bite the bullet and purchasing some Wantai 42BYGHM810.
I know it is crazy to think about changing motors for the 3rd time, but I am really a perfectionist regarding motors performance.... Poor myself !
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@ignacmc just disable stealthchop and make sure you have enabled interpolation.
Would you mind maybe recording a small video clip of those noises? It would help us judge if that's something to be expected or if it's out of the ordinary.
If you're travelling from one edge of the bed to the other edge of the bed with 300+ mm/s then sure, they'll whine. But they should be near silent on anything in a radius of ~10cm in the middle of the bed and practically dead silent near the center.
What really (really) helps the noise on the Predator are stepper dampers. Especially of you have rigidly mounted rails. And to be honest I didn't really notice a difference in quality then I removed them some weeks ago, but that was before I was able to go for crazy accelerations and speed thanks to Input Shaping.
What also contributed to a LOT of nasty noise was the top electronics panel. Make sure you've got that strapped down snuggly without overtightening it. That thing has a tendency to rattle.
Also, should you happen to have an enclosure (maybe the famous one from CarstenD) - that's a bad (BAD) idea for noise. Those curved panels at 120deg angle are basically reflectors throwing sound waves from all directions to the middle of the chamber where they basically "explode").
Maybe the noise alternatively comes from bad bearings at the idlers or the belt rubbing against something? Millions of possible reasons and I still doubt the motors are the main contributor.
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@bberger Sorry for not answering earlier. Yes, I have accepted to never try to use Stealthchop again.
I have ordered the third set of motors for this machine. First LDO, then OMC and now the Wantai you suggested me, that seem to be the best in the category according to the results obtained in the EMF Calculator. Hope I will give the older motors good use in another project.
I will report my findings when I install the Wantai in the next weeks.
I am opposed to use the dampers with TMC drivers. They were needed in the old times (A4988) but now I think they are obsolete and they introduce a elastic joint which can lead to lack of precision. The noise came from motors and does not seem to resonate in the frame.
I plan to build an enclosure in the near future but I am designing one of my own that can be easily attached via magnets and removed when not needed or for doing maintenance.
I will have a look again at pulleys for sure.
Thank you for your help. I will keep posting here when I have updates to share
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@ignacmc don't forget to share you enclosure please Still trying to get away from the parabolic resonance hell the CarstenD enclosure gives me (it also is too narrow for my cooling solution).
I know Chris W. in the Advanced Predator group has designed a flat enclosure with more spacing from the same panel sizes that Carsten used, but haven't gotten around to print the parts yet..
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@bberger My idea is something like this:
I can send you the Fusion360 files if you want. I intend to place some steel tape on the towers and some embedded magnets or magnetic tape on the enclosure panels
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@ignacmc I'd happily take the F360 files
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@bberger Here you have them...still a work in progress, but can be printed so far...I tried to avoid all collissions with bolt heads and so on. You have on FRONTAL part and TWO sides...If you develop them further, please share
Change extension from STL to F3D
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@bberger said in Best Choice of Motor for a Delta Printer:
Wantai 42BYGHM810
I use the Wantai 42BYGHM810 on my delta. I don't use dampers and the motors are basically silent. I have gone through 3 different sets of dampers and after chasing every other mechanical issue I could and tuning the drivers, they very much were unnecessary and only added to ghosting. Whatever your choice if you don't have a pillow block (most printers don't) then I highly recommend putting a roller bearing between the pulley and the motor case (my current preference is the needle bearings). You have to measure the space available and account for possibly adding some washers to keep your pulley centered. What this does it reduce the tension on the motor shaft, the tension on the pulley instead is applied to the thrust bearing and motor to the motor case saving your internal motor bearings. Before I started doing this my previous motors needed replacement every 2-3 years because of bearing issues on my deltas, and I feel like it helps on ghosting and tension too (that's just an added bonus so wasn't worth testing for me).
uxcell TC512 Thrust Needle Roller Bearings with Washers 5/16" Bore 3/4" OD 5/64" Width 5pcs
https://www.amazon.com/gp/product/B07VZXWSG6/uxcell F5-10M Thrust Ball Bearings 5mm x 10mm x 4mm Chrome Steel Single Direction 4pcs
https://www.amazon.com/gp/product/B07QKKYKR8/ -
@lord-binky I am afraid there is not enough space to fit a Bearing here....
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@ignacmc the needle bearings suggested here are super thin though.
But yes, with the suggested tension of Gates for their belts in linear positioning applications we're at the upper end of what Nema 17 bearings usually are rated for. On my Moon's it just barely within "extended" spec (they're in the rated "can be up to this load, but expect reduced bearing life).
Haven't looked up the Wantai specs though. I don't think that they'll be a problem in our application. At least not for the lifetime of the printer unless it's maybe running 24/7 in a farm.
The thing with pillow blocks / bracings is: they need to be accurate or they will introduce crooked sideload themselves on the motor bearings.
Has anyone been able to find the Wantai with a D-Shaft and connectors? That's the primary reason why I have been to lazy to switch back to them.. I know they exist as they can be ordered to spec that way, but haven't seen any retailer carrying them
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@lord-binky But I don't get your idea...you are recommending Thrust Bearings, that are designed to take axial loads (in the direction of the motor shaft). But the belt tension is acting perpendicular to the motor shaft, that is RADIAL loads. What is the use for a thrust bearing here? They cannot absorb any of the belt loads
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@ignacmc i think what he suggests when the belts displace the motor shaft, this bearing would prevent or alleviate the displacement of the motor shaft and thus reduce strain on the motor bearings . The strongest force would be on the lower side of this flat bearing.
I liked this idea and never thought of it before, I’ll look into that.
I’m planning to make an automatic belt tensioner and a more sturdy motor shaft would help a lot. -
@cabalsoul I think that this thrust bearing only works when subject to compression. And this is only going to happen when there is a noticeable bending on the shaft which is not going to be the case (or the motor will be destroyed) ;-)...Here we have mainly a shear force and this bearing is not taking any load...Just my opinion, a photo of the setup would help me to understand it better
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Duet documentation states that low inductance = higher speed or rather holding its torque for a wider range of speed so looking at just the spec sheet LDO one seems to be better. I've also found these motors (if you're in europe) to be good on paper too: https://www.reichelt.com/de/en/hybrid-stepper-motor-nema-17-0-9-2-4-a-2-4-v-act-17hm5424-p237911.html
It's both 0.9 and low inductance compared to a lot of offerings from different brands.
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@ignacmc once Ive installed a pulley flush to the stepper motor.
After I’ve tensioned the belts with 25N and started up I heard a grinding noise. The deflection was not noticeable with bare eyes but there was definitely one, and the pulley started grind against the motor.So from my experience displacement occurs also with light loads .
Setup is the same as yours on the Anycubic predator.
The stepper motor in question was a moons ms17ha2p4200
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@ignacmc this is right, snug the pulley against the thrust bearing will limit the amount of deflection on the motor shaft. Next time you have the chance watch closely before and after tensioning motors on a delta for me the amount of force for visible deflection on the shaft is actually very little when tensioning directly against the motor (especially if you use dampers!). At the temps we are comfortable running the motors I'd wager bearing wear is in the top two motor issues after a year of use.