Combine Smart effector with a Titan Aero
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Forgot to mention, my retracts are now set to 0.5mm
If you already have a Titan, then buying a Titan Aero upgrade kit will cost you half the price. Get yourself a pre-xmas gift and buy it
Beware, the crystal clear fan that comes with it is super loud. I've recently replaced it with an hydraulic bearing fan from Robotdigg and you can't hear it.
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Yeah upgrading to aero would be easy, but if it cant be mounted it would be of no use
Another possibilty could be to use the standard titan and mount it on top of the pcb effector using the 3 additional mounting holes on the effector and a custom designed mount. Could this work?
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We are taking to E3D about a lightweight version of the Aero that would be suitable for a delta printer with a smart effector. It's likely to take some time though.
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What is the problem that needs to be overcome? Is it the weight of the extruder constantly applying force on the straingauge? Or is the PCB not stiff enough for the extra weight (hmm, little bit of the same thing I guuessβ¦)
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We are taking to E3D about a lightweight version of the Aero that would be suitable for a delta printer with a smart effector. It's likely to take some time though.
Sign me up on waiting list
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What about the Nimble? I already use a couple of them in my CoreXY Printers, 27 grams weight, but still a direct extruder (with a flexcable). A bunch of adaptors are readily available (including for the Smart Effector).
I am currently building a Delta (Kossel XL) with the Smart Effector and will definately use the Nimble too on this one⦠-
Thought about the Nimble the last days, but im not still fully convinced it would live up to my requirements.
Main point is the ridiculus low accelleration, jerk and maximum speed settings compared to what im currently using.
Additionally i couldnt find any information yet about backslash due to flexing steel shaft.Consider printing somthing with a lot of retractions i.e. https://www.thingiverse.com/thing:91831 print time could easily double when max jerk/accel/speed has to be set at much lower values.
Currently im using 6000mm/min speed, 9000mm/s^2 acceleration and 900 mm/min jerk on my extruder which is 5-10 time higher than the value i found for the zesty nimble.
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Bear in mind that if you use a remote direct drive extruder such as the Nimble or Flex3drive, you will need less retraction than with a Bowden system.
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David, the moment something like an Aero is available to work with a smart effector, I'd order one. Hope something does happen on that front.
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I made some tests with https://www.thingiverse.com/thing:91831 at 50% scale
I removed the filament and let it print to see how long each setup takes (im still on 1.18 so M37 simulation mode is not available)
Retraction off: 5:40 min
E3D Titan: 20:41
Nimble Standard: 33:22 as described in http://zestytechnology.readthedocs.io/en/latest/nimble_single/tuning.html
Nimble Jerk x2: 32:16 (twice the recommended jerk)
Nimble accel x2: 25:30 (twice the recommended acceleration)E3D Titan setup was with 6mm retraction, Nimble setup was with 1.2mm retraction
The Nimble setup is much slower, despite shorter retraction.I hoped a direct extruder would reduce print time on retraction heavy models, instead the Nimble would increase it
Would be interesting to know if someone has experience using much higher acceleration on a Kossel with 24V, as the main impediment to using higher accelleration seems to be the 'reaction time' of the extruder motor which should be much better on 24V. Maybe a much lower inductance and rotor mass motor would be preferable to reach higher accelleration?Which length of cable should i choose to replace my 60cm bowden tube? They offer 65, 75 and 95cm
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Updated to 1.20 today and found the M37 P"file,.gcode" simulation ignores accelleration/jerk settings from the gcode file, so not as usefull for these kind of tests
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Hi Nuvag,
The settings given for the Nimble are the starting settings. It is up to the user to the tweak and optimise. You can see the settings as the lowest common denominator. It depends too much on what stepper you use, what voltage you use, what kind of printer etc.But you have renewed my urge to do a tuning session and see how far I can push the Nimble and the small stepper I want to use with it. It is busy at the moment, but it is worthwhile doing it. I will report back.
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Updated to 1.20 today and found the M37 P"file,.gcode" simulation ignores accelleration/jerk settings from the gcode file, so not as usefull for these kind of tests
It's not usual to use M201, M203 or M566 commands in a GCode file, so M37 does not process those. It does process M204 commands.
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Yeah you are probably right about its unusual to use these, but i found it quite handy.
When printing flexible materials (where retraction cannot be used with a bowden) its beneficial to use much higher accelleration and jerk to keep the pressure level as constant as possible and reduce oozing on travel moves (as they are faster). Overall this produces nicer parts, even when ringing artifacts could be worse.
Additionally with Simplify3D its realy nice to use multiple processes to print faster on non critical parts and slower where fine details matter.Just ordered a smart pcb effector and a zesty nimble. Im not quite sure if i will be happy with the nimble, but it looks like its currently the best solution.