Beta testers for multiple motion system support
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I started a discussion about various printer kinematics here.
Meshleveling with two tools is still unsolved, but it's worth keeping this option in mind for a future build. -
@o_lampe said in Beta testers for multiple motion system support:
I started a discussion about various printer kinematics here.
Meshleveling with two tools is still unsolved, but it's worth keeping this option in mind for a future build.Independent mesh levelling requires independent adjustment of Z heights. Unfortunately there is a patent on that in (at least) US and EU. There is another patent on independent motion systems, but I have been told it is US-only.
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@dc42
As it turned out in my thread, there are only two candidates left for independent z-adjustment: dual delta or dual SCARA option.
I don't believe, the patents you mentioned forbid me to build such a printer?
Or is it about a certain software method?Finding workarounds or improve the patented methods is still an option...
Do you have a link to the patents, please?
THX -
@o_lampe I don't think those patents necessarily bar you from building a printer with those features yourself, but you may not be allowed to commercially exploit them. I'm not a patent lawyer so this is a random claim on the internet and don't rely on it as legal advice (-:
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@o_lampe said in Beta testers for multiple motion system support:
Do you have a link to the patents, please?
Here are links to some relevant patents. There may be others.
https://patents.google.com/patent/US20150231827A1/en
https://patents.google.com/patent/US11086295B2/en
https://patentimages.storage.googleapis.com/dd/95/ae/df14d6ce71d74b/US20200233399A1.pdf
https://patentimages.storage.googleapis.com/dc/d9/a1/69e28a28a70d1e/EP3347190B1.pdf -
@dc42 we have a unique use case that this might solve - or there may be an existing way that you can point us towards. We are interested in using a second extruder as an automatic filament unwinder as we use 10KG spools that put a lot strain on primary extruder.
The idea would be to create another axis (F). It would be simple to have our post-processor duplicate the E commands into F commands like:
G1 X124.761 Y43.556 E2.46118 F2.46118
That would work, but its not how we want to tackle it. I threw together an algorithm which calculates the amount of filament used per layer and then generates a new command before the layer begins.
;LAYER_CHANGE G1 F304.84405 ;Z:0.5 ;HEIGHT:0.5 G1 Z.5 F9600 G10 ; retract G1 X95.404 Y57.128 G11 ; unretract ;TYPE:Skirt/Brim ;WIDTH:0.75 G1 F1440 G1 X102.111 Y45.927 E1.74422 G1 X103.445 Y44.47 E.26393 G1 X105.244 Y43.654 E.26393 G1 X106.339 Y43.531 E.14722 G1 X124.761 Y43.556 E2.46118 G1 X127 Y43.935 E.30343 G1 X128.648 Y44.49 E.23234 G1 X130.206 Y45.262 E.23226
This would allow the second extruder to advance the next layer's filament at once. This would work as well, but currently, the print would pause while the F-axis "extruded" the next layer's filament.
So our question is, with the new multiple motion system or anything existing, is there a way for commands to be executed out of process from the primary job's gCode stream?
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@oozebot said in Beta testers for multiple motion system support:
So our question is, with the new multiple motion system or anything existing, is there a way for commands to be executed out of process from the primary job's gCode stream?
It looks like timing isn't critical for that application, so you could use the daemon.g file to run the filament unwinder.
A problem I can see is that any error in the relative steps/mm of the two motors will cause the reel to unwind either too fast or too slowly. Have you considered using a switch to detect tension in the filament, and using it to run a DC motor to unwind the spool for a few seconds?
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PS - I am currently testing and debugging the multiple motion support, and I hope to release 3.5beta1 soon.
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@dc42 The idea would be to advance F some amount (~100mm) at the beginning of the print so it is considerably ahead of E. We also have it worked out where there won't be any tension between the extruders.
So gCode executed by the daemon is out of process? We'll consider how we can cleanly get this information piped over to it. Thinking 'out loud,' from the job's gCode, we could call a custom mCode with the F value as a parameter. That mCode's job could be to convert the F-value into something consumable for the daemon. This would be a great use case for Arrays.. looking forward to that being introduced.
Thanks!
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@oozebot alternatively you could have daemon.g monitor the rawPosition or position value for the extruder concerned. Those values are available in the object model.
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@dc42 good call. Sorry to semi-hijack this thread, but can you please take a look at the following snippet? It works from daemon.g, but it is pausing the print when the C axis is moved. I thought this would be out of process from the job?
Hopefully I'm doing something wrong.. If not, would this scenario be supported by the update for multiple motion systems?
var rawExtrusion = 0 if job.rawExtrusion == null set global.spoolPosition = 0 else set var.rawExtrusion = job.rawExtrusion if var.rawExtrusion > global.spoolPosition + 100 G1 C{var.rawExtrusion - global.spoolPosition} F1000 set global.spoolPosition = var.rawExtrusion G92 C0
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I don't have the modern Duet boards to make use of this code, but it's still exciting to hear that this is coming along.
Today I released a complete open-source Dual-Gantry CoreXY printer called Dueling Zero, w/configs, STLs, videos, CAD, docs, diagrams, the whole nine yards. The GitHub repo includes a sample RRF config for XY motion, which "just worked"... it was nice.
https://github.com/zruncho3d/DuelingZero/
Curious what you (and others on this thread) think. In particular, the section on collision detection and avoidance in a shared workspace is general for any firmware.
https://github.com/zruncho3d/DuelingZero/blob/main/SOFTWARE.md
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@zruncho the RRF 3.5-dev branch now includes basic collision avoidance. See https://reprap.org/wiki/G-code#M597:_Collision_avoidance. Currently this is limited to checking for a minimum separation between one pair of axes, which is sufficient for IDEXY machines; but I have implemented it in a manner that allows it to be easily extended in future.
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@dc42 said in Beta testers for multiple motion system support:
If I understand the G-code description, though, this seems like more of a "collision detect & then abort" than proactive avoidance?
"If this is not the case, the job will be aborted prior to starting the first move that would cause the conflict."
Still useful though! If I had this it would have avoided a few head crashes.
BTW, have you seen any other Dual Gantry machines printing? The Links section at the bottom of the README links to every bit of prior art I could find - mostly gantry renders for post (here), or one commercial model, the Essentium HD 280i.
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@oozebot said in Beta testers for multiple motion system support:
@dc42 good call. Sorry to semi-hijack this thread, but can you please take a look at the following snippet? It works from daemon.g, but it is pausing the print when the C axis is moved. I thought this would be out of process from the job?
There is only a single motion system in the current RRF, so the C axis movement has to be inserted into that queue.
Furthermore, the G92 C0 command will wait until all pending movement has been completed and there is no movement before it executes. You may get better results if you can rewrite that code without using G92 C0, but there will still be slight pauses.
Hopefully I'm doing something wrong.. If not, would this scenario be supported by the update for multiple motion systems?
Yes.
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@zruncho said in Beta testers for multiple motion system support:
If I understand the G-code description, though, this seems like more of a "collision detect & then abort" than proactive avoidance?
Correct. It's up to the slicer to do proactive avoidance. The collision detection is there as a backup.
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@dc42 With a dual gcode stream, would it be possible to run a "colour-splicer" machine?
The idea is to use a single Bowden tube hotend and feed it with filament cutoffs of different colours.
The cutoff length would be calculated by checking the gcode for tool changes. (the toolchange macros are basically for cutting off the current filament and feed forward the next colour)
The "length of the Bowden tube X extrusion speed " would determine the time it takes before colour "X" reaches the nozzle and the second gcode stream would do the motion planning with a fixed delay between splicing and extruding. -
I considered this a while ago for CNC machining: https://fightpc.blogspot.com/2017/10/getting-work-done-faster-on-cnc-machine.html
More than going for a self-scheduling system handling collisions, I went for a simpler system where both heads will swipe space from "left to right" keeping a safe distance. But I never went beyond the concept. In my case, each head could have a different Z height.
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I finally got time today to work on this again. Here's an example of multiple motion systems in operation. https://www.dropbox.com/s/v18lgomkg44ald9/20221101_223148.mp4?dl=0
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@dc42 any updates? Also was wondering if there is capability in independent z axis as well?