Hollow shaft extruder
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@breed around 40grams, but it has only 1/10th of the holding torque as Tom already mentioned. It could become interesting for thinner filament or with a planetary gear
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@zero-K It pushes the point where unmelted filament starts to clog the nozzle to a higher speed. Below that speed my experience with a CHT clone is that it actually increases back-pressure. This is not surprising because increased surface area should be expected to cause increased drag. And with the clone CHTs there is a big flat face in the middle of the 3 holes that almost blocks filament flow. Until you file it away, that is.
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I have a moment to give the long answer now: the bearings cut a spiral groove around the filament.
Imagine that groove as a line on a thin straw shape 1.75mm in diameter. If you split the straw lengthwise and flatten it out the helix will become a series of lines sloped at 20° (or whatever the cant angle of the bearings is). The width of the flattened straw is 1.75mm x pi. Hopefully it is fairly easy to see that the vertical distance between each line is therefore tan(20) * 1.75mm * pi. Which is about 2mm.
For reasons I mentioned above you don't actually get the theoretical pitch. In practice I am presently getting about 1.55mm at "normal" printing speeds (by which I mean anything up to about 100mm/s).
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Thank You, now ist der Groschen gefallen - can´t explain in in english.
I think, I understand it and can find the starting for the setups.Greetings
zero k -
ist der Groschen gefallen
@zero-K Curiously, the phrase translates directly into English and means the same thing. We say "the penny has dropped".
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@breed 1.75mm comes from weed trimmer wire IIRC.
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@oliof yep that could be. Didn't think of that.
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I couldn't resist and tested the NEMA08 motor with filament:
YT-shortIt looks like it's made for it, but as expected the torque is too low.
Maybe with a pushing stationary BLDC motor with limitted torque? SimpleFOC is pretty good with torque control. And the weight of the sensor/driver and step/dir controller (rp2040) wouldn't matter anymore because it's stationary.
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Hi
OK, compared with yours, it will be something like a monster hollow shaft extruder.
But the first step is done, some parts didn´t arrive yet, may be til next weekend.Gruß, zero K
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Been playing around this week in cad. 8mm roller would have to be made on a lathe. 683 bearings. Would make a 2mm lead 2 start thread on the filament. https://www.printables.com/model/573540-extruder-8mm-quick-release
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@breed That's an interesting approach. The front door is very nice!
But given the relative high RPM we'd need for extruding, I'd prefer a perfectly balanced design, without the knurled screw.
The roller has two bearings inside, I guess , but I don't see a shaft for them?I've made a few suggestions in a quick sketch.
- raise the screw to align with the bearings for equal clamping forces ( red cross marks the spot )
- the cut in the door for the filament is a weak spot in the door. Clamping forces might bend the door and make the bearings contact each other.
I enforced the door on the outside to have same thickness all around. ( grey semicircle )
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@o_lampe The bearings in the door seem to be misoriented- the filament isn't going to be rotating, is it? Also, the threaded insert in the body is going to get jacked out of the body by the spring force on the screw. I think a nut on the back side of the body would be a better way to go. How are you going to rotate the filament drive screw?
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@mrehorstdmd said in Hollow shaft extruder:
How are you going to rotate the filament drive screw?
The whole part is mounted on the stepper shaft and rotates. That's why I'm worried about the knurled screw being a substantial offcenter mass...
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@o_lampe I see. I thought the screw was the only rotating part. Interesting approach- much easier to fabricate compared to the designs in the posts above.
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@mrehorstdmd said in Hollow shaft extruder:
much easier to fabricate compared to the designs in the posts above.
Yes it is, although you'd need a lathe to make the screw. Same problem as most other screw extruder designs.
I'm also unsure, if the pressure bearings add some extra friction, because they don't roll off in line with the filament motion.
All other designs have the same cant angle for all bearings/screws for a reason. -
@o_lampe I didn't consider the filament path being a spot where it might flex, that's a good point. The non canted bearings in the door, I considered trying to find a way of adding a 20 degree angle, but then I got to thinking that would decrease the length that the filament is backed and pushed firmly into the groved roller. That length is already limited by the angle of the grooved roller. The shaft for the roller I was intending to be 3mm carbon rod. The bolt and spring for the door is offset because the outer frame is actually 2 pieces so the roller assembly can be inserted. I have a couple different designs I'm playing with in cad and have ordered some sls parts to mess with. Waiting currently on shoulder bolts from China, apparently the boat must be stuck in a canal somewhere. As far as balancing I could prob get it close by calculating up the individual pieces with their specifical gravity and get close. I don't know if I'll try and make this, I might, just figured I'd throw it out for people to think about.
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updated on printables
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@breed That looks better. If you want to counterbalance the hinge-bolt, you might want to put the two clamping bolts to the back and use inserts in the door?
But you'll need some fine tuning anyway, I guess. No one likes horizontal vibrations on his effector. -
May be PEEK countersunk head screws are an option for this.
Gruß, zero K