what i found with my nylon sls shuttle is that it behaves the same when heat soaked, also becomes more loose. (same to your aluminum) my next try will be to print all the docking components in ASA GF, maybe that keeps stuff rigid ^^
@Viesturs: I really like your tapchanger, but what I don't get is, how do you clamp your belts on the shuttle? There is no way to loop them anywhere? Do I have to cut them on any length and just clamp them under the shuttle? If I then tension them, will they not rip out? Would be great to get some feedback about this.
Interesting update. But how do you probe z, if its not clicking back by itself? Is the movement while probing so little, that it moves back or am i missing something here? Greetings....
the clicking is it clicking into the rail, flexing a little if it was without magnets thered be 3mm or so linear movement without resistance, and then a small bump to overcome, and then the tool would drop out. the 3mm linear motion is whats used for tapping.
there are CANbus splitters to help you, but with CANbus, you can run them all into one port, it detects the different boards on the other end regardless
IS there a way to align all the nozzles? Could you show it? All heads are not the same so there will be X Y and Z offset for each toolheat, how do you aling them?
Lots more videos please
what i found with my nylon sls shuttle is that it behaves the same when heat soaked, also becomes more loose. (same to your aluminum)
my next try will be to print all the docking components in ASA GF, maybe that keeps stuff rigid ^^
@Viesturs: I really like your tapchanger, but what I don't get is, how do you clamp your belts on the shuttle? There is no way to loop them anywhere? Do I have to cut them on any length and just clamp them under the shuttle? If I then tension them, will they not rip out? Would be great to get some feedback about this.
Interesting update.
But how do you probe z, if its not clicking back by itself? Is the movement while probing so little, that it moves back or am i missing something here?
Greetings....
the clicking is it clicking into the rail, flexing a little
if it was without magnets thered be 3mm or so linear movement without resistance, and then a small bump to overcome, and then the tool would drop out.
the 3mm linear motion is whats used for tapping.
What extruders do you use? Each of these toolheads use canbus, right? What motherboards support multiple of these?
I am interested in the extruder too. Looks like HGX Lite gears. Regarding CAN bus, i think all toolhead boards are on the same CAN bus.
@@Alterproll I mean the other end. What controls these 6 extruders via CAN?
there are CANbus splitters to help you, but with CANbus, you can run them all into one port, it detects the different boards on the other end regardless
@@Mintor94 Some Usb-can board i would bet. I am using FYSETC UCAN. Under 7$ on ali and very easy to use (gets plugged into the Raspi).
For example the BTT Manta M8P has an integrated Can Board, no need for an additional one.
IS there a way to align all the nozzles? Could you show it? All heads are not the same so there will be X Y and Z offset for each toolheat, how do you aling them?
nudge probe, klipper machine vision nozzle alignment or similas
@@woutervossebeld4664 thanks!
great clicking
sound let's after some heat soak how it handle the stress
If it's real PC should be absolutely fine. Heat deflection temp is 147c
@@josejimenez896 that is really rare, most PC filaments are blends and have around 90-110 HDT unfortunately.
@@riba2233 then don't buy shit blends lmao
@@josejimenez896 but 90% of PC filaments you can buy are like that... So idk what to do lol
@@riba2233 read a TDS sheet lmao. If the build plate heated temps are anything less than 110 or 280 for the hotend, it's a blend. That simple