Schönes video😁der Anfang hat mich gekillt🤣🤣.Bringst du auch noch dieses Jahr das Video über deinen Maschinenpark🤔?Würde zugern sehen was du alles hast😁
A "How to choose X component for your machine" video series would really be nice. Sometimes there is a criteria one just didn't consider properly or simply missed. Like you said, ball screws are a good start, but a short piece on motor couplings would be appreciated.
With a an inexpensive diamond hole saw bit you can drill and place your own inserts, that gives you a lot more flexibility in design. I'm looking forward to seeing what you come up with!
Yeah that would be one option. But in this case even the granite beams are pre tensioned with steel bars to get the last micron out of them. I dont want to mess with that system. I've got something different in mind...
Would definitely watch all the videos, but the most interesting thing is the designing steps, what to start with, start on paper or right in CAD.. Really struggling with this.
I never stumbled upon this until now. It looks interesting, and the machine itself is certanly an impressive piece of engineering, but frankly I'm not sure that this type of machine is a good candidate to repurpose as a 3D printer. Its tolerances are probably a magnitude or two of order than those for 3D printed plastic, and I don't see how this could be changed no matter what changes you apply to it. Anyway, it seems to me that this machine could more succesfully be used as a basis for some special purpose precision mill than the 3D printer. But then again, I haven't seen the videos after this one, otherwise posting here would feel like cheating. And after all, such an opportunity to make a complete fool of myself doesn't present itself every day;) I hope I'm wrong and am not seing clearly...
The whole air bearing system is factory installed and alignment has been checked just a year before I bought the machine be a different company. I just replaced the air hoses for maintenance
