Sunday, June 8, 2014

The Big Fix for My Revolution XL 3D Printer - Using the CNC Router

After several design problems ultimately led to the conversion of my Revolution XL from a pretty good 3D printer to a paperweight, I stared at it for a time contemplating how I could resurrect it, while turning it into the sort of machine I wish I had bought originally.  Its shortcomings became increasingly apparent with time:

  • Terrible Z-homing repeatability
  •  Hot end heater wires inevitably fail due to motion/metal fatigue at the point of the last nanolink before the wires emerge from the nanolink cable management.
  • When the heater wires fail on the hot end, the extruder gearbox starts to slip, which wears down its gears.  
  • When the gears begin to fail, a clicking sound is substituted for extrusion resulting in a failed print
I loved many aspects of the RXL.  It was well designed, for the most part.  It is extremely rigid and the doubling of the motors was a great touch.  So my mission became to fix this otherwise good but currently useless machine.

I began with the extruder.  It needed replacement.  I decided on a Bowden setup, and because I have wasted so much time over the years on bad extruders and hot-ends, I decided to splurge:  I bought Micron3dp.com's extruder and hot-end together for $300 on eBay.  It struck me as overpriced but it was an irresistably beautiful piece of engineering. But to make this work, I would have a lot of work to do.  It was unfortunate that my silenced 3D-printer was, at-this-point, unable to print its own replacement parts but fortunately, My CNC router in the basement was still functional and ready to cut parts out of 1/8" aluminum plate.

And so my adventure began.

I started off designing (and machining) the new extruder mount.  It turned out that I had to redesign and re-machine 2 of the 5 required parts several times to make them work.  A lot of aluminum plate went into my trials and errors:



Part 1:  The hot-end mount and clamp


It took 4 tries before I got the hot-end mount done right:


The mounting clamp was simpler:

Together, they allow for two of these hot ends to be mounted to the RXL.  I am starting with a single extruder/hot-end but it would be a silly waste of time doing all this without thinking of the future.  I started by removing the old extruder and mounting hardware


Next, I screwed in the mounting clamp:


Then the extruder mount (this was before the redesigns but you get the idea


And so I was able to screw in the new hot end:


To finish this up, I needed to put some work into the hot-end as well.  I replaced its 12v fan with a 24v fan.  I also had to extend all wires and tuck them all into a neat braided sleeving, suggested to me by MacAttak.

Part 2:  The Bowden Extruder Mount

My design:

I removed 2 screws, replaced them with longer ones, and attached this mount to the rear-left-top corner so that the result looked like this:


The wiring was a pain.  I used crimpable, self-soldering butts to connect the heater wires and solder for the rest.  All connections were covered with heat-shrink tubing:


Finally, everything was covered in bigger heat-shrink tubing:


Part 3:  The X-belt connector/X-end-stop trigger

This was the hardest item that I made but the item that I am most proud of designing.  It needed to perform two functions -- to be glueable to the X-axis belt and to trigger the X end-stop.  This was the first project where I needed to score, heat and fold metal, namely 1/8" 6061 aluminum plate.  This was the final CAD design:


Like the mounting plate, I had to design and machine four iterations before I got it right:


Now folded further under the heat of a MAP gas torch:


Now mounted on the X axis with M3 x 10 screws and glued to the X-belt:


Now altogether with the Bowden tube installed:


Here it is, finally in action:


For those of you interested in making the same modification to your RXL,  I offer the following files free for use with the stipulation that you attribute the files and design to me and this blog.  The CAD/CAM files were designed with CamBam, a great and affordable Windows software that I have grown increasingly fond of and that I used to create these parts.  The native CamBam CAD/CAM file and DXF file can be found here.

So far, so good.  Now I need to figure out how to decrease stringing on such a Bowden setup.  I am confident that the Ultimaker community has blazed a sufficient trail for me to follow that I am not too worried.




12 comments:

  1. Did you go with the 12V heater element that came with the Micron?

    ReplyDelete
    Replies
    1. I did and it seems to be working fine, despite being fed with 24v. I don't know how it affected my thermister "tables" but I am sure it did. I am slowly learning the optimum temperatures for PLA and ABS with this setup and I look forward to reporting on my findings shortly.

      Delete
    2. I had changed the PID settings in my firmware but, alas, my heater stopped working last week. I need to go at it with a continuity tester to see where things went wrong. A frayed wire is simpler to replace than a cemented-in cartridge heater.

      Delete
    3. Anything further? When did you get around to changing the PID settings? I would have probably already pulled the trigger on the Micron if didn't have a cemented-in heater element.

      Delete
    4. Could you publish the dimensions for the parts in the dxf file. thanks

      Delete
  2. What did you ever do about the z homing issues?

    ReplyDelete
    Replies
    1. I implemented this fix from Illuminarti:

      http://www.thingiverse.com/thing:168670

      Delete
  3. I had changed the PID settings in my firmware but, alas, my heater stopped working last week.



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