Clockwerk – A 3D Printed, Three-Axis Tourbillon

Author: aaddaamm, published on 2016-07-09

Click this button to get the 3D model

Summary

‘Clockwerk’ is a wall hanging kinetic sculpture of a 3-axis tourbillon escapement, and is the world’s first 3D printed multiaxis tourbillon. The mechanism is heavily inspired by Vianney Halter’s wonderful “Deep Space Tourbillon” watch, but adapted for the scale and materials of 3D printing. See the final mechanism in action here.

3-axis tourbillons are beautiful to see in motion, but are some of the most expensive and rare watch components in the world. Watches containing them command prices in the hundreds of thousands USD, and have production volumes in the single digits. What better way to bring this mechanism to the masses than 3D printing?

Now you can have watchmaking’s rarest escapement hanging on your wall!

Clockwerk is made of 99 parts: 34 printed parts, 8 ball bearings, 3 metal shafts, 2 barbell plates, 1 meter of fishing line, and 51 screws.

The model shown here is printed such that each axis is an alternating color for ease of understanding the axis of rotation. The central blue part rotates within the white cage, which rotates within the blue U which rotates within the white bowl.

Note that this is a bit tough to print and assemble, and is not a beginner project.

1.1 Revision Notes:

  • Updated Part Orientations
  • Added Bowl-Top_2 component. I incorrectly thought it was identical to the previous “Bowl” component, but it’s actually slightly different. If you previously printed 2X of the bowl, you’ll need to replace one of those with one of these (sorry).

Print Settings

Printer: FlashForge Creator Pro

Rafts: Doesn’t Matter

Supports: No

Resolution: 0.2mm

Infill: 20%

Notes:

4 solid top & bottom layers.

2 shells.

Full hexigon fill

I don’t personally know any of the companies mentioned, I just find their products to be awesome

Post-Printing

The first thing I recommend is familiarizing yourself with the function of a swiss lever escapement. It’s not necessary to fully understand a tourbillon, or a triple tourbillon, but it is important to understand the swiss lever escapement. This is the most difficult part to assemble, and I can’t fully explain it myself. If you know what an impulse pin, pallet fork, escape wheel, screw balance, and hairspring are (and exactly how they work) then you can skip the next two videos, but otherwise I recommend watching the two escapement videos below until you fully understand them. It also helps to look at the assembly files I’ve included in CAD before assembly to get a better idea of how this all fits together in that area.

Before printing, I also recommend watching the assembly video below. it’s a bit long but gives you a good idea of the complexity of assembly.

Ok, so now you understand lever escapements and roughly how this thing goes together? Awesome! Did you buy all the pieces listed below? Great! Now you’ve got to print your parts. I recommend printing them in stages as you assemble so you don’t end up with lots of useless parts that are out of tolerance. If you find things aren’t fitting as you go, you can adjust fit to future parts before you print them.

First thing while printing is to make sure your parts are all printed flat. If they’re not, go print them again until they are. Cool, now go back to the assembly video below and put it all together. If it’s not working, try double checking that all the parts are assembled properly according to the STEP or Solidworks file I’ve uploaded.

This photo shows the orientation parts should be printed in. Some parts are detailed further in the video.

This 1949 Hamilton Watch Co video is great (on many levels, but important parts start at 3 minutes and end at about 12 minutes). There are a lot of things in there about barrel spring power which are unimportant here, but it’s very important to understand the balance wheel/escape wheel/fork interaction.

This video doesn’t have the retro-chic of the previous one, but it highlights the important parts of the escapement very well.

How I Designed This

This was designed in Solidworks 2016, after many hours spent staring at videos and images of 3-axis tourbillons online. This is actually the first (and so far only) 3-axis tourbillon I’ve seen in person.

Required Parts & Tools

Parts List

All links are my Amazon Affiliate links. Pleas be nice and use them if you build this 🙂

Tools List

  • A 3D printer capable of printing 0.2mm layers, 0.4mm or smaller nozzle, and flat parts. I recommend this one.
  • Something to cut stainless steel shafts (hacksaw, dremel, lathe, etc)
  • Something to smooth the edges of the cut shaft (file, sandpaper)
  • A small file for adjusting one of the 3D printed components
  • A 1.5mm hex driver
  • A hammer
  • Patience; and prefereably a strong knowledge of 3D printing (to get flat parts), 3D modeling (if tolerances need to be adjusted for your printer), and some watchmaking (so you can get it ticking). On my printer, I can get parts that fit together nicely, but it won’t work on everyone’s printer. Some parts will need to be adjusted if prints are too tight or loose. I try to go over the major pain points in the video, but as a heads up, this is not a beginner project.

Inspiration & Acknowledgements

FAQ

Can it tell time?

  • There are no hands for reading time, but the unit works with a counterweight that hangs below the main tourbillon. If you fully wind it and let it go, using another time-telling device you can put some marks on the string every minute (or whatever length you want to time) as it’s running. These should be consistent going forward, and you can then count the marks to know the time that has passed since you started it.

  • The timing rate is adjustable. Put in all 6 screws in the screw balance and the mechanism runs slower. Take the screws out and it runs faster (though you probably need at least 2 or it won’t have the momentum to run). You can further fine tune this by screwing the screws in/out (further in is faster, further out is slower). However there are about 100 other things at that point that will mess with the timing. This is made out of printed plastic so it won’t be super accurate.

Are you going to sell this?

  • Probably not. I’m just one person and selling things takes a lot of effort. But hey, if anyone out there wants to print and sell kits go right ahead! I’ve licensed this to be fully free even for commercial use (and so is the Cristoph Laimer model a couple parts of this are based on) so you just need to give credit when selling it.

License: Creative Commons – Attribution

Tags: 3dprintable, A. C. Wrigley, Adam Wrigley, clock, clockmaking, clockwerk, clockwork, diy, flashforge, gears, horology, kinetic, nosupport, PLA, sculpture, tourbillon, watch, watchmaking