I ran across this hand-in-hand clock design http://www.instructables.com/id/Hand-In-Hand-Skeleton-Clock/, and I thought it would be more fun as a purely mechanical mechanism. My model uses a 15 tooth, Graham-style escapement and a 480g drive weight. Shafts are 2mm save the two bottom ones which are 3mm. The pendulum is a 6mm aluminum tube that may be adjusted up and down in its mount. It has not stopped on me yet when I've had it running, though accuracy is not the greatest.
Though it works very smoothly at present, the clock is still a work in progress. It requires the following improvements:
Most of the gears and the anchor are printed at two perimeters with zero percent infill. All frame pieces and the drum assembly are at 30%.
Update: I uploaded a DXF of the gears that I used. One can offset them to add more or less slop into the gear train based on how your printer performs.
| 15tesc.stl | 487.0KB | |
| 15tgear.stl | 498.4KB | |
| 25tgear15tpinion.stl | 987.4KB | |
| 33tgear15tpinion.stl | 1.1MB | |
| 40tgear10tpinion.stl | 874.0KB | |
| 42tgear.stl | 556.1KB | |
| 45tgear.stl | 708.0KB | |
| 48tgear18tpiniondrum.stl | 1.5MB | |
| 48tgearouterdrum.stl | 999.2KB | |
| 50tgear10tpinion.stl | 973.7KB | |
| 60tgear12tpinion.stl | 1.2MB | |
| anchor15t.stl | 144.4KB | |
| anchoradaptercompoundrod.stl | 57.2KB | |
| bframe1.stl | 581.6KB | |
| bframe2.stl | 210.1KB | |
| esc10tpinion.stl | 338.8KB | |
| frame-anchor.stl | 107.0KB | |
| frame-front.stl | 378.5KB | |
| frame-front2.stl | 104.2KB | |
| frame-ring.stl | 233.7KB | |
| handframe.stl | 339.2KB | |
| handinhandgears.DXF | 4.9MB | |
| hourcounterweight.stl | 88.7KB | |
| minutehand.stl | 47.8KB | |
| sprag.stl | 12.1KB |
