The (imo) versitile OneBlade Wall Mount (for Philips OneBlade Face & Body). Precisely modeled for tight tolerances for friction fitting multiple accessories onto a space saving wall mount (pressure fit/interference fit).
No supports needed.
This OneBlade wall mount adapts to your needs:
It fits up to 8 blades but each of the “regular” blade slots can be fitted with an optional “holder” (seperate model, can be found twice on Print Plate 2) to mount accessories like “skin guard (QP610/50)” and “body comb (QP610/50)”.
All slots are “regular” slots except the top right one used for the nose trimmer.
The model also offers a dedicated mount for an “OneBlade Comb (CP1789)”
Additionally it also sports a holder for
an “OneBlade Protective cap (CP1787)” (top left slot),
To attach this holder to a wall (or in my case cabinet door), I recommend adhesive strips such as Tesa Powerstrips.
Please note: Spare blades are not held in the individual slots by their two stems (highlighted red in the picture below; which tend to bend and break easily) or the round “transmission” in the middle (also red), but rather by their base plate (green) via friction, as it is more robust. Therefore slightly pushing a blade into the slot will hold a blade in place by creating friction between the base plate and the raised edge of a slot.
Printing Guide:
I recommend (have tested) PLA, PLA+. PETG should of course work as well.
0.20mm layer height works well, printed with 0.4mm Nozzle.
No more than the default 2 walls. You don't need more. The more walls you print, the more issues with accuracy and friction fitting you will have.
Default order of walls (inner/outer).
Gyroid Infill 15%.
I highly recommend printing the “test model” first to check tolerances, accuracy and the calibration of your printer. If your printer is well calibrated, the printed wall mount should hold everything even when held upside down (see picture)
Thanks for your feedback! Glad you like it!
Spare blades are not held in the individual slots by their two stems (highlighted red in the picture below; which tend to bend and break easily) or the round “transmission” in the middle (also red), but rather by their base plate (green) via friction, as it is more robust. Therefore slightly pushing a blade into the slot will hold a blade in place by creating friction between the base plate and the raised edge of a slot.