This is cool. 3d printers are a but pricey, but I hear a lot of libraries have 3d printers you can use. Normalizing easy replacement parts like that could be great.
I’ve been on this train for a while that governmental organizations like the Bureau of Consumer Protections needs to have a site where all manuals, blue-prints, and technical specs need to be required to sell consumer products. I want to be able to 3d print or easily provide a machining service with the specs for a part ESPECIALLY when the original manufactures discontinue any type of support.
Same goes for all software or digital services that someone has purchased but the company folds or discontinues. I should be able to run my own servers or basic services off my own setup when that company no longer provides what I paid for.
I bet there would be a carve out for anything particularly unsafe, like high voltage equipment or whatever.
Cue: the new Braun toothbrush, now with a 450v battery system for ultimate cleaning power.
Cool idea, but also basically the worst shape to use a 3D printer for. Those things will crumble as soon as they experience any sort of real world load in a slightly wrong direction.
There’s not much reason for a trimmer guide to experience meaningful load.
Pretty sure these would break just from sliding it on and off, getting it caught on beard hair or skin or dropping it from a like 30cm.
I don’t know what you’ve experienced, but I have been 3d printing things for about 6 years now. With any decently tuned printer, these would be fine for the use they will get. I have the one razor they have released a part for, and the 3d printed parts are not going to experience much in the way of force that would separate the layers. It doesn’t help that I don’t think they followed their own guidelines when printing the examples. The layer height is huge which makes the layer lines stand out. I bet that was so they could more easily be identified as 3d printed with an FDM printer, but it looks really bad.
I just measured the red ones original dimensions with calipers and the individual comb parts have 0.5mm at their thinnest and 1mm at their thickest. My 3D printing is not perfect, but i just dont see how that is gonna survive. Maybe i will try on the weekend and let you know how it went.
I’ll give it a shot too, since I have the razor for the one model they have released
https://www.printables.com/model/1289421-philips-fixables-oneblade-1-3mm-comb
It looks like they made those thin sections roughly 2x wider in the stl files to strengthen it. That makes me a little more optimistic.
It was a super fast print (about 16 minutes) so I went ahead. I think it’ll be fine, and I even had a random layer issue on the back side. Put it on the razor, and it used the angle of the blade to lock it in place, so I don’t think there will be much issue.
Lemmy is not letting me upload images on mobile, but I’ll see if I can do it on desktop
What kind of “real world load” are you putting on your trimmer? Mine barely ever gets caught in hair, and when it does, the hair gets cut before it can apply any meaningful amount of force to the trimmer guard.
This is great.
That’s quite nice, I’d say
