wolfwood

joined 1 year ago
[–] wolfwood@lemmy.world 4 points 1 year ago (1 children)

the readme says that your firmware enables pullups on clock and data lines but i don't see that code in your keymap?

[–] wolfwood@lemmy.world 2 points 1 year ago

you can also tip over a cube() by 45° and difference it from your object to take off an edge.

[–] wolfwood@lemmy.world 1 points 1 year ago

hull() between 2 cubes would be my strategy for rhombo

[–] wolfwood@lemmy.world 2 points 1 year ago (1 children)

I've been printing sculpted palm rest prototypes in ninjaflex, because i had some on hand, but if i were you I'd buy ninjatek's Chinchilla. 75A and tested for skin compatibility.

i think its a reasonable idea, the TPU seals in air so its like a pool inflatable. TPU likes lower layer heights and you can get away with 5% infill but any less and the top surface will have holes in it and loose that pillowy feel. might need to go higher for a smoother surface. I recommend a non-crossing infill (otherwise you get blobs on the nozzle that will ruin your surface feel) and one that alternates directions, rather than stacking lines, so that the infill has more give. i tried gyroid at first, but 3D honeycomb was noticably softer because it alternates.

also, avoid sharp edges and corners in your design and slope the sides, don't have them vertical. this will also increase the softness

[–] wolfwood@lemmy.world 1 points 1 year ago* (last edited 1 year ago)

I've been printing sculpted palm rest prototypes in ninjaflex, because i had some on hand, but if i were you I'd buy ninjatek's Chinchilla. 75A and tested for skin compatibility.

i think its a reasonable idea, the TPU seals in air so its like a pool inflatable. TPU likes lower layer heights and you can get away with 5% infill but any less and the top surface will have holes in it and lose that pillowy feel. might need to go higher for a smoother surface. I recommend a non-crossing infill (otherwise you get blobs on the nozzle that will ruin your surface feel) and one that alternates directions, rather than stacking lines, so that the infill has more give. i tried gyroid at first, but 3D honeycomb was noticably softer because it alternates.

[–] wolfwood@lemmy.world 3 points 1 year ago* (last edited 1 year ago) (1 children)

https://github.com/wolfwood/navcaps

you can 3d print an adapter to place a thumbstick in an MX keyplate socket. and keycaps. 5 way switches tend to require more force than regular keyswitches, but a longer stem will offset that.

check out schiller's fulcrum keyboard as well.

[–] wolfwood@lemmy.world 2 points 1 year ago* (last edited 1 year ago)

absolutely recommend. i use the fine bevel (cone truncated at an angle) and regular? chisel tips. i don't really like rounded cone tips, not enough surface contact.

do get the silicone usb cable, so you can solder with a (65W for full output) USB-C battery pack or charger.

there are some great 3D printable carrying cases too.

only caveat is the thing is so light, bumping the cable can knock it loose from a stand if its not enclosed.

also, don't listen to peeps who say they don't even tighten the screw when swapping tips. really bad idea.

[–] wolfwood@lemmy.world 1 points 1 year ago

check out the santoku for a 40% split with trackpoint. otherwise there's lots of custom builds with trackpoints. recently there's an experimental zmk driver, etc.

[–] wolfwood@lemmy.world 1 points 1 year ago (2 children)

trackpoint!

[–] wolfwood@lemmy.world 6 points 1 year ago* (last edited 1 year ago) (4 children)

my suggestion is to use a skeleton-edition style case so you print the minimum amount needed, and reuse the base plate. ie print only thumb plate til you get the position close, etc.

I've build a framework for this approach: https://github.com/wolfwood/tryadactyl

trying to link the keyboard parameters to measurable features of your hand helps some, but honestly there's no substitute for typing on it and realizing what you don't like :)

i've has a recent breakthrough (implementing hierarchical/delegated column placement) that makes merging multiple plates with differing centers of rotation just work when switching from an open case style to a closed case.

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