AUTO_CALCULATE = -1;
+acorn_parts = [ "body", "cap", "gasket" ];
+
internal_thread_tolerance = 0.3;
external_thread_tolerance = 0.2;
thread_angle = 50;
+
+function contains (x, lst) = len([ for (i = lst) if (x == i) i]) > 0;
+
+// dome module from https://github.com/Sembiance/common/blob/master/openscad/dome.scad, Public Domain
+module dome(d=5, h=2, hollow=false, wallWidth=0.5) {
+ sphereRadius = (pow(h, 2) + pow((d/2), 2) ) / (2*h);
+ translate([0, 0, (sphereRadius-h)*-1]) {
+ difference() {
+ sphere(sphereRadius);
+ translate([0, 0, -h]) cube([2*sphereRadius, 2*sphereRadius, 2*sphereRadius], center=true);
+ if(hollow) sphere(sphereRadius-wallWidth);
+ }
+ }
+}
+
module acorn (thread_pitch = 3.0,
thread_size = 2.5,
thread_height = 3.5,
thread_tooth_height = (thread_tooth_height == AUTO_CALCULATE) ? ((thread_pitch - 0.4 > 0) ? thread_pitch - 0.4 : thread_pitch) : thread_tooth_height;
base_height = (base_height == AUTO_CALCULATE) ? inner_d : base_height;
+ echo ("outer_d = ", outer_d);
+
module acorn_thread (outer_d = outer_d, internal = false, ring = true) {
if (internal) {
}
- module cap_keychain_holes (hole_d=3, spacing=15 /*12*/) {
+ module cap_keychain_holes (hole_d=3, spacing=12) {
h=100;
translate ([-spacing/2, 0, 0]) cylinder (d=hole_d, h=h, $fs=0.1);
translate ([spacing/2, 0, 0]) cylinder (d=hole_d, h=h, $fs=0.1);
}
- module cap () {
- scale_f = outer_d / 171;
+ module cap (model="3D/RaleighAcorn_Filled_simple.stl", native_d = 168) {
+ scale_f = outer_d / native_d; //168;
+ echo ("scale_f = ", scale_f);
difference () {
scale ([scale_f, scale_f, scale_f]) {
difference () {
union () {
- translate ([0, 0, -1]) import ("Acorn_Unthreaded/cap_reduced.stl");
+ translate ([0, 0, -1]) import (model);
echo ("h = ", thread_height/scale_f);
- cylinder (d = 180, h=thread_height/scale_f);
}
+ // todo: only makes sense for RaleighAcorn, fix in original model...
translate ([0, 0, -0.51]) cube ([200, 200, 1], center=true);
}
}
if (keychain) cap_keychain_holes ();
- acorn_thread (internal = true, ring = false);
+
+ // hollow it out (make parametric later, this is pretty ugly now, but calc seems to be ok for RaleighAcorn)
+ diam_to_height_ratio = 3.2;
+ dome_h = outer_d / diam_to_height_ratio - thread_height;
+ echo ("dome_h = ", dome_h);
+ difference () {
+ translate ([0, 0, thread_height-0.01]) dome (d=outer_d, h=dome_h);
+ }
+
+
+ translate ([0, 0, -0.01]) acorn_thread (internal = true, ring = false);
}
}
}
module nuts () {
- translate ([outer_d+10, 0, 0,]) nut ();
- cap ();
- translate ([-(outer_d+10), 0, 0,]) gasket ();
+ if (contains ("body", acorn_parts))
+ translate ([outer_d+10, 0, 0,]) nut ();
+ if (contains ("cap", acorn_parts))
+ cap (native_d=167);//model="3D/RaleighAcorn_ExaggeratedCap_Decimated.stl", native_d = 178);
+ if (contains ("gasket", acorn_parts))
+ translate ([-(outer_d+10), 0, 0,]) gasket ();
}
nuts ();
}
-$fs = 1;
-$fa = 1;
+//$fs = 1;
+//$fa = 1;
+
+acorn_parts = [ "cap"];
-acorn ();
+//acorn ();
+huge_acorn ();
+
+module huge_acorn () {
+ acorn (inner_d=100, base_height=80,
+ thread_size=4, thread_pitch=4, thread_height=8,
+ keychain=false);
+}