honeycomb-mini-drawer/main.scad
2024-04-07 18:41:25 +02:00

190 lines
2.9 KiB
OpenSCAD

module puzzle_line(a=20, b=15, z=40, h=10) {
render()
difference() {
union() {
cube([1, z, h]);
hull() {
translate([0,(z-a)/2,0])
cube([0.5, a, h]);
translate([1.5,(z-b)/2,0])
cube([0.5, b, h]);
}
}
hull() {
translate([-0.5,(z-(a-1))/2,0])
cube([0.5, (a-1), h]);
translate([0.5,(z-(b-1))/2,0])
cube([0.5, (b-1), h]);
}
}
}
module contour(h=70) {
for(r = [0:5]) {
rotate([0,0,(r+0.5)*60])
translate([10.9,-6.88,0])
{
if( r%2 == 0 ) {
mirror([1,0,0])
translate([-1,0,0])
puzzle_line(5.7, 3.2, z=6.88*2, h=h);
} else {
puzzle_line(4.5, 2.2, z=6.88*2, h=h);
}
}
}
}
module contour_hull(h=1, a=5.7, b=3.2, z=6.88*2, a0=4.5,b0=2.2,z0=6.88*2) {
render()
difference() {
union() {
cylinder(d=27, h=h, $fn=6);
for(r = [0:2]) {
rotate([0,0,r*120-30])
translate([10.9,-6.88,0]) {
hull() {
translate([-0.5,(z0-(a0-1))/2,0])
cube([0.5, (a0-1), h]);
translate([0.5,(z0-(b0-1))/2,0])
cube([0.5, (b0-1), h]);
}
}
}
}
for(r = [0:2]) {
rotate([0,0,30+r*120])
translate([10.9,-6.88,0])
mirror([1,0,0])
translate([-1,0,0])
{
hull() {
translate([-0.5,(z-(a-1))/2,0])
cube([0.5, (a-1), h]);
translate([0.5,(z-(b-1))/2,0])
cube([0.5, (b-1), h]);
}
}
}
}
}
module inner_contour(h=70) {
for(r = [0:5]) {
rotate([0,0,(r+0.5)*60])
translate([10.5-1,-6,0])
{
if( r%2 == 0 ) {
mirror([1,0,0])
translate([-1,0,0])
puzzle_line(6, 4.4, z=6*2, h=h);
} else {
puzzle_line(4.5, 1, z=6*2, h=h);
}
}
}
}
module inner_contour_hull(h=1, a=5.7, b=3.2, z=6.88*2, a0=4.4,b0=2.1,z0=6.88*2) {
render()
union() {
cylinder(d=22.6, h=h, $fn=6);
inner_contour(h=h);
}
}
module front_text(value="220", unit="Ω") {
color([0,0,1])
{
translate([0,4,6])
linear_extrude(8)
text(value, size=6, halign="center", font="+Jakatar");
translate([0,-9,0])
linear_extrude(8)
text(unit, size=10, halign="center", font="+Jakatar");
}
}
module front() {
render()
difference() {
cylinder(d=26.5, h=8, $fn=6);
translate([0,-8,2])
cylinder(d=24, h=6, $fn=6);
translate([0,-3,1])
cylinder(d=20, h=5, $fn=6);
}
}
module inner_color(value, unit, h) {
translate([0,0,h])
render()
intersection(){
front();
front_text(value, unit);
}
}
module inner(value="220", unit="Ω", h=70) {
{
render()
difference()
{
inner_contour(h=h);
translate([-20,4,0])
cube([40, 15, h]);
}
// back
inner_contour_hull();
// front
translate([0,0,h])
{
render()
difference()
{
front();
front_text(value, unit);
}
}
}
}
module outer(h=70) {
translate([0,0,-10])
cylinder(d=15.5, h=10, $fn=6);
contour(h=h);
translate([0,0,0])
contour_hull();
}
translate([0,0,10])
{
color([0.22,0.2,0.2])
inner("220", "Ω", h=70);
color([0.7,0.8,1.0])
inner_color("220", "Ω", h=70);
}
color([0.7, 0.4, 0.4])
outer(h=70);