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vertex.scad
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vertex.scad
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include <configuration.scad>;
$fn = 24;
roundness = 6;
module extrusion_cutout(h, extra) {
difference() {
cube([extrusion+extra, extrusion+extra, h], center=true);
for (a = [0:90:359]) rotate([0, 0, a]) {
translate([extrusion/2, 0, 0])
cube([6, 2.5, h+1], center=true);
}
}
}
module screw_socket() {
cylinder(r=m3_wide_radius, h=20, center=true);
translate([0, 0, 3.8]) cylinder(r=3.5, h=5);
}
module screw_socket_cone() {
union() {
screw_socket();
scale([1, 1, -1]) cylinder(r1=4, r2=7, h=4);
}
}
module vertex(height, idler_offset, idler_space) {
union() {
// Pads to improve print bed adhesion for slim ends.
translate([-37.5, 52.2, -height/2]) cylinder(r=8, h=0.5);
translate([37.5, 52.2, -height/2]) cylinder(r=8, h=0.5);
difference() {
union() {
intersection() {
translate([0, 22, 0])
cylinder(r=36, h=height, center=true, $fn=60);
translate([0, -37, 0]) rotate([0, 0, 30])
cylinder(r=50, h=height+1, center=true, $fn=6);
}
translate([0, 38, 0]) intersection() {
rotate([0, 0, -90])
cylinder(r=55, h=height, center=true, $fn=3);
translate([0, 10, 0])
cube([100, 100, 2*height], center=true);
translate([0, -10, 0]) rotate([0, 0, 30])
cylinder(r=55, h=height+1, center=true, $fn=6);
}
}
difference() {
translate([0, 58, 0]) minkowski() {
intersection() {
rotate([0, 0, -90])
cylinder(r=55, h=height, center=true, $fn=3);
translate([0, -32, 0])
cube([100, 16, 2*height], center=true);
}
cylinder(r=roundness, h=1, center=true);
}
// Idler support cones.
translate([0, 26+idler_offset-30, 0]) rotate([-90, 0, 0])
cylinder(r1=30, r2=2, h=30-idler_space/2);
translate([0, 26+idler_offset+30, 0]) rotate([90, 0, 0])
cylinder(r1=30, r2=2, h=30-idler_space/2);
}
translate([0, 58, 0]) minkowski() {
intersection() {
rotate([0, 0, -90])
cylinder(r=55, h=height, center=true, $fn=3);
translate([0, 7, 0])
cube([100, 30, 2*height], center=true);
}
cylinder(r=roundness, h=1, center=true);
}
extrusion_cutout(height+10, 2*extra_radius);
for (z = [0:30:height]) {
translate([0, -7.5-extra_radius, z+7.5-height/2]) rotate([90, 0, 0])
screw_socket_cone();
for (a = [-1, 1]) {
rotate([0, 0, 30*a]) translate([-16*a, 111, z+7.5-height/2]) {
// % rotate([90, 0, 0]) extrusion_cutout(200, 0);
// Screw sockets.
for (y = [-88, -44]) {
translate([a*7.5, y, 0]) rotate([0, a*90, 0]) screw_socket();
}
// Nut tunnels.
for (z = [-1, 1]) {
scale([1, 1, z]) translate([0, -100, 3]) minkowski() {
rotate([0, 0, -a*30]) cylinder(r=4, h=16, $fn=6);
cube([0.1, 5, 0.1], center=true);
}
}
}
}
}
}
}
}
translate([0, 0, 7.5]) vertex(15, idler_offset=0, idler_space=10);