sixteenmillimeter-tools/models/16mm_sprocketed_roller/16mm_sprocketed_roller.scad

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2.6 KiB
OpenSCAD

time = 0;
/**
* 16mm roller with parametric inputs.
* TODO: Make actually parametric
**/
module sprocketed_roller (SPROCKETS = 8) {
echo(SPROCKETS, "SPROCKETS");
if (SPROCKETS < 8) {
echo("WARNING: Minimum suggested number of sprockets is 8");
}
SPROCKET_BASE_D = 19.05;
SPROCKET_BASE_H = 2.7;
INNER_D = 13.98;
INNER_H = 10.6;
TOP_BASE_D = 18.47;
TOP_BASE_H = 2.96;
LIP_D = 18.84;
LIP_H = 0.33;
HOLLOW_D = 4.7;
HOLLOW_BASE_D = 12.01;
HOLLOW_BASE_H = 6.09;
TOP_D = 21.66;
TOP_H = 1.4;
SPROCKET_H = 0.9;
SPROCKET_W = 0.79;
SPROCKET_L = 0.99;
$fn = 100;
//sub module
module sprocket () {
//cube([SPROCKET_L, SPROCKET_W, SPROCKET_H], center = true);
translate ([0, 0, -SPROCKET_H/2]) {
difference () {
translate([0, 0, 0]) scale([1, 1, 2.25]) rotate([90, 0, 90]) cylinder(r = SPROCKET_W/2, h = SPROCKET_L, center = true);
translate([0, 0, -1]) cube([2, 2, 2], center = true);
translate([1.5, 0, 0]) rotate([0, -5, 0]) cube([2, 2, 2], center = true);
translate([-1.5, 0, 0]) rotate([0, 5, 0]) cube([2, 2, 2], center = true);
}
}
}
difference () {
union () {
cylinder(r = SPROCKET_BASE_D / 2, h = SPROCKET_BASE_H, center = true);
translate([0, 0, (INNER_H / 2) + (SPROCKET_BASE_H / 2)]) cylinder(r = INNER_D / 2, h = INNER_H, center = true);
translate([0, 0, (TOP_BASE_H / 2) +INNER_H + (SPROCKET_BASE_H / 2)]) cylinder(r = TOP_BASE_D / 2, h = TOP_BASE_H, center = true);
translate([0, 0, (TOP_BASE_H / 2) + INNER_H + (SPROCKET_BASE_H / 2) - (TOP_BASE_H / 2) + (LIP_H / 2)]) cylinder(r = LIP_D / 2, h = LIP_H, center = true);
translate([0, 0, (TOP_BASE_H / 2) + INNER_H + (SPROCKET_BASE_H / 2) + (TOP_BASE_H / 2) - (LIP_H / 2)]) cylinder(r = LIP_D / 2, h = LIP_H, center = true);
translate([0, 0, (TOP_H / 2) + (TOP_BASE_H / 2) + INNER_H + (SPROCKET_BASE_H / 2) + (TOP_BASE_H / 2) - (LIP_H / 2)]) cylinder(r = TOP_D / 2, h = TOP_H, center = true);
}
cylinder(r = HOLLOW_D / 2, h = 100, center = true);
translate([0, 0, (HOLLOW_BASE_H / 2) - (SPROCKET_BASE_H / 2)]) cylinder(r = HOLLOW_BASE_D/2, h = HOLLOW_BASE_H + 0.1, center = true);
}
for (i = [0: SPROCKETS]) {
rotate([0, 0, i * (360 / SPROCKETS)]) translate([(SPROCKET_BASE_D / 2) + (SPROCKET_H / 2) - .15, 0, (SPROCKET_BASE_H / 2) - (SPROCKET_L / 2)]) rotate([0, 90, 0]) sprocket();
}
}
rotate([0, 0, time]) sprocketed_roller();