include <./common/common.scad>; include <./common/threads.scad>; Core16mm = 25.5; Socket16mmH = 11; PlatterThickness = 1.6; Platter120m = 178; Thread16mmD = 17.5; Pitch16mm = 1.525; SocketSuper8H = 4; ThreadSuper8D = 21; module rotary_text (TextArr = ["T","e","s","t"], D = 40, CharacterAngle = 15) { Radius = R(D); Chars = len(TextArr); for (i = [0:1:Chars]) { rotate([0, 0, -i * CharacterAngle]) translate([0, Radius, 0]) { scale([0.5, 0.5, 1]) linear_extrude(height = 1) { text(TextArr[i], halign = "center"); } } } } module thread_16mm ( pos = [0, 0, 0], length = 11, chamfer = false, pad = 0) { translate(pos) { if (chamfer) { metric_thread (diameter=Thread16mmD + pad, pitch=Pitch16mm, length=length, internal=false, n_starts=1, thread_size=-1, groove=false, square=false, rectangle=0, angle=30, taper=0, leadin=2, leadfac=1.5); } else { metric_thread (diameter=Thread16mmD + pad, pitch=Pitch16mm, length=length, internal=false, n_starts=1, thread_size=-1, groove=false, square=false, rectangle=0, angle=30, taper=0, leadin=0, leadfac=1.5); } } } module thread_super8 ( pos = [0, 0, 0], length = 6, chamfer = false, pad = 0) { translate(pos) { if (chamfer) { metric_thread (diameter=ThreadSuper8D + pad, pitch=Pitch16mm, length=length, internal=false, n_starts=1, thread_size=-1, groove=false, square=false, rectangle=0, angle=30, taper=0, leadin=2, leadfac=1.5); } else { metric_thread (diameter=ThreadSuper8D + pad, pitch=Pitch16mm, length=length, internal=false, n_starts=1, thread_size=-1, groove=false, square=false, rectangle=0, angle=30, taper=0, leadin=0, leadfac=1.5); } } } module threaded_core (pos = [0, 0, 0], format = "16mm") { $fn = 120; translate (pos) { if (format == "16mm") { union () { cylinder(r = R(Core16mm), h = 6, center = true); thread_16mm([0, 0, 1.5], length = Socket16mmH + 3, chamfer = true, pad = -0.2); } } else if (format == "super8") { union () { cylinder(r = R(Core16mm), h = 4, center = true); thread_super8([0, 0, 0], length = SocketSuper8H + 3, chamfer = true, pad = -0.2); } } } } module socket_core (pos = [0, 0, 0], format = "16mm") { $fn = 120; translate (pos) { if (format == "16mm") { difference () { cylinder(r = R(Core16mm), h = Socket16mmH, center = true); } } else if (format == "super8") { difference () { cylinder(r = R(Core16mm), h = SocketSuper8H, center = true); } } } } module platter (pos = [0, 0, 0], length = 120) { if (length == 120) { difference () { cylinder(r = R(Platter120m), h = PlatterThickness, center = true, $fn = 300); for (i = [0 : 3]) { rotate([0, 0, i * 90]) translate([105 / 2, 0, 0]) cylinder(r = R(44.5), h = PlatterThickness + 1, center = true, $fn = 100); } } } } module split_reel_16mm_A (length = 120) { difference () { union () { difference () { platter([0, 0, 0], length = length); translate([0, 0, -0.5]) rotate([180, 0, 0]) rotate([0, 0, (5 * 3.75) / 2]) rotary_text(["1", "6", "m", "m", " ", " ", "1", "2", "0", "m", "/", "4", "0", "0", "f", "t"], D = Platter120m - 15, CharacterAngle=3.75); } threaded_core([0, 0, (PlatterThickness / 2) + (6 / 2)], format = "16mm"); rotate([0, 0, 135]) translate([18.5, 0, (PlatterThickness / 2) + (4.75 / 2)]) cylinder(r = R(6.25), h = 4.75, center = true, $fn = 60); } cube([8.5, 8.5, 50], center = true); rotate([0, 0, 45]) translate([5.5, 0, 0]) cube([3, 3, 50], center = true); } } module split_reel_16mm_B ( length = 120) { difference () { union () { platter([0, 0, 0], length = length); socket_core([0, 0, (PlatterThickness / 2) + (Socket16mmH / 2)], format = "16mm"); } rotate([180, 0, 0]) scale([1.02, 1.02, 1]) { thread_16mm([0, 0, -13], 15); thread_16mm([0, 0, -13.1], 15); } } } module split_reel_super8_A ( length = 120) { BaseH = 4; NotchH = 2; NotchW = 19; difference () { union () { difference () { platter([0, 0, 0], length = length); translate([0, 0, -0.5]) rotate([180, 0, 0]) rotate([0, 0, (5 * 3.75) / 2]) rotary_text(["S", "u", "p", "e", "r", "8", " ", " ", "1", "2", "0", "m", "/", "4", "0", "0", "f", "t"], D = Platter120m - 15, CharacterAngle=3.75); } threaded_core([0, 0, (PlatterThickness / 2) + (BaseH / 2)], format = "super8"); rotate([0, 0, 135]) translate([18.5, 0, (PlatterThickness / 2) + (NotchH / 2)]) cylinder(r = R(6.25), h = NotchH, center = true, $fn = 60); } cylinder(r = R(13), h = 50, center = true, $fn = 80); for (i = [0 : 2]) { rotate([0, 0, i * (360 / 3)]) translate([NotchW / 4, 0, 0]) cube([NotchW / 2, 2.25, 8], center = true); } } } module split_reel_super8_B ( length = 120) { difference () { union () { platter([0, 0, 0], length = length); socket_core([0, 0, (PlatterThickness / 2) + (SocketSuper8H / 2)], format = "super8"); } rotate([180, 0, 0]) scale([1.02, 1.02, 1]) { thread_super8([0, 0, -13], 15); thread_super8([0, 0, -13.1], 15); } } } //length in meters module split_reel (format = "16mm", length = 120, half = "A") { if (format == "16mm") { if (half == "A") { split_reel_16mm_A(length = length); } else if (half == "B") { split_reel_16mm_B(length = length); } } else if (format == "super8") { if (half == "A") { split_reel_super8_A(length = length); } else if (half == "B") { split_reel_super8_B(length = length); } } } PART = "split_reel_16mm_120m_B"; //intersection () { if (PART == "split_reel_16mm_120m_A") { split_reel("16mm", 120, "A"); } else if (PART == "split_reel_16mm_120m_B") { split_reel("16mm", 120, "B"); } else if (PART == "split_reel_super8_120m_A") { split_reel("super8", 120, "A"); } else if (PART == "split_reel_super8_120m_B") { split_reel("super8", 120, "B"); } //cube([40, 40, 40], center = true); //}