include <./ready.scad> mm_x = [61.5, 21.5, 6, 45.5, 18, 39]; mm_y = [-18, 21, -27.5, -27.5, 7, 39]; mm_r = [110, -15, 0, 0, 0, -70]; mm_l = [13, 9, 0, 0, 0, 8]; //xArray = [-3, 57, 55, 10, -26]; //WITH MIDDLE PIN //yArray = [38, 31, -56, -22, -33]; //WITH MIDDLE PIN xArray = [-3, 57, 55, -26]; //NO MIDDLE PIN yArray = [38, 31, -56, -33]; //NO MIDDLE PIN outerD = 9; innerD = 4.5; height = 17; //panel_x = 129 + 4; //panel_y = 131; panel_2_x = 110; panel_2_y = 110; one_to_one_x = 54.5; one_to_one_y = 12; bolt_inner = 2.55; screw_distance = 31; module m5_nut_void (pos = [0, 0, 0]) { translate(pos) cylinder(r = 9.4 / 2, h = 4, $fn = 6, center = true); } module m5_nut_seat (pos = [0, 0, 0]) { $fn = 40; H = 4; translate(pos) difference () { cylinder(r = 12 / 2, h = H, center = true); cylinder(r = bolt_inner, h = H + 1, center = true); rotate([0, 0, 30]) m5_nut_void([0, 0, -1]); } } module m3_nut_void (pos = [0, 0, 0]) { translate(pos) cylinder(r = 6.7 / 2, h=3, center=true, $fn=6); } module m3_nut_seat (pos = [0, 0, 0]) { $fn = 40; H = 3; translate(pos) difference () { cylinder(r = 8 / 2, h = H, center = true); cylinder(r = 3.25 / 2, h = H + 1, center = true); m3_nut_void([0, 0, -1]); } } module l298N_nut_seats (r = 3/2 - .2, MOD_MOUNT = 0) { DISTANCE = 36.5 + MOD_MOUNT; m3_nut_seat([0, 0, 0]); m3_nut_seat([DISTANCE, 0, 0]); //m3_nut_seat([DISTANCE, DISTANCE, 0]); m3_nut_seat([0, DISTANCE, 0]); } module arduino_nano_mount (pos = [0, 0, 0]) { X = 18.2; Y = 43.9; Z = 10.5; BOARD_Z = 1.5; translate(pos) { difference () { //outer cube([X + 6, Y + 6, Z], center = true); //inner void minus corners difference () { cube([X - 1, Y - 1, Z + 1], center = true); translate([(X / 2) - 1, (Y / 2) - 1, -BOARD_Z]) cylinder(r = R(2), h = Z + 1, center = true, $fn = 20); translate([(-X / 2) + 1, (Y / 2) - 1, -BOARD_Z]) cylinder(r = R(2), h = Z + 1, center = true, $fn = 20); translate([(X / 2) - 1, (-Y / 2) + 1, -BOARD_Z]) cylinder(r = R(2), h = Z + 1, center = true, $fn = 20); translate([(-X / 2) + 1, (-Y / 2) + 1, -BOARD_Z]) cylinder(r = R(2), h = Z + 1, center = true, $fn = 20); } //board void translate([0, 0, (Z / 2) - (BOARD_Z / 2)]) cube([X, Y, BOARD_Z], center = true); //usb void translate([0, Y / 2, (Z / 2) - (6 / 2) + 0.01]) cube([12, 10, 6], center = true); translate([0, -30, 0]) cube([30, 20, 20], center = true); } translate([0, -(Y/2) + 4.5, -2]) cube([X + 5, 5, 2], center = true); } } module usb_mini_void (pos = [0, 0, 0]) { translate(pos) { translate([0, 25, 2]) { cube([8, 10, 5], center = true); translate([0, 5, 0]) cube([12, 10, 8], center = true); } } } module intval_panel_printed () { difference () { union () { intval_panel_laser(0.4); for (i = [0 : len(mm_x) - 1]) { m5_nut_seat([mm_x[i], mm_y[i], 6]); } translate([-38, -1, 7]) rotate([0, 0, -13]) l298N_nut_seats(); translate([0, 0, -0.6]) intval_laser_standoffs(); translate([one_to_one_x, one_to_one_y, 5]) rotate([180, 0, 0]) bearing_reinforcement(); } //onetoone(9, 14, 8.5); bearing(54.5, 12, 6, width= 18, hole=false); //frame_counter_access(); //use the space remove_front(); printed_panel_bolts(); } } module l298N_bolt_voids (r = 3/2 - .2, MOD_MOUNT = 0) { $fn = 60; DISTANCE = 36.5 + MOD_MOUNT; H = 50; translate([0, 0, 0]) cylinder(r = r, h = H * 5, center = true); translate([DISTANCE, 0, 0]) cylinder(r = r, h = H * 5, center = true); translate([DISTANCE, DISTANCE, 0]) cylinder(r = r, h = H * 5, center = true); translate([0, DISTANCE, 0]) cylinder(r = r, h = H * 5, center = true); } module l298N_hole_test () { $fn = 40; difference () { cube([140, 40, 3], center = true); cylinder(r = R(3), h = 50, center = true); for (i = [0 : 3]) { translate([7 + (i * 7), 0, 0]) cylinder(r = R(3) - (0.1 * i), h = 50, center = true); } } } module intval_panel_laser (pad = 0) { $fn = 40; difference () { union () { difference () { translate ([0, 0, 8.5]) { union () { translate([12, -5, 0]) { rotate([0, 0, -13]) { rounded_cube([panel_2_x + 20, panel_2_y, 25.4 / 8], d = 20, center = true); } } } } for (i = [0 : len(xArray) - 1]) { bolex_pin_inner_laser(xArray[i], yArray[i]); } } } bearing_laser(54.5, 12, 6, width= 18, hole=false); translate([-38, -1, 0]) rotate([0, 0, -13]) l298N_bolt_voids(); m_p_access(); remove_front(); translate([6, 18, 0]) rotate([0, 0, -13]) cube([15, 25, 40], center=true); //motor wind key hole for (i = [0 : len(mm_x) - 1]) { translate([mm_x[i], mm_y[i], 0]) cylinder(r = bolt_inner, h = 100, center = true); } translate([0, 0, 0.3]) scale([1, 1, 1]) intval_laser_panel_cover(PAD = pad, BOLTS = false); } } module intval_panel_laser_debug () { $fn = 40; difference () { union () { difference () { translate ([0, 0, 8.5]) { union () { translate([-20.5, 4, 0]) { rotate([0, 0, -13]) { rounded_cube([panel_2_x + 85, panel_2_y, 25.4 / 8], d = 20, center = true); } } //reinforces //translate([54, -12, -3]) rotate([0, 0, 89]) rounded_cube([110, 20, 4], 20, center = true); //translate([-17, 2, -3]) rotate([0, 0, 72]) rounded_cube([94, 13, 4], 13, center = true); } } for (i = [0 : len(xArray) - 1]) { bolex_pin_inner_laser(xArray[i], yArray[i]); } } //onetoone(26, 10, 4.5); //extends for onetoone } //onetoone(9, 14, 8.5); bearing_laser(54.5, 12, 6, width= 18, hole=false); translate([-38, -1, 0]) rotate([0, 0, -13]) l298N_bolt_voids(); //translate ([6, -9, height + 3.5]) cylinder(r = bolt_inner, h = 50, center = true); //cover standoff hole //frame_counter_access(); //use the space m_p_access(); remove_front(); translate([6, 18, 0]) rotate([0, 0, -13]) cube([15, 25, 40], center = true); //motor wind key hole for (i = [0 : len(mm_x) - 1]) { translate([mm_x[i], mm_y[i], 0]) cylinder(r = bolt_inner, h = 100, center = true); } intval_laser_panel_cover(DEBUG = true); translate ([4, 12, 0]) { translate([-51.5, -8.5, 0]) cylinder(r = R(2.8), h = 100, center = true); translate([-117.5, 6.5, 0]) cylinder(r = R(2.8), h = 100, center = true); translate([-40.0, 41, 0]) cylinder(r = R(2.8), h = 100, center = true); translate([-106.0, 56.5, 0]) cylinder(r = R(2.8), h = 100, center = true); } } } module bolex_pin_laser (x, y) { in = innerD; $fn = 120; translate ([x, y, 1]) { difference () { union () { translate([0, 0, (height / 2) - 3]) cylinder(r = R(outerD + 5), h = 2, center = true); translate([0, 0, 1.175/2]) cylinder(r = R(outerD), h = height + 1.175 , center = true); } cylinder(r = in / 2, h = height * 2, center = true); translate([0, 0, (height / 2) - 1.9]) cylinder(r1 = R(4.5), r2 = R(6.7), h = 2, center = true); translate([0, 0, (height / 2) + 1]) cylinder(r = R(6.7), h = 4, center = true); } } } module intval_laser_standoffs () { $fn = 40; for (i = [0 : len(xArray) - 1]) { bolex_pin_laser(xArray[i], yArray[i]); } } module intval_laser_standoffs_plate () { $fn = 40; rotate ([0, 180, 0]) { bolex_pin_laser(0, 0); bolex_pin_laser(15, 0); bolex_pin_laser(0, 15); bolex_pin_laser(15, 15); } //decoys //translate([7, 7, 0]) decoys(23, 5.5, 6); } module bolex_pin_inner_laser (x, y) { $fn = 40; //innerD = 6.75; innerD = 9; translate ([x, y, 1]) { cylinder(r = R(innerD), h = height * 2, center = true); //translate([0, 0, (height / 2) - 1]) cylinder(r1 = R(4.5), r2 = R(6.5), h = 2, center = true); } } module bearing_laser (x, y, z, width= 8, hole = true) { innerD = 8.05; outerD = 21.7; fuzz = 0.1; translate ([x, y, z]) { difference () { cylinder(r = R(outerD) + fuzz, h = width, center = true); if (hole) { cylinder(r = R(innerD) - fuzz, h = width, center = true); } } } } module intval_laser_panel_cover (LASER = false, DEBUG = false, ALL_RED = false, PCB = false, buttons = true, logo = false, DC_D = 10.9, PAD = 0, BOLTS = true, printed = false) { $fn = 60; cover_h = 38; //16 + 3 + 4 + 15; MATERIAL = IN / 8; module top () { difference () { rotate([0, 0, -13]) { rounded_cube([100, panel_2_y, MATERIAL], d = 20, center = true); } translate([53, 12, 0]) cylinder(r = R(60), h = 60, center = true); //hole for motor mount translate([22, 20, 0]) cylinder(r = R(16), h = 60, center = true); // hole for moto mount bolt holder translate([53, 42, 0]) cylinder(r = R(30), h = 60, center = true); //removes pointy part if (!printed) translate([-44, 8, -(cover_h / 2 ) - MATERIAL - 1]) rotate([0, 0, -13]) rotate([0, 90, 0]) back_side(); if (!printed) translate([2, 49, -(cover_h / 2 ) - MATERIAL - 1]) rotate([0, 0, -13]) rotate([90, 0, 0]) top_side(); if (!printed) translate([-22, -45, -(cover_h / 2 ) - MATERIAL - 1]) rotate([0, 0, -13]) rotate([90, 0, 0]) bottom_side(); for (i = [0 : len(xArray) - 2]) { translate([xArray[i], yArray[i], 0]) cylinder(r = R(7), h = height * 20, center = true); //Access for screwdriver } translate([-13.5, 26, 0]) rotate([0, 0, -13]) cube([28, 24, 60], center = true); //heatsink hole translate ([8, -9, height + 3.5]) cylinder(r = bolt_inner - .5, h = 50, center = true); //standoff hole //buttons if (buttons) { translate ([-44, -23, 0]) { rotate ([0, 0, 77]) { if (ALL_RED) { translate([7, -32, 8]) cylinder(r = R(7), h = 190, center = true); translate([7, -19, 8]) cylinder(r = R(7), h = 190, center = true); } else { translate([7, -32, 8]) cylinder(r = R(6.2), h = 190, center = true); translate([7, -19, 8]) cylinder(r = R(6.2), h = 190, center = true); } translate([7, -5, 8]) cylinder(r = R(7), h = 190, center = true); } } } if (logo) { letter_size = 5; letter_height = 2; translate([18, -32, 1]) linear_extrude(height = letter_height) { text("intval 2.2", size = letter_size, font = "Liberation Sans", halign = "center", valign = "center", $fn = 16); } translate([-34, -6, 1]) rotate([0, 0, 60]) linear_extrude(height = letter_height) { text("DIR", size = 4, font = "Liberation Sans", halign = "center", valign = "center", $fn = 16); } translate([-20, -8, 1]) rotate([0, 0, 60]) linear_extrude(height = letter_height) { text("EXP", size = 4, font = "Liberation Sans", halign = "center", valign = "center", $fn = 16); } translate([-6, -11, 1]) rotate([0, 0, 60]) linear_extrude(height = letter_height) { text("DEL", size = 4, font = "Liberation Sans", halign = "center", valign = "center", $fn = 16); } } } } module back_side (PAD = 0) { difference () { translate([0, 1.75, 0]) cube([cover_h + (MATERIAL * 2) + 6, panel_2_y - 10, MATERIAL + PAD], center = true); //top if (!printed) translate([-23.6, -20, 0]) cube([MATERIAL, 20, MATERIAL + PAD + 1], center = true); if (!printed) translate([-23.6, 20, 0]) cube([MATERIAL, 20, MATERIAL + PAD + 1], center = true); //bottom translate([23.6, -20, 0]) cube([MATERIAL, 20 - PAD, MATERIAL + PAD + 1], center = true); translate([23.6, 20, 0]) cube([MATERIAL, 20 - PAD, MATERIAL + PAD + 1], center = true); //access for usb translate([17.5, -22, 0]) cube([10, 15, 30], center = true); if (!printed) translate([0, 50.5, 0]) cube([17.5, MATERIAL, MATERIAL + PAD], center = true); if (!printed) translate([0, -50.5 + (1.75 / 2) + MATERIAL - 0.25, 0]) cube([17.5, MATERIAL, MATERIAL + PAD], center = true); } } module top_side (PAD = 0) { difference () { translate([-2.5, 0, 0]) cube([ panel_2_x - 41, cover_h + 2 + (MATERIAL * 2) + 1 + 3, MATERIAL + PAD], center = true); //top translate([28, -23.6, 0]) cube([25, MATERIAL, MATERIAL + PAD + 1], center = true); if (!printed) translate([28, 23.6, 0]) cube([25, MATERIAL, MATERIAL + PAD + 1], center = true); //bottom translate([-28, -23.6, 0]) cube([25 - PAD, MATERIAL, MATERIAL + PAD + 1], center = true); if (!printed) translate([-28, 23.6, 0]) cube([25 - PAD, MATERIAL, MATERIAL + PAD + 1], center = true); if (!printed) translate([-35.5, -21.1, 0]) cube([MATERIAL, 25, MATERIAL + PAD + 1], center = true); //side tabs if (!printed) translate([-35.5, 21.1, 0]) cube([MATERIAL, 25, MATERIAL + PAD + 1], center = true); //side tabs } } module bottom_side (PAD = 0) { difference () { translate([.25, 0, 0]) cube([ panel_2_x - 39.5, cover_h + 2 + (MATERIAL * 2) + 1 + 3, MATERIAL + PAD], center = true); translate([25, -23.6, 0]) cube([25, MATERIAL, MATERIAL + PAD + 1], center = true); if (!printed) translate([30, 23.6, 0]) cube([25, MATERIAL, MATERIAL + PAD + 1], center = true); translate([-25, -23.6, 0]) cube([25, MATERIAL, MATERIAL + PAD + 1], center = true); if (!printed) translate([-30, 23.6, 0]) cube([25, MATERIAL, MATERIAL + PAD + 1], center = true); if (PCB) { translate([12, 6, 0]) cylinder(r = R(6), h = 50, center = true); //hole for audio jack -> add countersink translate([25, 4, 0]) cylinder(r = R(11.8), h = 20, center = true); //hole for female DC power jack, 12vdc } else { translate([-15, 1, 0]) cylinder(r = R(6), h = 50, center = true); //hole for audio jack -> add countersink translate([9, 1, 0]) cylinder(r = R(DC_D), h = 20, center = true); //hole for female DC power jack, 12vdc } if (!printed) translate([-33.5, 17.3, 0]) cube([MATERIAL, 17.5, MATERIAL + PAD + 1], center = true); if (!printed) translate([-33.5, -17.3, 0]) cube([MATERIAL, 17.5, MATERIAL + PAD + 1], center = true); } } module bolt (pos = [0, 0, 0], H = 44, VOID = 19.8) { bolts_h = 44; translate(pos) { difference () { cylinder(r = R(8), h = H, center = true, $fn = 40); translate([0, 0, -(H / 2) + (VOID / 2) - 0.01]) cylinder(r = R(3.5), h = VOID, center = true, $fn = 30); } } } module bolts (pos = [0, 0, 0]) { bolts_h = 44; translate(pos) rotate([0, 0, -13]) { bolt([-39.5, 43.5, 0]); bolt([-39.5, -43.5, 0]); bolt([18, 43.5, 0]); } } if (LASER) { projection() top(); if (!DEBUG) { translate([-85, 0, 0]) rotate([0, 0, -13]) projection() back_side(); } translate([0, 80 + 10, 0]) rotate([0, 0, -13]) projection() top_side(); translate([0, -80 - 10, 0]) rotate([0, 0, -13]) projection() bottom_side(); } else { if (printed && BOLTS) { bolts([0, 0, height + (cover_h / 2 ) - 4.25]); } translate([0, 0, height + cover_h + 0.35]) top(); if (!DEBUG) { translate([-44, 8, height + (cover_h / 2 ) - 4.25]) rotate([0, 0, -13]) rotate([0, 90, 0]) back_side(PAD); } translate([2, 49, height + (cover_h / 2 ) - 4.25]) rotate([0, 0, -13]) rotate([90, 0, 0]) top_side(PAD); translate([-22, -45, height + (cover_h / 2 ) - 4.25]) rotate([0, 0, -13]) rotate([90, 0, 0]) bottom_side(PAD); } } module intval_laser_panel_cover_standoff (DECOYS = false) { tight = 0.2; cover_h = 21; $fn = 40; translate ([6, -9, height + 3.5]) { difference() { cylinder(r = bolt_inner + 1.4, h = cover_h - .5, center = true); cylinder(r = bolt_inner - tight, h = cover_h, center = true); } if (DECOYS) { decoys(12, -(cover_h / 2) + 2); } } } module remove_front () { translate([87, 0, 4]) rotate([0, 0, 89]) cube([170, 40, 40], center = true); } module onetoone (size, height, z) { translate ([one_to_one_x, one_to_one_y, z]) { cylinder(r = size / 2, h = height, center = true); } } module m_p_access () { translate ([18, -44, 0]) { rounded_cube([35, 17, 50], 17, true); } } module bolex_pin (x, y) { in = innerD; translate ([x, y, 1]) { difference () { union () { translate([0, 0, (height / 2) - 2]) cylinder(r = R(outerD + 4), h = 4, center = true); cylinder(r = R(outerD), h = height, center = true); } cylinder(r = R(in), h = height, center = true); translate([0, 0, (height / 2) - 1]) cylinder(r1 = R(4.5), r2 = R(6.5), h = 2, center = true); } } } module bolex_pin_inner (x, y) { translate ([x, y, 1]) { cylinder(r = R(innerD), h = height * 2, center = true); translate([0, 0, (height / 2) - 1]) cylinder(r1 = R(4.5), r2 = R(6.5), h = 2, center = true); } } module intval_pins () { for (i = [0 : len(xArray) - 1]) { bolex_pin(xArray[i], yArray[i]); } } module key () { tighten = 0.25; difference () { cylinder(r = R(6.7), h = 5, center = true); cylinder(r = R(4.76 - tighten), h = 5, center = true); } translate ([0, 0, -7.5]) { cylinder(r = R(6.7), h = 10, center = true); } } module keyHole () { translate ([0, 0, 1.75]) { cube([10, 2, 3.5], center = true); } } module key_end (rotArr = [0, 0, 0], transArr = [0, 0, 0], ALT = false) { translate(transArr) { rotate (rotArr) { difference () { key(); keyHole(); if (ALT) { translate([-2.5, 0, 1.75]) cube([5, 3, 3.5], center= true); } } } } } module frame_counter_access () { x = 37.5; y = 39; translate([x, y, 8.5]) { difference () { union () { rotate ([0, 0, 19]) { translate([0, 9, 0]) { cube([12, 16, 4], center = true); } } rotate ([0, 0, -19]) { translate([0, 9, 0]) { cube([12, 16, 4], center = true); } } } translate([0, 15.5, 0]) { cube([17, 6, 4], center = true); } } cylinder(r = R(12.4), h = 4, center = true); } } module bearing (x, y, z, width = 8, hole = true, calval = 0) { innerD = 8.05; outerD = 22.1; fuzz = 0.1; translate ([x, y, z]) { difference () { cylinder(r = R(outerD) + fuzz + calval, h = width, center = true); if (hole) { cylinder(r = R(innerD) - fuzz, h = width, center = true); } } } } module motor_key (half = false, DECOYS = false, sides = 1, ALT = false, extraH = 0, set_screw = true, pad = 0.0) { innerD = 7.85; outer_d = 29.5; notch_d = 10; height = 12 + extraH; diff = 16.5; $fn = 60; translate([0, 0, extraH / 2]) difference () { union () { translate([one_to_one_x, one_to_one_y, 12.1]) cylinder(r1 = R(12), r2 = R(20), h = 5, center = true);// padding against bearing translate([one_to_one_x, one_to_one_y, diff + 1]) cylinder(r = R(outer_d), h= height -2, center= true, $fn=200); //large cylinder translate([one_to_one_x, one_to_one_y, 6]) cylinder(r = R(innerD), h= 10, center= true); //key_end([0, 180, 0], [one_to_one_x, one_to_one_y, -2.5]); //thicker-than-key_end cylinder for inner bearing key_end([0, 180, -20], [one_to_one_x, one_to_one_y, -3.5], ALT = ALT); // longer for laser cut board //key_end([0, 180, 0], [one_to_one_x, one_to_one_y, -4.5]); //experimental length } //1 notch translate([one_to_one_x, one_to_one_y, diff]) { translate ([-outer_d/2 - 2.5, 0, 0]) cylinder(r = R(notch_d), h= height, center= true); //notch } translate([one_to_one_x, one_to_one_y, diff]) { translate ([-outer_d/2 -.5, -3.5, 0]) rotate([0, 0, 100]) cube([15, 5, height], center = true); // smooth notch translate ([-outer_d/2 -.5, 3.5, 0]) rotate([0, 0, -100]) cube([15, 5, height], center = true); // smooth notch } if (set_screw) { translate([one_to_one_x, one_to_one_y, 0]) { //m3 set screw nut translate([6, 0, 35]) cube([3.0, 5.75, 42], center = true); //m3 set screw translate([7.25, 0, 18]) rotate([0, 90, 0]) motor_set_screw_120_alt(H = 15, H2 = 5); } } if (sides == 2) { //2 notch translate([one_to_one_x, one_to_one_y, diff]) { translate ([outer_d/2 + 2.5, 0, 0]) cylinder(r = R(notch_d), h = height, center= true); //notch } translate([one_to_one_x, one_to_one_y, diff]) { translate ([outer_d/2 +.5, -3.5, 0]) rotate([0, 0, -100]) cube([15, 5, height], center = true); // smooth notch translate ([outer_d/2 +.5, 3.5, 0]) rotate([0, 0, 100]) cube([15, 5, height], center = true); // smooth notch } } //slot for hobbled(?) end translate([one_to_one_x, one_to_one_y, 17]) { difference () { translate([0, 0, 0]) cylinder(r = R(6.2 + pad), h = 12, center = true, $fn = 24); translate([5.4 + pad, 0, 0]) cube([6, 6, 12], center = true); } } //translate([one_to_one_x, one_to_one_y, 20.5]) cylinder(r = 11.5/2, h = 10, center = true); translate([one_to_one_x, one_to_one_y, 17.5]) { difference() { //cylinder(r = 7.5/2, h = 2, center = true); //translate([5, 0, 0]) cube([10, 10, 10], center = true); } } if (half) { translate([one_to_one_x - 50 , one_to_one_y, -50]) cube([100, 100, 200]); } } if (DECOYS) { translate([one_to_one_x, one_to_one_y, 20.5]) decoys(24); } } module motor_key_reinforced () { intersection () { motor_key(); translate([one_to_one_x, one_to_one_y, 4]) union () { cylinder(r = R(16), h = 25, center = true); translate([0, 0, 10]) cube([20, 12, 5], center = true); translate([0, 0, 10]) cube([12, 20, 5], center = true); translate([-(12 / 2) - (4 / 2), -(12 / 2) - (4 / 2), 10]) difference () { cube([4, 4, 5], center = true); rotate([0, 0, -45]) translate([0, -4, 0]) cube([8, 8, 5 + 1], center = true); } } } } module motor_key_reinforced_roller () { difference () { motor_key(extraH = 4); translate([one_to_one_x, one_to_one_y, 4]) union () { //eliminates key shaft cylinder(r = R(16), h = 25, center = true); //cuts cross for insert translate([0, 0, 10]) cube([20.2, 12.2, 5.1], center = true); translate([0, 0, 10]) cube([12.2, 20.2, 5.1], center = true); //angles the corner translate([-(12 / 2) - (4 / 2), -(12 / 2) - (4 / 2), 10]) difference () { cube([4, 4, 5], center = true); rotate([0, 0, -45]) translate([0, -4.2, 0]) cube([8, 8, 5 + 1], center = true); } //extend motor shaft void translate([0, 0, 20]) difference () { translate([0, 0, 0]) cylinder(r = R(6.2), h = 40, center = true, $fn = 24); translate([5.4, 0, 0]) cube([6, 6, 40 + 1], center = true); } //m3 nut translate([6, 0, 35]) cube([3, 5.75, 42], center = true); //m3 set screw translate([7.25, 0, 18]) rotate([0, 90, 0]) motor_set_screw_120_alt(H = 15, H2 = 5); } } } module motor_key_120 (half = false, DECOYS = false, sides = 1, ALT = false) { innerD = 7.85; outer_d = 29.5; notch_d = 10; height = 16; //7 + 5 + 4; diff = 18.5; //14 + 2.5 + 2; $fn = 60; difference () { union () { translate([one_to_one_x, one_to_one_y, 12.1]) cylinder(r1 = R(12), r2 = R(20), h = 5, center = true);// padding against bearing translate([one_to_one_x, one_to_one_y, diff + 1]) cylinder(r = R(outer_d), h = height -2, center= true, $fn=200); //large cylinder translate([one_to_one_x, one_to_one_y, 6]) cylinder(r = R(innerD), h= 10, center= true); //key_end([0, 180, 0], [one_to_one_x, one_to_one_y, -2.5]); //thicker-than-key_end cylinder for inner bearing key_end([0, 180, -20], [one_to_one_x, one_to_one_y, -3.5], ALT = ALT); // longer for laser cut board //key_end([0, 180, 0], [one_to_one_x, one_to_one_y, -4.5]); //experimental length } //1 notch translate([one_to_one_x, one_to_one_y, diff]) { translate ([-outer_d/2 - 2.5, 0, 0]) cylinder(r = R(notch_d), h= height, center= true); //notch } translate([one_to_one_x, one_to_one_y, diff]) { translate ([-outer_d/2 -.5, -3.5 , 0]) rotate([0, 0, 100]) cube([15, 5, height], center = true); // smooth notch translate ([-outer_d/2 -.5, 3.5, 0]) rotate([0, 0, -100]) cube([15, 5, height], center = true); // smooth notch } if (sides == 2) { //2 notch translate([one_to_one_x, one_to_one_y, diff]) { translate ([outer_d/2 + 2.5, 0, 0]) cylinder(r= R(notch_d), h = height, center= true); //notch } translate([one_to_one_x, one_to_one_y, diff]) { translate ([outer_d/2 +.5, -3.5, 0]) rotate([0, 0, -100]) cube([15, 5, height], center = true); // smooth notch translate ([outer_d/2 +.5, 3.5, 0]) rotate([0, 0, 100]) cube([15, 5, height], center = true); // smooth notch } } //slot for hobbled(?) end translate([one_to_one_x, one_to_one_y, 17 + 2]) { translate([0, 0, 6.5]) hobbled_rod_120(12); //translate([6.42, 0, 6 - 1.7]) motor_set_screw_120(); translate([6.22, 0, 3.3]) rotate([0, 90, 0]) motor_set_screw_120_alt(); translate([14, 0, 3.3]) rotate([0, 90, 0]) cylinder(r2 = R(6), r1 = R(5.8), h = 6, center = true); //extension } //translate([one_to_one_x, one_to_one_y, 20.5]) cylinder(r = 11.5/2, h = 10, center = true); translate([one_to_one_x, one_to_one_y, 17.5]) { difference() { //cylinder(r = 7.5/2, h = 2, center = true); //translate([5, 0, 0]) cube([10, 10, 10], center = true); } } if (half) { translate([one_to_one_x - 50 , one_to_one_y, -50]) cube([100, 100, 200]); } } // translate([one_to_one_x, one_to_one_y, 17]) translate([6.42 - .2, 0, 6 - 1.7]) rotate([0, 90, 0]) motor_set_screw_120_alt(); if (DECOYS) { translate([one_to_one_x, one_to_one_y, 20.5]) decoys(24); } } module motor_key_120_reinforced () { intersection () { motor_key_120(); translate([one_to_one_x, one_to_one_y, 4]) union () { cylinder(r = R(16), h = 25, center = true); translate([0, 0, 10]) cube([20, 12, 5], center = true); translate([0, 0, 10]) cube([12, 20, 5], center = true); translate([-(12 / 2) - (4 / 2), -(12 / 2) - (4 / 2), 10]) difference () { cube([4, 4, 5], center = true); rotate([0, 0, -45]) translate([0, -4, 0]) cube([8, 8, 5 + 1], center = true); } } } } module motor_key_120_reinforced_roller () { difference () { motor_key_120(); translate([one_to_one_x, one_to_one_y, 4]) union () { cylinder(r = R(16), h = 25, center = true); translate([0, 0, 10]) cube([20.2, 12.2, 5.1], center = true); translate([0, 0, 10]) cube([12.2, 20.2, 5.1], center = true); translate([-(12 / 2) - (4 / 2), -(12 / 2) - (4 / 2), 10]) difference () { cube([4, 4, 5], center = true); rotate([0, 0, -45]) translate([0, -4.2, 0]) cube([8, 8, 5 + 1], center = true); } hobbled_rod_120(40); //nut //half //translate([0, 50, 0]) cube([100, 100, 100], center = true); } } } module motor_set_screw_120 () { cube([10.19, 2.95, 2.95], center = true); translate([(10.19 / 2) - (2.56 / 2), 0, 0]) cube([2.56, 5.8, 5.8], center = true); } module motor_set_screw_120_alt (H = 10.19, H2 = 2.56) { $fn = 60; cylinder(r = R(2.95), h = H, center= true); translate([0, 0, (H / 2) - (H2 / 2)]) cylinder(r = R(5.8), h = H2, center = true); } module hobbled_rod_120 (h = 10) { d = 4.25; diff = 3.33; difference () { cylinder(r = R(d), h = h, center = true, $fn = 60); translate([d/2 + ((d/2) - (d - diff)), 0, 0]) cube([d, d, h + 1], center = true); } } module motor_12v () { motor_d = 37; motor_h = 63; end = 11.5; len = 17; cylinder(r = R(motor_d), h = motor_h, center=true); translate([0, 0, (motor_h / 2) + (len / 2)]) cylinder(r = R(end), h = len, center = true); } module motor_mount () { base_d = 45; base_inner = 39; base_thickness = 3; hole_d = 13.5; screw_d = 5; height = 6; difference () { difference () { translate([0, 0, 2.5]) cylinder(r = R(base_d), h = height + 5, center = true); translate([0, 0, base_thickness + 2.5]) cylinder(r = R(base_inner), h = height + 5, center = true); } cylinder(r = R(hole_d), h = 29, center = true); //center hole //screw mounts translate([0, 12.5, 0]) cylinder(r = R(screw_d), h = 29, center = true); translate([0, -12.5, 0]) cylinder(r = R(screw_d), h = 29, center = true); //translate([10.5, 0, 0]) cylinder(r = R(screw_d), h = 29, center = true); //translate([0, 0, -10]) cube([100, 100, 100]); } //wings //translate([-18, 0, 0]) cube([6, 4, 4], center= true); translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[0], mm_y[0], 0], 100, height, 9); translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[1], mm_y[1], 0], -10, height, 11); } module geared_motor (ROT_1 = 0, ROT_2 = 0) { BODY_D = 37; BODY_H = 42; BASE_D = 12; BASE_H = 6; ROD_D = 6; ROD_H = 15.5; rotate([0, 0, ROT_1]) { cylinder(r = R(BODY_D), h = BODY_H, center = true); translate([0, BASE_D/2, -(BODY_H/2) - (BASE_H/2)]) { cylinder(r = R(BASE_D), h = BASE_H, center = true); } translate([0, BASE_D/2, -(BODY_H/2) - (BASE_H/2) - (ROD_H/2)]) { rotate([0, 0, ROT_2]) { difference () { cylinder(r = R(ROD_D), h = ROD_H, center = true); translate([0, 5, -2]) cube([ROD_D, ROD_D, 12], center = true); } } } } } module geared_motor_mount (DECOYS = false) { $fn = 60; base_d = 45; base_inner = 38; base_thickness = 3; hole_d = 12.5; screw_d = 4; height = 6; difference () { difference () { translate([-6, 0, 2.5]) cylinder(r = R(base_d), h=height + 5, center = true); //outer cylinder translate([-6, 0, base_thickness + 2.5]) cylinder(r = R(base_inner), h = height + 5, center = true); //inder cylinder } cylinder(r = R(hole_d), h = 29, center = true); //center hole //screw holes translate([-6.5, 0, 0]) { translate([0, screw_distance/2, 0]) cylinder(r = R(screw_d), h = 29, center = true); translate([0, -screw_distance/2, 0]) cylinder(r = R(screw_d), h = 29, center = true); } translate([2, 19, 0]) cylinder(r = R(10), h = 100, center = true); //hole for panel bolt access } //wings translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[0], mm_y[0], 0], mm_r[0], height, mm_l[0]); translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[1], mm_y[1], 0], mm_r[1], height, mm_l[1]); //translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[5] , mm_y[5], 0], mm_r[5], height, mm_l[5] - 1); if (DECOYS) { translate([-7, -6, 0]) decoys(40, -1, 4); translate([-9, -2, 0]) rotate([0, 0, 49]) decoys(37, -1, 4); } } module geared_motor_mount_120 (DECOYS = false) { $fn = 160; base_d = 45; base_inner = 25.2; base_thickness = 3; hole_d = 7; screw_d = 3.2; bolt_end = 5.4; height = 6; screw_distance = 17; difference () { difference () { translate([-6, 0, 2.5]) cylinder(r = R(base_d), h = height + 5, center = true); //outer cylinder //translate([-6, 0, base_thickness + 2.5]) cylinder(r = R(base_inner), h = height + 5, center = true); //inner cylinder translate([0, 0, base_thickness + 1.5]) cylinder(r = R(base_inner), h = height + 5, center = true); //inner cylinder } cylinder(r = R(hole_d), h = 29, center = true); //center hole //screw holes translate([0, 0, 0]) { translate([0, screw_distance/2, 0]) cylinder(r = R(screw_d), h = 29, center = true); translate([0, -screw_distance/2, 0]) cylinder(r = R(screw_d), h = 29, center = true); //bolt ends translate([0, screw_distance/2, -3]) cylinder(r = R(bolt_end), h = 2, center = true); translate([0, -screw_distance/2, -3]) cylinder(r = R(bolt_end), h = 2, center = true); } translate([2, 19, 0]) cylinder(r = R(10), h = 100, center = true); //hole for panel bolt access } //wings translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[0], mm_y[0], 0], mm_r[0], height, mm_l[0]); translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[1], mm_y[1], 0], mm_r[1], height, mm_l[1]); //translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[5] , mm_y[5], 0], mm_r[5], height, mm_l[5] - 1); if (DECOYS) { translate([-7, -6, 0]) decoys(40, -1, 4); translate([-9, -2, 0]) rotate([0, 0, 49]) decoys(37, -1, 4); } } module geared_motor_mount_reinforced () { $fn = 60; base_d = 45; base_inner = 38; base_thickness = 6.75; hole_d = 12.5; screw_d = 4; height = 9.75; difference () { difference () { translate([-6, 0, 2.5]) cylinder(r = R(base_d), h = height + 5, center = true); //outer cylinder translate([-6, 0, base_thickness + 2.5]) cylinder(r = R(base_inner), h = height + 5, center = true); //inder cylinder } cylinder(r = R(hole_d), h = 29, center = true); //center hole //screw holes translate([-6.5, 0, 0]) { translate([0, screw_distance/2, 0]) { cylinder(r = R(screw_d), h = 29, center = true); //countersink translate([0, 0, -17]) cylinder(r= R(6), h = 29, center = true); } translate([0, -screw_distance/2, 0]) { cylinder(r = R(screw_d), h = 29, center = true); //countersink translate([0, 0, -17]) cylinder(r = R(6), h = 29, center = true); } } translate([2, 19, 0]) cylinder(r = R(10), h = 100, center = true); //hole for panel bolt access } //wings translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[0], mm_y[0], 0], mm_r[0], height, mm_l[0]); translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[1], mm_y[1], 0], mm_r[1], height, mm_l[1]); //translate([0, 0, -5]) cube([3.75, 3.75, 3.75], center = true); } module motor_mount_bottom () { $fn = 60; mount_d = 45; base_d = 45; outer_d = 34.3; height = 26.5; bolt_h = 22.3; shelf_h = 6; //match to motor_mount screw_d = 4; panel_h = 46.5; module motor_mount_core () { translate ([one_to_one_x, one_to_one_y, (height / 2 ) + 5.75]) { difference() { translate([-6, 0, 0]) cylinder(r = R(mount_d), h = height, center = true); //main block translate([0, 0, (height / 2) - (shelf_h / 2)]) cylinder(r = R(base_d + 14), h = shelf_h, center = true); //shelf for motor_mount cylinder(r = outer_d / 2, h = 50, center = true); //space for spinning translate ([-one_to_one_x, -one_to_one_y, 0]) remove_front(); //flatten side translate([-32, -17, -19]) cube([40, 40, 40], center= true); //hole for notch translate([-42, 0, -19]) rotate([0, 0, -39]) cube([40, 40, 40], center= true); //hole for notch translate([2.5, 19.5, 0]) cylinder(r = R(10), h = 60, center = true); // hole for panel bolt translate([22.5, 19.5, 0]) cube([40, 40, 60], center = true); //remove front entirely translate([-6.5, 0, 7.5]) { translate([0, screw_distance/2, 0]) sphere(r = screw_d); translate([0, -screw_distance/2, 0]) sphere(r = screw_d); } } translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[0], mm_y[0], -shelf_h / 2], mm_r[0], height - shelf_h, mm_l[0], tight = 0.2); //Bottom bolt holder translate ([-one_to_one_x, -one_to_one_y, 0]) bolt_holder([mm_x[1] , mm_y[1], -shelf_h / 2], mm_r[1], height - shelf_h, mm_l[1], tight = 0.2); //Left bolt holder translate ([-one_to_one_x, -one_to_one_y, -2]) bolt_holder([mm_x[5] , mm_y[5], -shelf_h / 2], mm_r[5], height - shelf_h - 4, mm_l[5]); //Top bolt holder } } module microswitch_holder () { difference () { translate([29, -1, 14]) cube([36, 65, height - shelf_h - 4], center = true);//Base shape translate ([25.5, -14, 15]) { cube([17, 28, 39.5], center = true); //rectangle hole for center translate([4.5, 5.6, 0]) rotate([0, 0, -23]) cube([17, 25, 39.5], center = true); //bottom right inner translate([-2, -18, -3.5]) cube([7, 11, 12], center = true); // hole for bottom pins translate([-9.5, -1, -3.5]) cube([30, 4, 12], center = true); //hole for side pin } translate ([14, 37.5, 15]) rotate([0, 0, 44]) cube([55, 30, 30], center= true); //top left outer translate ([one_to_one_x, one_to_one_y, 18]) { cylinder(r = R(outer_d), h = 50, center = true); //space for spinning } translate ([32, 6, 15]) { difference () { translate([3, 0, 0]) rotate([0, 0, 0]) cube([20, 25, 39.5], center = true); //removes area for microswitch arm translate([-2, 16, 0]) rotate([0, 0, -55]) cube([20, 50, 39.5], center = true); } } translate ([58, -25, 15]) { rotate([0, 0, 75]) cube([45, 30, 30], center= true); //bottom right outer } translate([mm_x[4], mm_y[4], 0]) cylinder(r = bolt_inner, h = 100, center = true); // extra bolt hole translate([mm_x[1], mm_y[1], 0]) cylinder(r = 4, h = 100, center = true); //clear out top left bolt hole } } module panel_attachment () { difference () { union() { translate([0, 0, 2]) cylinder(r = R(10), h = panel_h - shelf_h, center = true); translate([3.5, 0, -10]) cube([7, 7, height - shelf_h - 4], center = true); } cylinder(r = R(3.2), h = panel_h, center = true); } } translate([8, -9, (panel_h - shelf_h) / 2 + 3.75]) panel_attachment(); motor_mount_core(); microswitch_holder(); bolt_holder([mm_x[2], mm_y[2], ((height - shelf_h)/ 2) + 3.75], 0, height - shelf_h - 4, 6); //bottom left mount bolt_holder([mm_x[3], mm_y[3], ((height - shelf_h)/ 2) + 3.75], 180, height - shelf_h - 4, 6); //bottom right mount } module bolt_holder (position = [0, 0, 0], rotate_z = 0, h = 17, length = 4.5, hole = true, tight = 0) { bolt_r = 6; translate (position) { difference () { union() { cylinder(r = bolt_r + 0, h = h, center = true); rotate([0, 0, rotate_z]) translate([length/2, 0, 0]) cube([length, bolt_r * 2, h], center=true); } if (hole) { cylinder(r = bolt_inner - tight, h = h + 2, center = true); } } } } module microswitch (position = [0, 0, 0], rotation = [0, 0, 0]) { translate(position) { rotate(rotation) { cube([16, 28, 9.5], center = true); translate([10, 8, 0]) rotate([0, 0, -7]) cube([1, 28, 4], center = true); translate([15, 22, 0]) cylinder(r = R(5), h = 4, center = true); translate([0, -19, 0]) cube([6, 11, 9.5], center = true); } } } module l298N_mount (pos = [0, 0, 0]) { $fn = 60; DISTANCE = 36.5; H = 4; THICKNESS = 3; module stand () { difference () { cylinder(r1 = 4, r2 = 3, h = H, center = true); cylinder(r = 1.5, h = H + 1, center = true); } } translate(pos) { translate([0, 0, 0]) stand(); translate([DISTANCE, 0, 0]) stand(); translate([DISTANCE, DISTANCE, 0]) stand(); translate([0, DISTANCE, 0]) stand(); difference () { translate([DISTANCE/2, DISTANCE/2, -3]) rounded_cube([DISTANCE + 8, DISTANCE + 8, THICKNESS], 8, center = true); //base translate([DISTANCE/2, DISTANCE/2, -3]) rounded_cube([DISTANCE - 5, DISTANCE - 5, THICKNESS + 1], 10, center = true); //base translate([0, 0, 0]) cylinder(r = 1.5, h = H * 5, center = true); translate([DISTANCE, 0, 0]) cylinder(r = 1.5, h = H * 5, center = true); translate([DISTANCE, DISTANCE, 0]) cylinder(r = 1.5, h = H * 5, center = true); translate([0, DISTANCE, 0]) cylinder(r = 1.5, h = H * 5, center = true); } } } module pcb_mount () { DISTANCE_X = 41; DISTANCE_Y = 66; OUTER = 10; H = 8; module stand () { difference () { cylinder(r1 = 5, r2 = 4, h = H, center = true); cylinder(r = 1.75, h = H, center = true); } } translate([0, 0, 0]) stand(); translate([DISTANCE_X, 0, 0]) stand(); translate([DISTANCE_X, DISTANCE_Y, 0]) stand(); translate([0, DISTANCE_Y, 0]) stand(); translate([DISTANCE_X/2, DISTANCE_Y/2, -4]) rounded_cube([DISTANCE_X + OUTER, DISTANCE_Y + OUTER, 4], OUTER, center = true); } module plunger () { $fn = 60; FINGER = 39; CYL_D = 9; WALL = 3; difference () { union () { cylinder(r1 = CYL_D, r2 = CYL_D - 1, h = 30, center = true); //outer cylinder difference () { translate([0, 0, -9]) rotate([90, 0, 0]) rounded_cube([50, 12, 10], d = 5, center = true); translate([23, 0, 9]) rotate([90, 0, 0]) cylinder(r = FINGER/2, h = 20, center = true); translate([-23, 0, 9]) rotate([90, 0, 0]) cylinder(r = FINGER/2, h = 20, center = true); } } translate([0, 0, 2]) cylinder( r = CYL_D - WALL, h = 30, center = true); //inner cylinder cylinder(r = 7/2, h = 50, center = true); // button hole } //cylinder(r= 5, h = 50, center = true); button } module plunger_top () { $fn = 60; CYL_D = 9; WALL = 3; difference () { union () { cylinder(r = CYL_D - WALL - 0.015, h =6, center = true); translate([0, 0, 2]) cylinder (r = CYL_D - 1, h = 2, center = true); } translate([0, 0, -2]) cylinder(r = CYL_D - WALL - 0.015 - 1, h =6, center = true); //cylinder(r = 3/2, h = 50, center = true); // wire cylinder(r = 3.9/2, h = 50, center = true); //3.5mm wire } } module plunger_plate () { translate([40, 0, -12]) rotate([180, 0, 0]) plunger_top(); plunger(); //decoys /*translate([44,20,-13]) cube([4, 4, 4], center = true); translate([44,-20,-13]) cube([4, 4, 4], center = true); translate([-23,20,-13]) cube([4, 4, 4], center = true); translate([-23,-20,-13]) cube([4, 4, 4], center = true);*/ } module trinket_mount (decoys = false) { $fn = 60; TRINKET_L = 37.5; TRINKET_W = 18; difference () { rounded_cube([TRINKET_L + 4.5, 21, 3.5], d = 4, center = true); //body translate([0, 0, 1]) cube([TRINKET_L, TRINKET_W, 1.5], center = true); //trinket translate([0, 0, 0]) cube([TRINKET_L - 1, TRINKET_W - 1, 10], center = true); //trinket ridge translate([20, 0, 1]) cube([9, 9, 1.5], center = true); } translate([(TRINKET_L / 2) -2, 0, -.75]) cube([4, TRINKET_W - 1, 2], center = true);//under usb SPREAD = 14.25; translate([(TRINKET_L / 2) -2, SPREAD/2, 1]) cylinder(r = 1.75/2, h = 2, center = true); translate([(TRINKET_L / 2) -2, -SPREAD/2, 1]) cylinder(r = 1.75/2, h = 2, center = true); //decoys if (decoys){ translate([23,20,.25]) cube([4, 4, 4], center = true); translate([23,-20,.25]) cube([4, 4, 4], center = true); translate([-23,20,.25]) cube([4, 4, 4], center = true); translate([-23,-20,.25]) cube([4, 4, 4], center = true); } } module metro_mount (decoys = false) { $fn = 60; TRINKET_L = 43.5; TRINKET_W = 18; difference () { rounded_cube([TRINKET_L + 4.5, 21, 3.5], d = 4, center = true); //body translate([0, 0, 1]) cube([TRINKET_L, TRINKET_W, 1.5], center = true); //trinket translate([0, 0, 0]) cube([TRINKET_L - 1, TRINKET_W - 1, 10], center = true); //trinket ridge translate([20, 0, 1]) cube([9, 9, 1.5], center = true); } translate([(TRINKET_L / 2) - 2, 0, -.75]) cube([4, TRINKET_W - 1, 2], center = true);//under usb SPREAD = 14.25; translate([(TRINKET_L / 2) - 2, SPREAD/2, 1]) cylinder(r = R(1.75), h = 2, center = true); translate([(TRINKET_L / 2) - 2, -SPREAD/2, 1]) cylinder(r = R(1.75), h = 2, center = true); //decoys if (decoys){ translate([23, 20, .25]) cube([4, 4, 4], center = true); translate([23, -20, .25]) cube([4, 4, 4], center = true); translate([-23, 20, .25]) cube([4, 4, 4], center = true); translate([-23, -20, .25]) cube([4, 4, 4], center = true); } } module printed_panel_bolts (pos = [0, 0, 0]) { bolts_h = 20; module bolt (pos = [0, 0, 0]) { $fn = 40; translate(pos) { cylinder(r2 = R(3.5), r1 = R(6.6), h = 2, center = true); translate([0, 0, (1 / 2) + (20 / 2)]) cylinder(r = R(3.5), h = 20, center = true); translate([0, 0, -(1 / 2) - (20 / 2)]) cylinder(r = R(6.6), h = 20, center = true); } } translate(pos) rotate([0, 0, -13]) { bolt([-39.5, 43.5, 7]); bolt([-39.5, -43.5, 7]); bolt([18, 43.5, 7]); } } module printed_panel_cover () { intval_laser_panel_cover(buttons = false, printed = true); } module printed_panel_cover_buttons () { intval_laser_panel_cover(buttons = true, ALL_RED = true, logo = true, printed = true); } module button_nuts () { difference () { cylinder(r = R(10), h = 2, center = true, $fn = 6); cylinder(r = R(6.2), h = 19, center = true, $fn = 60); } } module button_nuts_plate (decoys = false) { translate([0, 0, 0]) button_nuts(); translate([0, 11, 0]) button_nuts(); translate([11, 11, 0]) button_nuts(); translate([11, 0, 0]) button_nuts(); translate([22, 0, 0]) button_nuts(); translate([22, 11, 0]) button_nuts(); if (decoys){ translate([30, 24, 1]) cube([4, 4, 4], center = true); translate([30, -14, 1]) cube([4, 4, 4], center = true); translate([-10, 24, 1]) cube([4, 4, 4], center = true); translate([-10, -14, 1]) cube([4, 4, 4], center = true); } } module intval_electronics_mount (TYPE = "TRINKET", MOD_Y = 5, MOD_MOUNT = 0) { translate([-38, -1, 14]) rotate([0, 0, -13]) l298N_mount(); if (TYPE == "TRINKET") { translate([-24, -18 - MOD_Y, 11.25]) rotate([0, 0, -193]) trinket_mount(); } else if (TYPE == "METRO") { translate([-24, -18 - MOD_Y, 11.25]) rotate([0, 0, -193]) metro_mount(); } if (MOD_Y != 0) { translate([-22, -16 + MOD_Y, 11]) rotate([0, 0, -193]) cube([40, MOD_Y, 3], center = true); } } module key_cap () { $fn = 40; outerD = 22.1; fuzz = 0.1; difference () { cylinder(r = R(outerD + 2) + fuzz, h = 18, center = true); translate([0, 0, -1]) cylinder(r = R(outerD), h = 16, center = true); } //decoys(23, 7); } module bearing_reinforcement () { $fn = 60; outerD = 22.1; outerD2 = 30; fuzz = 0.1; difference () { union () { cylinder(r = R(outerD + 4) + fuzz, h = 4, center = true); translate([0, 0, -1]) cylinder(r = R(outerD2), h = 2, center = true); } cylinder(r = R(outerD), h = 16, center = true); //make flush with front of panel translate([outerD2 - 2.5, 0, 0]) cube([outerD2, outerD2, outerD2], center = true); translate([2, -(outerD2 / 2) - 4, 0]) cylinder(r = R(15), h = 20, center = true, $fn = 60); } } module motor_cap (DECOYS = false, HALF = false) { $fn = 60; base_d = 47; difference () { translate([-6, 0, 40]) cylinder(r = R(base_d), h = 52, center = true); translate([-6, 0, -5.75]) cylinder(r = R(base_d - 2), h = 50, center = true); translate([-6, 0, 39]) cylinder(r = R(base_d - 6), h = 50, center = true); translate([-25, 0, 19]) cube([10, 10, 15], center = true); //wire access if (HALF){ translate([100, 0, 0]) cube([200, 200, 200], center = true); } } if (DECOYS) { translate([-6, 0, 0]) decoys(32, 64); } } module motor_cap_120 (HALF = false) { $fn = 60; base_d = 47; base_inner = 29; inner_h = 57; difference () { union () { translate([-6, 0, 24]) cylinder(r = R(base_d), h = 15, center = true); translate([0, 0, inner_h]) cylinder(r = R(base_inner + 6), h = inner_h, center = true); } translate([-6, 0, -5.75]) cylinder(r = R(base_d - 2), h = 50, center = true); //to grip edge of translate([-6, 0, 3]) cylinder(r = R(base_d - 6), h = 50, center = true); translate([-25, 0, 19]) cube([10, 10, 15], center = true); //wire access //120 motor translate([0, 0, inner_h - 2]) cylinder(r = R(base_inner), h = inner_h, center = true); //inner cylinder if (HALF){ translate([100, 0, 0]) cube([200, 200, 200], center = true); } } } module motor_cap_alt (DECOYS = false, HALF = false) { $fn = 120; base_d = 47; H = 62; difference () { translate([-6, 0, H - 10]) cylinder(r = R(base_d), h = H + 2, center = true); translate([-6, 0, -5.75]) cylinder(r = R(base_d - 2), h = H, center = true); translate([-6, 0, H - 11]) cylinder(r = R(base_d - 6), h = H, center = true); translate([-25, 0, (H / 2) - 6]) cube([10, 10, 15], center = true); //wire access if (HALF){ translate([100, 0, 0]) cube([200, 200, 200], center = true); } } if (DECOYS) { translate([-6, 0, 0]) decoys(32, 64); } } module bearing_calibrate (val = 0) { mat = IN / 8; difference () { cube([40, 40, mat], center = true); bearing(0, 0, 0, hole = false, calval = val); } } module bolt_guide () { $fn = 80; difference () { union () { cylinder(r = R(10), h = 38, center = true); translate([0, 0, -17.5]) cylinder(r = R(16), h = 3, center = true); } cylinder(r = R(7.5), h = 40, center = true); translate([0, -13, -17.5]) cube([16, 16, 10], center = true); } } module case_standoff_washer () { H = 10; $fn = 40; difference () { union() { cylinder(r = R(16), h = (1 * H) / 4, center = true); translate([0, 0, -H / 2]) cylinder(r = R(8), h = (3 * H) / 4, center = true); } cylinder(r = R(4), h = H * 2, center = true); } } module case_standoff_alt () { difference () { cylinder(r = R(8), h = 22, center = true, $fn = 60); cylinder(r = R(4), h = 30, center = true, $fn = 40); } } module arduino_nano_electronics_mount (pos = [0, 0, 0]) { RemoveBottom = 2; translate(pos) { l298N_mount(); translate([19, -16, 0.75 - RemoveBottom]) rotate([0, 0, 90]) difference() { arduino_nano_mount(); translate([0, 0, -(RemoveBottom / 2) - 3.25]) cube([30, 60, RemoveBottom], center = true); translate([26, 1, -0.75 + RemoveBottom]) cube([20, 30, 20], center = true); } } } module stl_plate () { //translate([0, 0, -0.5]) cube([150, 150, 1], center = true); translate([-38, 41, 7.5]) rotate([0, 180, 0]) intval_laser_standoffs_plate(); translate([-27, 40, -9.5]) rotate([0, 0, 13]) intval_electronics_mount(); translate([23, 1, -5.75]) rotate([0, 0, 90]) motor_mount_bottom(); translate([48, -13, 9]) rotate([0, 180, 0]) key_cap(); translate([-5, -11, 3]) rotate([0, 0, 190]) geared_motor_mount(); translate([65, 44, 22.5]) rotate([0, 180, 0]) motor_key(); translate([0, -42, 15]) plunger_plate(); translate([-52, -20, 66]) rotate([0, 180, 0]) motor_cap(false); }; module dxf_plate () { translate([105, 0, 0]) rotate([0, 0, 13]) projection() intval_panel_laser(); rotate([0, 0, 13]) intval_laser_panel_cover(LASER=true, ALL_RED=true, PCB=true); }; module exploded_view () { intval_panel_printed(); //translate([0, 0, 5]) intval_electronics_mount(); translate([0, 0, 5]) motor_mount_bottom(); translate([0, 0, 20]) motor_key(); translate([one_to_one_x, one_to_one_y, 50]) geared_motor_mount(); translate([one_to_one_x, one_to_one_y, 50]) motor_cap(false); //translate([0, 0, 0]) intval_laser_panel_cover(false, ALL_RED=true); translate([one_to_one_x, one_to_one_y, 0]) rotate([180, 0, 0]) bearing_reinforcement(); translate([-38, -1, 15]) rotate([0, 0, -13]) arduino_nano_electronics_mount(); translate([0, 0, 40]) printed_panel_cover_buttons(); } module logo () { $fn = 40; scale([0.9, 0.9, 1]) difference () { translate([0, 0, -0.25]) rounded_cube([43, 12, 1.5], d = 3, center = true); scale([0.8, 1, 1]) linear_extrude(1) { text("intval2.1", font = "Nimbus Sans:style=Italic", halign="center", valign="center"); } } } PART = "printed_panel_cover"; //models if (PART == "plate") { stl_plate(); } else if (PART == "plunger_plate") { plunger_plate(); } else if (PART == "button_nuts_plate") { button_nuts_plate(false); } else if (PART == "standoff_plate") { intval_laser_standoffs_plate(); } else if (PART == "motor_key") { motor_key(); } else if (PART == "motor_key_set_screw") { motor_key(set_screw = true, pad = 0.1); } else if (PART == "motor_key_reinforced") { motor_key_reinforced(); } else if (PART == "motor_key_reinforced_roller") { motor_key_reinforced_roller(); } else if (PART == "motor_key_120") { motor_key_120(); } else if (PART == "motor_key_120_reinforced") { motor_key_120_reinforced(); } else if (PART == "motor_key_120_reinforced_roller") { motor_key_120_reinforced_roller(); } else if (PART == "motor_mount_bottom") { motor_mount_bottom(); } else if (PART == "motor_mount_top") { geared_motor_mount(); } else if (PART == "motor_mount_top_120") { geared_motor_mount_120(); } else if (PART == "motor_mount_top_reinforced") { geared_motor_mount_reinforced(); } else if (PART == "electronics_mount") { intval_electronics_mount(); } else if (PART == "motor_cap") { motor_cap(false); } else if (PART == "motor_cap_alt") { motor_cap_alt(false); } else if (PART == "motor_cap_120") { motor_cap_120(false); } else if (PART == "bolt_guide") { bolt_guide(); } else if (PART == "standoff") { bolex_pin_laser(0, 0); } else if (PART == "bearing_reinforcement") { bearing_reinforcement(); } else if (PART == "key_cap") { key_cap(); } else if (PART == "case_standoff") { case_standoff_washer(); } else if (PART == "trinket_mount") { trinket_mount(); } else if (PART == "l298N_mount") { l298N_mount(); } else if (PART == "arduino_nano_electronics_mount") { arduino_nano_electronics_mount(); } else if (PART == "printed_panel") { rotate([180, 0, 0]) rotate([0, 0, 13]) intval_panel_printed(); } else if (PART == "printed_panel_cover") { rotate([180, 0, 0]) rotate([0, 0, 13]) printed_panel_cover(); } else if (PART == "printed_panel_cover_buttons") { rotate([180, 0, 0]) rotate([0, 0, 13]) printed_panel_cover_buttons(); } else if (PART == "logo"){ logo(); } else { exploded_view(); } LASER = ""; //laser if (LASER == "laser_plate") { dxf_plate(); } else if (LASER == "panel") { projection() intval_panel_laser(); } else if (LASER == "panel_cover") { intval_laser_panel_cover(true, ALL_RED=true); }