include $fn=20; showScan=0; showAnchors=0; showDoor=1; showSeparateObjects=0; // split for smaller print beds // will be automatically moved -60mm for the // bottom offset (0 is modeled as where the door stops) // ~490 is the total length splitAt = [ 490/3*1-20, 490/3*2-20 ]; // model sizes panelThickness=4.5; // door measurements doorGutter=6; doorToBolt=34; if(showScan) { // scan // lay flat and set the bottom-right as origin translate([-5,110,55]) rotate([-90,0,0]) #rotate([26.9,15,-1]) scale(450) import("scan.stl"); } if(showAnchors) { // scale measurement /* translate([-270,162,0]) cuboid([20,210,1], anchor=BOTTOM+LEFT); translate([-250,47,0]) cuboid([305-20,20,1], anchor=BOTTOM+LEFT); translate([-250,47+210+20,0]) cuboid([305-20,20,1], anchor=BOTTOM+LEFT); */ translate([35,47+10,0]) #cylinder(h=10, d=5, anchor=BOTTOM); translate([-250,47+10,0]) #cylinder(h=10, d=5, anchor=BOTTOM); translate([-250,47+210+10,0]) #cylinder(h=10, d=5, anchor=BOTTOM); translate([35,47+210+10,0]) #cylinder(h=10, d=5, anchor=BOTTOM); } if(showDoor) { if (showSeparateObjects) { rotate([0,0,-90]) translate([-20,8,10]) color("orange") import("limit-switch-flag-and-chain-catch-assembled.stl"); } } module limitSwitchMount(){ switchHeight = 7; switchWidth = 12; switchLength = 20; switchHoleFromFront = 9; // we assume "front" is the left here, adjust for right switchHoleFromSide = 5.5; switchHoleSpacing = 9; // switch mount difference(){ cuboid([switchWidth,switchLength,switchHeight], rounding=1, anchor=FRONT+LEFT+BOTTOM); translate([switchHoleFromFront, switchHoleFromSide, 10/2+switchHeight/2+0.1]) { cylinder(h=10, r=1.2, center=true); } translate([switchHoleFromFront, switchHoleFromSide+switchHoleSpacing, 10/2+switchHeight/2+0.1]) { cylinder(h=10, r=1.2, center=true); } } } module topPanel(){ translate([doorGutter,230,0]){ translate([15,-2,0]) cuboid([4,145+(2*INCH),10], rounding=1, edges=["Y"], anchor=FRONT+LEFT+BOTTOM); difference(){ cuboid([40,145+(2*INCH),panelThickness], rounding=1, edges=["Y",BACK], anchor=FRONT+LEFT+BOTTOM) { if (showSeparateObjects) { // servo translate([44,-31.5,31]) position(TOP+BACK+LEFT) rotate([0,0,90]) color("gray") import("servo futaba s3003 v6.stl"); // top pulley translate([-10,-21,31]) position(TOP+BACK+LEFT) rotate([0,90,0]) color("red") import("parametric_ball_pulley-improved-with-flares.stl"); } // limit switch mount translate([6,-12-77.5,0]) position(TOP+BACK) color("pink") rotate(90) limitSwitchMount(); // servo mount translate([17.8,-42,20]) position(TOP+BACK+LEFT) rotate([0,0,90]) color("pink") import("Futaba_3001_Servo_Mount.stl"); difference(){ translate([0,-1,0]) position(TOP+BACK+LEFT) cuboid([40,61,19], rounding=1, anchor=BACK+LEFT+BOTTOM); $fn=40; translate([2,-21,3]) position(TOP+BACK+LEFT) rotate([0,90,0]) cyl(h=5,d=55, anchor=RIGHT); // servo mount holes /*translate([26.6,-20.1,10]) position(TOP+BACK+LEFT) cyl(h=10,d=2, anchor=BACK+LEFT+BOTTOM); translate([26.6,-41.5,10]) position(TOP+BACK+LEFT) cyl(h=10,d=2, anchor=BACK+LEFT+BOTTOM);*/ } } // mounting hole translate([29,37,-0.1]) { cyl(h=panelThickness+1,d=5, anchor=BOTTOM); translate([0,0,panelThickness-2]) cyl(h=3,d=15, chamfer1=0.5, anchor=BOTTOM); translate([7,0,0]) cuboid([15,5,panelThickness+1], anchor=BOTTOM); } } } } module middlePanel(){ translate([doorGutter,85,0]) { translate([15,0,0]) cuboid([4,145,10], rounding=1, edges=["Y"], anchor=FRONT+LEFT+BOTTOM); cuboid([40,145,panelThickness], rounding=1, edges=["Y"], anchor=FRONT+LEFT+BOTTOM) { if (showSeparateObjects) { //arduino translate([25,0,0]) color("green") position(TOP) cuboid([2*INCH,2.5*INCH,1*INCH], anchor=BOTTOM); } } } } module bottomPanel(){ translate([doorGutter,-60,0]) { translate([15,2,0]) cuboid([4,145,10], rounding=1, edges=["Y"], anchor=FRONT+LEFT+BOTTOM); difference() { cuboid([40,145,panelThickness], rounding=1, edges=["Y",FRONT], anchor=FRONT+LEFT+BOTTOM) { if (showSeparateObjects) { // bottom pulley translate([-3,-5,27.5]) position(TOP+FRONT+LEFT) color("teal") import("LBracket_Parametric_rev9.stl"); translate([-10,14,31]) position(TOP+FRONT+LEFT) rotate([0,90,0]) color("red") import("parametric_ball_pulley-improved-with-flares.stl"); } // pulley mount difference(){ translate([2,0,0]) position(TOP+FRONT+LEFT) cuboid([35,27.5,27.5], rounding=1, anchor=FRONT+LEFT+BOTTOM); translate([20.7,12.9,20]) position(TOP+FRONT+LEFT) cyl(h=10,d=2, anchor=FRONT+LEFT+BOTTOM); translate([30.7,12.9,20]) position(TOP+FRONT+LEFT) cyl(h=10,d=2, anchor=FRONT+LEFT+BOTTOM); } // limit switch mount translate([6,72,0]) position(TOP+FRONT+LEFT) rotate(-90) color("pink") limitSwitchMount(); } // mounting hole translate([29,117,-0.1]) { cyl(h=panelThickness+1,d=5, anchor=BOTTOM); translate([0,0,panelThickness-2]) cyl(h=3,d=15, chamfer1=0.5, anchor=BOTTOM); translate([7,0,0]) cuboid([15,5,panelThickness+1], anchor=BOTTOM); } } } } difference(){ union(){ topPanel(); middlePanel(); bottomPanel(); } for(i=[0: len(splitAt)-1]){ translate([doorGutter+19.5,splitAt[i]-60,20]) scale([0.5,0.5,1]) partition_cut_mask(gap=0, cutpath="dovetail", $slop=0.75); } }