mirror of
https://github.com/ThorstenBr/FloppyEmuDiskIIEnclosure.git
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125 lines
3.4 KiB
OpenSCAD
125 lines
3.4 KiB
OpenSCAD
// Copyright 2022 Thorsten Brehm
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// brehmt (at) gmail dot com
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module torus(r1, r2)
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{
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rotate_extrude(convexity = 10)
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translate([r2 + r1, 0, 0])
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circle(r=r2);
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}
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module round_cylinder(fillet, r, h)
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{
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for(z=[fillet, h-fillet])
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torus(r-2*fillet, fillet, center=[0,0,z]);
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cylinder(r=r-fillet, h);
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translate([0,0,fillet]) cylinder(r=r, h=h-2*fillet);
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}
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// Make a rectangle with rounded corners of given radius.
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// The maximum outer dimensions exactly match the given width/height.
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module roundedCube(Width, Height, Depth, CornerRadius)
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{
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$fn=36;
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union()
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{
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for (x=[0,Width-CornerRadius*2])
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for (y=[0,Height-CornerRadius*2])
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translate([x+CornerRadius, y+CornerRadius, 0]) cylinder(r=CornerRadius, h=Depth);
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translate([CornerRadius,0,0]) cube([Width - 2*CornerRadius, Height, Depth]);
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translate([0,CornerRadius,0]) cube([Width, Height - 2*CornerRadius, Depth]);
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}
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}
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module cylinderLedge(r, length)
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{
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$fn=36;
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translate([0, 0, -length/2])
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intersection()
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{
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cylinder(r=r, length);
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cube([r, r, length]);
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}
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}
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module rcube(size=[30, 20, 10], radius=[3, 2, 1], center=true)
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{
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hull() {
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translate( center ? [0,0,0] : size/2 ) {
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cube(size-2*radius+[2*radius[0],0,0],center=true);
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cube(size-2*radius+[0,2*radius[1],0],center=true);
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cube(size-2*radius+[0,0,2*radius[2]],center=true);
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for(x = [-0.5,0.5], y = [-0.5,0.5], z = [-0.5,0.5])
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translate([x * ( size[0] - 2*radius[0]),
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y * ( size[1] - 2*radius[1]),
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z * ( size[2] - 2*radius[2])])
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scale([radius[0], radius[1], radius[2]])
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if (quality == "high") sphere(1.0,$fn=4*4*2); else sphere(1.0,$fn=4);
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}
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}
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}
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module hole(diameter, depth)
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{
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$fn = 36;
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cylinder(r=diameter/2, h=depth);
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}
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module wall(width, height, WallThickness)
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{
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translate([-width/2,-WallThickness/2,-height]) cube([width, WallThickness, height]);
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}
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module prism(l, w, h)
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{
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polyhedron(
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points=[[0,0,0], [l,0,0], [l,w,0], [0,w,0], [0,w,h], [l,w,h]],
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faces=[[0,1,2,3],[5,4,3,2],[0,4,5,1],[0,3,4],[5,2,1]]
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);
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}
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module post(height, diameter, post_fillet_r, screw_hole_diameter, screw_hole_depth)
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{
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$fn = 36;
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difference() {
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union() {
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cylinder(r=diameter/2, h=height);
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difference() {
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cylinder(r=diameter/2 + post_fillet_r, h=post_fillet_r);
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translate([0,0,post_fillet_r]) torus(diameter/2, post_fillet_r*1.1);
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}
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}
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if (screw_hole_diameter>0)
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{
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translate([0,0,height-screw_hole_depth])
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hole(screw_hole_diameter, screw_hole_depth);
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}
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}
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}
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module screwPost(ZDepth, PostDiameter, ScrewDiameter, ScrewHoleDepth, FilletR)
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{
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if (PostDiameter>0.0)
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post(ZDepth, PostDiameter, FilletR, ScrewDiameter, ScrewHoleDepth);
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}
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module outerBox(SkinWidth, XWidth, YHeight, ZDepth, CornerRadius)
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{
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translate([-SkinWidth, -SkinWidth, 0]) roundedCube(XWidth+SkinWidth*2, YHeight+SkinWidth*2, ZDepth, CornerRadius);
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}
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module box(SkinWidth, XWidth, YHeight, ZDepth, CornerRadius)
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{
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// main shell
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difference() {
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outerBox(SkinWidth, XWidth, YHeight, ZDepth, CornerRadius);
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//rcube(size=[XWidth+SkinWidth*2, YHeight+SkinWidth*2, ZDepth+SkinWidth*2], radius=[2, 2, 2], center=false);
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if (SkinWidth>0)
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roundedCube(XWidth, YHeight, ZDepth, CornerRadius);
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//rcube(size=[XWidth, YHeight, ZDepth], radius=[2, 2, 2], center=false);
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}
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}
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