$fn = 72; pcb_width = 257.175; pcb_length = 95.250; module keyboard_base_plate(pcb_width, pcb_length) { pcb_clearance_edge = 1.0; pcb_clearance_bottom = 2.0; pcb_screw_hole_diameter = 1.5; thickness = 1.75; wall_height = 14.0; corner_radius = thickness / 2.0; case_color = [0.5, 0.5, 0.5, 1.0]; bottom_width = 2 * (pcb_clearance_edge + thickness) + pcb_width; bottom_length = 2 * (pcb_clearance_edge + thickness) + pcb_length; screw_holes = [ [ 4.8150, 85.7250], [ 66.7322, 85.7250], [161.8150, 85.7250], [238.2500, 85.7250], [ 61.7500, 47.6250], [138.2500, 47.6250], [214.2500, 47.6250], [ 20.0000, 9.5250], [123.8150, 9.5250], [238.2500, 9.5250] ]; module round_corner(translation, rotation) { color(case_color) translate(translation) rotate(rotation) rotate_extrude(angle=90) { intersection() { circle(r=corner_radius); square(corner_radius*2); } } } module round_edge(translation, rotation, length) { color(case_color) translate(translation) rotate(rotation) linear_extrude(length) intersection() { circle(r=corner_radius); square(corner_radius*2); } } module side(translation, dimensions) { color(case_color) translate(translation) linear_extrude(dimensions[2]) square([dimensions[0], dimensions[1]], false); } module wall_corner(translation, rotation, radius, length) { color(case_color) translate(translation) rotate(rotation) linear_extrude(length) intersection() { circle(r=radius); square([radius, radius], false); } } module screw_post(translation, h, d1, d2) { color(case_color) translate(translation) difference() { cylinder(h=h, r=d1/2.0); cylinder(h=h, r=d2/2.0); } } module ridges() { horizontal = [ (bottom_length / 3), (bottom_length / 3) * 2 ]; vertical = [ (bottom_width / 4), (bottom_width / 4) * 2, (bottom_width / 4) * 3 ]; for (y = horizontal) { side([0 - pcb_clearance_edge, y, 0], [pcb_width, thickness * 2, pcb_clearance_edge]); } for (x = vertical) { side([x, 0 - pcb_clearance_edge, 0], [thickness * 2, pcb_length, pcb_clearance_edge]); } } /* Upper right corner */ round_corner([thickness + pcb_clearance_edge + pcb_width, thickness + pcb_clearance_edge + pcb_length, -thickness/2], [90, 90, 90]); /* Lower right corner */ round_corner([ thickness + pcb_clearance_edge + pcb_width, 0 - thickness - pcb_clearance_edge, -thickness/2], [180, 90, 90]); /* Lower left corner */ round_corner([0 - thickness - pcb_clearance_edge, 0 - thickness - pcb_clearance_edge, -thickness/2], [-90, 90, 90]); /* Upper left corner */ round_corner([0 - thickness - pcb_clearance_edge, thickness + pcb_clearance_edge + pcb_length, -thickness/2], [0, 90, 90]); /* Upper edge */ round_edge([0 - thickness - pcb_clearance_edge, thickness + pcb_clearance_edge + pcb_length, -thickness/2], [0, 90, 0], bottom_width); /* Right edge */ round_edge([ thickness + pcb_clearance_edge + pcb_width, 0 - thickness - pcb_clearance_edge, -thickness/2], [270, 0, 0], bottom_length); /* Lower edge */ round_edge([0 - thickness - pcb_clearance_edge, 0 - thickness - pcb_clearance_edge, -thickness/2], [90, 180, 90], bottom_width); /* Left edge */ round_edge([0 - thickness - pcb_clearance_edge, 0 - thickness - pcb_clearance_edge, -thickness/2], [270, 90, 0], bottom_length); /* Upper right wall corner */ wall_corner([thickness + pcb_clearance_edge + pcb_width, thickness + pcb_clearance_edge + pcb_length, -thickness/2], [0, 0, 0], corner_radius, wall_height); /* Lower right wall corner */ wall_corner([ thickness + pcb_clearance_edge + pcb_width, 0 - thickness - pcb_clearance_edge, -thickness/2], [0, 0, 270], corner_radius, wall_height); /* Lower left wall corner */ wall_corner([0 - thickness - pcb_clearance_edge, 0 - thickness - pcb_clearance_edge, -thickness/2], [0, 0, 180], corner_radius, wall_height); /* Upper left wall corner */ wall_corner([0 - thickness - pcb_clearance_edge, thickness + pcb_clearance_edge + pcb_length, -thickness/2], [0, 0, 90], corner_radius, wall_height); /* Upper wall */ side([0 - thickness - pcb_clearance_edge, pcb_clearance_edge + pcb_length + corner_radius, -thickness/2], [bottom_width, thickness, wall_height]); /* Right wall */ side([pcb_clearance_edge + pcb_width + corner_radius, 0 - thickness - pcb_clearance_edge, -thickness/2], [thickness, bottom_length, wall_height]); /* Lower wall */ side([0 - thickness - pcb_clearance_edge, 0 - thickness - pcb_clearance_edge - corner_radius, -thickness/2], [bottom_width, thickness, wall_height]); /* Left wall */ side([0 - thickness - pcb_clearance_edge - corner_radius, 0 - thickness - pcb_clearance_edge, -thickness/2], [thickness, bottom_length, wall_height]); /* Bottom plate */ side([0 - thickness - pcb_clearance_edge, 0 - thickness - pcb_clearance_edge, 0 - thickness], [bottom_width, bottom_length, thickness]); /* Screw holes */ for (screw_hole = screw_holes) { screw_post([screw_hole[0], screw_hole[1], 0], pcb_clearance_bottom * 2, pcb_screw_hole_diameter * 2, pcb_screw_hole_diameter); } ridges(); } keyboard_base_plate(pcb_width, pcb_length);