NopSCADlib/printed/box.scad

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//
// NopSCADlib Copyright Chris Palmer 2018
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! A box made from routed or laser cut sheet sheets and printed profiles and bezels. It can be arbitrarily large
//! compared to the 3D printed parts because they can be cut into interlocking sections and solvent welded
//! together. The box panels can be customised to have holes and parts mounted on them by overriding the
//! definitions of `box_base()`, `box_front()`, etc.
//!
//! `box.scad` should be ```use```d and `box_assembly.scad` ```include```d.
//!
//! A box is defined with a list that specifies the inside dimensions, top, bottom and side sheet materials, the
//! screw type and printed part wall thickness. This diagram shows how the various dimensions are labelled:
//! ![](docs/box.png)
//!
//! Normally the side sheets are the same type but they can be overridden individually as long as the substitute has the same thickness.
//
include <../core.scad>
use <../vitamins/sheet.scad>
use <../vitamins/insert.scad>
use <../utils/quadrant.scad>
use <../utils/round.scad>
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bezel_clearance = 0.2;
sheet_end_clearance = 1;
sheet_slot_clearance = 0.2;
function box_screw(type) = type[0]; //! Screw type to be used at the corners
function box_shelf_screw(type) = type[1]; //! Screw type to hold a shelf
function box_wall(type) = type[2]; //! Wall thickness of 3D parts
function box_sheets(type) = type[3]; //! Sheet type used for the sides
function box_top_sheet(type) = type[4]; //! Sheet type for the top
function box_base_sheet(type) = type[5]; //! Sheet type for the bottom
function box_feet(type) = type[6]; //! True to enable feet on the bottom bezel
function box_width(type) = type[7]; //! Internal width
function box_depth(type) = type[8]; //! Internal depth
function box_height(type) = type[9]; //! Internal height
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function box(screw, wall, sheets, top_sheet, base_sheet, size, feet = false, shelf_screw = M3_dome_screw) = //! Construct a property list for a box.
concat([screw, shelf_screw, wall, sheets, top_sheet, base_sheet, feet], size);
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function box_bezel_clearance(type) = bezel_clearance;
function box_corner_gap(type) = 3; //! Gap between box_sheets at the corners to connect inside and outside profiles
function box_profile_overlap(type) = 3 + sheet_end_clearance / 2;
function box_washer(type) = screw_washer(box_screw(type));
function box_insert(type) = screw_insert(box_screw(type));
function box_shelf_insert(type) = screw_insert(box_shelf_screw(type));
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function box_hole_inset(type) = washer_radius(box_washer(type)) + 1;
function box_insert_r(type) = insert_hole_radius(box_insert(type));
function box_insert_l(type) = insert_length(box_insert(type));
function box_boss_r(type) = ceil(corrected_radius(box_insert_r(type)) + box_wall(type));
function box_sheet_slot(type) = sheet_thickness(box_sheets(type)) + sheet_slot_clearance; // add some clearance
function box_corner_overlap(type) = box_wall(type);
function box_corner_rad(type) = box_sheet_slot(type) - sheet_slot_clearance / 2 + box_corner_gap(type) + box_corner_overlap(type);
function box_sheet_r(type) = box_corner_rad(type) - box_sheet_slot(type) - box_corner_overlap(type);
function box_screw_length(type, top) = screw_longer_than(2 * washer_thickness(box_washer(type))
+ sheet_thickness(top ? box_top_sheet(type) : box_base_sheet(type))
+ box_corner_gap(type) + box_profile_overlap(type) + box_insert_l(type) - 1);
function box_wall_clearance(type) = box_sheet_slot(type) / 2 - sheet_thickness(box_sheets(type)) / 2;
function box_margin(type) = box_profile_overlap(type) + box_corner_gap(type); //! How much the bezel intrudes on the specified height
function box_intrusion(type) = box_hole_inset(type) + box_boss_r(type); //! Corner profile intrusion
function sheet_reduction(type) = 2 * box_corner_gap(type) + sheet_end_clearance;
function box_outset(type) = box_sheet_slot(type) + box_wall(type) - sheet_slot_clearance / 2; //! How much the bezel expands the specified internal size
function box_inset(type) = box_wall(type) + sheet_slot_clearance / 2; //! How much the bezel intrudes on the specified width and length, away from the corners
function box_bezel_height(type, bottom) = //! Bezel height for top or bottom
let(t1 = sheet_thickness(box_base_sheet(type)), t2 = sheet_thickness(box_top_sheet(type)))
box_corner_rad(type) + box_profile_overlap(type) + (bottom ? max(t1, t2) : t2) - sheet_thickness(box_sheets(type));
grill_hole = 5;
grill_gap = 1.9;
function box_grill_hole_r() = grill_hole / 2;
module grill_hole_positions(width, height, r = 1000) {
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nx = floor(width / (grill_hole + grill_gap));
xpitch = width / nx;
ny = floor(height / ((grill_hole + grill_gap) * cos(30)));
ypitch = height / ny;
for(y = [0 : ny - 1], x = [0 : nx - 1 - (y % 2)]) {
$x = -width / 2 + (x + 0.5 + (y % 2) / 2) * xpitch;
$y = -height / 2 + (y + 0.5) * ypitch;
if(sqrt(sqr($x) + sqr($y)) + grill_hole / 2 <= r)
translate([$x, $y])
children();
}
}
module grill(width, height, r = 1000, poly = false, h = 0) { //! A staggered array of 5mm holes to make grills in sheets. Can be constrained to be circular. Set ```poly``` ```true``` for printing, ```false``` for milling.
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extrude_if(h)
if(poly)
grill_hole_positions(width, height, r)
poly_circle(r = grill_hole / 2);
else
grill_hole_positions(width, height, r)
circle(d = grill_hole);
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}
module box_corner_profile_2D(type) { //! The 2D shape of the corner profile.
t = box_sheet_slot(type);
difference() {
union() {
quadrant(box_hole_inset(type) + box_boss_r(type), box_boss_r(type)); // inside corner
translate([box_corner_gap(type) + box_profile_overlap(type), box_corner_gap(type) + box_profile_overlap(type)])
rotate(180)
quadrant(box_profile_overlap(type) + box_corner_rad(type), box_corner_rad(type)); // outside corner
}
translate([box_corner_gap(type), -t + sheet_slot_clearance / 2])
square([100, t]);
translate([-t + sheet_slot_clearance / 2, box_corner_gap(type)])
square([t, 100]);
}
}
module box_corner_profile(type) { //! Generates the corner profile STL for 3D printing.
stl("box_corner_profile");
length = box_height(type) - 2 * box_margin(type);
difference() {
linear_extrude(length, center = true, convexity = 5)
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box_corner_profile_2D(type);
for(z = [-1, 1])
translate([box_hole_inset(type), box_hole_inset(type), z * length / 2])
insert_hole(box_insert(type), 5);
}
}
module box_corner_profile_section(type, section, sections) { //! Generates interlocking sections of the corner profile to allow it to be taller than the printer
overlap = 4;
length = box_height(type) - 2 * box_margin(type);
section_length = round_to_layer((length - overlap) / sections);
last_section = section >= sections - 1;
h = last_section ? length - (sections - 1) * section_length : section_length;
overlap_wall = 2;
difference() {
union() {
linear_extrude(h, convexity = 5)
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box_corner_profile_2D(type);
if(!last_section) // male end always at the top
translate_z(section_length - 1)
for(i = [0 : 1], offset = i * layer_height)
linear_extrude(overlap + 1 - offset)
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offset(1 + offset - layer_height)
offset(-overlap_wall - 1)
box_corner_profile_2D(type);
}
if(section > 0)
translate_z(last_section ? h : 0) { // female at bottom unless last section
linear_extrude(2 * (overlap + layer_height), center = true, convexity = 5)
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offset(-overlap_wall)
box_corner_profile_2D(type);
linear_extrude(2 * layer_height, center = true, convexity = 5)
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offset(-overlap_wall + layer_height)
box_corner_profile_2D(type);
}
if(!section || last_section) // insert holes always at the bottom
translate([box_hole_inset(type), box_hole_inset(type)])
insert_hole(box_insert(type), 5);
}
}
module box_corner_profile_sections(type, section, sections) { //! Generate four copies of a corner profile section
stl("box_corner_profile");
offset = box_boss_r(type) + 1;
for(i = [0 : 3])
rotate(i * 90)
translate([offset, offset])
box_corner_profile_section(type, section, sections);
}
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module box_corner_quadrants(type, width, depth)
for(corner = [0:3]) {
x = [-1,1,1,-1][corner];
y = [-1,-1,1,1][corner];
translate([x * width / 2, y * depth / 2, 0])
rotate(corner * 90)
quadrant(box_intrusion(type), box_boss_r(type));
}
module box_bezel(type, bottom) { //! Generates top and bottom bezel STLs
stl(bottom ? "bottom_bezel" : "top_bezel");
feet = bottom && box_feet(type);
t = box_sheet_slot(type);
outset = box_outset(type);
inner_r = box_sheet_r(type);
foot_height = box_corner_gap(type) + sheet_thickness(box_base_sheet(type)) + washer_thickness(box_washer(type)) + screw_head_height(box_screw(type)) + box_profile_overlap(type) + 2;
foot_length = box_corner_rad(type) * 2;
height = box_bezel_height(type, bottom);
foot_extension = foot_height - height;
difference() {
translate_z(-box_profile_overlap(type)) difference() {
rounded_rectangle([box_width(type) + 2 * outset, box_depth(type) + 2 * outset, feet ? foot_height : height], box_corner_rad(type), false);
//
// Remove edges between the feet
//
if(feet)
hull() {
translate_z(height + 0.5)
cube([box_width(type) - 2 * foot_length, box_depth(type) + 2 * outset + 1, 1], center = true);
translate_z(foot_height + 1)
cube([box_width(type) - 2 * (foot_length - foot_extension), box_depth(type) + 2 * outset + 1, 1], center = true);
}
if(feet)
hull() {
translate_z(height + 0.5)
cube([box_width(type) + 2 * outset + 1, box_depth(type) - 2 * foot_length, 1], center = true);
translate_z(foot_height + 1)
cube([box_width(type) + 2 * outset + 1, box_depth(type) - 2 * (foot_length - foot_extension), 1], center = true);
}
}
//
// slots for side panels
//
translate_z(-box_profile_overlap(type))
linear_extrude(2 * box_profile_overlap(type), center = true)
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for(i = [-1, 1]) {
translate([i * (box_width(type) / 2 + t / 2 - sheet_slot_clearance / 2), 0])
square([t, box_depth(type) - 2 * box_corner_gap(type)], center = true);
translate([0, i * (box_depth(type) / 2 + t / 2 - sheet_slot_clearance / 2)])
square([box_width(type) - 2 * box_corner_gap(type), t], center = true);
}
//
// recess for top / bottom panel
//
translate_z(box_corner_gap(type))
rounded_rectangle([box_width(type) + bezel_clearance, box_depth(type) + bezel_clearance, height], inner_r + bezel_clearance / 2, false);
//
// leave plastic over the corner profiles
//
translate_z(-box_profile_overlap(type) - 1)
linear_extrude(box_profile_overlap(type) + box_corner_gap(type) + 2)
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union() {
difference() {
square([box_width(type) - 2 * box_inset(type),
box_depth(type) - 2 * box_inset(type)], center = true);
box_corner_quadrants(type, box_width(type), box_depth(type));
}
box_screw_hole_positions(type)
poly_circle(screw_clearance_radius(box_screw(type)));
}
}
}
dowel_length = 20;
dowel_wall = extrusion_width * 3;
dowel_h_wall = layer_height * 6;
module box_bezel_section(type, bottom, rows, cols, x, y) { //! Generates interlocking sections of the bezel to allow it to be bigger than the printer
tw = box_width(type) + 2 * box_outset(type);
w = tw / cols;
th = box_depth(type) + 2 * box_outset(type);
h = th / rows;
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bw = box_outset(type) - bezel_clearance / 2;
bw2 = box_outset(type) + box_inset(type);
dw = bw - 2 * dowel_wall;
dh = box_bezel_height(type, bottom) - dowel_h_wall;
dh2 = box_profile_overlap(type) + box_corner_gap(type) - dowel_h_wall;
end_clearance = 0.5;
module male() {
rotate([90, 0, 90])
linear_extrude(dowel_length - 2 * end_clearance, center = true)
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difference() {
union() {
h = dh - layer_height;
h2 = dh2 - layer_height;
hull() {
translate([bw / 2, h / 2])
square([dw - 1, h], center = true);
translate([bw / 2, (h - 1) / 2])
square([dw, h - 1], center = true);
}
hull() {
translate([bw2 / 2, h2 / 2])
square([bw2 - 2 * dowel_wall - 1, h2], center = true);
translate([bw2 / 2, (h2 - 1) / 2])
square([bw2 - 2 * dowel_wall, h2 - 1], center = true);
}
}
translate([bw2 / 2, 0])
square([box_sheet_slot(type), 2 * box_profile_overlap(type)], center = true);
}
}
module female() {
union() {
translate([0, bw / 2, dh / 2])
cube([dowel_length, dw, dh], center = true);
translate([0, bw2 / 2])
cube([dowel_length, bw2 - 2 * dowel_wall, dh2 * 2], center = true);
hull() {
translate([0, bw / 2, dh / 2])
cube([2, dw, dh], center = true);
translate([0, bw / 2, dh / 2])
cube([eps, dw + 2 * extrusion_width, dh], center = true);
}
hull() {
translate([0, bw2 / 2, dh2 / 2])
cube([2, bw2 - 2 * dowel_wall, dh2], center = true);
translate([0, bw2 / 2, dh2 / 2])
cube([eps, bw2 - 2 * dowel_wall + 2 * extrusion_width, dh2], center = true);
}
}
}
module support() {
if(!$preview)
translate([0, bw / 2 + dw / 2])
cube([dowel_length / 2 - 0.25, 2 * extrusion_width + 0.2, dh2]);
}
union() {
render() difference() {
union() {
clip(xmin = 0, xmax = w, ymin = 0, ymax = h)
translate([tw / 2 - x * w, th / 2 - y * h, box_profile_overlap(type)])
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box_bezel(type, bottom);
if(x < cols - 1 && y == 0)
translate([w, 0])
male();
if(x > 0 && y == rows - 1)
translate([0, h])
rotate(180)
male();
if(y < rows - 1 && x == cols - 1)
translate([w, h])
rotate(90)
male();
if(y > 0 && x == 0)
rotate(-90)
male();
}
if(x < cols - 1 && y == rows - 1)
translate([w, h])
rotate(180)
female();
if(x > 0 && y == 0)
female();
if(y < rows - 1 && x == 0)
translate([0, h])
rotate(-90)
female();
if(y > 0 && x == cols - 1)
translate([w, 0])
rotate(90)
female();
}
if(x < cols - 1 && y == rows - 1)
translate([w, h])
rotate(180)
support();
if(x > 0 && y == 0)
support();
if(y < rows - 1 && x == 0)
translate([0, h])
rotate(-90)
support();
if(y > 0 && x == cols - 1)
translate([w, 0])
rotate(90)
support();
}
}
module box_screw_hole_positions(type)
for(x = [-1, 1], y = [-1, 1])
translate([x * (box_width(type) / 2 - box_hole_inset(type)), y * (box_depth(type) / 2 - box_hole_inset(type))])
children();
module box_base_blank(type) { //! Generates a 2D template for the base sheet
dxf("box_base");
difference() {
sheet_2D(box_base_sheet(type), box_width(type), box_depth(type), box_sheet_r(type));
box_screw_hole_positions(type)
drill(screw_clearance_radius(box_screw(type)), 0);
}
}
module box_top_blank(type) { //! Generates a 2D template for the top sheet
dxf("box_top");
difference() {
sheet_2D(box_top_sheet(type), box_width(type), box_depth(type), box_sheet_r(type));
box_screw_hole_positions(type)
drill(screw_clearance_radius(box_screw(type)), 0);
}
}
function subst_sheet(type, sheet) =
let(s = box_sheets(type))
sheet ? assert(sheet_thickness(sheet) == sheet_thickness(s)) sheet : s;
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module box_shelf_blank(type, sheet = false) { //! Generates a 2D template for a shelf sheet
dxf("box_shelf");
difference() {
sheet_2D(subst_sheet(type, sheet), box_width(type) - bezel_clearance, box_depth(type) - bezel_clearance, 1);
offset(bezel_clearance / 2)
box_corner_quadrants(type, box_width(type), box_depth(type));
}
}
module box_shelf_screw_positions(type, screw_positions, thickness = 0, wall = undef) { //! Place children at the shelf screw positions
w = is_undef(wall) ? box_wall(type) : wall;
insert = box_shelf_insert(type);
translate_z(-insert_boss_radius(insert, w))
for(p = screw_positions)
multmatrix(p)
translate_z(thickness)
children();
}
module box_shelf_bracket(type, screw_positions, wall = undef) { //! Generates a shelf bracket, the first optional child is a 2D cutout and the second 3D cutouts
stl("shelf_bracket");
w = is_undef(wall) ? box_wall(type) : wall;
insert = box_shelf_insert(type);
lip = 2 * insert_boss_radius(insert, w);
width = insert_length(insert) + w;
module shape()
difference() {
square([box_width(type), box_depth(type)], center = true);
offset(bezel_clearance / 2)
box_corner_quadrants(type, box_width(type), box_depth(type));
if($children)
hflip()
children();
}
module boss()
translate_z(-width + eps)
linear_extrude(width - 2 * eps)
hull() {
circle4n(r = lip / 2 - eps);
translate([-lip / 2, -lip / 2 + eps])
square([lip, eps]);
}
difference() {
union() {
linear_extrude(w)
difference() {
shape()
if($children)
children(0);
round(2) offset(-width)
shape()
if($children)
children(0);
}
linear_extrude(lip)
difference() {
shape()
if($children)
children(0);
offset(-w)
shape()
if($children)
children(0);
}
hflip()
box_shelf_screw_positions(type, screw_positions, 0, w)
boss();
}
if($children > 1)
hflip()
children(1);
hflip()
box_shelf_screw_positions(type, screw_positions, 0, w)
insert_hole(insert, counterbore = 1, horizontal = true);
}
}
module box_shelf_bracket_section(type, rows, cols, x, y) { //! Generates sections of the shelf bracket to allow it to be bigger than the printer
tw = box_width(type);
w = tw / cols;
th = box_depth(type);
h = th / rows;
clip(xmin = 0, xmax = w, ymin = 0, ymax = h)
translate([tw / 2 - x * w, th / 2 - y * h])
children();
}
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module box_left_blank(type, sheet = false) { //! Generates a 2D template for the left sheet, ```sheet``` can be set to override the type
dxf("box_left");
sheet_2D(subst_sheet(type, sheet), box_depth(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_right_blank(type, sheet = false) { //! Generates a 2D template for the right sheet, ```sheet``` can be set to override the type
dxf("box_right");
sheet_2D(subst_sheet(type, sheet), box_depth(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_front_blank(type, sheet = false) { //! Generates a 2D template for the front sheet, ```sheet``` can be set to override the type
dxf("box_front");
sheet_2D(subst_sheet(type, sheet), box_width(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_back_blank(type, sheet = false) { //! Generates a 2D template for the back sheet, ```sheet``` can be set to override the type
dxf("box_back");
sheet_2D(subst_sheet(type, sheet), box_width(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_base(type) render_2D_sheet(box_base_sheet(type)) box_base_blank(type); //! Default base, can be overridden to customise
module box_top(type) render_2D_sheet(box_top_sheet(type)) box_top_blank(type); //! Default top, can be overridden to customise
module box_back(type) render_2D_sheet(box_sheets(type)) box_back_blank(type); //! Default back, can be overridden to customise
module box_front(type) render_2D_sheet(box_sheets(type)) box_front_blank(type); //! Default front, can be overridden to customise
module box_left(type) render_2D_sheet(box_sheets(type)) box_left_blank(type); //! Default left side, can be overridden to customise
module box_right(type) render_2D_sheet(box_sheets(type)) box_right_blank(type); //! Default right side, can be overridden to customise