gridfinity-rebuilt-openscad/gridfinity-rebuilt-baseplate.scad

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// ===== INFORMATION ===== //
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/*
IMPORTANT: rendering will be better for analyzing the model if fast-csg is enabled. As of writing, this feature is only available in the development builds and not the official release of OpenSCAD, but it makes rendering only take a couple seconds, even for comically large bins. Enable it in Edit > Preferences > Features > fast-csg
https://github.com/kennetek/gridfinity-rebuilt-openscad
*/
include <src/core/standard.scad>
use <src/core/gridfinity-rebuilt-utility.scad>
use <src/core/gridfinity-rebuilt-holes.scad>
use <src/helpers/generic-helpers.scad>
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// ===== PARAMETERS ===== //
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/* [Setup Parameters] */
$fa = 8;
$fs = 0.25;
/* [General Settings] */
// number of bases along x-axis
gridx = 1;
// number of bases along y-axis
gridy = 1;
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/* [Screw Together Settings - Defaults work for M3 and 4-40] */
// screw diameter
d_screw = 3.35;
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// screw head diameter
d_screw_head = 5;
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// screw spacing distance
screw_spacing = .5;
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// number of screws per grid block
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n_screws = 1; // [1:3]
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/* [Fit to Drawer] */
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// minimum length of baseplate along x (leave zero to ignore, will automatically fill area if gridx is zero)
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distancex = 0;
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// minimum length of baseplate along y (leave zero to ignore, will automatically fill area if gridy is zero)
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distancey = 0;
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// where to align extra space along x
fitx = 0; // [-1:0.1:1]
// where to align extra space along y
fity = 0; // [-1:0.1:1]
/* [Styles] */
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// baseplate styles
style_plate = 3; // [0: thin, 1:weighted, 2:skeletonized, 3: screw together, 4: screw together minimal]
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// hole styles
style_hole = 0; // [0:none, 1:countersink, 2:counterbore]
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/* [Magnet Hole] */
// Baseplate will have holes for 6mm Diameter x 2mm high magnets.
enable_magnet = true;
// Magnet holes will have crush ribs to hold the magnet.
crush_ribs = true;
// Magnet holes will have a chamfer to ease insertion.
chamfer_holes = true;
hole_options = bundle_hole_options(refined_hole=false, magnet_hole=enable_magnet, screw_hole=false, crush_ribs=crush_ribs, chamfer=chamfer_holes, supportless=false);
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// ===== IMPLEMENTATION ===== //
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color("tomato")
gridfinityBaseplate([gridx, gridy], l_grid, [distancex, distancey], style_plate, hole_options, style_hole, [fitx, fity]);
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// ===== CONSTRUCTION ===== //
/**
* @brief Create a baseplate.
* @param grid_size_bases Number of Gridfinity bases.
* 2d Vector. [x, y].
* Set to [0, 0] to auto calculate using min_size_mm.
* @param length X,Y size of a single Gridfinity base.
* @param min_size_mm Minimum size of the baseplate. [x, y]
* Extra space is filled with solid material.
* Enables "Fit to Drawer."
* @param sp Baseplate Style
* @param hole_options
* @param sh Style of screw hole allowing the baseplate to be mounted to something.
* @param fit_offset Determines where padding is added.
*/
module gridfinityBaseplate(grid_size_bases, length, min_size_mm, sp, hole_options, sh, fit_offset = [0, 0]) {
assert(is_list(grid_size_bases) && len(grid_size_bases) == 2,
"grid_size_bases must be a 2d list");
assert(is_list(min_size_mm) && len(min_size_mm) == 2,
"min_size_mm must be a 2d list");
assert(is_list(fit_offset) && len(fit_offset) == 2,
"fit_offset must be a 2d list");
assert(grid_size_bases.x > 0 || min_size_mm.x > 0,
"Must have positive x grid amount!");
assert(grid_size_bases.y > 0 || min_size_mm.y > 0,
"Must have positive y grid amount!");
additional_height = calculate_offset(sp, hole_options[1], sh);
// Final height of the baseplate. In mm.
baseplate_height_mm = additional_height + BASEPLATE_LIP_MAX.y;
// Final size in number of bases
grid_size = [for (i = [0:1])
grid_size_bases[i] == 0 ? floor(min_size_mm[i]/length) : grid_size_bases[i]];
// Final size of the base before padding. In mm.
grid_size_mm = concat(grid_size * length, [baseplate_height_mm]);
// Final size, including padding. In mm.
size_mm = [
max(grid_size_mm.x, min_size_mm.x),
max(grid_size_mm.y, min_size_mm.y),
baseplate_height_mm
];
// Amount of padding needed to fit to a specific drawer size. In mm.
padding_mm = size_mm - grid_size_mm;
is_padding_needed = padding_mm != [0, 0, 0];
//Convert the fit offset to percent of how much will be added to the positive axes.
// -1 : 1 -> 0 : 1
fit_percent_positive = [for (i = [0:1]) (fit_offset[i] + 1) / 2];
padding_start_point = -grid_size_mm/2 -
[
padding_mm.x * (1 - fit_percent_positive.x),
padding_mm.y * (1 - fit_percent_positive.y),
-grid_size_mm.z/2
];
corner_points = [
padding_start_point + [size_mm.x, size_mm.y, 0],
padding_start_point + [0, size_mm.y, 0],
padding_start_point,
padding_start_point + [size_mm.x, 0, 0],
];
echo(str("Number of Grids per axes (X, Y)]: ", grid_size));
echo(str("Final size (in mm): ", size_mm));
if (is_padding_needed) {
echo(str("Padding +X (in mm): ", padding_mm.x * fit_percent_positive.x));
echo(str("Padding -X (in mm): ", padding_mm.x * (1 - fit_percent_positive.x)));
echo(str("Padding +Y (in mm): ", padding_mm.y * fit_percent_positive.y));
echo(str("Padding -Y (in mm): ", padding_mm.y * (1 - fit_percent_positive.y)));
}
screw_together = sp == 3 || sp == 4;
minimal = sp == 0 || sp == 4;
difference() {
union() {
// Baseplate itself
pattern_linear(grid_size.x, grid_size.y, length) {
// Single Baseplate piece
difference() {
if (minimal) {
square_baseplate_lip(additional_height);
} else {
solid_square_baseplate(additional_height);
}
// Bottom/through pattern for the solid baseplates.
if (sp == 1) {
cutter_weight();
} else if (sp == 2 || sp == 3) {
translate([0,0,-TOLLERANCE])
linear_extrude(additional_height + (2 * TOLLERANCE))
profile_skeleton();
}
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// Add holes to the solid baseplates.
hole_pattern(){
// Manget hole
translate([0, 0, additional_height+TOLLERANCE])
mirror([0, 0, 1])
block_base_hole(hole_options);
translate([0,0,-TOLLERANCE])
if (sh == 1) {
cutter_countersink();
} else if (sh == 2) {
cutter_counterbore();
}
}
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}
}
// Padding
if (is_padding_needed) {
render()
difference() {
translate(padding_start_point)
cube(size_mm);
translate([
-grid_size_mm.x/2,
-grid_size_mm.y/2,
0
])
cube(grid_size_mm);
}
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}
}
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// Round the outside corners (Including Padding)
for(i = [0:len(corner_points) - 1]) {
point = corner_points[i];
translate([
point.x + (BASEPLATE_OUTSIDE_RADIUS * -sign(point.x)),
point.y + (BASEPLATE_OUTSIDE_RADIUS * -sign(point.y)),
0
])
rotate([0, 0, i*90])
square_baseplate_corner(additional_height, true);
}
if (screw_together) {
translate([0, 0, additional_height/2])
cutter_screw_together(grid_size.x, grid_size.y, length);
}
}
}
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function calculate_offset(style_plate, enable_magnet, style_hole) =
assert(style_plate >=0 && style_plate <=4)
let (screw_together = style_plate == 3 || style_plate == 4)
screw_together ? 6.75 :
style_plate==0 ? 0 :
style_plate==1 ? bp_h_bot :
calculate_offset_skeletonized(enable_magnet, style_hole);
function calculate_offset_skeletonized(enable_magnet, style_hole) =
h_skel + (enable_magnet ? MAGNET_HOLE_DEPTH : 0) +
(
style_hole==0 ? d_screw :
style_hole==1 ? BASEPLATE_SCREW_COUNTERSINK_ADDITIONAL_RADIUS : // Only works because countersink is at 45 degree angle!
BASEPLATE_SCREW_COUNTERBORE_HEIGHT
);
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module cutter_weight() {
union() {
linear_extrude(bp_cut_depth*2,center=true)
square(bp_cut_size, center=true);
pattern_circular(4)
translate([0,10,0])
linear_extrude(bp_rcut_depth*2,center=true)
union() {
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square([bp_rcut_width, bp_rcut_length], center=true);
translate([0,bp_rcut_length/2,0])
circle(d=bp_rcut_width);
}
}
}
module hole_pattern(){
pattern_circular(4)
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translate([l_grid/2-d_hole_from_side, l_grid/2-d_hole_from_side, 0]) {
render();
children();
}
}
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module cutter_countersink(){
screw_hole(SCREW_HOLE_RADIUS + d_clear, 2*h_base,
false, BASEPLATE_SCREW_COUNTERSINK_ADDITIONAL_RADIUS);
}
module cutter_counterbore(){
screw_radius = SCREW_HOLE_RADIUS + d_clear;
counterbore_height = BASEPLATE_SCREW_COUNTERBORE_HEIGHT + 2*LAYER_HEIGHT;
union(){
cylinder(h=2*h_base, r=screw_radius);
difference() {
cylinder(h = counterbore_height, r=BASEPLATE_SCREW_COUNTERBORE_RADIUS);
make_hole_printable(screw_radius, BASEPLATE_SCREW_COUNTERBORE_RADIUS, counterbore_height);
}
}
}
/**
* @brief Added or removed from the baseplate to square off or round the corners.
* @param height Baseplate's height, excluding lip and clearance height.
* @param subtract If the corner should be scaled to allow subtraction.
*/
module square_baseplate_corner(height=0, subtract=false) {
assert(height >= 0);
assert(is_bool(subtract));
subtract_ammount = subtract ? TOLLERANCE : 0;
translate([0, 0, -subtract_ammount])
linear_extrude(height + BASEPLATE_LIP_MAX.y + (2 * subtract_ammount))
difference() {
square(BASEPLATE_OUTSIDE_RADIUS + subtract_ammount , center=false);
// TOLLERANCE needed to prevent a gap
circle(r=BASEPLATE_OUTSIDE_RADIUS - TOLLERANCE);
}
}
/**
* @brief Outer edge/lip of the baseplate.
* @details Includes clearance to ensure the base touches the lip
* instead of the bottom.
* @param height Baseplate's height excluding lip and clearance height.
* @param width How wide a single baseplate is. Only set if deviating from the standard!
* @param length How long a single baseplate is. Only set if deviating from the standard!
*/
module baseplate_lip(height=0, width=l_grid, length=l_grid) {
assert(height >= 0);
// How far, in the +x direction,
// the lip needs to be from it's [0, 0] point
// such that when swept by 90 degrees to produce a corner,
// the outside edge has the desired radius.
translation_x = BASEPLATE_OUTSIDE_RADIUS - BASEPLATE_LIP_MAX.x;
additional_height = height + BASEPLATE_CLEARANCE_HEIGHT;
sweep_rounded(width-2*BASEPLATE_OUTSIDE_RADIUS, length-2*BASEPLATE_OUTSIDE_RADIUS)
translate([translation_x, additional_height, 0])
polygon(concat(BASEPLATE_LIP, [
[0, -additional_height],
[BASEPLATE_LIP_MAX.x, -additional_height],
[BASEPLATE_LIP_MAX.x, 0]
]));
}
/**
* @brief Outer edge/lip of the baseplate, with square corners.
* @details Needed to prevent gaps when joining multiples together.
* @param height Baseplate's height excluding lip and clearance height.
* @param size Width/Length of a single baseplate. Only set if deviating from the standard!
*/
module square_baseplate_lip(height=0, size = l_grid) {
assert(height >= 0 && size/2 >= BASEPLATE_OUTSIDE_RADIUS);
corner_center_distance = size/2 - BASEPLATE_OUTSIDE_RADIUS;
render(convexity = 2) // Fixes ghosting in preview
union() {
baseplate_lip(height, size, size);
pattern_circular(4)
translate([corner_center_distance, corner_center_distance, 0])
square_baseplate_corner(height);
}
}
/**
* @brief A single baseplate with square corners, a solid inner section, lip and the set clearance height.
* @param height Baseplate's height excluding lip and clearance height.
* @param size Width/Length of a single baseplate. Only set if deviating from the standard!
* @details A height of zero is the equivalent of just calling square_baseplate_lip()
*/
module solid_square_baseplate(height=0, size = l_grid) {
assert(height >= 0 && size > 0);
union() {
square_baseplate_lip(height, size);
if (height > 0) {
linear_extrude(height)
square(size - BASEPLATE_OUTSIDE_RADIUS, center=true);
}
}
}
/**
* @brief 2d Cutter to skeletonize the baseplate.
* @param size Width/Length of a single baseplate. Only set if deviating from the standard!
* @example difference(){
* cube(large_number);
* linear_extrude(large_number+TOLLERANCE)
* profile_skeleton();
* }
*/
module profile_skeleton(size=l_grid) {
l = size - 2*BASEPLATE_LIP_MAX.x;
offset(r_skel)
difference() {
square(l-2*r_skel, center = true);
hole_pattern()
offset(MAGNET_HOLE_RADIUS+r_skel+2)
square([l,l]);
}
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}
module cutter_screw_together(gx, gy, size = l_grid) {
screw(gx, gy);
rotate([0,0,90])
screw(gy, gx);
module screw(a, b) {
copy_mirror([1,0,0])
translate([a*size/2, 0, 0])
pattern_linear(1, b, 1, size)
pattern_linear(1, n_screws, 1, d_screw_head + screw_spacing)
rotate([0,90,0])
cylinder(h=size/2, d=d_screw, center = true);
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}
}