gridfinity-rebuilt-openscad/gridfinity-spiral-vase.scad

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// ===== INFORMATION ===== //
/*
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IMPORTANT: rendering will be better in development builds and not the official release of OpenSCAD, but it makes rendering only take a couple seconds, even for comically large bins.
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https://github.com/kennetek/gridfinity-rebuilt-openscad
*/
include <src/core/standard.scad>
use <src/core/gridfinity-rebuilt-utility.scad>
use <src/helpers/generic-helpers.scad>
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// ===== PARAMETERS ===== //
/* [Special Variables] */
$fa = 8;
$fs = 0.25;
/* [Bin or Base] */
type = 1; // [0:bin, 1:base]
/* [Printer Settings] */
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// extrusion width (walls will be twice this size)
nozzle = 0.6;
// slicer layer size
layer = 0.35;
// number of base layers on build plate
bottom_layer = 3;
/* [General Settings] */
// number of bases along x-axis
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gridx = 1;
// number of bases along y-axis
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gridy = 1;
// bin height. See bin height information and "gridz_define" below.
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gridz = 6;
// number of compartments along x-axis
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n_divx = 2;
/* [Toggles] */
// toggle holes on the base for magnet
enable_holes = true;
// round up the bin height to match the closest 7mm unit
enable_zsnap = false;
// toggle the lip on the top of the bin that allows stacking
enable_lip = true;
// chamfer inside bin for easy part removal
enable_scoop_chamfer = true;
// funnel-like features on the back of tabs for fingers to grab
enable_funnel = true;
// front inset (added for strength when there is a scoop)
enable_inset = true;
// "pinches" the top lip of the bin, for added strength
enable_pinch = true;
/* [Styles] */
// determine what the variable "gridz" applies to based on your use case
gridz_define = 0; // [0:gridz is the height of bins in units of 7mm increments - Zack's method,1:gridz is the internal height in millimeters, 2:gridz is the overall external height of the bin in millimeters]
// how tabs are implemented
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style_tab = 0; // [0:continuous, 1:broken, 2:auto, 3:right, 4:center, 5:left, 6:none]
// where to put X cutouts for attaching bases
// selecting none will also disable crosses on bases
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style_base = 0; // [0:all, 1:corners, 2:edges, 3:auto, 4:none]
// tab angle
a_tab = 40;
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// ===== IMPLEMENTATION ===== //
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color("tomato")
if (type != 0) gridfinityBaseVase(2*nozzle, d_bottom); // Generate a single base
else gridfinityVase(); // Generate the bin
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// ===== CONSTRUCTION ===== //
//Deprecated Variables
d_hole = 26; // center-to-center distance between holes
//End Deprecated Variables
d_bottom = layer*(max(bottom_layer,1));
x_l = l_grid/2;
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dht = (gridz_define==0)?gridz*7 : (gridz_define==1)?h_bot+gridz+BASE_HEIGHT : gridz-(enable_lip?3.8:0);
d_height = (enable_zsnap?((abs(dht)%7==0)?dht:dht+7-abs(dht)%7):dht)-BASE_HEIGHT;
d_fo1 = 2*+BASE_TOP_RADIUS;
f2c = sqrt(2)*(sqrt(2)-1); // fillet to chamfer ratio
me = ((gridx*l_grid-0.5)/n_divx)-nozzle*4-d_fo1-12.7-4;
m = min(d_tabw/1.8 + max(0,me), d_tabw/1.25);
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d_ramp = f2c*(l_grid*((d_height-2)/7+1)/12-r_f2)+d_wall2;
d_edge = ((gridx*l_grid-0.5)/n_divx-d_tabw-d_fo1)/2;
n_st = gridz <= 3 ? 6 : d_edge < 2 && style_tab != 0 && style_tab != 6 ? 1 : style_tab == 1 && n_divx <= 1? 0 : style_tab;
n_x = (n_st==0?1:n_divx);
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spacing = (gridx*l_grid-0.5)/(n_divx);
shift = n_st==3?-1:n_st==5?1:0;
shiftauto = function (a,b) n_st!=2?0:a==1?-1:a==b?1:0;
xAll = function (a,b) true;
xCorner = function(a,b) (a==1||a==gridx)&&(b==1||b==gridy);
xEdge = function(a,b) (a==1)||(a==gridx)||(b==1)||(b==gridy);
xAuto = function(a,b) xCorner(a,b) || (a%2==1 && b%2 == 1);
xNone = function(a,b) false;
xFunc = [xAll, xCorner, xEdge, xAuto, xNone];
module gridfinityVase() {
$dh = d_height;
difference() {
union() {
difference() {
block_vase_base();
if (n_st != 6)
transform_style()
transform_vtab_base((n_st<2?gridx*l_grid/n_x-0.5-d_fo1:d_tabw)-nozzle*4)
block_tab_base(-nozzle*sqrt(2));
}
if (enable_scoop_chamfer)
intersection() {
block_vase();
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translate([0,gridy*l_grid/2-0.25-d_wall2/2,d_height/2+0.1])
cube([gridx*l_grid,d_wall2,d_height-0.2],center=true);
}
if (enable_funnel && gridz > 3)
pattern_linear((n_st==0?n_divx>1?n_divx:gridx:1), 1, (gridx*l_grid-d_fo1)/(n_st==0?n_divx>1?n_divx:gridx:1))
transform_funnel()
block_funnel_outside();
if (n_divx > 1)
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pattern_linear(n_divx-1,1,(gridx*l_grid-0.5)/(n_divx))
block_divider();
if (n_divx < 1)
pattern_linear(n_st == 0 ? n_divx>1 ? n_divx-1 : gridx-1 : 1, 1, (gridx*l_grid-d_fo1)/((n_divx>1 ? n_divx : gridx)))
block_tabsupport();
}
if (enable_funnel && gridz > 3)
pattern_linear((n_st==0?n_divx>1?n_divx:gridx:1), 1, (gridx*l_grid-d_fo1)/(n_st==0?n_divx>1?n_divx:gridx:1))
transform_funnel()
block_funnel_inside();
if (!enable_lip)
translate([0,0,1.5*d_height])
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cube([gridx*l_grid,gridy*l_grid,d_height], center=true);
block_x();
block_inset();
if (enable_pinch)
block_pinch(d_height);
if (bottom_layer <= 0)
translate([0,0,-50+layer+0.01])
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cube([gridx*l_grid*10,gridy*l_grid*10,100], center=true);
}
}
module gridfinityBaseVase(wall_thickness, bottom_thickness) {
difference() {
union() {
base_outer_shell(wall_thickness, bottom_thickness);
intersection() {
pattern_circular(4){
rotate([0,0,45])
translate([-wall_thickness/2, 3, 0])
cube([wall_thickness, l_grid, BASE_PROFILE_MAX.y]);
if (enable_holes) {
block_magnet_blank(wall_thickness);
}
}
base_solid();
}
if (style_base != 4) {
translate([0, 0, BASE_PROFILE_MAX.y])
linear_extrude(bottom_thickness)
profile_x(0.1);
}
}
if (enable_holes) {
pattern_circular(4)
block_magnet_blank(0, false);
}
// magic slice
// Tricks slicer into not ignoring the center.
rotate([0, 0, 90])
translate([0, 0, bottom_thickness])
cube([0.005, 2*l_grid, 2*BASE_HEIGHT]);
}
}
module block_magnet_blank(o = 0, half = true) {
magnet_radius = MAGNET_HOLE_RADIUS + o;
translate([d_hole/2, d_hole/2, 0.1])
difference() {
hull() {
cylinder(r = magnet_radius, h = MAGNET_HOLE_DEPTH*2, center = true);
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cylinder(r = magnet_radius-(BASE_HEIGHT+0.1-MAGNET_HOLE_DEPTH), h = (BASE_HEIGHT+0.1)*2, center = true);
}
if (half)
mirror([0,0,1])
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cylinder(r=magnet_radius*2, h = (BASE_HEIGHT+0.1)*4);
}
}
module block_pinch(height_mm) {
assert(is_num(height_mm));
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translate([0, 0, -BASE_HEIGHT])
block_wall(gridx, gridy, l_grid) {
translate([d_wall2-nozzle*2-d_clear*2,0,0])
profile_wall(height_mm);
}
}
module block_tabsupport() {
intersection() {
translate([0,0,0.1])
block_vase(d_height*4);
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cube([nozzle*2, gridy*l_grid, d_height*3], center=true);
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transform_vtab_base(gridx*l_grid*2)
block_tab_base(-nozzle*sqrt(2));
}
}
module block_divider() {
difference() {
intersection() {
translate([0,0,0.1])
block_vase();
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cube([nozzle*2, gridy*l_grid, d_height*2], center=true);
}
if (n_st == 0) block_tab(0.1);
else block_divider_edgecut();
// cut divider clearance on negative Y side
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translate([-gridx*l_grid/2,-(gridy*l_grid/2-0.25),0])
cube([gridx*l_grid,nozzle*2+0.1,d_height*2]);
// cut divider clearance on positive Y side
mirror([0,1,0])
if (enable_scoop_chamfer)
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translate([-gridx*l_grid/2,-(gridy*l_grid/2-0.25),0])
cube([gridx*l_grid,d_wall2+0.1,d_height*2]);
else block_divider_edgecut();
// cut divider to have clearance with scoop
if (enable_scoop_chamfer)
transform_scoop()
offset(delta = 0.1)
polygon([
[0,0],
[d_ramp,d_ramp],
[d_ramp,d_ramp+nozzle/sqrt(2)],
[-nozzle/sqrt(2),0]
]);
}
// divider slices
difference() {
for (i = [0:(d_height-d_bottom)/(layer)]) {
if (2*i*layer < d_height-layer/2-d_bottom-0.1)
mirror([0,1,0])
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translate([0,(gridy*l_grid/2-0.25-nozzle)/2,layer/2+d_bottom+2*i*layer])
cube([nozzle*2-0.01,gridy*l_grid/2-0.25-nozzle,layer],center=true);
if ((2*i+1)*layer < d_height-layer/2-d_bottom-0.1)
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translate([0,(gridy*l_grid/2-0.25-nozzle)/2,layer/2+d_bottom+(2*i+1)*layer])
cube([nozzle*2-0.01,gridy*l_grid/2-0.25-nozzle,layer],center=true);
}
// divider slices cut to tabs
if (n_st == 0)
transform_style()
transform_vtab_base((n_st<2?gridx*l_grid/n_x-0.5-d_fo1:d_tabw)-nozzle*4)
block_tab_base(-nozzle*sqrt(2));
}
}
module block_divider_edgecut() {
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translate([-50,-gridy*l_grid/2+0.25,0])
rotate([90,0,90])
linear_extrude(100)
offset(delta = 0.1)
mirror([1,0,0])
translate([-r_base,0,0])
profile_wall($dh);
}
module transform_funnel() {
if (me > 6 && enable_funnel && gridz > 3 && n_st != 6)
transform_style()
render()
children();
}
module block_funnel_inside() {
intersection() {
block_tabscoop(m-nozzle*3*sqrt(2), 0.003, nozzle*2, 0.01);
block_tab(0.1);
}
}
module block_funnel_outside() {
intersection() {
difference() {
block_tabscoop(m, 0, 0, 0);
block_tabscoop(m-nozzle*4*sqrt(2), 0.003, nozzle*2, -1);
}
block_tab(-nozzle*sqrt(2)/2);
}
}
module block_vase_base() {
difference() {
// base
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translate([0,0,-BASE_HEIGHT]) {
translate([0,0,-0.1])
color("firebrick")
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block_bottom(d_bottom, gridx, gridy, l_grid);
color("royalblue")
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block_wall(gridx, gridy, l_grid) {
if (enable_lip) profile_wall($dh);
else profile_wall2($dh);
}
}
// magic slice
rotate([0,0,90])
mirror([0,1,0])
translate([0,0,d_bottom+0.001])
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cube([0.001,l_grid*gridx,d_height+d_bottom*2]);
}
// scoop piece
if (enable_scoop_chamfer)
transform_scoop()
polygon([
[0,0],
[d_ramp,d_ramp],
[d_ramp,d_ramp+0.6/sqrt(2)],
[-0.6/sqrt(2),0]
]);
// outside tab cutter
if (n_st != 6)
translate([-(n_x-1)*spacing/2,0,0])
for (i = [1:n_x])
translate([(i-1)*spacing,0,0])
translate([shiftauto(i,n_x)*d_edge + shift*d_edge,0,0])
intersection() {
block_vase();
transform_vtab_base(n_st<2?gridx*l_grid/n_x-0.5-d_fo1:d_tabw)
profile_tab();
}
}
module block_inset() {
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ixx = (gridx*l_grid-0.5)/2;
iyy = d_height/2.1;
izz = sqrt(ixx^2+iyy^2)*tan(40);
if (enable_scoop_chamfer && enable_inset)
difference() {
intersection() {
rotate([0,90,0])
translate([-iyy,0,0])
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block_inset_sub(iyy, gridx*l_grid, 45);
rotate([0,90,0])
translate([-iyy,0,0])
rotate([0,90,0])
block_inset_sub(ixx, d_height*2, 45);
}
mirror([0,1,0])
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translate([-gridx*l_grid/2,-(gridy*l_grid-0.5)/2+d_wall2-2*nozzle,0])
cube([gridx*l_grid,izz,d_height*2]);
}
}
module block_inset_sub(x, y, ang) {
translate([0,(gridy*l_grid-0.5)/2+r_fo1,0])
mirror([0,1,0])
linear_extrude(y,center=true)
polygon([[-x,0],[x,0],[0,x*tan(ang)]]);
}
module transform_style() {
translate([-(n_x-1)*spacing/2,0,0])
for (i = [1:n_x])
translate([(i-1)*spacing,0,0])
translate([shiftauto(i,n_x)*d_edge + shift*d_edge,0,0])
children();
}
module block_flushscoop() {
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translate([0,gridy*l_grid/2-d_wall2-nozzle/2-1,d_height/2])
linear_extrude(d_height)
union() {
copy_mirror([1,0,0])
polygon([[0,0],[gridx*l_grid/2-r_fo1,0],[gridx*l_grid/2-r_fo1,1],[gridx*l_grid/2-r_fo1-r_c1*5,d_wall2-nozzle*2+1],[0,d_wall2-nozzle*2+1]]);
}
transform_scoop()
polygon([[0,0],[d_ramp,0],[d_ramp,d_ramp]]);
}
module profile_tab() {
union() {
copy_mirror([0,1,0])
polygon([[0,0],[d_tabh*cos(a_tab),0],[d_tabh*cos(a_tab),d_tabh*sin(a_tab)]]);
}
}
module profile_tabscoop(m) {
polyhedron([[m/2,0,0],[0,-m,0],[-m/2,0,0],[0,0,m]], [[0,2,1],[1,2,3],[0,1,3],[0,3,2]]);
}
module block_tabscoop(a=m, b=0, c=0, d=-1) {
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translate([0,d_tabh*cos(a_tab)-l_grid*gridy/2+0.25+b,0])
difference() {
translate([0,0,-d_tabh*sin(a_tab)*2+d_height+2.1])
profile_tabscoop(a);
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translate([-gridx*l_grid/2,-m,-m])
cube([gridx*l_grid,m-d_tabh*cos(a_tab)+0.005+c,d_height*20]);
if (d >= 0)
translate([0,0,-d_tabh*sin(a_tab)+d_height+m/2+d+2.1])
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cube([gridx*l_grid,gridy*l_grid,m],center=true);
}
}
module transform_vtab(a=0,b=1) {
transform_vtab_base(gridx*l_grid/b-0.5-d_fo1+a)
children();
}
module transform_vtab_base(a) {
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translate([0,d_tabh*cos(a_tab)-l_grid*gridy/2+0.25,-d_tabh*sin(a_tab)+d_height+2.1])
rotate([90,0,270])
linear_extrude(a, center=true)
children();
}
module block_tab(del, b=1) {
transform_vtab(-nozzle*4, b)
block_tab_base(del);
}
module block_tab_base(del) {
offset(delta = del)
union() {
profile_tab();
translate([d_tabh*cos(a_tab),-d_tabh*sin(a_tab),0])
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square([l_grid,d_tabh*sin(a_tab)*2]);
}
}
module transform_scoop() {
intersection() {
block_vase();
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translate([0,gridy*l_grid/2-d_ramp,layer*max(bottom_layer*1)])
rotate([90,0,90])
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linear_extrude(2*l_grid*gridx,center=true)
children();
}
}
module block_vase(h = d_height*2) {
translate([0,0,-0.1])
rounded_square([gridx*l_grid-0.5-nozzle, gridy*l_grid-0.5-nozzle, h], r_base+0.01-nozzle/2, center=true);
}
module profile_x(x_f = 3) {
difference() {
square([x_l,x_l],center=true);
pattern_circular(4)
translate([0,nozzle*sqrt(2),0])
rotate([0,0,45])
translate([x_f,x_f,0])
minkowski() {
square([x_l,x_l]);
circle(x_f);
}
}
}
module block_x() {
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translate([-(gridx-1)*l_grid/2,-(gridy-1)*l_grid/2,0])
for (i = [1:gridx])
for (j = [1:gridy])
if (xFunc[style_base](i,j))
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translate([(i-1)*l_grid,(j-1)*l_grid,0])
block_x_sub();
}
module block_x_sub() {
linear_extrude(d_bottom*2+0.01,center=true)
offset(0.05)
profile_x();
}