diff --git a/gridfinity-rebuilt-base.scad b/gridfinity-rebuilt-base.scad
index 69843bc..d422ba2 100644
--- a/gridfinity-rebuilt-base.scad
+++ b/gridfinity-rebuilt-base.scad
@@ -126,18 +126,22 @@ module block_base() {
}
}
+module profile_wall_sub_sub() {
+ polygon([
+ [0,0],
+ [d_wall/2,0],
+ [d_wall/2,d_height-1.2-d_wall2+d_wall/2],
+ [d_wall2-d_clear,d_height-1.2],
+ [d_wall2-d_clear,d_height+h_base],
+ [0,d_height+h_base]
+ ]);
+}
+
module profile_wall_sub() {
difference() {
- polygon([
- [0,0],
- [d_wall/2,0],
- [d_wall/2,d_height-1.2-d_wall2+d_wall/2],
- [d_wall2-d_clear,d_height-1.2],
- [d_wall2-d_clear,d_height+h_base],
- [0,d_height+h_base]
- ]);
+ profile_wall_sub_sub();
color("red")
- offset(delta = 0.25)
+ offset(delta = d_clear)
translate([r_base-d_clear,d_height,0])
mirror([1,0,0])
profile_base();
@@ -150,12 +154,12 @@ module profile_wall() {
mirror([1,0,0])
difference() {
profile_wall_sub();
- difference() {
+ difference() {
translate([0, d_height+h_base-d_clear*sqrt(2), 0])
circle(r_base/2);
offset(r = r_f1)
offset(delta = -r_f1)
- profile_wall_sub();
+ profile_wall_sub();
}
}
}
diff --git a/gridfinity-spiral-vase/README.md b/gridfinity-spiral-vase/README.md
new file mode 100644
index 0000000..09344d8
--- /dev/null
+++ b/gridfinity-spiral-vase/README.md
@@ -0,0 +1,31 @@
+# Gridfinity Spiral Vase
+
+Some assembly required!
+Adaptation of Gridfinity bins to work with spiral vase mode, as to save filament and print time. A big drawback of using vase mode for Gridfinity bins was that they would be very flimsy, and would lack the features that make Gridfinity such a good organizational tool. The goal of this implementation was to maintain the design philosophy while working under the constraints of vase mode.
+
+[]()
+[]()
+[]()
+[]()
+[]()
+[]()
+
+## Features
+As this script is a child of the `gridfinity-rebuilt-base.scad` script, it has most of the same features. Of course, vase mode does have some limitations (it can only do compartments along the X-axis, not the Y-axis).
+
+## Instructions
+Gridfinity is impossible to convert to vase mode due to the geometry of the bases. Thus, how this script gets around the impossible is to use two separate pieces. The bin and bases must be printed separately, and then glued together to form the final bin. There is an added bonus to this method, as for larger bins, you may not need every single grid slot to have a base, you can just have them be on the corners, or the edges, with some in the middle for support. This further saves filament and print time.
+All parameters are global. The customizer has descriptions for all parameters. There are two functions, `gridfinityVase()` and `gridfinityVaseBase()`. The former builds the bin section, while the latter builds a singular base. These should be exported separately.
+It is **essential** that the section *Printer Settings* matches your preferred slicer's settings, otherwise the model will not slice correctly.
+
+[]()
+[]()
+
+## Recommendations
+For best results, use a version of OpenSCAD with the fast-csg feature. As of writing, this feature is only implemented in the [development snapshots](https://openscad.org/downloads.html). To enable the feature, go to Edit > Preferences > Features > fast-csg. On my computer, this sped up rendering from 10 minutes down to a couple of seconds, even for comically large bins.
+
+## Enjoy!
+
+[]()
+
+[Gridfinity](https://www.youtube.com/watch?v=ra_9zU-mnl8) by [Zack Freedman](https://www.youtube.com/c/ZackFreedman/about)
diff --git a/gridfinity-spiral-vase/gridfinity-spiral-vase.scad b/gridfinity-spiral-vase/gridfinity-spiral-vase.scad
new file mode 100644
index 0000000..464a7a6
--- /dev/null
+++ b/gridfinity-spiral-vase/gridfinity-spiral-vase.scad
@@ -0,0 +1,587 @@
+/* [Special Variables] */
+$fa = 8;
+$fs = 0.25;
+
+// ===== Commands ===== //
+
+color("tomato")
+rotate([0,0,180])
+//gridfinityBaseVase();
+gridfinityVase();
+
+// ==================== //
+
+
+/* [Printer Settings] */
+
+// printer nozzle 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
+gridx = 7;
+// number of bases along y-axis
+gridy = 2;
+// bin height. See bin height information and "gridz_define" below.
+gridz = 6;
+// base unit
+length = 42;
+// number of compartments along x-axis
+n_divx = 3;
+
+/* [Toggles] */
+// toggle holes on the base for magnet
+enable_holes = false;
+// 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
+style_tab = round($t*7); // [0:continuous, 1:broken, 2:auto, 3:right, 4:center, 5:left, 6:none]
+
+// where to put X cutouts for attaching bases
+style_base = 1; // [0:all, 1:corners, 2:edges, 3:auto, 4:none]
+
+
+/* [Miscellaneous] */
+
+// height of the base
+h_base = 5;
+// outside rounded radius of bin
+r_base = 4;
+// lower base chamfer "radius"
+r_c1 = 0.8;
+// upper base chamfer "radius"
+r_c2 = 2.4;
+
+// wall outside radius
+r_fo1 = 7.5;
+// upper base outside radius
+r_fo2 = 3.2;
+// lower base outside radius
+r_fo3 = 1.6;
+
+// screw hole radius
+r_hole1 = 1.5;
+// magnet hole radius
+r_hole2 = 3.25;
+// center-to-center distance between holes
+d_hole = 26;
+// magnet hole depth
+h_hole = 2.4;
+
+// top edge fillet radius
+r_f1 = 0.6;
+// internal fillet radius
+r_f2 = 2.8;
+
+// width of divider between compartments
+d_div = 1.2;
+// minimum wall thickness
+d_wall = 0.95;
+// tolerance fit factor
+d_clear = 0.25;
+
+// height of tab (yaxis, measured from inner wall)
+d_tabh = 15.85;
+// maximum width of tab
+d_tabw = length;
+// tab angle
+a_tab = 40;
+
+
+// ===== Include ===== //
+
+include <../gridfinity-rebuilt-base.scad>
+
+// ===== Constants ===== //
+
+bottom = layer*bottom_layer;
+h_bot = bottom*2;
+x_l = length/2;
+
+f2c = sqrt(2)*(sqrt(2)-1); // fillet to chamfer ratio
+me = ((gridx*length-0.5)/n_divx)-nozzle*4-r_fo1-12.7-4;
+me2 = min(d_tabw/1.8 + max(0,me), d_tabw/1.25);
+m = me2;
+d_ramp = f2c*r_scoop+d_wall2;
+d_edge = ((gridx*length-0.5)/n_divx-d_tabw-r_fo1)/2;
+n_st = 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);
+spacing = (gridx*length-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];
+
+// ===== Modules ===== //
+
+module gridfinityVase() {
+ difference() {
+ union() {
+ difference() {
+ block_vase_base();
+
+ if (n_st != 6)
+ transform_style()
+ transform_vtab_base((n_st<2?gridx*length/n_x-0.5-r_fo1:d_tabw)-nozzle*4)
+ block_tab_base(-nozzle*sqrt(2));
+ }
+
+ if (enable_scoop_chamfer)
+ intersection() {
+ block_vase();
+ translate([0,gridy*length/2-0.25-d_wall2/2,d_height/2+0.1])
+ cube([gridx*length,d_wall2,d_height-0.2],center=true);
+ }
+
+ if (enable_funnel)
+ pattern_linear(n_divx > 1 ? 1 : n_st == 0 || n_st == 1 ? gridx : 1, 1, (gridx*length-r_fo1)/gridx)
+ transform_funnel()
+ block_funnel_outside();
+
+ if (n_divx > 1)
+ pattern_linear(n_divx-1,1,(gridx*length-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*length-r_fo1)/((n_divx>1 ? n_divx : gridx)))
+ block_tabsupport();
+ }
+
+ if (enable_funnel)
+ pattern_linear(n_divx > 1 ? 1 : n_st == 0 || n_st == 1 ? gridx : 1, 1, (gridx*length-r_fo1)/gridx)
+ transform_funnel()
+ block_funnel_inside();
+
+ if (!enable_lip)
+ translate([0,0,1.5*d_height])
+ cube([gridx*length,gridy*length,d_height], center=true);
+
+ block_x();
+ block_inset();
+ if (enable_pinch)
+ block_pinch();
+ }
+}
+
+module gridfinityBaseVase() {
+ difference() {
+ union() {
+ difference() {
+ intersection() {
+ block_base_blank(0);
+ translate([0,0,-h_base-1])
+ rounded_rectangle(length-0.5-0.005, length-0.5-0.005, h_base*10, r_fo1/2+0.001);
+ }
+ translate([0,0,0.01])
+ difference() {
+ block_base_blank(nozzle*4);
+ translate([0,0,-h_base])
+ cube([length*2,length*2,h_bot],center=true);
+ }
+ // magic slice
+ rotate([0,0,90])
+ translate([0,0,-h_base+h_bot/2+0.01])
+ cube([0.001,length*gridx,d_height+h_bot]);
+ }
+
+ pattern_circular(4)
+ intersection() {
+ rotate([0,0,45])
+ translate([-nozzle,3,-h_base+h_bot/2+0.01])
+ cube([nozzle*2,length*gridx,d_height+h_bot]);
+
+ block_base_blank(nozzle*4-0.1);
+ }
+ if (enable_holes)
+ pattern_circular(4)
+ block_magnet_blank(nozzle);
+ }
+ if (enable_holes)
+ pattern_circular(4)
+ block_magnet_blank(0, false);
+
+ translate([0,0,h_base/2])
+ cube([length*2, length*2, h_base], center = true);
+ }
+
+ linear_extrude(h_bot/2)
+ profile_x(0.1);
+}
+
+module block_magnet_blank(o = 0, half = true) {
+ translate([d_hole/2,d_hole/2,-h_base+0.1])
+ difference() {
+ hull() {
+ cylinder(r = r_hole2+o, h = h_hole*2, center = true);
+ cylinder(r = (r_hole2+o)-(h_base+0.1-h_hole), h = (h_base+0.1)*2, center = true);
+ }
+ if (half)
+ mirror([0,0,1])
+ cylinder(r=(r_hole2+o)*2, h = (h_base+0.1)*4);
+ }
+}
+
+module block_base_blank(o = 0) {
+ mirror([0,0,1]) {
+ hull() {
+ rounded_square(length-o-0.05-2*r_c2-2*r_c1, h_base, r_fo3/2);
+ rounded_square(length-o-0.05-2*r_c2, h_base-r_c1, r_fo2/2);
+ }
+ hull() {
+ rounded_square(length-o-0.05-2*r_c2, r_c2, r_fo2/2);
+ mirror([0,0,1])
+ rounded_square(length-o-0.05, h_bot/2, r_fo1/2);
+ }
+ }
+}
+
+module block_pinch() {
+ sweep_rounded(gridx*length-2*r_base-0.5-0.001, gridy*length-2*r_base-0.5-0.001)
+ translate([r_base,0,0])
+ mirror([1,0,0])
+ translate([0,-(-d_height-h_base/2+r_c1),0])
+ copy_mirror([0,1,0])
+ difference() {
+ offset(delta = -nozzle*sqrt(2))
+ translate([0,-d_height-h_base/2+r_c1,0])
+ union() {
+ profile_wall_sub();
+ mirror([1,0,0])
+ square([10,d_height+h_base]);
+ }
+
+ translate([0,-50,0])
+ square([100,100], center = true);
+
+ translate([d_wall2-nozzle*2-d_clear*2,0,0])
+ square(r_c2*2);
+ }
+}
+
+module block_tabsupport() {
+ intersection() {
+ translate([0,0,0.1])
+ block_vase(d_height*4);
+
+ cube([nozzle*2, gridy*length, d_height*3], center=true);
+
+ transform_vtab_base(gridx*length*2)
+ block_tab_base(-nozzle*sqrt(2));
+ }
+}
+
+module block_divider() {
+ difference() {
+ intersection() {
+ translate([0,0,0.1])
+ block_vase();
+ cube([nozzle*2, gridy*length, d_height*2], center=true);
+ }
+
+ if (n_st == 0) block_tab(0.1);
+ else block_divider_edgecut();
+
+ // cut divider clearance on negative Y side
+ translate([-gridx*length/2,-(gridy*length/2-0.25),0])
+ cube([gridx*length,nozzle*2+0.1,d_height*2]);
+
+ // cut divider clearance on positive Y side
+ mirror([0,1,0])
+ if (enable_scoop_chamfer)
+ translate([-gridx*length/2,-(gridy*length/2-0.25),0])
+ cube([gridx*length,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-h_bot/2)/(layer)]) {
+
+ if (2*i*layer < d_height-layer/2-h_bot/2-0.1)
+ mirror([0,1,0])
+ translate([0,(gridy*length/2-0.25-nozzle)/2,layer/2+h_bot/2+2*i*layer])
+ cube([nozzle*2-0.01,gridy*length/2-0.25-nozzle,layer],center=true);
+
+ if ((2*i+1)*layer < d_height-layer/2-h_bot/2-0.1)
+ translate([0,(gridy*length/2-0.25-nozzle)/2,layer/2+h_bot/2+(2*i+1)*layer])
+ cube([nozzle*2-0.01,gridy*length/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*length/n_x-0.5-r_fo1:d_tabw)-nozzle*4)
+ block_tab_base(-nozzle*sqrt(2));
+ }
+}
+
+module block_divider_edgecut() {
+ translate([-50,-gridy*length/2+0.25,0])
+ rotate([90,0,90])
+ linear_extrude(100)
+ offset(delta = 0.1)
+ profile_wall_sub();
+}
+
+module transform_funnel() {
+ if (me > 6 && enable_funnel && 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
+ translate([0,0,-h_base]) {
+ translate([0,0,-0.1])
+ color("firebrick") block_bottom(bottom);
+ color("royalblue") block_wall();
+ }
+
+ // magic slice
+ rotate([0,0,90])
+ mirror([0,1,0])
+ translate([0,0,h_bot/2+0.001])
+ cube([0.001,length*gridx,d_height+h_bot]);
+ }
+
+ // 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*length/n_x-0.5-r_fo1:d_tabw)
+ profile_tab();
+ }
+}
+
+module profile_wall_sub_sub() {
+ polygon([
+ [0,0],
+ [nozzle*2,0],
+ [nozzle*2,d_height-1.2-d_wall2+nozzle*2],
+ [d_wall2-d_clear,d_height-1.2],
+ [d_wall2-d_clear,d_height+h_base],
+ [0,d_height+h_base]
+ ]);
+}
+
+module block_inset() {
+ ixx = (gridx*length-0.5)/2;
+ iyy = d_height/2+h_bot;
+ izz = sqrt(ixx^2+iyy^2)*tan(40);
+ if (enable_scoop_chamfer && enable_inset)
+ difference() {
+ intersection() {
+ rotate([0,90,0])
+ translate([-iyy+h_bot,0,0])
+ block_inset_sub(iyy, gridx*length, 45);
+
+ rotate([0,90,0])
+ translate([-iyy+h_bot,0,0])
+ rotate([0,90,0])
+ block_inset_sub(ixx, d_height*2, 45);
+ }
+
+ mirror([0,1,0])
+ translate([-gridx*length/2,-(gridy*length-0.5)/2+d_wall2-2*nozzle,0])
+ cube([gridx*length,izz,d_height*2]);
+ }
+}
+
+module block_inset_sub(x, y, ang) {
+ translate([0,(gridy*length-0.5)/2+r_fo1/2,0])
+ 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() {
+ translate([0,gridy*length/2-d_wall2-nozzle/2-1,d_height/2])
+ linear_extrude(d_height)
+ union() {
+ copy_mirror([1,0,0])
+ polygon([[0,0],[gridx*length/2-r_fo1/2,0],[gridx*length/2-r_fo1/2,1],[gridx*length/2-r_fo1/2-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) {
+ translate([0,d_tabh*cos(a_tab)-length*gridy/2+0.25+b,0])
+ difference() {
+ translate([0,0,-d_tabh*sin(a_tab)*2+d_height+h_bot])
+ profile_tabscoop(a);
+
+ translate([-gridx*length/2,-m,-m])
+ cube([gridx*length,m-d_tabh*cos(a_tab)+0.005+c,d_height*2]);
+
+ if (d >= 0)
+ translate([0,0,-d_tabh*sin(a_tab)+d_height+h_bot+m/2+d])
+ cube([gridx*length,gridy*length,m],center=true);
+ }
+}
+
+module transform_vtab(a=0,b=1) {
+ transform_vtab_base(gridx*length/b-0.5-r_fo1+a)
+ children();
+}
+
+module transform_vtab_base(a) {
+ translate([0,d_tabh*cos(a_tab)-length*gridy/2+0.25,-d_tabh*sin(a_tab)+d_height+h_bot])
+ 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])
+ square([length,d_tabh*sin(a_tab)*2]);
+ }
+}
+
+module transform_scoop() {
+ intersection() {
+ block_vase();
+ translate([0,gridy*length/2-d_ramp,1.21])
+ rotate([90,0,90])
+ linear_extrude(2*length*gridx,center=true)
+ children();
+ }
+}
+
+module block_vase(h = d_height*2) {
+ translate([0,0,-0.1])
+ rounded_rectangle(gridx*length-0.5-nozzle, gridy*length-0.5-nozzle, h, r_base+0.01-nozzle/2);
+}
+
+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() {
+ translate([-(gridx-1)*length/2,-(gridy-1)*length/2,0])
+ for (i = [1:gridx])
+ for (j = [1:gridy])
+ if (xFunc[style_base](i,j))
+ translate([(i-1)*length,(j-1)*length,0])
+ block_x_sub();
+}
+
+module block_x_sub() {
+ linear_extrude(h_bot+0.01,center=true)
+ offset(0.05)
+ profile_x();
+}
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diff --git a/images/vase_base.gif b/images/vase_base.gif
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diff --git a/images/vase_dividers.gif b/images/vase_dividers.gif
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diff --git a/images/vase_features_back.gif b/images/vase_features_back.gif
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diff --git a/images/vase_tabs.gif b/images/vase_tabs.gif
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