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Switch stacking lip constants to the same format as baseplate constants
This increases readability and usability, while also being more compact. Also updated documentation in gridfinity-rebuilt-bins to explain how heights are calculated.
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4 changed files with 109 additions and 75 deletions
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@ -17,7 +17,7 @@ r_hole2| magnet hole radius
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d_hole| center-to-center distance between holes
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h_hole| magnet hole depth
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h_slit| slit depth (printer layer height)
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r_f1| top edge fillet radius
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STACKING_LIP_FILLET_RADIUS| top edge fillet radius
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r_f2 | internal fillet radius
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d_div | width of divider between compartments
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d_wall| minimum wall thickness
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@ -9,14 +9,18 @@ include <gridfinity-rebuilt-utility.scad>
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comments like ' //.5' after variables are intentional and used by the customizer
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examples at end of file
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BIN HEIGHT
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the original gridfinity bins had the overall height defined by 7mm increments
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a bin would be 7*u millimeters tall
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the lip at the top of the bin (3.8mm) added onto this height
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#BIN HEIGHT
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The original gridfinity bins had the overall height defined by 7mm increments.
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A bin would be 7*u millimeters tall with a stacking lip at the top of the bin (4.4mm) added onto this height.
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The stock bins have unit heights of 2, 3, and 6:
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Z unit 2 -> 7*2 + 3.8 -> 17.8mm
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Z unit 3 -> 7*3 + 3.8 -> 24.8mm
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Z unit 6 -> 7*6 + 3.8 -> 45.8mm
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* Z unit 2 -> 7*2 + 4.4 -> 18.4mm
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* Z unit 3 -> 7*3 + 4.4 -> 25.4mm
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* Z unit 6 -> 7*6 + 4.4 -> 46.4mm
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## Note:
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The stacking lip provided here has a 0.6mm fillet instead of coming to a sharp point.
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Which has a height of 3.55147mm instead of the specified 4.4mm.
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This **has no impact on stacking height, and can be ignored.**
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https://github.com/kennetek/gridfinity-rebuilt-openscad
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@ -20,7 +20,7 @@ use <gridfinity-rebuilt-holes.scad>
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* @returns The final value in mm.
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*/
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function fromGridfinityUnits(gridfinityUnit, includeLipHeight = false) =
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gridfinityUnit*7 + (includeLipHeight ? h_lip : 0);
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gridfinityUnit*7 + (includeLipHeight ? STACKING_LIP_SIZE.y : 0);
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/**
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* @Summary Height in mm including fixed heights.
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@ -30,7 +30,7 @@ function fromGridfinityUnits(gridfinityUnit, includeLipHeight = false) =
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* @returns The final value in mm.
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*/
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function includingFixedHeights(mmHeight, includeLipHeight = false) =
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mmHeight + h_bot + h_base + (includeLipHeight ? h_lip : 0);
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mmHeight + h_bot + h_base + (includeLipHeight ? STACKING_LIP_SIZE.y : 0);
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/**
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* @brief Three Functions in One. For height calculations.
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@ -42,14 +42,13 @@ function includingFixedHeights(mmHeight, includeLipHeight = false) =
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function hf (z, gridz_define, style_lip) =
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gridz_define==0 ? fromGridfinityUnits(z, style_lip==2) :
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gridz_define==1 ? includingFixedHeights(z, style_lip==2) :
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z + ( // Just use z (possibly adding/subtracting lip)
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style_lip==1 ? -h_lip :
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style_lip==2 ? h_lip : 0
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)
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gridz_define==2 ? z + (style_lip==2 ? STACKING_LIP_SIZE.y : 0) :
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assert(false, "gridz_define must be 0, 1, or 2.")
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;
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/**
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* @brief Calculates the proper height for bins. Three Functions in One.
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* @Details Critically, this does not include the baseplate height.
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* @param z Height value
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* @param d gridz_define as explained in gridfinity-rebuilt-bins.scad
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* @param l style_lip as explained in gridfinity-rebuilt-bins.scad
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@ -324,47 +323,55 @@ module block_base(hole_options, off=0, size=[BASE_SIZE, BASE_SIZE]) {
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* @details Also includes a support base.
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*/
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module stacking_lip() {
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// Technique: Descriptive constant names are useful, but can be unweildy.
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// Use abbreviations if they are going to be re-used repeatedly in a small piece of code.
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inner_slope = stacking_lip_inner_slope_height_mm;
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wall_height = stacking_lip_wall_height_mm;
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support_wall = stacking_lip_support_wall_height_mm;
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s_total = stacking_lip_support_height_mm;
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polygon([
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[0, 0], // Inner tip
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[inner_slope, inner_slope], // Go out 45 degrees
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[inner_slope, inner_slope+wall_height], // Vertical increase
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[stacking_lip_depth, stacking_lip_height], // Go out 45 degrees
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[stacking_lip_depth, -s_total], // Down to support bottom
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[0, -support_wall], // Up and in
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[0, 0] // Close the shape. Tehcnically not needed.
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]);
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polygon(STACKING_LIP);
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}
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/**
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* @brief Stacking lip with a with a chamfered (rounded) top.
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* @brief Stacking lip with a with a filleted (rounded) top.
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* @details Based on https://gridfinity.xyz/specification/
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* Also includes a support base.
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*/
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module stacking_lip_chamfered() {
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radius_center_y = h_lip - r_f1;
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module stacking_lip_filleted() {
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// Replace 2D edge with a radius.
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// Method used: tangent, tangent, radius algorithm
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// See: https://math.stackexchange.com/questions/797828/calculate-center-of-circle-tangent-to-two-lines-in-space
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before_fillet = STACKING_LIP[2];
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to_fillet = STACKING_LIP[3]; // tip, Point to Chamfer
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after_fillet = STACKING_LIP[4];
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fillet_vectors = [
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to_fillet - before_fillet,
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after_fillet - to_fillet,
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];
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to_fillet_angle = 180 + atan2(
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cross(fillet_vectors[0], fillet_vectors[1]),
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fillet_vectors[0] * fillet_vectors[1]
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);
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half_angle = to_fillet_angle / 2;
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// Distance from tip to the center point of the circle.
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distance_from_edge = STACKING_LIP_FILLET_RADIUS / sin(half_angle);
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// Circle's center point
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fillet_center_vector = distance_from_edge * [sin(half_angle), cos(half_angle)];
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fillet_center_point = to_fillet - fillet_center_vector;
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// Exact point edges intersect the circle
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intersection_distance = fillet_center_vector.y;
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// echo(final_lip_height=fillet_center_point.y + STACKING_LIP_FILLET_RADIUS);
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union() {
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// Create rounded top
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intersection() {
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translate([0, radius_center_y, 0])
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square([stacking_lip_depth, stacking_lip_height]);
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offset(r = r_f1)
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offset(delta = -r_f1)
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stacking_lip();
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}
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// Remove pointed top
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// Rounded top
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translate(concat(fillet_center_point, [0]))
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circle(r = STACKING_LIP_FILLET_RADIUS);
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// Stacking lip with cutout for circle to fit in
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difference(){
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stacking_lip();
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translate([0, radius_center_y, 0])
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square([stacking_lip_depth*2, stacking_lip_height*2]);
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polygon(STACKING_LIP);
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translate(concat(to_fillet, [0]))
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circle(r = intersection_distance);
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}
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}
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}
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@ -375,10 +382,10 @@ module stacking_lip_chamfered() {
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*/
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module profile_wall(height_mm) {
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assert(is_num(height_mm))
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translate([r_base - stacking_lip_depth, 0, 0]){
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translate([r_base - STACKING_LIP_SIZE.x, 0, 0]){
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translate([0, height_mm, 0])
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stacking_lip_chamfered();
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translate([stacking_lip_depth-d_wall/2, 0, 0])
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stacking_lip_filleted();
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translate([STACKING_LIP_SIZE.x-d_wall/2, 0, 0])
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square([d_wall/2, height_mm]);
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}
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}
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@ -415,7 +422,7 @@ module block_cutter(x,y,w,h,t,s,tab_width=d_tabw,tab_height=d_tabh) {
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v_len_tab = tab_height;
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v_len_lip = d_wall2-d_wall+1.2;
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v_cut_tab = tab_height - (2*r_f1)/tan(a_tab);
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v_cut_tab = tab_height - (2*STACKING_LIP_FILLET_RADIUS)/tan(a_tab);
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v_cut_lip = d_wall2-d_wall-d_clear;
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v_ang_tab = a_tab;
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v_ang_lip = 45;
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@ -56,8 +56,6 @@ BASEPLATE_SCREW_COUNTERBORE_HEIGHT = 3;
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// ****************************************
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// top edge fillet radius
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r_f1 = 0.6;
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// internal fillet radius
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r_f2 = 2.8;
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@ -74,8 +72,6 @@ d_tabh = 15.85;
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d_tabw = 42;
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// angle of tab
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a_tab = 36;
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// lip height
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h_lip = 3.548;
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d_wall2 = r_base-r_c1-d_clear*sqrt(2);
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d_magic = -2*d_clear-2*d_wall+d_div;
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@ -83,31 +79,58 @@ d_magic = -2*d_clear-2*d_wall+d_div;
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// ****************************************
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// Stacking Lip Constants
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// Based on https://gridfinity.xyz/specification/
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// Also includes a support base.
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// ****************************************
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stacking_lip_inner_slope_height_mm = 0.7;
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stacking_lip_wall_height_mm = 1.8;
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stacking_lip_outer_slope_height_mm = 1.9;
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stacking_lip_depth =
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stacking_lip_inner_slope_height_mm +
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stacking_lip_outer_slope_height_mm;
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stacking_lip_height =
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stacking_lip_inner_slope_height_mm +
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stacking_lip_wall_height_mm +
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stacking_lip_outer_slope_height_mm;
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// Height of the innermost section.
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// Used to keep the innermost lip from just being a triangle.
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// Spec implicitly expects wall width to equal stacking lip depth,
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// so does not define this.
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stacking_lip_support_wall_height_mm = 1.2;
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/**
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* @Summary Fillet so the stacking lip does not come to a sharp point.
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*/
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STACKING_LIP_FILLET_RADIUS = 0.6;
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// Support so the stacking lip is not floating in mid air
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// when wall width is less than stacking lip depth.
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stacking_lip_support_angle = 45;
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/**
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* @Summary Height of the innermost section. In mm.
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* @Details Used to keep the innermost lip from just being a triangle.
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* Spec implicitly expects wall width to equal stacking lip depth, so does not define this.
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*/
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STACKING_LIP_SUPPORT_HEIGHT = 1.2;
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stacking_lip_support_height_mm =
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stacking_lip_support_wall_height_mm
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+ tan(90 - stacking_lip_support_angle) * stacking_lip_depth;
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/**
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* @Summary Stacking lip as defined in the spec. No support.
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*/
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RAW_STACKING_LIP = [
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[0, 0], // Inner tip
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[0.7, 0.7], // Go out 45 degrees
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[0.7, (0.7+1.8)], // Vertical increase
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[(0.7+1.9), (0.7+1.8+1.9)], // Go out 45 degrees
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];
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/**
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* @Summary Size of the stacking lip.
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* @Details "x": How deep the stacking lip protrudes into the bin.
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* Including wall thickness.
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* "y": The height of the stacking lip.
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*/
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STACKING_LIP_SIZE = RAW_STACKING_LIP[3];
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_stacking_lip_support_angle = 45;
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/**
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* @Summary Calculated value for the overall height of the stacking lip.
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* Including support.
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*/
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_stacking_lip_support_height_mm =
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STACKING_LIP_SUPPORT_HEIGHT
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+ tan(90 - _stacking_lip_support_angle) * STACKING_LIP_SIZE.x;
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/**
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* @Summary Stacking lip with a support.
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* @Details Support is so the stacking lip is not floating in mid air when wall width is less than stacking lip depth.
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*/
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STACKING_LIP = concat(RAW_STACKING_LIP, [
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[STACKING_LIP_SIZE.x, -_stacking_lip_support_height_mm], // Down to support bottom
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[0, -STACKING_LIP_SUPPORT_HEIGHT], // Up and in (to bottom inner support)
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[0, 0] // Close the shape. Technically not needed.
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]);
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// ****************************************
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// Base constants
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