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https://github.com/DJSundog/NopSCADlib.git
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201 lines
7.7 KiB
OpenSCAD
201 lines
7.7 KiB
OpenSCAD
//
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// NopSCADlib Copyright Chris Palmer 2020
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// nop.head@gmail.com
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// hydraraptor.blogspot.com
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//
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// This file is part of NopSCADlib.
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//
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// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
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// GNU General Public License as published by the Free Software Foundation, either version 3 of
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// the License, or (at your option) any later version.
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//
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// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
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// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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// See the GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License along with NopSCADlib.
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// If not, see <https://www.gnu.org/licenses/>.
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//
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//! Printed pulleys are a remix of droftarts's (see <https://www.thingiverse.com/droftarts/designs>) Parametric Pulleys
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//! on Thingiverse (see <https://www.thingiverse.com/thing:16627>) and are licensed under the
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//! Creative Commons - Attribution - Share Alike license (see <https://creativecommons.org/licenses/by-sa/3.0/>)
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//
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include <../core.scad>
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include <../vitamins/pulleys.scad>
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printed_pulley_GT2_profile = [[0.747183,-0.5],[0.747183,0],[0.647876,0.037218],[0.598311,0.130528],[0.578556,0.238423],[0.547158,0.343077],[0.504649,0.443762],[0.451556,0.53975],[0.358229,0.636924],[0.2484,0.707276],[0.127259,0.750044],[0,0.76447],[-0.127259,0.750044],[-0.2484,0.707276],[-0.358229,0.636924],[-0.451556,0.53975],[-0.504797,0.443762],[-0.547291,0.343077],[-0.578605,0.238423],[-0.598311,0.130528],[-0.648009,0.037218],[-0.747183,0],[-0.747183,-0.5]];
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function printed_pulley_inverted(type) = pulley_hub_dia(type) < pulley_flange_dia(type); //! Need to print upside down to prevent overhang
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function printed_pulley_od(tooth_count, tooth_pitch, pitch_line_offset)
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= tooth_count * tooth_pitch / PI - 2 * pitch_line_offset;
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module printed_pulley_teeth_from_profile(tooth_count, tooth_depth, tooth_width, tooth_profile) {
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pulley_od = printed_pulley_od(tooth_count, 2, 0.254);
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difference() {
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rotate (90 / tooth_count)
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circle(r = pulley_od / 2, $fn = tooth_count * 4);
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tooth_distance_from_centre = sqrt(pulley_od * pulley_od - (tooth_width + 0.2) * (tooth_width + 0.2)) / 2;
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for(i = [1 : tooth_count])
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rotate(i * 360 / tooth_count)
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translate([0, -tooth_distance_from_centre])
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scale([(tooth_width + 0.2) / tooth_width, 1])
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polygon(tooth_profile);
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}
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}
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module printed_pulley_GT2_teeth(type) {
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tooth_count = pulley_teeth(type);
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if (tooth_count == 0)
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circle(r = pulley_od(type) / 2);
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else
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printed_pulley_teeth_from_profile(tooth_count, 0.764, 1.494, printed_pulley_GT2_profile);
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}
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module printed_pulley_teeth(type) { //! Draw the pulley's teeth
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tooth_count = pulley_teeth(type);
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tw = pulley_od(type) * PI / (tooth_count * 2);
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ir = pulley_ir(type);
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or = pulley_od(type) / 2;
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T_angle = 40;
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GT_r = 0.555;
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for (i = [0 : 1 : tooth_count - 1])
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rotate(i * 360 / tooth_count)
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if (pulley_type(type)[0] == "G")
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translate([0, ir + GT_r])
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hull() {
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circle(GT_r);
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translate([0, GT_r])
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square(2 * GT_r, center = true);
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}
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else
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translate([0, (ir + or) / 2])
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hull() {
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for(side = [-1, 1])
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translate([side * tw / 2, 0])
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rotate(-side * T_angle / 2)
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square([eps, (or - ir)], center = true);
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translate([0, 1])
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square([tw, eps], center = true);
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}
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}
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module printed_pulley(type) { //! Draw a printable pulley
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ft = pulley_flange_thickness(type);
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hl = pulley_hub_length(type);
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w = pulley_width(type);
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r1 = pulley_bore(type) / 2;
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or = pulley_od(type) / 2;
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screw_z = pulley_screw_z(type);
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stl(str("printed_pulley_", type[0]));
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module core() {
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translate_z(pulley_hub_length(type) + ft)
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linear_extrude(w + 1) let($fa = 1, $fs = 0.1)
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if ("GT2" == str(pulley_type(type)[0], pulley_type(type)[1], pulley_type(type)[2]))
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difference() {
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printed_pulley_GT2_teeth(type);
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circle(d = pulley_bore(type));
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}
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else
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difference() {
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circle(or);
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printed_pulley_teeth(type);
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circle(d = pulley_bore(type));
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}
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}
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module screw_holes() {
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if(pulley_screws(type))
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translate_z(screw_z)
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for(i = [0 : pulley_screws(type) - 1])
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rotate([-90, 180, i * -90])
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if(show_supports())
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teardrop(r = screw_pilot_hole(pulley_screw(type)), h = pulley_flange_dia(type) / 2 + 1, center = false);
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else
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cylinder(r = screw_radius(pulley_screw(type)), h = pulley_flange_dia(type) / 2 + 1);
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}
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module hub()
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linear_extrude(hl)
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difference() {
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circle(d= pulley_hub_dia(type));
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circle(d = pulley_bore(type));
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}
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translate_z(printed_pulley_inverted(type) ? - hl : 0) {
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// hub
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if(hl)
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translate_z(printed_pulley_inverted(type) ? hl + w + 2 * ft : 0)
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if(screw_z && screw_z < hl)
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render()
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difference() {
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hub();
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screw_holes();
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}
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else
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hub();
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// bottom flange
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translate_z(hl)
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linear_extrude(ft)
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difference() {
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circle(d = pulley_flange_dia(type));
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circle(d = pulley_bore(type));
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}
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// top flange
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translate_z(hl + ft + w) {
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// inner part, supported by core
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linear_extrude(ft)
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difference() {
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circle(r = or);
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circle(d = pulley_bore(type));
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}
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// outer part at 45 degrees for printing
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rotate_extrude()
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translate([or - eps, ft])
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vflip()
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right_triangle(ft, ft);
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}
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if(screw_z && screw_z > hl)
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render()
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difference() { // T5 pulleys have screws through the teeth
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core();
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translate_z(printed_pulley_inverted(type) ? pulley_height(type) + hl - 2 * screw_z : 0)
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screw_holes();
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}
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else
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core();
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}
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}
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module printed_pulley_assembly(type, colour = pp1_colour) //! Draw a printed pulley with its grub screws in place
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assembly(str("printed_pulley_", type[0])) {
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translate_z(pulley_offset(type)) {
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stl_colour(colour)
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if(printed_pulley_inverted(type))
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translate_z(pulley_height(type))
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hflip()
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printed_pulley(type);
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else
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printed_pulley(type);
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if(pulley_screws(type))
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translate_z(pulley_screw_z(type))
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for(i = [0 : pulley_screws(type) - 1])
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rotate([-90, 0, i * -90])
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translate_z(pulley_bore(type) / 2 + pulley_screw_length(type))
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screw(pulley_screw(type), pulley_screw_length(type));
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}
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}
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