mirror of
https://github.com/DJSundog/NopSCADlib.git
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173 lines
7.2 KiB
OpenSCAD
173 lines
7.2 KiB
OpenSCAD
//
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// NopSCADlib Copyright Chris Palmer 2018
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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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//
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//! Toggle switches
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//
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include <../utils/core/core.scad>
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use <nut.scad>
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use <washer.scad>
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use <../utils/thread.scad>
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use <../utils/tube.scad>
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function toggle_part(type) = type[1]; //! Part description
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function toggle_width(type) = type[2]; //! Body width
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function toggle_height(type) = type[3]; //! Body height
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function toggle_depth(type) = type[4]; //! Body depth
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function toggle_thickness(type)= type[5]; //! Metal thickness
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function toggle_inset(type) = type[6]; //! How far the metal is inset into the body
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function toggle_colour(type) = type[7]; //! Body colour
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function toggle_od(type) = type[8]; //! Barrel outside diameter
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function toggle_id(type) = type[9]; //! Barrel inside diameter
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function toggle_thread(type) = type[10]; //! Length of threaded barrel
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function toggle_collar_d(type) = type[11]; //! Collar diameter
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function toggle_collar_t(type) = type[12]; //! Collar thickness
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function toggle_pivot(type) = type[13]; //! Z offset of the pivot point above the top of the body
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function toggle_angle(type) = type[14]; //! Angle of the paddle
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function toggle_paddle_l(type) = type[15]; //! Length of the paddle
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function toggle_paddle_d1(type)= type[16]; //! Diameter at the top of the paddle
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function toggle_paddle_w(type) = type[17]; //! Width at the top for non-spherical end
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function toggle_nut(type) = type[18]; //! Nut type
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function toggle_washer(type) = type[19]; //! Washer type
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function toggle_pins(type) = type[20]; //! Number of pins
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function toggle_pin_l(type) = type[21][0]; //! Pin length
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function toggle_pin_w(type) = type[21][1]; //! Pin width
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function toggle_pin_t(type) = type[21][2]; //! Pin thickness
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function toggle_pin_vp(type) = type[21][3]; //! Pin y pitch
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function toggle_pin_hp(type) = type[21][4]; //! Pin x pitch
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function toggle_hole_radius(type) = toggle_od(type) / 2 + 0.1; //! Radius of the panel hole
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module toggle(type, thickness) { //! Draw specified toggle switch with the nuts and washers positioned for the specified panel thickness
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vitamin(str("toggle(", type[0], ", 3): Toggle switch ", toggle_part(type)));
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inset = toggle_inset(type);
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t = toggle_thickness(type);
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h1 = toggle_depth(type) - t;
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h2 = toggle_depth(type) - inset;
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t2 = (toggle_od(type) - toggle_id(type)) / 2;
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nut = toggle_nut(type);
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washer = toggle_washer(type);
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chamfer = t2 / 2;
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thread = toggle_thread(type);
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stack = chamfer + nut_thickness(nut) + 3 * washer_thickness(washer) + thickness + toggle_collar_t(type);
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back_nut = thread - stack > nut_thickness(nut);
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gap = back_nut ? thread - stack - nut_thickness(nut) : 0;
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module stack()
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washer(washer)
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translate_z(thickness)
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explode(20, true) washer(washer)
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explode(5, true) star_washer(washer)
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explode(5) nut(nut);
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translate_z(-washer_thickness(washer) - (back_nut ? nut_thickness(nut) : 0) - gap - toggle_collar_t(type)) {
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color(toggle_colour(type))
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translate_z(-h1 / 2 - t)
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cube([toggle_width(type), toggle_height(type), h1], center = true);
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if(show_threads) {
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d = toggle_od(type);
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pitch = inch(1/40);
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h = 5 * pitch * sqrt(3) / 16;
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male_metric_thread(d, pitch, thread, center = false, solid = false, colour = silver);
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color(silver)
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tube(or = d / 2 - h, ir = toggle_id(type) / 2, h = thread, center = false);
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}
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else
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color(silver)
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rotate_extrude()
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difference() {
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hull() {
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square([toggle_od(type) / 2, thread - chamfer]);
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square([toggle_od(type) / 2 - chamfer, thread]);
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}
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square([toggle_id(type) / 2, thread + 1]);
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}
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color(silver) {
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if(toggle_collar_t(type))
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cylinder(d = toggle_collar_d(type), h = toggle_collar_t(type));
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translate_z(-t / 2)
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cube([toggle_width(type), toggle_height(type), t], center = true);
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translate_z(-h2 / 2)
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cube([toggle_width(type) + 2 * eps, toggle_height(type) - 2 * inset, h2], center = true);
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translate_z(toggle_pivot(type)) {
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angle = toggle_angle(type);
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l1 = toggle_paddle_l(type);
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l2 = toggle_thread(type) - toggle_pivot(type);
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l = l1 + l2;
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sphere(d = toggle_id(type));
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d1 = toggle_paddle_d1(type);
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d2 = toggle_id(type) - 2 * l2 * tan(abs(angle));
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d3 = d2 - (d1 - d2) * l2 / l1;
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hull() {
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rotate([max(angle, 0), 0, 0])
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if(toggle_paddle_w(type))
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translate_z(l)
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linear_extrude(eps, center = true)
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intersection() {
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circle(d = d1);
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square([d1 + 1, toggle_paddle_w(type)], center = true);
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}
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else
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translate_z(l - d1 / 2) sphere(d = d1);
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rotate([max(angle, 0), 0, 0])
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translate_z(l2)
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cylinder(d = d2, h = eps);
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sphere(d = d3);
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}
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}
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}
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pins = toggle_pins(type);
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rows = pins > 3 ? 2 : 1;
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color("gold")
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translate_z(-toggle_depth(type) - toggle_pin_l(type) / 2)
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linear_extrude(toggle_pin_l(type), center = true)
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for(i = [0 : pins - 1]) {
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x = rows < 2 ? 0 : (i % 2) - 0.5;
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y = rows < 2 ? i - 1 : floor(i / 2) - 1;
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translate([x * toggle_pin_hp(type), y * toggle_pin_vp(type)])
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square([toggle_pin_w(type), toggle_pin_t(type)], center = true);
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}
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not_on_bom()
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translate_z(gap + toggle_collar_t(type))
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if(back_nut)
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nut(nut) stack();
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else
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stack();
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}
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}
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module toggle_hole(type, h = 100) //! Drill the hole in a panel
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drill(toggle_hole_radius(type), h);
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