NopSCADlib/vitamins/insert.scad
Chris Palmer 79f1c95136 Insert lug made more flexible and insert_boss made faster.
Both added to the insert test.
2019-08-21 17:31:23 +01:00

169 lines
5.9 KiB
OpenSCAD

//
// NopSCADlib Copyright Chris Palmer 2018
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! Heatfit threaded inserts. Can be pushed into thermoplastics using a soldering iron with a conical bit set to 200&deg;C.
//
include <../core.scad>
use <../utils/quadrant.scad>
function insert_length(type) = type[1]; //! Length
function insert_outer_d(type) = type[2]; //! Outer diameter at the top
function insert_hole_radius(type) = type[3] / 2; //! Radius of the required hole in the plastic
function insert_screw_diameter(type) = type[4]; //! Screw size
function insert_barrel_d(type) = type[5]; //! Diameter of the main barrel
function insert_ring1_h(type) = type[6]; //! Height of the top and middle rings
function insert_ring2_d(type) = type[7]; //! Diameter of the middle ring
function insert_ring3_d(type) = type[8]; //! Diameter of the bottom ring
function insert_hole_length(type) = round_to_layer(insert_length(type));
module insert(type) { //! Draw specified insert
length = insert_length(type);
ring1_h = insert_ring1_h(type);
chamfer1 = (insert_ring2_d(type) - insert_barrel_d(type)) / 2;
chamfer2 = (insert_ring3_d(type) - insert_barrel_d(type)) / 2;
ring2_h = ring1_h + chamfer1;
gap = (length - ring1_h - ring2_h- chamfer2) / 3;
vitamin(str("insert(", type[0], "): Heatfit insert M", insert_screw_diameter(type)));
$fn = 64;
explode(20, offset =[0, 0, -5]) color(brass) translate_z(eps) {
vflip(){
r1 = insert_screw_diameter(type) / 2;
r2 = insert_barrel_d(type) / 2;
r3 = insert_ring3_d(type) / 2;
r4 = insert_ring2_d(type) / 2;
r5 = insert_outer_d(type) / 2;
h1 = ring1_h;
h2 = ring1_h + gap;
h3 = ring1_h + gap + ring2_h;
h4 = ring1_h + gap + ring2_h + gap;
rotate_extrude()
polygon([
[r1, 0],
[r1, length],
[r2, length],
[r3, length - chamfer2],
[r3, h4],
[r2, h4],
[r2, h3],
[r4, h3 - chamfer1],
[r4, h2],
[r2, h2],
[r2, h1],
[r5, h1],
[r5, 0],
]);
}
}
}
module insert_hole(type, counterbore = 0, horizontal = false) { //! Make a hole to take an insert, ```counterbore``` is the extra length for the screw
h = insert_hole_length(type);
render(convexity = 2)
if(horizontal) {
teardrop_plus(r = insert_hole_radius(type), h = 2 * h);
if(counterbore)
teardrop_plus(r = insert_screw_diameter(type) / 2 + 0.1, h = 2 * (h + counterbore));
}
else {
poly_cylinder(r = insert_hole_radius(type), h = 2 * h, center = true);
if(counterbore)
poly_cylinder(r = insert_screw_diameter(type) / 2 + 0.1, h = 2 * (h + counterbore), center = true);
}
}
function insert_boss_radius(type, wall) = corrected_radius(insert_hole_radius(type)) + wall; //! Compute the outer radius of an insert boss
module insert_boss(type, z, wall = 2 * extrusion_width) { //! Make a boss to take an insert
ir = insert_hole_radius(type);
or = corrected_radius(ir) + wall;
module shape()
hull()
poly_ring(or, ir);
linear_extrude(height = z)
poly_ring(or, ir);
linear_extrude(height = z - insert_hole_length(type))
difference() {
shape();
poly_circle(insert_screw_diameter(type) / 2 + 0.1);
}
if(z > insert_hole_length(type) + 2 * layer_height)
linear_extrude(height = 2 * layer_height) // cap the end if room
shape();
}
module insert_lug(insert, wall, counter_bore = 0, extension = 0, corner_r = 0, flying = true) { //! Make a flying insert lug, see [ssr_shroud](#Ssr_shroud)
boss_r = insert_boss_radius(insert, wall);
boss_h = insert_hole_length(insert);
boss_h2 = boss_h + counter_bore;
module shape()
intersection() {
hull() {
circle(boss_r);
translate([boss_r + extension - eps, 0])
square([eps, 2 * boss_r], center = true);
}
if(corner_r)
translate([boss_r + extension - corner_r, 0])
rotate(-45)
quadrant(w = 100, r = corner_r - eps, center = true);
}
translate_z(-boss_h)
linear_extrude(height = boss_h)
difference() {
shape();
poly_circle(insert_hole_radius(insert));
}
// insert boss counter_bore
translate_z(-boss_h2) {
linear_extrude(height = counter_bore + eps)
difference() {
shape();
poly_circle(insert_screw_diameter(insert) / 2 + 0.1);
}
// support cone
if(flying)
hull() {
linear_extrude(height = eps)
shape();
translate([boss_r + extension - wall - eps, 0, - (2 * boss_r + extension - wall)])
cube(eps, center = true);
}
}
}