mirror of
https://github.com/DJSundog/NopSCADlib.git
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f7db793c74
allowing the module name string to specify the capitalisaing used in the build instructions.
172 lines
6.9 KiB
OpenSCAD
172 lines
6.9 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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//! A cover to go over the mains end of a PSU terminal strip to make it safe.
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//! The stl and assembly must be given a name and parameterless wrappers for the stl and assembly added to the project.
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//
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include <../core.scad>
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use <../vitamins/insert.scad>
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use <../vitamins/wire.scad>
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use <../vitamins/psu.scad>
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use <../utils/round.scad>
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wall = 1.8;
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top = 1.5;
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screw = M3_cap_screw;
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insert = screw_insert(screw);
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boss_r = insert_boss_radius(insert, wall);
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counter_bore = 2;
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rad = 2;
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clearance = layer_height;
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overlap = 6;
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cable_tie_inset = wall + 4;
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function psu_shroud_extent(type) = 15 + wall; //! How far it extends beyond the PSU to clear the connections
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function psu_shroud_depth(type) = //! Outside depth of the shroud
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psu_left_bay(type) + overlap + psu_shroud_extent(type);
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function psu_shroud_width(type) = //! Outside width of the shroud
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let(terminals = psu_terminals(type))
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terminals ?
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let(y = terminals.y, tb = terminals.z)
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wall + clearance / 2 + y + 3 * terminal_block_pitch(tb) + terminal_block_divider(tb) / 2 + wall / 2
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: psu_width(type) + 2 * wall + clearance;
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function psu_shroud_height(type) = psu_height(type) + top + clearance; //! Outside height
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function psu_shroud_centre_y(type) = //! Shroud centre relative to PSU centre
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psu_width(type) / 2 + clearance / 2 + wall - psu_shroud_width(type) / 2;
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function psu_shroud_pitch(type) = psu_shroud_width(type) - 2 * boss_r - eps;
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function psu_shroud_screw(type) = screw; //! Screw used to fasten
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function psu_shroud_cable_pitch(cable_d) = cable_d + 5; //! Pitch between cable entries
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module psu_shroud_hole_positions(type) //! Place children at the screw hole positions
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for($side = [-1, 1])
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translate([-psu_length(type) / 2 - boss_r - 1, psu_shroud_centre_y(type) + $side * psu_shroud_pitch(type) / 2])
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children();
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module psu_shroud_cable_positions(type, cable_d, cables = 1) //! Place children at the cable tie positions
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for(i = [0 : 1 : cables - 1])
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translate([-psu_length(type) / 2 - psu_shroud_extent(type) + cable_tie_inset,
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psu_shroud_centre_y(type) + (i - cables / 2 + 0.5) * psu_shroud_cable_pitch(cable_d)])
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children();
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module psu_shroud_holes(type, cable_d, cables = 1) { //! Drill the screw and ziptie holes
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psu_shroud_hole_positions(type)
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drill(screw_clearance_radius(screw), 0);
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psu_shroud_cable_positions(type, cable_d, cables)
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cable_tie_holes(cable_d / 2, h = 0);
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}
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module psu_shroud(type, cable_d, name, cables = 1) { //! Generate the STL file for a specified ssr and cable
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stl(str("psu_shroud_", name));
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extent = psu_shroud_extent(type);
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depth = psu_shroud_depth(type);
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width = psu_shroud_width(type);
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height = psu_shroud_height(type);
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centre_x = -psu_length(type) / 2 - psu_shroud_extent(type) + psu_shroud_depth(type) / 2;
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centre_y = psu_shroud_centre_y(type);
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terminal_clearance = 0.5;
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tb = psu_terminals(type).z;
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module shape() {
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difference() {
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round(or = wall / 2 - eps, ir = 0) difference() {
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rounded_square([depth, width], rad);
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rounded_square([depth - 2 * wall, width - 2 * wall], rad - wall);
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translate([depth / 2, 0])
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square([2 * rad, width], center = true);
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translate([depth / 2, width / 2 - 5])
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square([2 * (overlap + terminal_clearance), 10], center = true);
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}
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for(i = [0 : 1 : cables - 1])
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translate([0, (i - cables / 2 + 0.5) * psu_shroud_cable_pitch(cable_d)])
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square([depth + 1, cable_d], center = true);
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}
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}
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// base and sides
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translate([centre_x, -centre_y]) {
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rounded_rectangle([depth - eps, width - eps, top], rad, center = false);
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linear_extrude(height = height)
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difference() {
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shape();
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translate([depth / 2, width / 2 - 5])
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square([2 * (depth - extent + terminal_clearance), 10], center = true);
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}
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linear_extrude(height = height - terminal_block_height(tb) - psu_terminal_block_z(type) - terminal_clearance)
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shape();
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}
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// cable slots
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for(i = [0 : 1 : cables - 1])
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translate([centre_x - depth / 2 + wall / 2, -centre_y + (i - cables / 2 + 0.5) * psu_shroud_cable_pitch(cable_d), height / 2])
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rotate([90, 0, 90])
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linear_extrude(height = wall, center = true)
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difference() {
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square([cable_d + eps, height], center = true);
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translate([0, height / 2])
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vertical_tearslot(h = 0, r = cable_d / 2, l = cable_d);
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}
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// insert lugs
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mirror([0, 1, 0])
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psu_shroud_hole_positions(type)
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translate_z(height)
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rotate($side * 90)
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insert_lug(insert, wall, counter_bore);
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}
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module psu_shroud_assembly(type, cable_d, name, cables = 1) //! The printed parts with inserts fitted
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assembly(str("PSU_shroud_", name)) {
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translate_z(psu_shroud_height(type))
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vflip()
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color(pp1_colour) psu_shroud(type, cable_d, name, cables);
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psu_shroud_hole_positions(type)
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vflip()
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insert(insert);
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}
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module psu_shroud_fastened_assembly(type, cable_d, thickness, name, cables = 1) //! Assembly with screws in place
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{
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washer = screw_washer(screw);
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screw_length = screw_shorter_than(2 * washer_thickness(washer) + thickness + insert_length(insert) + counter_bore);
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psu_shroud_assembly(type, cable_d, name, cables);
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translate_z(-thickness)
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psu_shroud_hole_positions(type)
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vflip()
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screw_and_washer(screw, screw_length, true);
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psu_shroud_cable_positions(type, cable_d, cables)
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cable_tie(cable_d / 2, thickness);
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}
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