mirror of
https://github.com/DJSundog/NopSCADlib.git
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184f19ef04
Done to reduced the number of global constants.
172 lines
7.1 KiB
OpenSCAD
172 lines
7.1 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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//
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//! SCSnUU and SCSnLUU bearing blocks
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//
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include <../utils/core/core.scad>
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use <screw.scad>
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use <nut.scad>
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use <washer.scad>
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use <linear_bearing.scad>
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use <circlip.scad>
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function scs_size(type) = [type[4],type[6],type[5]]; //! Size of scs bracket bounding block
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function scs_hole_offset(type) = type[2]; //! Offset of bearing hole from base of block
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function scs_block_center_height(type) = type[6]; //! Height of the center of the block
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function scs_block_side_height(type) = type[7]; //! Height of the side of the block, this determines the minimum screw length
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function scs_screw(type) = type[11]; //! Screw type
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function scs_screw_separation_x(type) = type[8]; //! Screw separation in X direction
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function scs_screw_separation_z(type) = type[9]; //! Screw separation in Z direction
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function scs_bearing(type) = type[14]; //! Linear bearing used
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function scs_circlip(type) = type[15]; //! Circlip used
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function scs_spacer(type) = type[16]; //! Spacer used in long bearings
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sks_bearing_block_colour = grey(90);
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module scs_bearing_block(type) { //! Draw the specified SCS bearing block
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vitamin(str("scs_bearing_block(", type[0], "): ", type[0], " bearing block"));
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T = type[1];
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h = scs_hole_offset(type);
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E = type[3];
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W = scs_size(type)[0];
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assert(W == 2 * E, str("W or E wrong for scs_bearing_block", type[0]));
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L = scs_size(type)[2];
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F = scs_block_center_height(type);
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G = scs_block_side_height(type);
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B = scs_screw_separation_x(type);
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C = scs_screw_separation_z(type);
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K = type[10];
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S1 = scs_screw(type);
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S2 = type[12];
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L1 = type[13];
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bearing = scs_bearing(type);
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clip = scs_circlip(type);
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module right_trapezoid(base, top, height, h = 0, center = true) {//! A right angled trapezoid with the 90° corner at the origin. 3D when ```h``` is nonzero, otherwise 2D
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extrude_if(h, center = center)
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polygon(points = [ [0,0], [base, 0], [top, height], [0, height] ]);
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}
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boltHoleRadius = screw_clearance_radius(S1);
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footHeight = min(0.75, (G - bearing_dia(bearing) - 1.5) / 2); // estimate, not specified on drawings
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color(sks_bearing_block_colour) {
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linear_extrude(L, center = true) {
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bearingRadius = bearing_dia(bearing) / 2;
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// center section with bearing hole
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difference() {
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union() {
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translate([-(B - 2 * boltHoleRadius) / 2, -h + footHeight])
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square([B - 2 * boltHoleRadius, G - footHeight]);
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for(m = [0, 1])
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mirror([m, 0, 0])
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translate([0 , G - h])
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right_trapezoid(bearingRadius, bearingRadius -F + G, F - G);
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}
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circle(r = bearingRadius);
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}
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// add the sides
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for(m = [0, 1])
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mirror([m, 0, 0]) {
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trapezoidX = boltHoleRadius - 0.5; // estimate, not specified on drawings
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sideX = 2 * (K - boltHoleRadius - trapezoidX);
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chamfer = 0.5;
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assert(sideX > chamfer, "trapezoidX too large in scs_bearing_block");
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translate([B / 2 + boltHoleRadius, -h]) {
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square([sideX - chamfer, G]);
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translate([sideX, 0])
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rotate(90)
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right_trapezoid(G - chamfer, G, chamfer);
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translate([sideX, 0]) {
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right_trapezoid(trapezoidX - footHeight, trapezoidX, footHeight);
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translate([trapezoidX, footHeight])
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rotate(90)
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right_trapezoid(T - footHeight, L1 - footHeight, trapezoidX);
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}
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}
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translate([B / 2 - boltHoleRadius, -h])
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mirror([1, 0, 0])
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right_trapezoid(boltHoleRadius, boltHoleRadius + footHeight, footHeight);
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}
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}
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// side blocks with bolt holes
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for(x = [-B / 2, B / 2])
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translate([x, G / 2 - h, 0])
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rotate([90, 0, 0])
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linear_extrude(G, center = true)
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difference() {
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square([boltHoleRadius * 2, L], center = true);
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for (y = [-C / 2, C / 2])
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translate([0, y])
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circle(r = boltHoleRadius);
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}
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}
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not_on_bom() no_explode() {
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spacer = scs_spacer(type);
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for(end = spacer ? [-1, 1] : 0)
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translate_z(end * (bearing_length(bearing) + spacer) / 2)
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linear_bearing(bearing);
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for(end = [-1, 1])
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translate_z(end * ((spacer ? 2 * bearing_length(bearing) + spacer : bearing_length(bearing)) + circlip_thickness(clip)) / 2)
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rotate(180)
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internal_circlip(clip);
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}
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}
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module scs_bearing_block_hole_positions(type) { //! Place children at hole positions
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screw_separation_x = scs_screw_separation_x(type);
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screw_separation_z = scs_screw_separation_z(type);
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G = scs_block_side_height(type);
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h = scs_hole_offset(type);
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for(x = [-screw_separation_x, screw_separation_x], z = [-screw_separation_z, screw_separation_z])
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translate([x / 2, G - h, z / 2])
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rotate([-90, 0, 0])
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children();
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}
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module scs_bearing_block_assembly(type, part_thickness, screw_type, nut_type) { //! Assembly with screws and nuts in place
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scs_bearing_block(type);
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screw_type = is_undef(screw_type) ? scs_screw(type) : screw_type;
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nut_type = is_undef(nut_type) ? screw_nut(screw_type) : nut_type;
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washer_type = nut_washer(nut_type);
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washer_thickness = washer_type ? washer_thickness(washer_type) : 0;
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G = scs_block_side_height(type);
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nut_offset = G + part_thickness + nut_thickness(nut_type) + washer_thickness;
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screw_length = screw_longer_than(nut_offset);
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scs_bearing_block_hole_positions(type) {
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screw(screw_type, screw_length);
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translate_z(-nut_offset)
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nut(nut_type)
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if (washer_type)
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washer(washer_type);
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}
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}
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