mirror of
https://github.com/BelfrySCAD/BOSL2.git
synced 2024-12-29 00:09:41 +00:00
82b4b284a9
add no_children in places
210 lines
6.5 KiB
OpenSCAD
210 lines
6.5 KiB
OpenSCAD
//////////////////////////////////////////////////////////////////////
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// LibFile: sliders.scad
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// Simple V-groove based sliders and rails.
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// Includes:
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// include <BOSL2/std.scad>
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// include <BOSL2/sliders.scad>
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// FileGroup: Parts
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// FileSummary: Simple sliders and rails.
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//////////////////////////////////////////////////////////////////////
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// Section: Modules
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// Module: slider()
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// Description:
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// Creates a slider to match a V-groove rail.
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// Usage:
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// slider(l, w, h, [base=], [wall=], [ang=], [$slop=]) [ATTACHMENTS];
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// Arguments:
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// l = Length (long axis) of slider.
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// w = Width of slider.
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// h = Height of slider.
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// ---
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// base = Height of slider base.
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// wall = Width of wall behind each side of the slider.
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// ang = Overhang angle for slider, to facilitate supportless printig.
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
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// $slop = The printer-specific slop value to make parts fit just right.
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// Example:
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// slider(l=30, base=10, wall=4, $slop=0.2, spin=90);
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function slider(l=30, w=10, h=10, base=10, wall=5, ang=30, anchor=BOTTOM, spin=0, orient=UP) = no_function("slider");
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module slider(l=30, w=10, h=10, base=10, wall=5, ang=30, anchor=BOTTOM, spin=0, orient=UP)
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{
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full_width = w + 2*wall;
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full_height = h + base;
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attachable(anchor,spin,orient, size=[full_width, l, h+2*base]) {
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zrot(90)
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down(base+h/2) {
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// Base
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cuboid([full_width, l, base-get_slop()], chamfer=2, edges=[FRONT,BACK], except_edges=BOT, anchor=BOTTOM);
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// Wall
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xflip_copy(offset=w/2+get_slop()) {
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cuboid([wall, l, full_height], chamfer=2, edges=RIGHT, except_edges=BOT, anchor=BOTTOM+LEFT);
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}
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// Sliders
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up(base+h/2) {
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xflip_copy(offset=w/2+get_slop()+0.02) {
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bev_h = h/2*tan(ang);
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prismoid([h, l], [0, l-w], h=bev_h+0.01, orient=LEFT, anchor=BOT);
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}
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}
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}
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children();
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}
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}
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// Module: rail()
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// Description:
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// Creates a V-groove rail.
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// Usage:
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// rail(l, w, h, [chamfer=], [ang=]) [ATTACHMENTS];
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// Arguments:
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// l = Length (long axis) of slider.
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// w = Width of slider.
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// h = Height of slider.
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// ---
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// chamfer = Size of chamfer at end of rail.
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// ang = Overhang angle for slider, to facilitate supportless printig.
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `BOTTOM`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
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// Example:
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// rail(l=100, w=10, h=10);
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function rail(l=30, w=10, h=10, chamfer=1.0, ang=30, anchor=BOTTOM, spin=0, orient=UP) = no_function("rail");
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module rail(l=30, w=10, h=10, chamfer=1.0, ang=30, anchor=BOTTOM, spin=0, orient=UP)
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{
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attack_ang = 30;
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attack_len = 2;
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fudge = 1.177;
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chamf = sqrt(2) * chamfer;
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cosa = cos(ang*fudge);
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sina = sin(ang*fudge);
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z1 = h/2;
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z2 = z1 - chamf * cosa;
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z3 = z1 - attack_len * sin(attack_ang);
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z4 = 0;
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x1 = w/2;
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x2 = x1 - chamf * sina;
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x3 = x1 - chamf;
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x4 = x1 - attack_len * sin(attack_ang);
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x5 = x2 - attack_len * sin(attack_ang);
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x6 = x1 - z1 * sina;
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x7 = x4 - z1 * sina;
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y1 = l/2;
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y2 = y1 - attack_len * cos(attack_ang);
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attachable(anchor,spin,orient, size=[w, l, h]) {
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polyhedron(
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convexity=4,
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points=[
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[-x5, -y1, z3],
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[ x5, -y1, z3],
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[ x7, -y1, z4],
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[ x4, -y1, -z1-0.05],
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[-x4, -y1, -z1-0.05],
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[-x7, -y1, z4],
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[-x3, -y2, z1],
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[ x3, -y2, z1],
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[ x2, -y2, z2],
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[ x6, -y2, z4],
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[ x1, -y2, -z1-0.05],
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[-x1, -y2, -z1-0.05],
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[-x6, -y2, z4],
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[-x2, -y2, z2],
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[ x5, y1, z3],
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[-x5, y1, z3],
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[-x7, y1, z4],
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[-x4, y1, -z1-0.05],
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[ x4, y1, -z1-0.05],
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[ x7, y1, z4],
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[ x3, y2, z1],
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[-x3, y2, z1],
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[-x2, y2, z2],
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[-x6, y2, z4],
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[-x1, y2, -z1-0.05],
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[ x1, y2, -z1-0.05],
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[ x6, y2, z4],
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[ x2, y2, z2],
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],
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faces=[
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[0, 1, 2],
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[0, 2, 5],
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[2, 3, 4],
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[2, 4, 5],
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[0, 13, 6],
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[0, 6, 7],
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[0, 7, 1],
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[1, 7, 8],
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[1, 8, 9],
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[1, 9, 2],
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[2, 9, 10],
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[2, 10, 3],
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[3, 10, 11],
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[3, 11, 4],
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[4, 11, 12],
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[4, 12, 5],
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[5, 12, 13],
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[5, 13, 0],
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[14, 15, 16],
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[14, 16, 19],
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[16, 17, 18],
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[16, 18, 19],
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[14, 27, 20],
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[14, 20, 21],
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[14, 21, 15],
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[15, 21, 22],
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[15, 22, 23],
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[15, 23, 16],
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[16, 23, 24],
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[16, 24, 17],
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[17, 24, 25],
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[17, 25, 18],
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[18, 25, 26],
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[18, 26, 19],
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[19, 26, 27],
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[19, 27, 14],
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[6, 21, 20],
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[6, 20, 7],
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[7, 20, 27],
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[7, 27, 8],
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[8, 27, 26],
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[8, 26, 9],
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[9, 26, 25],
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[9, 25, 10],
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[10, 25, 24],
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[10, 24, 11],
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[11, 24, 23],
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[11, 23, 12],
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[12, 23, 22],
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[12, 22, 13],
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[13, 22, 21],
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[13, 21, 6],
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]
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);
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children();
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}
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}
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// vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap
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