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authorIvan Kokshaysky <ink@unseen.parts>2018-07-25 21:23:17 (UTC)
committer Michael Krelin <hacker@klever.net>2018-07-25 21:23:17 (UTC)
commita24158645c0156f5b55c9adce15e16a8eb908ba1 (patch) (side-by-side diff)
tree7d83494a5e612b408f307b9e5be5e599943c3c98
parent0d6c302f5e23490aec29d6e8cc2dffc0adce8602 (diff)
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laying flat into print position
Diffstat (more/less context) (ignore whitespace changes)
-rw-r--r--multimixer.scad23
1 files changed, 22 insertions, 1 deletions
diff --git a/multimixer.scad b/multimixer.scad
index 88fd6bf..0893457 100644
--- a/multimixer.scad
+++ b/multimixer.scad
@@ -17,49 +17,70 @@ module multimixer(
fnd = 4*PI; fnr = 2*fnd;
pushfit_d = pf_d(pf);
pushfit_h = pf_h(pf);
angular_step = 360/inputs;
inputogon_angle = 180*(inputs-2)/inputs;
sinsin = sin(angle)*sin(angular_step/2);
function l_to(d) = d*cos(asin(sinsin))/sinsin;
l_output = liner_od;
l_input = l_to(pushfit_d/2+minshell);
l_fork = l_to(liner_id/2);
l_narrow = l_to(liner_od/2+minshell);
module forinputs() {
for(zr=[0:angular_step:359]) rotate([0,0,zr]) rotate([0,angle,0]) children();
}//forinputs module
module foroutput() {
rotate([180,0,0]) children();
}
//translate([pf_d(pf)/2+shell,0,0])
//translate([0,0,l_output+pushfit_h])
- difference() {
+ module laydown(dia) {
+ r = dia/2;
+ h_bottom = l_output+pushfit_h;
+ /* The top point on the cylinder that will touch the bed */
+ x0 = r*cos(angular_step/2);
+ y0 = r*sin(angular_step/2);
+ z0 = l_input+pushfit_h;
+ /* The same point after rotation by "angle" around Y axis */
+ x1 = z0*sin(angle)+x0*cos(angle);
+ y1 = y0;
+ z1 = z0*cos(angle)-x0*sin(angle);
+ ax1 = atan(y1/x1);
+ /* And its x-coordinate after final "angular_step/2" Z-rotation */
+ ax2 = ax1-angular_step/2;
+ x2 = x1*cos(ax2)/cos(ax1);
+ laydown_angle = atan((x2-r)/(z1+h_bottom));
+ rotate([90-laydown_angle,0,0])
+ translate([0,r,h_bottom])
+ rotate([0,0,angular_step/2-90])
+ children();
+ }
+ laydown(dia=pushfit_d+shell*2) difference() {
hull() {
forinputs()
translate([0,0,l_input+pushfit_h]) mirror([0,0,1])
cylinder(d=pushfit_d+shell*2,h=epsilon,$fn=pushfit_d*fnd);
foroutput()
translate([0,0,l_output+pushfit_h]) {
cylinder(d=pushfit_d+shell*2,h=epsilon,$fn=pushfit_d*fnd);
}
}
forinputs() {
translate([0,0,l_input]) pushfit(pf);
translate([0,0,l_narrow]) {
cylinder(d=liner_od,h=l_input+1-l_narrow,$fn=liner_od*fnd);
mirror([0,0,1]) translate([0,0,-epsilon])
cylinder(d1=(liner_id+liner_od)/2,d2=liner_id,h=liner_id,$fn=liner_od*fnd);
}
cylinder(d=liner_id,h=l_input+epsilon,$fn=liner_id*fnd);
}
foroutput() {
translate([0,0,l_output]) pushfit(pf);
cylinder(d=liner_od,h=l_input+1,$fn=liner_od*fnd);
}
hull() {
forinputs()