-rw-r--r-- | multimixer.scad | 23 |
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 | |||
@@ -38,7 +38,28 @@ module multimixer( | |||
38 | 38 | ||
39 | //translate([pf_d(pf)/2+shell,0,0]) | 39 | //translate([pf_d(pf)/2+shell,0,0]) |
40 | //translate([0,0,l_output+pushfit_h]) | 40 | //translate([0,0,l_output+pushfit_h]) |
41 | difference() { | 41 | module laydown(dia) { |
42 | r = dia/2; | ||
43 | h_bottom = l_output+pushfit_h; | ||
44 | /* The top point on the cylinder that will touch the bed */ | ||
45 | x0 = r*cos(angular_step/2); | ||
46 | y0 = r*sin(angular_step/2); | ||
47 | z0 = l_input+pushfit_h; | ||
48 | /* The same point after rotation by "angle" around Y axis */ | ||
49 | x1 = z0*sin(angle)+x0*cos(angle); | ||
50 | y1 = y0; | ||
51 | z1 = z0*cos(angle)-x0*sin(angle); | ||
52 | ax1 = atan(y1/x1); | ||
53 | /* And its x-coordinate after final "angular_step/2" Z-rotation */ | ||
54 | ax2 = ax1-angular_step/2; | ||
55 | x2 = x1*cos(ax2)/cos(ax1); | ||
56 | laydown_angle = atan((x2-r)/(z1+h_bottom)); | ||
57 | rotate([90-laydown_angle,0,0]) | ||
58 | translate([0,r,h_bottom]) | ||
59 | rotate([0,0,angular_step/2-90]) | ||
60 | children(); | ||
61 | } | ||
62 | laydown(dia=pushfit_d+shell*2) difference() { | ||
42 | hull() { | 63 | hull() { |
43 | forinputs() | 64 | forinputs() |
44 | translate([0,0,l_input+pushfit_h]) mirror([0,0,1]) | 65 | translate([0,0,l_input+pushfit_h]) mirror([0,0,1]) |