splitpin no test; wip filamentspool axle with split pin cavity

[reprap-play.git] / splitpin.scad

diff --git a/splitpin.scad b/splitpin.scad
index 553d14cf5b2e1cfa911d0edc02b281b000d5d50f..9eb29560d1cfcaba3e2c309dda765f7610892ce1 100644 (file)
--- a/splitpin.scad
+++ b/splitpin.scad
@@ -4,24 +4,74 @@ include <cliphook.scad>
 
 tau = 6.28318530718;
 function deg2rad(deg) = deg/360 * tau;
+function rad2deg(rad) = rad/tau * 360;
 
-module SplitPin(w=1.5, holeminrad=3, deviationrad=1, thick=3,
-               mainlen=20){
-  bent_x0 = w*1.5;
-  bent_x1 = holeminrad;
-  bent_dx = bent_x1 - bent_x0;
-  bent_y1 = mainlen;
-  bent_rad = (bent_dy / bent_dx) * bent_dy;
-  bent_subang = atan(bent_dx / bent_dy);
-  actual_mainlen = bent_rad * deg2rad(bent_subang);
+module SplitPin(w=0.8, holeminrad=2.50, thick=3, deviationrad=1.0,
+               mainlen=10, handlerad=10, handlelen=7) {
+  spare = holeminrad - deviationrad - w;
+  echo("splitpin spare",spare);
+  %translate([0,mainlen+handlelen,0]) cylinder(r=spare, h=thick);
+  %translate([0,mainlen,thick/2]) rotate([90,0,0])
+     cylinder(r=holeminrad, h=thick);
+
+  bent_dx = holeminrad;
   unbent_dx = bent_dx + deviationrad;
-  
+
+  unbent_subang = atan(unbent_dx / mainlen);
+  unbent_rad = mainlen / deg2rad(unbent_subang);
+
+  corner_x = unbent_rad * (1 - cos(unbent_subang));
+  corner_y = unbent_rad * sin(unbent_subang);
+
+  main_cx = unbent_rad;
+
+//  translate([w*1.5, 0, 0]) {
+//    translate([corner_x, corner_y, 10]) %cube([10,10,10]);
+//    translate([bent_dx, 0, 10]) %cube([10,10,10]);
+//    translate([unbent_dx, 5, 10]) %cube([10,10,10]);
+//  }
+
   for (xmir=[0,1]) mirror([xmir,0,0]) {
     linear_extrude(height=thick) {
       FlatArc(0,0, w*0.5, w*1.5, 270-1,360);
-      FlatArc();
+      translate([w*1.5, 0, 0]) {
+       FlatArc($fa=1, main_cx,0, unbent_rad, unbent_rad+w,
+               180-unbent_subang, 180);
+       translate([corner_x, corner_y])
+         rotate([0,0,-unbent_subang]) {
+         translate([-(w + deviationrad), -0.1])
+           square(size=[w + deviationrad, w+0.1]);
+         FlatArc(-deviationrad + handlerad, w,
+                 handlerad, handlerad+w,
+                 180-rad2deg(handlelen/handlerad), 180,
+                 $fa=0.25, $fn=60);
+       }
+      }
+    }
+  }
+}
+
+module SplitPinCavity(w=0.8, holeminrad=2.50, thick=3, deviationrad=1.0,
+                     mainlen=10, slop=0.5, insertby = 5) {
+  smallgap2 = holeminrad;
+  biggap2 = smallgap2 + deviationrad + slop;
+  toegap2 = w*1.5 + slop;
+  toeend = -mainlen-insertby;
+
+  translate([0,thick/2,0]) rotate([90,0,0]) {
+    linear_extrude(height = thick + slop*2) {
+    for (xmir=[0,1]) mirror([xmir,0]) {
+       polygon([[-0.1, 1],
+                [biggap2, 1],
+                [smallgap2, -insertby],
+                [biggap2, -insertby],
+                [toegap2, toeend-1],
+                [-0.1, toeend-1]]);
+      }
     }
   }
 }
 
-SplitPin();
+//SplitPin();
+//translate([0,30,0])
+//  SplitPinCavity();