eps=0.01;
bar_diam = 20;
-body_h = 15;
-body_l = 100;
+body_h = 7;
+body_l = 150;
wall = 1.5;
-spike_w = 1;
-spike_l = 2;
+spike_w_bot = 1;
+spike_w_top = 6;
+spike_l = 5;
+
+spike_count = 8;
+spike_dist = body_l/(spike_count + 1);
module spike() {
hull() {
- translate([-body_h/4, 0, -eps])
- cube([body_h/2, bar_diam/2+wall/2, eps]);
- translate([-spike_w/2, 0, -body_h/2])
- cube([spike_w, bar_diam/2 + wall + spike_l, eps]);
+ translate([-spike_w_top/2, 0, body_h/2-eps])
+ cube([spike_w_top, bar_diam/2+wall/2, eps]);
+ translate([-spike_w_bot/2, 0, -body_h/2])
+ cube([spike_w_bot, bar_diam/2 + wall + spike_l, eps]);
}
}
translate([-body_l/2, 0, 0])
rotate([0, 90, 0])
cylinder(r = bar_diam/2 + wall, h = body_l);
- for (x = [-37.5:15:37.5])
- translate([x, 0, 0]) spike();
- for (x = [-45:15:45])
- translate([x, 0, 0]) scale([1, 1, -1]) spike();
+ for (i = [-spike_count/2:1:spike_count/2])
+ translate([i*spike_dist, 0, 0]) spike();
}
// tube hole
cylinder(r = bar_diam/2, h = body_l + 2*eps);
// cut the bottom
translate([-infty/2, -infty/2, -infty-body_h/2]) cube(infty);
- // cut the bottom
+ // cut the top
translate([-infty/2, -infty/2, body_h/2]) cube(infty);
- // cut the bottom rear half
+ // cut the rear half
translate([-infty/2, -infty, -infty/2]) cube(infty);
}