lid_thinbox_h = 9;
lid_fatbox_h = 24;
-lid_fatbox_switches_h = 6+2;
+lid_fatbox_switches_h = 6+4;
lid_max_switches_w = 70;
lid_switches_y_slop = 3;
-total_len = 80;//260;
+total_len = 260;
thinbox_len = 87;
rail_overlap = 8;
peg_straight_len = 3;
$peg_inner_slop = 0.75;
-$peg_outer_slop = 0.1;
+$peg_outer_slop = -0.9;
+$peg_outer_slop_engage = 0.1;
peg_slope = 1;
}
module PegProfile(){
- polygon([[-peg_engage_depth, (peg_engage_dia - $peg_outer_slop)/2],
- [0, (peg_engage_dia - $peg_outer_slop)/2],
+ polygon([[-peg_engage_depth, (peg_engage_dia - $peg_outer_slop_engage)/2],
+ [0, (peg_engage_dia - $peg_outer_slop_engage)/2],
[0, (peg_main_dia - $peg_outer_slop)/2],
[peg_straight_len, (peg_main_dia - $peg_outer_slop)/2],
[peg_main_height, (peg_max_dia - $peg_outer_slop)/2],
}
module Peg(){ ////toplevel
- echo($peg_outer_slop);
+ echo($peg_outer_slop_engage);
rotate_extrude($fn=50)
rotate([0,0,-90])
PegProfile();
}
module Pegs(){ ////toplevel
- baseslop = $peg_outer_slop;
+ baseslop = 0.1;
dslops = [0, -0.5, -1.0, -1.5];
stride = peg_max_dia + 4;
for (i=[0:len(dslops)-1]) {
translate([i*stride,0,0])
- assign($peg_outer_slop= baseslop + dslops[i])
+ assign($peg_outer_slop_engage= baseslop + dslops[i])
Peg();
}
}
//RailProfile();
//Demo();
//Lid();
+//translate([0,0,-lid_fatbox_switches_h]) Lid();