| 2,10 → 2,6 |
|---|
| mount_hole = 3.5; |
| clear = 0.175; |
| thickness = 1.2; |
| baseboard_thickness = 2; |
| teeth_width = 8; |
| teeth_count = 6; |
| teeth_size = 1; |
| |
| $fn=20; |
| |
| 15,35 → 11,25 |
|---|
| cylinder(r=MLAB_grid/2 - 0.3,h=legs_height); |
| } |
| } |
| // teeth |
| for(count = [1:teeth_count]){ |
| position = 150/(teeth_count+1)*count; |
| #translate ([position-teeth_width/2+1,-5+thickness/2,0]) cube([teeth_width-1, teeth_size, 5-baseboard_thickness]); |
| translate ([position-teeth_width/2+1,110+5-thickness/2,0]) cube([teeth_width-1, teeth_size, 5-baseboard_thickness]); |
| } |
| |
| |
| difference () { |
| minkowski() { |
| cube([150+thickness/2,110+thickness/2,height+thickness/2]); // base plastics brick |
| cylinder(r=5,h=0.1); |
| } |
| translate ([thickness, thickness, 0]) |
| minkowski() { |
| cube([150-thickness, 110-thickness, height]); // hollow |
| cylinder(r=5,h=0.1); |
| } |
| minkowski() { |
| cube([150+thickness/2,110+thickness/2,height+thickness/2]); // base plastics brick |
| cylinder(r=5,h=0.1); |
| } |
| translate ([thickness, thickness, 0]) |
| minkowski() { |
| cube([150-thickness, 110-thickness, height]); // hollow |
| cylinder(r=5,h=0.1); |
| } |
| |
| translate ([thickness/2, thickness/2, 0]) |
| difference () { |
| minkowski() { |
| cube([150-thickness/2+clear, 110-thickness/2+clear, 5]); // hollow for BASE1115 |
| cylinder(r=5,h=0.1); |
| } |
| } |
| for(count = [1:teeth_count]){ // teeth space |
| position = 150/(teeth_count+1)*count; |
| translate ([position-teeth_width/2,-5-thickness,0]) cube([1,110+10+2*thickness,5]); |
| translate ([position+teeth_width/2,-5-thickness,0]) cube([1,110+10+2*thickness,5]); |
| } |
| translate ([thickness/2, thickness/2, 0]) |
| difference () { |
| minkowski() { |
| cube([150-thickness/2+clear, 110-thickness/2+clear, 5]); // hollow for BASE1115 |
| cylinder(r=5,h=0.1); |
| } |
| /// TODO Fixing cilinders teeths |
| } |
| } |
| |