Quote Originally Posted by Neale View Post
I would consider moving the ballscrews just outboard of the ends of the gantry. This allows a more rigid fixing of gantry to carriage feet. If the ballscrew mounts are on outrigger brackets welded to the outside of the frame tubes, mounting pads for the ballscrew bearings could be machined at the same setting as the frame tubes.
Great point and idea. I'll try to mock something up. I am definitely motivated by making the machining of the machine as straightforward as possible and only requiring a vertical mill. When I see machines, similar to what I just mocked up except the ballscrews are outside of the frame, mounted to the outside frame vertical wall, this is either (1) asking for a large boring mill or horizontal machining center, with (2) multiple setups, just to machine the ballscrew mounting pads. That starts to add up fast. Or the pads are painstakingly fitted by hand with shims and numerous iterations of racking the gantry back and forth to get alignment, and then I question how flat and parallel the mounting surfaces can be.

The idea of being able to machine the top of the long rails is so far from reality for most of us that I doubt if many have designed for that! I'm in the "if I can't machine it, build in adjustment" camp...
I am surprised to read this. Granted, my machine is a little on the small side compared to many I see here, but it will fit on an 80" x 40" machine. The going shop rate is $60/hour near me, so I am counting on all the machining work coming in just a few hundred $. Given how much money people invest into designing and building their own CNC routers, I would thinking have the rail surfaces and mounting pads machined would be easy to justify.